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21 станок для крупносерийного производства
Универсальный русско-английский словарь > станок для крупносерийного производства
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22 environment
1) окружающая среда, окружающая атмосфера, окружение; условия окружающей среды; внешние условия2) условия эксплуатации; режим работы3) средства4) периферийное оборудование; близлежащее оборудование5) контекст•- application environments
- CAD/CAM environment
- common user environment
- control environment
- design environments
- development environment
- distributed procession environment
- EDA environment
- engineering environment
- factory environment
- FMS environment
- framework environment
- gas environment in laser treatment
- gas environment
- harsh environments
- high-production environment
- host environments
- hostile environments
- immediate part environment
- industrial environment
- information environment
- information-management environment
- instructured environment
- integrated programming environment
- job shop environment
- just-in-time environment
- laboratory-like environments
- manufacturing environments
- multiprocessor environment
- multitasking control environment
- multivendor environment
- noisy electrical environment
- numerical control environment
- object-oriented environment
- operating environment
- production environment
- programming environment
- quasi-production shop environment
- random environment
- real-time control environment
- real-time manufacturing environment
- shop environment
- support environment
- unmanned environment
- working environmentEnglish-Russian dictionary of mechanical engineering and automation > environment
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23 mix
1) сочетание; комбинация2) номенклатура; ассортимент3) смесь; примесь || смешивать, смешиваться, мешать; перемешивать, перемешиваться•- high-product mix
- high-production mix
- machine mix
- material mix
- multiprogram mix
- part mix
- product mix
- production mix
- variable part mix
- wide part mix
- work mix
- workpiece mixEnglish-Russian dictionary of mechanical engineering and automation > mix
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24 монтажный цех
1. adjusting shop2. fittings shopв цеху, на предприятии; среди рабочих — on the shop floor
механическая мастерская; механический цех — machine shop
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25 Combing
This term is used literally and denotes the combing of fibrous materials in sliver form by mechanically actuated combs, or by hand-operated combs. In general, the objects in combing are two, namely (1) to obtain the maximum parallelisation of the fibres, and (2) to remove impurities and undesired short fibres. Combing machines differ considerably in their action on fibres, and in practice the different types of combs are used in somewhat restricted fields. For combing cotton the Nasmith and Heilmann combs are principally used. In the United States of America the Whitin comb is much used. In all three of these machines successive rows of combs are set in cylinders, the material being presented for combing in the form of thin narrow laps, which after combing are formed into a sliver and coiled in a can. For combing wool, four types of comb are in use, namely, the Noble, Lister, Holden and Heilmann. Also see under each name. The combs of the Noble machine are in the form of pins set vertically in one large and two small circles with appropriate mechanism for dabbing the wool into the pins of the combs and means for drawing off the combed wool in a continuous sliver, which is wound into a ball and constitutes the " top " of the worsted trade. The machine has a high production and is suitable for use on a large variety of wools, particularly those of 4-in. to 8-in. staple. The Lister comb is specially suitable for long wools. The combing mechanism includes a gill-box and comb circle. The Holden comb is suitable for wools of 3-in. to 6-in. staple, and of 50's to 70's quality. The Heilmann, also known as the " rectilinear " comb, is used for short wools, say, up to about 2-in. staple, and when used for wool is arranged differently for feed and delivery than for combing cotton. It is becoming of increasing importance for combing short fibred wools for subsequent spinning into fine, full handling hosiery yarns. -
26 model shop
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27 model shop
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28 system
1) система2) установка; устройство•- 2D design system
- 2-D draughting system
- 2D milling CAM system
- 3 nonsimultaneous axes control system
- 3D CAD system
- 3D design system
- 3D milling CAM system
- 3-D surface-modeling system
- 3-D system
- abrasive waterjet cutting system
- absolute control system
- absolute dimension measuring system
- accident-protection system
- accountancy system
- accounting data system
- ACO system
- acoustic feedback control system
- acquisition system
- active enclosure system
- adaptable system
- adaptive CNC system
- adaptive control constraint system
- adaptive control system
- adaptive pulsing system
- adaptive robot system
- add-on NC programming system
- administrative information data system
- administrative information system
- ADR system
- advanced command data system
- advanced data analysis system
- advanced data display system
- advanced display system
- advanced integrated data system
- advanced interactive debugging system
- advanced management information system
- advisory system
- AGV system
- air flotation system
- air-bearing system
- air-cooling system
- air-delivery system
- air-gaging system
- airlock system
- air-oil mist lubrication system
- air-plasma arc-profiling system
- air-purge system
- alarm system
- all-enveloping guard system
- analog computing system
- analog recording system
- angstrom-positioning system
- antideflection system
- antilock brake system
- antisag system
- application-specific system
- APT generating expert system
- Archimedes system
- array system
- AS/RS system
- assembly management system
- assembly system
- attitude display system
- autolube system
- automated communications and messages processing system
- automated design and optimization of control system
- automated design system
- automated digital design system
- automated industrial management system
- automated information data system
- automated information dissemination system
- automated information retrieval system
- automated inventory distribution system
- automated machining system
- automated management information system
- automated management system
- automated measuring system
- automated parts input-output system
- automated reliability and maintenance management system
- automated storage control system
- automatic alignment-and-centering system
- automatic call distribution system
- automatic CAM system
- automatic chuck-changing system
- automatic data acquisition system
- automatic data distribution system
- automatic data system
- automatic diagnostic-and-recovery system
- automatic display plotting system
- automatic distributive numerical control system
- automatic fixturing system
- automatic gaging-and-compensating system
- automatic measurement-and-compensation system
- automatic message accounting system
- automatic message distribution system
- automatic pallet storage/retrieval system
- automatic program transfer system
- automatic record evaluation system
- automatic telemetry system
- automatic test analysis system
- automatic test system
- automatic testing, evaluating and reporting system
- automatic tool cassette changer system
- automatic tool retraction system
- automatic tool retraction/correction/reentry system
- automatic tool wear/tool broken sensing system
- automatically taught system
- automation system
- autonomous system
- autopatch system
- AWS system
- axis drive system
- axis motor system
- axis-stopping system
- backlash-free friction system
- back-to-back system
- balance system
- balanced system of forces
- balanced system
- bar feed system
- bar pulling system
- bar pusher system
- barring coding system
- base coordinate system
- base data system
- base file system
- base operating information system
- basic disk operating system
- basic hole system
- basic input/output system
- basic NC system
- basic programming system
- basic shaft system
- batching system
- batch-machining system
- battery system
- BCC management information system
- beam delivery system
- belt turnover system
- belt twist system
- binary system
- binary vision system
- biped robotic system
- block-tool system
- block-type tool change system
- bonded stores system
- boring system
- bought-in control system
- brake system
- branch information system
- breakaway system
- breathing system
- broad system of ordering
- BTA deep-hole-drilling system
- BTA-style deep-hole-drilling system
- bug-free system
- building block system
- bulk system
- business information system
- buy-and-plug-in system
- C/C system
- cable and hose carrying system
- CAD access system
- CAD system
- CAD/CAM system
- CAD/CAM/CAE and product data management system
- CAD/CAM/CAE system
- CAD/CAPP/CAM system
- CADAR system
- CAD-integrating system
- CAD-only system
- CAE system
- CAE/CAD/CAM system
- CAG system
- CAM system
- cam-and-lever system
- capacitance-based measuring system
- CAPP system
- capture system
- carrierband system
- cart/pallet transfer system
- Cartesian coordinate system
- cassette jaw-change system
- cell control system
- cell management system
- cell-type system
- cellular manufacturing system
- central analog data distributing and controlling system
- central automatic message accounting system
- central storage system
- centralized control system
- centralized coolant and extractor system
- centralized swarf conveying system
- centralized swarf removal system
- chain conveyor system
- check system
- checking system
- checkout system
- chiller system
- chip conveyor system
- chip guard system
- chip-evacuation system
- chuck/chuck jaw changing system
- chucking system
- chuck-jaw system
- chuck-loading system
- CIM system
- circular monitoring system
- circular part-processing system
- circulating lubrication system
- circulating oil system
- circulation system
- clamping system
- closed cooling system
- closed loop control system
- closed loop machine control system
- closed loop size control system
- closed loop system
- closed-proprietary system
- CM system
- CNC hardware system
- CNC machine tool system
- CNC programming system
- CNC system
- CNC transfer system
- CNC-ACC system
- CNC-control system
- coherent system of units
- collecting system
- collet pad top jaw system
- combined cooling system
- combined production system
- command-line NC system
- commercial vision system
- communication system
- companion system
- comprehensive power measurement system
- computer analysis and design system
- computer automation real-time operating system
- computer data communication system
- computer NC system
- computer system
- computer vision system
- computer-aided design support system
- computer-aided dispatch system
- computer-aided gaging system
- computer-aided programming system
- computer-aided telemetry system
- computer-aided test system
- computer-assisted command system
- computer-assisted message processing system
- computer-assisted microfilm retrieval system
- computer-assisted operation sequence planning system
- computer-automated machine-tool system
- computer-automated test system
- computer-based management system
- computer-based message system
- computer-controlled materials-handling system
- computer-controlled system
- computer-coordinated measuring system
- computer-directed swing-arm tool-changing system
- computer-driven control system
- computer-hosted manufacturing system
- computer-integrated manufacturing system
- computer-integrated system
- computerized information retrieval system
- computerized machine control system
- computerized manufacturing system
- computerized numerical control system
- computerized production control system
- computerized shopfloor data collection system
- computer-oriented production management system
- computer-oriented system
- computing system
- concurrent force system
- conductor system
- conservative system
- constant delivery system
- constant volume system
- constant-contact scanning system
- constraint satisfaction system
- continuous feedback control system
- continuous flow system
- continuous-path CNC system
- continuous-path control system
- contouring control system
- contouring system
- controlled path system
- controlling system
- conventional ACC system
- conversational analysis and drafting system
- conveying system
- conveyor system
- conveyoring system
- conveyorized work-handling system
- coolant clarification system
- coolant laundering system
- coolant mist system
- coolant recirculating system
- coolant recovery system
- coolant recycling system
- coolant supply system
- coolant-circulating system
- coolant-thru-body system
- cooling system
- coordinate drive system
- coordinate system
- coprocessor board system
- copymill control system
- corporate information and office system
- coupling system
- CPS system
- CRT control system
- CRT system
- customer-oriented system
- customized FMS control system
- cut-piece transfer system
- cycloidal tooth system
- data base management system
- data communication system
- data control system
- data input management system
- data management system
- data origination system
- data processing system
- data retrieval system
- data transfer system
- datum system for geometrical tolerancing
- datum system
- DDM system
- decentralized DNC system
- decision enabling system
- decision support system
- dedicated production system
- deep-hole-drilling system
- defect-free machining system
- delivery system
- demand pull flexible system
- demand push flexible system
- departmental management system
- descaling system
- design coordinate system
- design support system
- design-automation system
- design-for-manufacturing system
- design-with-feature system
- desk-top publishing system
- deterministic system
- dexel-based system
- diagnostic communication control system
- diagnostic computer control system
- dialog system
- diamond-lapping system
- digital readout system
- digitizing system
- digitizing/data capture system
- dimensional verification system
- direct impingement starting system
- direct lubrication system
- direct NC system
- discrete-continuous system
- dispatcher system
- distributed computer system
- distributed mass-spring system
- distributed microprocessor system
- distributed processing system
- distributed quality system
- distributed system
- distributive numerical control system
- DNC flexible machining system
- DNC machine control system
- DNC machine tool control system
- DNC system
- DNC/FM system
- document processing system
- document retrieval system
- document search system
- domain-expert system
- Doppler system
- DOS CAM system
- double tube system
- dowel pin system
- DRO system
- drop-feed-lubrication system
- DTP system
- dual laser optical system
- dual laser referencing system
- dual system
- dual-beam LDDM system
- dual-pallet shuttle system
- dual-shaft electric propulsion system
- dynamic beam focusing laser system
- dynamic data system
- dynamic mapping system
- early warning system
- eddy current damper system
- edge-sensing system
- edge-type positioning system
- eight-station pallet system
- electrical contact tracing system
- electrofluidic control system
- emergency protection system
- enclosure system
- encoder checking system
- endpoint locating system
- energy-adaptive system
- energy-saving drive system
- engine starting system
- entry-level NC system
- environmental control system
- equivalent rigid link system
- equivalent systems of forces
- ESD system
- estimating system
- example-driven system
- expert control system
- expert process planning system
- expert system
- external box system
- extractor system
- fact retrieval system
- factory automation system
- fault detection system
- fault-signal system
- FBG system
- feasibility routing system
- feature-based CAM system
- feature-based system
- feed system
- feedback control system
- feedback gaging system
- feedback position control system
- feedback system
- feed-drive system
- feedforward compensatory control system
- feed-only AC system
- feed-overriding system
- FFS system
- file control system
- finite capacity scheduling system
- fixed coordinate system
- fixed-feature NC system
- fixed-rail system
- fixture design system
- fixture system
- fixturing system
- flanged pipe system
- flexible assembly system
- flexible automated manufacturing system
- flexible automation system
- flexible computer-controlled robotic system
- flexible fabricating system
- flexible fixturing system
- flexible handling system
- flexible laser optical system
- flexible laser system
- flexible lathe system
- flexible machine system
- flexible machining center system
- flexible machining system
- flexible manufacturing system
- flexible NC system
- flexible press system
- flexible tooling system
- flexible transfer system
- flexible turning system
- flood coolant system
- flow-line production system
- flow-type manufacturing system
- fluid management system
- fluid power system
- flush-type cooling system
- fly system
- FMS operating system
- FMS/CAD/CAM system
- FMS-type production system
- force measurement system
- force sensory system
- force system
- force-sensing system
- forecasting system
- four-station pallet system
- four-tier quality system
- FROG navigation system
- FROG system
- full-blown system
- fully specified system
- gage system
- gaging computer system
- gaging-and-compensating system
- gantry loading system
- gantry-based turning system
- gantry-style motion system
- gas-turbine starting system
- gating system
- gear roller system
- gear system
- gear testing system
- general information retrieval system
- generative planning system
- generic control system
- generic messaging system
- generic system
- glass fiber system
- glazing system
- goal-seeking system
- graphic numerical control system
- graphic processing system
- graphics system
- graphics-oriented system
- grating measuring system
- gravity oil system
- gray scale imaging system
- grinder vision system
- group control system
- guarding system
- guidance system
- guiding system
- handling system
- handwriting-input system
- hard-automated system
- hardware NC system
- hardware support system
- head change system
- head changer system
- head-changing flexible manufacturing system
- help system
- hierarchical coding system
- hierarchical control system
- hierarchical information control system
- high-noise-immunity system
- high-rise system
- high-speed positioning system
- high-speed-processor control system
- high-volume system
- Hirth gear-tooth system
- holding system
- holding tool system
- hole system
- holonomic system
- host computer-assisted programming system
- host distributive numerical control system
- hybrid computing system
- hydraulic oil system
- hydraulic system
- hydraulic-circuit system
- hypertext system
- ID system
- IDNC system
- illumination system
- image detection system
- image processing system
- imaging system
- IMC system
- immersion-washing system
- inconsistent system of equations
- incremental measuring system
- index system
- indirect lubrication system
- individual lubrication system
- inductive telemetry system
- inductively guided cart system
- industrial vision system
- in-feed system
- inference system
- in-floor chip-disposal system
- information infrastructure system
- information logical system
- information processing system
- information storage and retrieval system
- information system
- information-gathering system
- information-management system
- information-sharing system
- infrared imaging system
- infrared system
- in-house minicomputer system
- in-house system
- inlet control system
- in-process gaging system
- in-process sensing system
- in-process storage system
- insert-selection system
- instrumentation system
- insulating system
- integral movement monitoring system
- integrated CAD/CAPP/CAM system
- integrated CAM system
- integrated circuit numerical control system
- integrated computer system
- integrated information system
- integrated machine system
- integrated machining system
- integrated manufacturing and assembly system
- integrated manufacturing system
- integrated NC machine system
- integrated production system
- integrated sensor system
- intelligent control system
- interactive control system
- interactive graphics processing system
- interactive manufacturing control system
- interconnection system
- interdepartmental communication system
- interferometer measuring system
- interlocking system
- interrupt-driven system
- inventory-management system
- involute tooth system
- IR fault-signal system
- IR system
- ISO system of limits and tolerances
- isolated word recognition system
- jig boring measuring system
- job shop-type flexible system
- joint-actuation system
- just-in-time production system
- kanban pull system
- kinetic control system
- kitting system
- knowledge base management system
- knowledge system
- knowledge-based information system
- knowledge-based system
- krypton laser system
- labeling system
- labor-intensive system
- language-based NC system
- laser beam orientation system
- laser beam positioning system
- laser calibration system
- laser combination energy system
- laser digitizing system
- laser driving system
- laser full automated system
- laser inspection system
- laser interferometer measuring system
- laser machining system
- laser metalworking system
- laser micrometer system
- laser monitoring system
- laser mount system
- laser optical transformation system
- laser pulse power system
- laser pump system
- laser referencing system
- laser thread measurement system
- laser transducer system
- laser-cutting system
- laser-gaging system
- layered control system
- LDDM system
- lead screw drive system
- learning system
- library reference system
- library system
- light guide system
- light recognition system
- line motion control system
- line motion system
- line path system
- linear index system
- linear system of constant coefficients
- linear time invariant system
- linear time-varying system
- linear-encoder-equipped system
- LMFC system
- load/unload system
- loading robot system
- load-monitoring system
- local communications system
- logistics system
- look-up table system
- low-loss optical system
- low-volume lubricant delivery system
- lube system
- lubrication system with continuous delivery
- lubrication system with cyclic delivery
- lubrication system with performance control
- lubrication system without performance control
- lubrication system
- M system
- machine control system
- machine coordinate system
- machine health-monitoring system
- machine management system
- machine surveillance system
- machine tool capability-conditioning system
- machine tool system
- machine vision system
- machine/control system
- machine/tool/workpiece system
- machine-flexible system
- machine-zero reference system
- machining-cell system
- magnetic control system
- magnetic shaft suspension system
- main control system
- maintenance tracking system
- make-up system
- management control system
- management information system
- management system
- management-and-manufacturing system
- managerial reporting system
- man-computer system
- man-machine system
- man-plus-machine system
- manual data input system
- manual programming system
- manufacturing execution system
- manufacturing optimization system
- manufacturing software system
- manufacturing system
- many-degrees-of-freedom system
- many-variable system
- mass-elastic system
- master manufacturing control system
- master-slave control system
- material flow system
- material movement system
- material storage system
- materials-handling control system
- materials-handling system
- matrix array system
- matrix-type system
- MDI contouring control system
- MDI control system
- MDI NC system
- mean line system
- measurement/inspection system
- measuring coordinate system
- measuring system
- measuring/compensation system
- mechanical interface coordinate system
- memory NC system
- memory system
- menu drive system
- menu system
- menu-driven programming system
- metalforming production system with robots
- metalworking laser system
- metamorphic system
- metareasoning system
- metering system
- metrology system
- MIC system
- micro CAD/CAM programming system
- microadjustment system
- microchip-managed control system
- microdispensing system
- microintegrated system
- microload system
- micropackaged distributed system
- microprocessor based system
- microprocessor CNC system
- microprocessor system
- microprocessor-development system
- microstep control system
- microwave drill detection system
- milling CAM system
- milling system
- minicomputer-based numerical control system
- minicomputer-based system
- minicomputer-based test system
- miniload automated storage and retrieval system
- miniload system
- minimal constraint system
- minimum phase shift system
- mist-cooling system
- mixed forging-machining system
- mobility system
- model reference adaptive system
- moderately sized manufacturing system
- modular clamping system
- modular component tooling system
- modular fixture system
- modular holding system
- modular system
- modular tooling system
- modular work holding system
- monitoring system
- monorail material handling system
- motor position sensing system
- mounting system
- MPM system
- MRC system
- MRP system
- MS-DOS system
- multiaxis laser system
- multimachine system
- multimedia system
- multinetwork system
- multipallet system
- multiple computer system
- multiple laser technology system
- multiple pallet changer system
- multiple pallet handling system
- multiple parts feeding system
- multiple sensory system
- multiple spindle head handling-and-changing system
- multiple system of indexing
- multiple-gun spraying system
- multipoint lubrication system
- multipoint network control system
- multiprocessing system
- multiprocessor NC system
- multiprocessor system
- multiproduct manufacturing system
- multiprofile tool system
- multiprogramming system
- multirobot system
- multisensor system
- multiserver queueing system
- multistage system
- multitasking control system
- multiterminal system
- multiuser system
- multivendor information system
- multiwindowing software system
- Nagare system
- narrowly defined expert system
- national information system
- navigation system
- NC contouring system
- NC machine system
- NC part-programming system
- NC system
- NC tooling system
- NC/TP system
- nesting system
- network computer system
- network switching system
- network system
- noise diagnostic system
- noncircular copy-turning system
- noncompensated system
- noncontact laser marking system
- noncontact microwave system
- nonexpert system
- non-NC system
- numerical computer control system
- numerical contour control system
- numerical control system
- numerically controlled tool point system
- object-oriented system
- office system
- office-based programming system
- off-line adviser-type expert system
- off-line programming system
- off-line system
- off-the-shelf system
- oil mist system
- oil scavenge system
- oil system
- oil wash system
- oil-recirculating system
- oligarchical manufacturing system
- OLP system
- one man/one machine system
- one man-one operation-one job system
- one-machine flexible system
- one-piece tape spar-measuring system
- one-shot lubrication system
- on-line information system
- on-line process system
- on-line retrieval system
- on-line system
- on-line tool control system
- on-machine gaging system
- on-machine probing system
- on-off control system
- open architecture system
- open cooling system
- open system
- open-front system
- open-loop control system
- operating system
- operational system
- operator guidance system
- operator-controlled NC system
- optical detection system
- optical laser ranging system
- optical MAP system
- optical measurement/inspection system
- optical recognition system
- optical system for laser processing
- optical tracer backup system
- optical transmission system
- opti-feed system
- optimal-position control system
- order-driven system
- order-entry system
- order-picking system
- oscillating system
- oscillatory system
- out-feed system
- output collecting system
- overall system
- p.-t.-p. NC system
- package confinement system
- paging system
- pallet conveyor system
- pallet gripper system
- pallet ID system
- pallet storage system
- pallet storage/changer system
- pallet/platen transfer system
- pallet/robot flexible-machining system
- pallet-based materials handling system
- pallet-based system
- pallet-changer system
- pallet-coding system
- pallet-handling system
- palletized tool magazine system
- pallet-loading system
- pallet-moving system
- pallet-shuttle change system
- pallet-transfer system
- pallet-transport system
- paperless NC system
- parallel force system
- parallel lubrication system
- parametric CNC system
- part flow system
- part handling-and-storage system
- part program-editing system
- part queue system
- part-conveying system
- partial laser system
- part-programming system
- part-retrieval system
- passively mode-locked laser system
- path control system of a machine
- path control system
- pattern recognition system
- pattern tracing system
- pattern-directed system
- PC system
- PC-based CAD system
- PC-based vision system
- pendant-mounted CNC system
- perceptual system
- permanent electro system
- personal computer-based robotic vision system
- phase switching control system
- photogrammetric vision system
- photooptic tracing system
- photooptical tracing system
- piece rate system
- plane system of forces
- planner-oriented system
- plant-integration system
- platen system
- platform-independent CAM system
- playback system
- plugboard control system
- plugboard programming system
- point-to-point system
- popular laser system
- position control system
- positioning control system
- postprocess inspection system
- postprocess system
- postprocess-feedback gaging system
- potentiometer-setting system
- power generating system
- power system
- powered clamping system
- powered track system
- powerful robot system
- precision positioning system
- predictive machinability system
- predictive maintenance system
- pre-emptive system
- pregaging system
- preload system
- preset tooling system
- presetting system
- prismatic flexible manufacturing system
- prismatic machining system
- probe communication system
- problem-oriented information system
- process planning system
- process-flexible system
- production control system
- production expert system
- production-monitoring system
- productions system
- product-testing system
- programmable automation system
- programmable control system
- programmable logic control system
- programmable power monitoring system
- programmed sequence control system
- programming system
- proof-of-concept system
- proprietary NC system
- propulsion system
- propulsive system
- protection system
- prototype system
- prototyping system
- pull system of production
- pull system
- punch tape NC system
- purpose-made materials feeding system
- push system
- qualitative system
- quality control system
- quality system
- quantity produced systems
- question-and-answer system
- question-answering system
- queuing system
- quick-change system
- quick-change workpiece-fixturing system
- quick-change-cutter system
- rack system
- rack-picking system
- rail-borne robotic handling system
- rail-guided transport system
- random mission system
- random mix system
- random order system
- ranging system
- readout system
- ready-to-go system
- real-time vision system
- recirculation system
- rectangular coordinate system
- rectangular triordinate system
- reeving system
- reference retrieval system
- reference system
- reflecting high-power beam optical system
- register system
- registration system
- relay ladder logic system
- reporting system
- reprographic system
- resolver system
- restraint system
- RETIC system
- retrieval system
- retrofit system
- return spring system
- RGV pallet delivery system
- rigid track workpiece transport system
- rigid transfer system
- robot control system
- robot gantry storage-and-retrieval system
- robot learning system
- robot parts-handling system
- robot system
- robot teaching system
- robot tool changing system
- robot-based turning system
- robotic system
- robotic vision system
- robotics CAD system
- robotized metalforming system
- robot-like inspection system
- robot-measuring system
- rod memory system
- roller system
- roll-generating system
- rotary transfer system
- rotary-type tool-mounting system
- rotational system
- routing-flexible system
- rule-based expert system
- running fail-safe system
- running system
- run-time system
- safety actuation system
- safety system
- scale back system
- seam tracking laser processing system
- seam-tracking system
- security system
- selective assembly system
- selective control system
- self-adapting system
- self-contained starting system
- self-contained system
- self-monitoring measuring system
- self-optimizing adaptive control system
- self-programming NC system
- self-teaching system
- self-test system
- sensing system
- sensor system
- sensor-based system
- sensory control system
- sensory feedback system
- sensory interactive system
- sensory-processing system
- sentence recognition system
- sequencing control system
- sequential control system
- series lubrication system
- service system
- servo control system
- servo drive system
- servo positioning system
- servo transducer system
- servo-controlled blade-feed-pressure system
- setting system
- SFP system
- shaft system
- shared tools system
- shopfloor communication message system
- shopfloor part-programming system
- shopfloor programming system
- shopfloor-programming control system
- short-closed oil system
- shuttle car system
- shuttle system
- shuttle-type container system
- side-loading pallet system
- sign system
- signature-analysis system
- silhouetting system
- single system
- single-board computer system
- single-cell system
- single-line lubrication system
- single-point lubrication system
- single-stage system
- single-tube system
- single-unit machining system
- single-variable system
- sinking system
- six-station pallet system
- size-monitoring system
- skidless system
- skid-type system
- small knowledge system
- small scale system
- small-batch manufacturing system
- sociotechnical system
- software-based system
- software-operating system
- solid model CAD system
- solid modeling system
- solids-based system
- sonic digitizing system
- space-monitoring sensor system
- special-purpose CNC system
- special-purpose material handling system
- speech-understanding system
- spindle airblast system
- spindle-probe system
- splash lubrication system
- split-type of tooling system
- spray lubrication system
- sprocket-chain system
- stabilization system
- stabilizing system
- stacking system
- stand-alone system
- standard control system
- standard unit system
- starting system
- statistical process control system
- steady-state system
- stepping motor drive system
- stocker system
- stocking system
- stop-bolt locking system
- storage system
- storage-and-retrieval system
- storage-retrieval system
- straight cut control system
- straight-line control system
- stress calculations infinite element system
- structurally stable system
- structurally unstable system
- stub-tooth system
- subloop system
- supervision system
- supervisory computer control system
- supervisory control system
- surface-measurement system
- surveillance system
- suspension system
- swarf conveyance system
- swarf-management system
- swarf-removal system
- switching system
- synthetic vision system
- system of dimensioning
- system of forces
- system of limits and fits
- system of quantities
- system of the machine retaining devices
- system of units
- tactile sensing system
- tailored NC system
- tailor-made system
- tape-oriented system
- target system
- teach system
- teachable-logic control system
- teaching system
- teach-mode programming system
- technology-intensive system
- telecommunication system
- telemetry gage system
- telemetry system
- teleoperated system
- telepresence system
- telerobotic system
- ten-station pallet system
- term system
- test system
- testing system
- text organizing system
- thermal control system
- thermal enclosure system
- thermal propulsion system
- thread measurement system
- thread measuring system
- three-dimensional CAM system
- three-dimensional coordinate system
- three-wire thread measuring system
- through feed system
- through-the-tool system
- time control system
- time cycle system
- time-shared system
- time-sharing NC programming system
- time-sharing system
- tool animation system
- tool breakage prevention system
- tool change system
- tool condition monitoring system
- tool coolant system
- tool deflection calibration system
- tool identification tag system
- tool life control system
- tool life management system
- tool magazine exchanger system
- tool management system
- tool position-compensating system
- tool shank cleaning system
- tool storage and transport system
- tool storage/management system
- tool-associated system
- tool-clamp system
- tool-holder-work system
- tool-ID system
- tooling AGV system
- tooling system
- tool-in-hand system
- tool-in-use system
- tool-machine system
- tool-monitoring system
- tool-mounting system
- tool-presetting system
- tool-probing system
- tool-to-turret connection system
- tool-transfer system
- torque-monitoring system
- total system
- total-loss lubrication system
- touch-probe digitizer system
- touch-probe digitizing system
- touch-probe system
- towline cart system
- towline conveyor system
- towline handling system
- towline material handling system
- towline transfer system
- tracer control system
- tracing system
- track system
- tracking/scheduling system
- track-monitoring system
- transfer system
- translating system
- transmission system
- transporter system
- traverse-metering system
- tray-type transfer system
- triangulation system
- tribomechanical system
- tri-level stocker system
- triordinate system
- trolley control system
- trouble-free control system
- T-slot system
- tuned system
- turning system
- turning-and-chucking system
- turnkey computer control system
- turnkey system
- turret probing system
- turret tooling system
- two-line lubrication system
- two-machine system
- two-pallet exchange system
- two-shift system
- two-tier inspection system
- unattended machining system
- unattended production system
- uncertain system
- unified system
- unit bore system
- unit system
- unit-build system
- unit-load automated storage and retrieval system
- unit-load system
- UNIX-based 32-bit computer system
- unmonitored control system
- unstable system
- user identification system
- user's CAD system
- V coding system
- vacuum system
- variable pallet system
- variable-coefficient system
- variable-gain ACC system
- variable-mission system
- versatile data acquisition system
- vertical carousel system
- vertical rotating warehouse system
- vibration system
- vibratory system
- video measuring system
- video-based measurement system
- viewing system
- virtual design system
- virtual storage system
- vision guidance system
- vision metrology system
- vision optical system
- vision sensor system
- vision system
- vision tool-presetting system
- vision-based inspection system
- vision-based system
- visual computing system
- visual inspection system
- VME-based system
- voice data entry system
- voice system
- voice-input system
- volume-flexible system
- volume-metric lubrication system
- voluntary standards system
- warehousing system
- warning protection system
- warning system
- wash system
- waste material treatment system
- watchdog system
- waterjet system
- way-lubrication system
- wedge-locked tool clamping system
- wheelhead-measuring system
- windowing system
- wire-cut system
- wire-frame CAD system
- wire-guided transport system
- wire-guided trolley routing system
- word recognition system
- work infeed system
- work transfer system
- work transport system
- workhandling system
- work-holding system
- workpiece-cleaning system
- workstation-oriented CNC system
- zero error position systemEnglish-Russian dictionary of mechanical engineering and automation > system
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29 control
1) управление; регулирование || управлять; регулировать2) контроль || контролировать3) управляющее устройство; устройство управления; регулятор4) профессиональное мастерство, квалификация, техническая квалификация5) pl органы управления•"in control" — "в поле допуска" ( о результатах измерения)
to control closed loop — управлять в замкнутой системе; регулировать в замкнутой системе
- 2-handed controlsto control open loop — управлять в разомкнутой системе; регулировать в разомкнутой системе
- 32-bit CPU control
- acceptance control
- access control
- acknowledge control
- active process control
- adaptable control
- adaptive constraint control
- adaptive control for optimization
- adaptive control
- adaptive feed rate control
- adaptive quality control
- adjustable feed control
- adjustable rotary control
- adjustable speed control
- adjusting control
- adjustment control
- AI control
- air logic control
- analog data distribution and control
- analogical control
- analytical control
- application control
- arrows-on-curves control
- autodepth control
- autofeed control
- automated control of a document management system
- automated technical control
- automatic backlash control
- automatic control
- automatic editing control
- automatic gain control
- automatic gripper control
- automatic level control
- automatic process closed loop control
- automatic remote control
- automatic sensitivity control
- automatic sequence control
- automatic speed control
- automatic stability controls
- auxiliaries control
- balanced controls
- band width control
- bang-bang control
- bang-bang-off control
- basic CNC control
- batch control
- bibliographic control
- bin level control
- boost control
- built-in control
- button control
- cam control
- cam throttle control
- camshaft control
- carriage control
- Cartesian path control
- Cartesian space control
- cascade control
- C-axis spindle control
- cell control
- center control
- central control
- central supervisory control
- centralized control
- centralized electronic control
- central-station control
- changeover control
- chip control
- circumferential register control
- close control
- closed cycle control
- closed loop control
- closed loop machine control
- closed loop manual control
- closed loop numerical control
- closed loop position control
- clutch control
- CNC control
- CNC indexer control
- CNC programmable control
- CNC symbolic conversational control
- CNC/CRT control
- CNC/MDI control
- coarse control
- coded current control
- coded current remote control
- color control
- combination control
- command-line control
- compensatory control
- composition control
- compound control
- computed-current control
- computed-torque control
- computer control
- computer numerical control
- computer process control
- computer-aided measurement and control
- computer-integrated manufacturing control
- computerized control
- computerized numerical control
- computerized process control
- constant surface speed control
- constant value control
- contactless control
- contact-sensing control
- contamination control
- continuous control
- continuous path control
- continuous process control
- contour profile control
- contouring control
- conventional hardware control
- conventional numerical control
- conventional tape control
- convergent control
- conversational control
- conversational MDI control
- coordinate positioning control
- coordinate programmable control
- copymill control
- counter control
- crossed controls
- current control
- cycle control
- dash control
- data link control
- data storage control
- deadman's handle controls
- depth control
- derivative control
- dial-in control
- differential control
- differential gaging control
- differential gain control
- differential temperature control
- digital brushless servo control
- digital control
- digital position control
- digital readout controls
- dimensional control
- direct computer control
- direct control
- direct digital control
- direct numerical control
- direction control
- directional control
- dirt control
- discontinuous control
- discrete control
- discrete event control
- discrete logic controls
- dispatching control
- displacement control
- distance control
- distant control
- distributed control
- distributed numerical control
- distributed zone control
- distribution control
- dog control
- drum control
- dual control
- dual-mode control
- duplex control
- dust control
- dynamic control
- eccentric control
- edge position control
- EDP control
- electrical control
- electrofluidic control
- electromagnetic control
- electronic control
- electronic level control
- electronic speed control
- electronic swivel control
- elevating control
- emergency control
- end-point control
- engineering change control
- engineering control
- entity control
- environmental control
- error control
- error plus error-rate control
- error-free control
- external beam control
- factory-floor control
- false control
- feed control
- feed drive controls
- feedback control
- feed-forward control
- field control
- fine control
- finger-tip control
- firm-wired numerical control
- fixed control
- fixed-feature control
- fixture-and-tool control
- flexible-body control
- floating control
- flow control
- fluid flow control
- follow-up control
- foot pedal control
- force adaptive control
- forecasting compensatory control
- fork control
- four quadrant control
- freely programmable CNC control
- frequency control
- FROG control
- full computer control
- full order control
- full spindle control
- gage measurement control
- gain control
- ganged control
- gap control
- gear control
- generative numerical control
- generic path control
- geometric adaptive control
- graphic numerical control
- group control
- grouped control
- guidance control
- hairbreath control
- hand control
- hand feed control
- hand wheel control
- hand-held controls
- handle-type control
- hand-operated controls
- hardened computer control
- hardwared control
- hardwared numerical control
- heating control
- heterarchical control
- hierarchical control
- high-integrity control
- high-level robot control
- high-low control
- high-low level control
- high-technology control
- horizontal directional control
- humidity control
- hybrid control
- hydraulic control
- I/O control
- immediate postprocess control
- inching control
- in-cycle control
- independent control
- indexer control
- indirect control
- individual control
- industrial processing control
- industrial-style controls
- infinite control
- infinite speed control
- in-process control
- in-process size control
- in-process size diameters control
- input/output control
- integral CNC control
- integral control
- integrated control
- intelligent control
- interacting control
- interconnected controls
- interlinking control
- inventory control
- job control
- jogging control
- joint control
- joystick control
- just-in-time control
- language-based control
- laser health hazards control
- latching control
- lead control
- learning control
- lever control
- lever-operated control
- line motion control
- linear control
- linear path control
- linearity control
- load control
- load-frequency control
- local control
- local-area control
- logic control
- lubricating oil level control
- machine control
- machine programming control
- machine shop control
- macro control
- magnetic control
- magnetic tape control
- main computer control
- malfunction control
- management control
- manual control
- manual data input control
- manual stop control
- manually actuatable controls
- manufacturing change control
- manufacturing control
- master control
- material flow control
- MDI control
- measured response control
- mechanical control
- memory NC control
- memory-type control
- metering control
- metrological control of production field
- microbased control
- microcomputer CNC control
- microcomputer numerical control
- microcomputer-based sequence control
- microprocessor control
- microprocessor numerical control
- microprogrammed control
- microprogramming control
- milling control
- model reference adaptive control
- model-based control
- moisture control
- motion control
- motor control
- motor speed control
- mouse-driven control
- movable control
- multicircuit control
- multidiameter control
- multilevel control
- multimachine tool control
- multiple control
- multiple-processor control
- multiposition control
- multistep control
- multivariable control
- narrow-band proportional control
- navigation control
- NC control
- neural network adaptive control
- noise control
- noncorresponding control
- noninteracting control
- noninterfacing control
- nonreversable control
- nonsimultaneous control
- numerical contouring control
- numerical control
- numerical program control
- odd control
- off-line control
- oligarchical control
- on-board control
- one-axis point-to-point control
- one-dimensional point-to-point control
- on-line control
- on-off control
- open loop control
- open loop manual control
- open loop numerical control
- open-architecture control
- operating control
- operational control
- operator control
- optical pattern tracing control
- optimal control
- optimalizing control
- optimizing control
- oral numerical control
- organoleptic control
- overall control
- overheat control
- override control
- p. b. control
- palm control
- parameter adaptive control
- parameter adjustment control
- partial d.o.f. control
- path control
- pattern control
- pattern tracing control
- PC control
- PC-based control
- peg board control
- pendant control
- pendant-actuated control
- pendant-mounted control
- performance control
- photoelectric control
- physical alignment control
- PIC control
- PID control
- plugboard control
- plug-in control
- pneumatic control
- point-to-point control
- pose-to-pose control
- position/contouring numerical control
- position/force control
- positional control
- positioning control
- positive control
- postprocess quality control
- power adaptive control
- power control
- power feed control
- power-assisted control
- powered control
- power-operated control
- precision control
- predictor control
- preselective control
- preset control
- presetting control
- pressbutton control
- pressure control
- preview control
- process control
- process quality control
- production activity control
- production control
- production result control
- programmable adaptive control
- programmable cam control
- programmable control
- programmable logic adaptive control
- programmable logic control
- programmable machine control
- programmable microprocessor control
- programmable numerical control
- programmable sequence control
- proportional plus derivative control
- proportional plus floating control
- proportional plus integral control
- prototype control
- pulse control
- pulse duration control
- punched-tape control
- purpose-built control
- pushbutton control
- quality control
- radio remote control
- radium control
- rail-elevating control
- ram stroke control
- ram-positioning control
- rapid-traverse controls for the heads
- rate control
- ratio control
- reactive control
- real-time control
- reduced-order control
- register control
- registration control
- relay control
- relay-contactor control
- remote control
- remote program control
- remote switching control
- remote valve control
- remote-dispatch control
- resistance control
- resolved motion rate control
- retarded control
- reversal control
- revolution control
- rigid-body control
- robot control
- robot perimeter control
- robot teach control
- rod control
- safety control
- sampled-data control
- sampling control
- schedule control
- SCR's control
- second derivative control
- selective control
- selectivity control
- self-acting control
- self-adaptive control
- self-adjusting control
- self-aligning control
- self-operated control
- self-optimizing control
- self-programming microprocessor control
- semi-automatic control
- sensitivity control
- sensor-based control
- sequence control
- sequence-type control
- sequential control
- series-parallel control
- servo control
- servo speed control
- servomotor control
- servo-operated control
- set value control
- shaft speed control
- shape control
- shift control
- shop control
- shower and high-pressure oil temperature control
- shut off control
- sight control
- sign control
- single variable control
- single-flank control
- single-lever control
- size control
- slide control
- smooth control
- software-based NC control
- softwared numerical control
- solid-state logic control
- space-follow-up control
- speed control
- stabilizing control
- stable control
- standalone control
- start controls
- static control
- station control
- statistical quality control
- steering control
- step-by-step control
- stepless control
- stepped control
- stick control
- stock control
- stop controls
- stop-point control
- storage assignment control
- straight cut control
- straight line control
- stroke control
- stroke length control
- supervisor production control
- supervisory control
- swarf control
- switch control
- symbolic control
- synchronous data link control
- table control
- tap-depth controls
- tape control
- tape loop control
- teach controls
- temperature control
- temperature-humidity air control
- template control
- tension control
- test control
- thermal control
- thermostatic control
- three-axis contouring control
- three-axis point-to-point control
- three-axis tape control
- three-mode control
- three-position control
- throttle control
- thumbwheel control
- time control
- time cycle control
- time optimal control
- time variable control
- time-critical control
- time-proportional control
- timing control
- token-passing access control
- tool life control
- tool run-time control
- torque control
- total quality control
- touch-panel NC control
- touch-screen control
- tracer control
- tracer numerical control
- trajectory control
- triac control
- trip-dog control
- TRS/rate control
- tuning control
- turnstile control
- two-axis contouring control
- two-axis point-to-point control
- two-dimension control
- two-hand controls
- two-position control
- two-position differential gap control
- two-step control
- undamped control
- user-adjustable override controls
- user-programmable NC control
- variable flow control
- variable speed control
- variety control
- varying voltage control
- velocity-based look-ahead control
- vise control
- vision responsive control
- visual control
- vocabulary control
- vocal CNC control
- vocal numerical control
- voltage control
- warehouse control
- washdown control
- water-supply control
- welding control
- wheel control
- wide-band control
- zero set control
- zoned track controlEnglish-Russian dictionary of mechanical engineering and automation > control
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30 Porter, Charles Talbot
SUBJECT AREA: Steam and internal combustion engines[br]b. 18 January 1826 Auburn, New York, USAd. 1910 USA[br]American inventor of a stone dressing machine, an improved centrifugal governor and a high-speed steam engine.[br]Porter graduated from Hamilton College, New York, in 1845, read law in his father's office, and in the autumn of 1847 was admitted to the Bar. He practised for six or seven years in Rochester, New York, and then in New York City. He was drawn into engineering when aged about 30, first through a client who claimed to have invented a revolutionary type of engine and offered Porter the rights to it as payment of a debt. Having lent more money, Porter saw neither the man nor the engine again. Porter followed this with a similar experience over a patent for a stone dressing machine, except this time the machine was built. It proved to be a failure, but Porter set about redesigning it and found that it was vastly improved when it ran faster. His improved machine went into production. It was while trying to get the steam engine that drove the stone dressing machine to run more smoothly that he made a discovery that formed the basis for his subsequent work.Porter took the ordinary Watt centrifugal governor and increased the speed by a factor of about ten; although he had to reduce the size of the weights, he gained a motion that was powerful. To make the device sufficiently responsive at the right speed, he balanced the centrifugal forces by a counterweight. This prevented the weights flying outwards until the optimum speed was reached, so that the steam valves remained fully open until that point and then the weights reacted more quickly to variations in speed. He took out a patent in 1858, and its importance was quickly recognized. At first he manufactured and sold the governors himself in a specially equipped factory, because this was the only way he felt he could get sufficient accuracy to ensure a perfect action. For marine use, the counterweight was replaced by a spring.Higher speed had brought the advantage of smoother running and so he thought that the same principles could be applied to the steam engine itself, but it was to take extensive design modifications over several years before his vision was realized. In the winter of 1860–1, J.F. Allen met Porter and sketched out his idea of a new type of steam inlet valve. Porter saw the potential of this for his high-speed engine and Allen took out patents for it in 1862. The valves were driven by a new valve gear designed by Pius Fink. Porter decided to display his engine at the International Exhibition in London in 1862, but it had to be assembled on site because the parts were finished in America only just in time to be shipped to meet the deadline. Running at 150 rpm, the engine caused a sensation, but as it was non-condensing there were few orders. Porter added condensing apparatus and, after the failure of Ormerod Grierson \& Co., entered into an agreement with Joseph Whitworth to build the engines. Four were exhibited at the 1867 Paris Exposition Universelle, but Whitworth and Porter fell out and in 1868 Porter returned to America.Porter established another factory to build his engine in America, but he ran into all sorts of difficulties, both mechanical and financial. Some engines were built, and serious production was started c. 1874, but again there were further problems and Porter had to leave his firm. High-speed engines based on his designs continued to be made until after 1907 by the Southwark Foundry and Machine Company, Philadelphia, so Porter's ideas were proved viable and led to many other high-speed designs.[br]Bibliography1908, Engineering Reminiscences, New York: J. Wiley \& Sons; reprinted 1985, Bradley, Ill.: Lindsay (autobiography; the main source of information about his life).Further ReadingR.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (examines his governor and steam engine).O.Mayr, 1974, "Yankee practice and engineering theory; Charles T.Porter and the dynamics of the high-speed engine", Technology and Culture 16 (4) (examines his governor and steam engine).RLH -
31 center
1) центр; середина || центрировать; устанавливать в среднем положении || центральный; средний2) центровое отверстие || центровать, зацентровывать3) многоцелевой станок, обрабатывающий центр4) вычислительный центр; центр подготовки УП, центр автоматизированной подготовки УП6) кернер7) центр, станочный центр8) сердцевина, ядро; средняя часть; средний слой ( многослойного материала)•- 5-face machining centeron center — установленный по оси, установленный по центру
- AC and ATC machining center
- AC center
- acceleration center
- adaptive control machining center
- antifriction center
- area control center
- arm center
- assembly center
- automatic control operation center
- automatic switching center
- AWT machining center
- back center
- ball bearing center
- bar-chucking and shaft-turning center
- bar-machining center
- bench centers
- blanking center
- bore/mill center
- branch information center
- bridge-type machining center
- CAD center
- cage center
- cage window center
- cantilever measuring center
- case center
- cell-configuration machining center
- center of acceleration
- center of action
- center of cross force
- center of curvature
- center of gravity
- center of lateral pressure
- center of lateral resistance
- center of lift
- center of mass
- center of oscillation
- center of pressure
- center of protected type
- center of resistance
- center of roll
- center of rotation
- center of system of parallel forces
- center of thrust
- chucking center
- circular part processing center
- CNC fabrication center
- CNC machining center
- CNC measuring center
- CNC micromachining center
- CNC plate-fabrication center
- CNC turning center
- combination grinding/machining center
- command center
- computation center
- computer center
- computer gage center
- computer graphics center
- computer numerically controlled machining center
- computer-aided design center
- computer-assisted instruction center
- computing center
- cone center
- control center
- coordinate inspection center
- cutting center
- data acquisition and processing center
- data center
- data distribution center
- data gathering center
- data processing center
- dead center
- decision center
- departmental STI center
- departmental test center
- departmental testing center
- direct numerically controlled machining center
- dispersion center
- DNC center
- DNC machining center
- DNC-controlled machining center
- documentation center
- double turning center
- drill and tapping center
- drill/mill center
- drilling and milling center
- drilling and tapping center
- drilling center
- drive center
- electrical discharge machining center
- elevating center
- end driver center
- extensible centers
- fabrication center
- fault-finding center
- five-face machining center
- five-side machining center
- fixed center
- fixed-column machining center
- flame-cutting center
- flexible inspection center
- flexible machining center
- flexible milling machine center
- flexible turning center
- flexural center
- floating center
- floor-type machining center
- foot stock center
- gantry-loaded turning center
- gear center
- gear cutting center
- gear inspection center
- gear measuring center
- grasping center
- grinder work center
- grinding center
- half center
- head center
- head-changing machining center
- headstock center
- high-precision machining center
- high-speed machining center
- high-technology machining center
- hollow center
- honeycomb center
- horizontal axis machining center
- horizontal machining center
- horizontal-spindle machining center
- hydraulic center
- impurity center
- index center
- information analysis center
- information center
- inner race spherical center
- instantaneous acceleration center
- instantaneous center of rotation
- instantaneous center
- instantaneous velocity center
- integrated data processing center
- integrated metrology center
- integrated production center
- internal center
- jig boring center
- jig-borer-class center
- knee-type machining center
- laser center
- laser cutting center
- laser extended machining center
- laser machining center
- laser/punch center
- laser-beam center
- lathe center
- lift center
- live center
- load center
- low-speed/heavy duty machining center
- machine center
- machining center
- magnetic center
- mass center
- measuring center
- micromachining center
- mill/turn center
- mill/turning center
- mill-drive turning center
- milling and drilling center
- milling center
- milling machine center
- milling/drilling center
- milling, turning and boring center
- milling-turning center
- moment center
- movable centers
- moving-column machining center
- moving-column/fixed table center
- multifunction machining center
- multipallet machining center
- multipurpose machining center
- NC milling machine center
- NC turning center
- nondimensioned circle center
- operator-controlled machining center
- operator-programmed center
- outer race spherical center
- pallet changer machining center
- part-processing center
- parts-programming center
- pipe center
- plasma-arc burning center
- plate center
- plate-processing center
- point-to-point machining center
- pool-fed machining center
- positioning center
- pot center
- precision machining center
- precision turning center
- processing center
- production machining center
- production turning center
- profiling center
- programming center
- punching and folding center
- punching and nibbing center
- quality control center
- quill-type machining center
- ram-type machining center
- random nucleation centers
- regional information center
- reinforced center
- revolving center
- revolving dead center
- robot center
- robot/machining center
- robotic center
- robotic inspection center
- robotic welding center
- rotary transfer machining center
- rotating center
- running center
- saw/centering center
- sawing center
- serrated drive center
- shaft-and-chucking turning center
- shaft-measuring center
- sharpening center
- sheet metal machining center
- sine centers
- single-column vertical machining center
- single-machining center
- single-pallet machining center
- slant turn mill center
- slideway grinding center
- slotted center
- slotting/shaping/machining center
- small manufacturing center
- small-envelope machining center
- small-part turning center
- software machining center
- spring loaded center
- state test center
- state testing center
- stationary center
- steel/titanium machining center
- strain center
- subspindle turning center
- subspindle-equipped turning center
- super-accurate machining center
- support center
- suspension center
- Swiss-style turning center
- table-type machining center
- tail center
- tailstock center
- tap-drive machining center
- tapping center
- test center
- thermal machining center
- thrust center
- tool management center
- tool preset center
- tool storage center
- tool-setting center
- tooth bearing center
- track centers
- transfer center
- transfer-line-ready machining center
- traveling column machining center
- traveling-type machining center
- triangular center
- turbine blade machining center
- turn-broach center
- turning center
- turning/boring center
- turning/boring/milling center
- turning/milling/grinding center
- turning-and-chucking center
- turning-and-machining center
- turn-mill center
- turret-type machining center
- twin opposed spindle turning center
- twin-head turning center
- unmanned machining center
- unmanned manufacturing center
- VBM machining center
- versatile production center
- vertical machining center
- vertical spindle machining center
- vertical turning center
- vertical turret machining center
- vertical/horizontal machining center
- vertical-axis machining center
- welding center
- work center
- working center
- zero-rpm centerEnglish-Russian dictionary of mechanical engineering and automation > center
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32 rendimento
m di macchina, impiegato performancerendimento giornaliero daily output or production* * *rendimento s.m.1 ( produzione) yield, production; ( resa) output: il rendimento di una fabbrica, the production (o output) of a factory; rendimento all'ora, output per hour; il rendimento di una fattoria, di un'azienda, the yield of a farm, of a firm2 ( resa, efficienza) efficiency (anche fis., tecn.), performance: il rendimento di un motore, the efficiency of an engine; motore, benzina ad alto rendimento, high-efficiency engine, petrol; ottenere da una macchina il massimo del rendimento, to get optimum efficiency from a machine; il rendimento di un atleta, an athlete's performance; il rendimento di un dipendente, the efficiency of an employee; rendimento operativo, operating performance; rendimento del lavoro, working performance // (econ.) rendimento massimo di un impianto, peak efficiency of a plant3 ( reddito, resa finanziaria) yield, return // (fin.): rendimento base, basic yield; rendimenti di scala, returns to scale; rendimento alla scadenza, yield to maturity (o redemption yield); rendimento azionario, equity (o dividend) yield; rendimento del capitale, capital gain (s) (o yield); rendimento immediato, running yield; rendimento reale, true yield; rendimento delle attività, return on assets4 (non com.) rendering: rendimento di conti, rendering of account // rendimento di grazie, thanksgiving.* * *[rendi'mento]sostantivo maschile1) (di terreno) yield; (di fabbrica) production2) (di lavoratore) output; (di studente) progress, performance; (di atleta) performance3) (di macchina) output; (di motore) efficiency4) (di investimento) yield, returnavere un rendimento del 4% — to be 4% efficient
* * *rendimento/rendi'mento/sostantivo m.1 (di terreno) yield; (di fabbrica) production2 (di lavoratore) output; (di studente) progress, performance; (di atleta) performance; rendimento scolastico progress at school; un lavoratore di scarso rendimento an inefficient worker4 (di investimento) yield, return; obbligazione ad alto rendimento high yield bond; il rendimento di un'impresa the returns of a business; avere un rendimento del 4% to be 4% efficient. -
33 дистанционное техническое обслуживание
дистанционное техническое обслуживание
Техническое обслуживание объекта, проводимое под управлением персонала без его непосредственного присутствия.
[ОСТ 45.152-99 ]Параллельные тексты EN-RU из ABB Review. Перевод компании Интент
Service from afarДистанционный сервисABB’s Remote Service concept is revolutionizing the robotics industryРазработанная АББ концепция дистанционного обслуживания Remote Service революционизирует робототехникуABB robots are found in industrial applications everywhere – lifting, packing, grinding and welding, to name a few. Robust and tireless, they work around the clock and are critical to a company’s productivity. Thus, keeping these robots in top shape is essential – any failure can lead to serious output consequences. But what happens when a robot malfunctions?Роботы АББ используются во всех отраслях промышленности для перемещения грузов, упаковки, шлифовки, сварки – всего и не перечислить. Надежные и неутомимые работники, способные трудиться день и ночь, они представляют большую ценность для владельца. Поэтому очень важно поддерживать их в надлежащей состоянии, ведь любой отказ может иметь серьезные последствия. Но что делать, если робот все-таки сломался?ABB’s new Remote Service concept holds the answer: This approach enables a malfunctioning robot to alarm for help itself. An ABB service engineer then receives whole diagnostic information via wireless technology, analyzes the data on a Web site and responds with support in just minutes. This unique service is paying off for customers and ABB alike, and in the process is revolutionizing service thinking.Ответом на этот вопрос стала новая концепция Remote Service от АББ, согласно которой неисправный робот сам просит о помощи. C помощью беспроводной технологии специалист сервисной службы АББ получает всю необходимую диагностическую информацию, анализирует данные на web-сайте и через считанные минуты выдает рекомендации по устранению отказа. Эта уникальная возможность одинаково ценна как для заказчиков, так и для самой компании АББ. В перспективе она способна в корне изменить весь подход к организации технического обслуживания.Every minute of production downtime can have financially disastrous consequences for a company. Traditional reactive service is no longer sufficient since on-site service engineer visits also demand great amounts of time and money. Thus, companies not only require faster help from the service organization when needed but they also want to avoid disturbances in production.Каждая минута простоя производства может привести к губительным финансовым последствиям. Традиционная организация сервиса, предусматривающая ликвидацию возникающих неисправностей, становится все менее эффективной, поскольку вызов сервисного инженера на место эксплуатации робота сопряжен с большими затратами времени и денег. Предприятия требуют от сервисной организации не только более быстрого оказания помощи, но и предотвращения возможных сбоев производства.In 2006, ABB developed a new approach to better meet customer’s expectations: Using the latest technologies to reach the robots at customer sites around the world, ABB could support them remotely in just minutes, thereby reducing the need for site visits. Thus the new Remote Service concept was quickly brought to fruition and was launched in mid-2007. Statistics show that by using the system the majority of production stoppages can be avoided.В 2006 г. компания АББ разработала новый подход к удовлетворению ожиданий своих заказчиков. Использование современных технологий позволяет специалистам АББ получать информацию от роботов из любой точки мира и в считанные минуты оказывать помощь дистанционно, в результате чего сокращается количество выездов на место установки. Запущенная в середине 2007 г. концепция Remote Service быстро себя оправдала. Статистика показывает, что её применение позволило предотвратить большое число остановок производства.Reactive maintenance The hardware that makes ABB Remote Service possible consists of a communication unit, which has a function similar to that of an airplane’s so-called black box 1. This “service box” is connected to the robot’s control system and can read and transmit diagnostic information. The unit not only reads critical diagnostic information that enables immediate support in the event of a failure, but also makes it possible to monitor and analyze the robot’s condition, thereby proactively detecting the need for maintenance.Устранение возникающих неисправностей Аппаратное устройство, с помощью которого реализуется концепция Remote Service, представляет собой коммуникационный блок, работающий аналогично черному ящику самолета (рис. 1). Этот блок считывает диагностические данные из контроллера робота и передает их по каналу GSM. Считывается не только информация, необходимая для оказания немедленной помощи в случае отказа, но и сведения, позволяющие контролировать и анализировать состояние робота для прогнозирования неисправностей и планирования технического обслуживания.If the robot breaks down, the service box immediately stores the status of the robot, its historical data (as log files), and diagnostic parameters such as temperature and power supply. Equipped with a built-in modem and using the GSM network, the box transmits the data to a central server for analysis and presentation on a dedicated Web site. Alerts are automatically sent to the nearest of ABB’s 1,200 robot service engineers who then accesses the detailed data and error log to analyze the problem.При поломке робота сервисный блок немедленно сохраняет данные о его состоянии, сведения из рабочего журнала, а также значения диагностических параметров (температура и характеристики питания). Эти данные передаются встроенным GSM-модемом на центральный сервер для анализа и представления на соответствующем web-сайте. Аварийные сообщения автоматически пересылаются ближайшему к месту аварии одному из 1200 сервисных инженеров-робототехников АББ, который получает доступ к детальной информации и журналу аварий для анализа возникшей проблемы.A remotely based ABB engineer can then quickly identify the exact fault, offering rapid customer support. For problems that cannot be solved remotely, the service engineer can arrange for quick delivery of spare parts and visit the site to repair the robot. Even if the engineer must make a site visit, service is faster, more efficient and performed to a higher standard than otherwise possible.Специалист АББ может дистанционно идентифицировать отказ и оказать быструю помощь заказчику. Если неисправность не может быть устранена дистанционно, сервисный инженер организовывает доставку запасных частей и выезд ремонтной бригады. Даже если необходимо разрешение проблемы на месте, предшествующая дистанционная диагностика позволяет минимизировать объем работ и сократить время простоя.Remote Service enables engineers to “talk” to robots remotely and to utilize tools that enable smart, fast and automatic analysis. The system is based on a machine-to-machine (M2M) concept, which works automatically, requiring human input only for analysis and personalized customer recommendations. ABB was recognized for this innovative solution at the M2M United Conference in Chicago in 2008 Factbox.Remote Service позволяет инженерам «разговаривать» с роботами на расстоянии и предоставляет в их распоряжение интеллектуальные средства быстрого автоматизированного анализа. Система основана на основе технологии автоматической связи машины с машиной (M2M), где участие человека сводится к анализу данных и выдаче рекомендаций клиенту. В 2008 г. это инновационное решение от АББ получило приз на конференции M2M United Conference в Чикаго (см. вставку).Proactive maintenanceRemote Service also allows ABB engineers to monitor and detect potential problems in the robot system and opens up new possibilities for proactive maintenance.Прогнозирование неисправностейRemote Service позволяет инженерам АББ дистанционно контролировать состояние роботов и прогнозировать возможные неисправности, что открывает новые возможности по организации профилактического обслуживания.The service box regularly takes condition measurements. By monitoring key parameters over time, Remote Service can identify potential failures and when necessary notify both the end customer and the appropriate ABB engineer. The management and storage of full system backups is a very powerful service to help recover from critical situations caused, for example, by operator errors.Сервисный блок регулярно выполняет диагностические измерения. Непрерывно контролируя ключевые параметры, Remote Service может распознать потенциальные опасности и, при необходимости, оповещать владельца оборудования и соответствующего специалиста АББ. Резервирование данных для возможного отката является мощным средством, обеспечивающим восстановление системы в критических ситуациях, например, после ошибки оператора.The first Remote Service installation took place in the automotive industry in the United States and quickly proved its value. The motherboard in a robot cabinet overheated and the rise in temperature triggered an alarm via Remote Service. Because of the alarm, engineers were able to replace a faulty fan, preventing a costly production shutdown.Первая система Remote Service была установлена на автозаводе в США и очень скоро была оценена по достоинству. Она обнаружила перегрев материнской платы в шкафу управления роботом и передала сигнал о превышении допустимой температуры, благодаря чему инженеры смогли заменить неисправный вентилятор и предотвратить дорогостоящую остановку производства.MyRobot: 24-hour remote access
Having regular access to a robot’s condition data is also essential to achieving lean production. At any time, from any location, customers can verify their robots’ status and access maintenance information and performance reports simply by logging in to ABB’s MyRobot Web site. The service enables customers to easily compare performances, identify bottlenecks or developing issues, and initiate the mostСайт MyRobot: круглосуточный дистанционный доступДля того чтобы обеспечить бесперебойное производство, необходимо иметь регулярный доступ к информации о состоянии робота. Зайдя на соответствующую страницу сайта MyRobot компании АББ, заказчики получат все необходимые данные, включая сведения о техническом обслуживании и отчеты о производительности своего робота. Эта услуга позволяет легко сравнивать данные о производительности, обнаруживать возможные проблемы, а также оптимизировать планирование технического обслуживания и модернизации. С помощью MyRobot можно значительно увеличить выпуск продукции и уменьшить количество выбросов.Award-winning solutionIn June 2008, the innovative Remote Service solution won the Gold Value Chain award at the M2M United Conference in Chicago. The value chain award honors successful corporate adopters of M2M (machine–to-machine) technology and highlights the process of combining multiple technologies to deliver high-quality services to customers. ABB won in the categoryof Smart Services.Приз за удачное решениеВ июне 2008 г. инновационное решение Remote Service получило награду Gold Value Chain (Золотая цепь) на конференции M2M United Conference в Чикаго. «Золотая цепь» присуждается за успешное масштабное внедрение технологии M2M (машина – машина), а также за достижения в объединении различных технологий для предоставления высококачественных услуг заказчикам. АББ одержала победу в номинации «Интеллектуальный сервис».Case study: Tetley Tetley GB Ltd is the world’s second-largest manufacturer and distributor of tea. The company’s manufacturing and distribution business is spread across 40 countries and sells over 60 branded tea bags. Tetley’s UK tea production facility in Eaglescliffe, County Durham is the sole producer of Tetley tea bags 2.Пример применения: Tetley Компания TetleyGB Ltd является вторым по величине мировым производителем и поставщиком чая. Производственные и торговые филиалы компании имеются в 40 странах, а продукция распространяется под 60 торговыми марками. Чаеразвесочная фабрика в Иглсклифф, графство Дарем, Великобритания – единственный производитель чая Tetley в пакетиках (рис. 2).ABB offers a flexible choice of service agreements for both new and existing robot installations, which can help extend the mean time between failures, shorten the time to repair and lower the cost of automated production.Предлагаемые АББ контракты на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и общую стоимость автоматизированного производства.Robots in the plant’s production line were tripping alarms and delaying the whole production cycle. The spurious alarms resulted in much unnecessary downtime that was spent resetting the robots in the hope that another breakdown could be avoided. Each time an alarm was tripped, several hours of production time was lost. “It was for this reason that we were keen to try out ABB’s Remote Service agreement,” said Colin Trevor, plant maintenance manager.Установленные в технологической линии роботы выдавали аварийные сигналы, задерживающие выполнение производственного цикла. Ложные срабатывания вынуждали перезапускать роботов в надежде предотвратить возможные отказы, в результате чего после каждого аварийного сигнала производство останавливалось на несколько часов. «Именно поэтому мы решили попробовать заключить с АББ контракт на дистанционное техническое обслуживание», – сказал Колин Тревор, начальник технической службы фабрики.To prevent future disruptions caused by unplanned downtime, Tetley signed an ABB Response Package service agreement, which included installing a service box and system infrastructure into the robot control systems. Using the Remote Service solution, ABB remotely monitors and collects data on the “wear and tear” and productivity of the robotic cells; this data is then shared with the customer and contributes to smooth-running production cycles.Для предотвращения ущерба в результате незапланированных простоев Tetley заключила с АББ контракт на комплексное обслуживание Response Package, согласно которому системы управления роботами были дооборудованы сервисными блоками с необходимой инфраструктурой. С помощью Remote Service компания АББ дистанционно собирает данные о наработке, износе и производительности роботизированных модулей. Эти данные предоставляются заказчику для оптимизации загрузки производственного оборудования.Higher production uptimeSince the implementation of Remote Service, Tetley has enjoyed greatly reduced robot downtime, with no further disruptions caused by unforeseen problems. “The Remote Service package has dramatically changed the plant,” said Trevor. “We no longer have breakdown issues throughout the shift, helping us to achieve much longer periods of robot uptime. As we have learned, world-class manufacturing facilities need world-class support packages. Remote monitoring of our robots helps us to maintain machine uptime, prevent costly downtime and ensures my employees can be put to more valuable use.”Увеличение полезного времениС момента внедрения Remote Service компания Tetley была приятно удивлена резким сокращением простоя роботов и отсутствием незапланированных остановок производства. «Пакет Remote Service резко изменил ситуацию на предприятии», – сказал Тревор. «Мы избавились от простоев роботов и смогли резко увеличить их эксплуатационную готовность. Мы поняли, что для производственного оборудования мирового класса необходим сервисный пакет мирового класса. Дистанционный контроль роботов помогает нам поддерживать их в рабочем состоянии, предотвращать дорогостоящие простои и задействовать наш персонал для выполнения более важных задач».Service accessRemote Service is available worldwide, connecting more than 500 robots. Companies that have up to 30 robots are often good candidates for the Remote Service offering, as they usually have neither the engineers nor the requisite skills to deal with robotics faults themselves. Larger companies are also enthusiastic about Remote Service, as the proactive services will improve the lifetime of their equipment and increase overall production uptime.Доступность сервисаСеть Remote Service охватывает более 700 роботов по всему миру. Потенциальными заказчиками Remote Service являются компании, имеющие до 30 роботов, но не имеющие инженеров и техников, способных самостоятельно устранять их неисправности. Интерес к Remote Service проявляют и более крупные компании, поскольку они заинтересованы в увеличении срока службы и эксплуатационной готовности производственного оборудования.In today’s competitive environment, business profitability often relies on demanding production schedules that do not always leave time for exhaustive or repeated equipment health checks. ABB’s Remote Service agreements are designed to monitor its customers’ robots to identify when problems are likely to occur and ensure that help is dispatched before the problem can escalate. In over 60 percent of ABB’s service calls, its robots can be brought back online remotely, without further intervention.В условиях современной конкуренции окупаемость бизнеса часто зависит от соблюдения жестких графиков производства, не оставляющих времени для полномасштабных или периодических проверок исправности оборудования. Контракт Remote Service предусматривает мониторинг состояния роботов заказчика для прогнозирования возможных неисправностей и принятие мер по их предотвращению. В более чем 60 % случаев для устранения неисправности достаточно дистанционной консультации в сервисной службе АББ, дальнейшего вмешательства не требуется.ABB offers a flexible choice of service agreements for both new and existing robot installations, which helps extend the mean time between failures, shorten the time to repair and lower the total cost of ownership. With four new packages available – Support, Response, Maintenance and Warranty, each backed up by ABB’s Remote Service technology – businesses can minimize the impact of unplanned downtime and achieve improved production-line efficiency.Компания АББ предлагает гибкий выбор контрактов на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, которые позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и эксплуатационные расходы. Четыре новых пакета на основе технологии Remote Service – Support, Response, Maintenance и Warranty – позволяют минимизировать внеплановые простои и значительно повысить эффективность производства.The benefits of Remote Sevice are clear: improved availability, fewer service visits, lower maintenance costs and maximized total cost of ownership. This unique service sets ABB apart from its competitors and is the beginning of a revolution in service thinking. It provides ABB with a great opportunity to improve customer access to its expertise and develop more advanced services worldwide.Преимущества дистанционного технического обслуживания очевидны: повышенная надежность, уменьшение выездов ремонтных бригад, уменьшение затрат на обслуживание и общих эксплуатационных расходов. Эта уникальная услуга дает компании АББ преимущества над конкурентами и демонстрирует революционный подход к организации сервиса. Благодаря ей компания АББ расширяет доступ заказчиков к опыту своих специалистов и получает возможность более эффективного оказания технической помощи по всему миру.Тематики
- тех. обсл. и ремонт средств электросвязи
Обобщающие термины
EN
Русско-английский словарь нормативно-технической терминологии > дистанционное техническое обслуживание
34 remote maintenance
дистанционное техническое обслуживание
Техническое обслуживание объекта, проводимое под управлением персонала без его непосредственного присутствия.
[ОСТ 45.152-99 ]Параллельные тексты EN-RU из ABB Review. Перевод компании Интент
Service from afarДистанционный сервисABB’s Remote Service concept is revolutionizing the robotics industryРазработанная АББ концепция дистанционного обслуживания Remote Service революционизирует робототехникуABB robots are found in industrial applications everywhere – lifting, packing, grinding and welding, to name a few. Robust and tireless, they work around the clock and are critical to a company’s productivity. Thus, keeping these robots in top shape is essential – any failure can lead to serious output consequences. But what happens when a robot malfunctions?Роботы АББ используются во всех отраслях промышленности для перемещения грузов, упаковки, шлифовки, сварки – всего и не перечислить. Надежные и неутомимые работники, способные трудиться день и ночь, они представляют большую ценность для владельца. Поэтому очень важно поддерживать их в надлежащей состоянии, ведь любой отказ может иметь серьезные последствия. Но что делать, если робот все-таки сломался?ABB’s new Remote Service concept holds the answer: This approach enables a malfunctioning robot to alarm for help itself. An ABB service engineer then receives whole diagnostic information via wireless technology, analyzes the data on a Web site and responds with support in just minutes. This unique service is paying off for customers and ABB alike, and in the process is revolutionizing service thinking.Ответом на этот вопрос стала новая концепция Remote Service от АББ, согласно которой неисправный робот сам просит о помощи. C помощью беспроводной технологии специалист сервисной службы АББ получает всю необходимую диагностическую информацию, анализирует данные на web-сайте и через считанные минуты выдает рекомендации по устранению отказа. Эта уникальная возможность одинаково ценна как для заказчиков, так и для самой компании АББ. В перспективе она способна в корне изменить весь подход к организации технического обслуживания.Every minute of production downtime can have financially disastrous consequences for a company. Traditional reactive service is no longer sufficient since on-site service engineer visits also demand great amounts of time and money. Thus, companies not only require faster help from the service organization when needed but they also want to avoid disturbances in production.Каждая минута простоя производства может привести к губительным финансовым последствиям. Традиционная организация сервиса, предусматривающая ликвидацию возникающих неисправностей, становится все менее эффективной, поскольку вызов сервисного инженера на место эксплуатации робота сопряжен с большими затратами времени и денег. Предприятия требуют от сервисной организации не только более быстрого оказания помощи, но и предотвращения возможных сбоев производства.In 2006, ABB developed a new approach to better meet customer’s expectations: Using the latest technologies to reach the robots at customer sites around the world, ABB could support them remotely in just minutes, thereby reducing the need for site visits. Thus the new Remote Service concept was quickly brought to fruition and was launched in mid-2007. Statistics show that by using the system the majority of production stoppages can be avoided.В 2006 г. компания АББ разработала новый подход к удовлетворению ожиданий своих заказчиков. Использование современных технологий позволяет специалистам АББ получать информацию от роботов из любой точки мира и в считанные минуты оказывать помощь дистанционно, в результате чего сокращается количество выездов на место установки. Запущенная в середине 2007 г. концепция Remote Service быстро себя оправдала. Статистика показывает, что её применение позволило предотвратить большое число остановок производства.Reactive maintenance The hardware that makes ABB Remote Service possible consists of a communication unit, which has a function similar to that of an airplane’s so-called black box 1. This “service box” is connected to the robot’s control system and can read and transmit diagnostic information. The unit not only reads critical diagnostic information that enables immediate support in the event of a failure, but also makes it possible to monitor and analyze the robot’s condition, thereby proactively detecting the need for maintenance.Устранение возникающих неисправностей Аппаратное устройство, с помощью которого реализуется концепция Remote Service, представляет собой коммуникационный блок, работающий аналогично черному ящику самолета (рис. 1). Этот блок считывает диагностические данные из контроллера робота и передает их по каналу GSM. Считывается не только информация, необходимая для оказания немедленной помощи в случае отказа, но и сведения, позволяющие контролировать и анализировать состояние робота для прогнозирования неисправностей и планирования технического обслуживания.If the robot breaks down, the service box immediately stores the status of the robot, its historical data (as log files), and diagnostic parameters such as temperature and power supply. Equipped with a built-in modem and using the GSM network, the box transmits the data to a central server for analysis and presentation on a dedicated Web site. Alerts are automatically sent to the nearest of ABB’s 1,200 robot service engineers who then accesses the detailed data and error log to analyze the problem.При поломке робота сервисный блок немедленно сохраняет данные о его состоянии, сведения из рабочего журнала, а также значения диагностических параметров (температура и характеристики питания). Эти данные передаются встроенным GSM-модемом на центральный сервер для анализа и представления на соответствующем web-сайте. Аварийные сообщения автоматически пересылаются ближайшему к месту аварии одному из 1200 сервисных инженеров-робототехников АББ, который получает доступ к детальной информации и журналу аварий для анализа возникшей проблемы.A remotely based ABB engineer can then quickly identify the exact fault, offering rapid customer support. For problems that cannot be solved remotely, the service engineer can arrange for quick delivery of spare parts and visit the site to repair the robot. Even if the engineer must make a site visit, service is faster, more efficient and performed to a higher standard than otherwise possible.Специалист АББ может дистанционно идентифицировать отказ и оказать быструю помощь заказчику. Если неисправность не может быть устранена дистанционно, сервисный инженер организовывает доставку запасных частей и выезд ремонтной бригады. Даже если необходимо разрешение проблемы на месте, предшествующая дистанционная диагностика позволяет минимизировать объем работ и сократить время простоя.Remote Service enables engineers to “talk” to robots remotely and to utilize tools that enable smart, fast and automatic analysis. The system is based on a machine-to-machine (M2M) concept, which works automatically, requiring human input only for analysis and personalized customer recommendations. ABB was recognized for this innovative solution at the M2M United Conference in Chicago in 2008 Factbox.Remote Service позволяет инженерам «разговаривать» с роботами на расстоянии и предоставляет в их распоряжение интеллектуальные средства быстрого автоматизированного анализа. Система основана на основе технологии автоматической связи машины с машиной (M2M), где участие человека сводится к анализу данных и выдаче рекомендаций клиенту. В 2008 г. это инновационное решение от АББ получило приз на конференции M2M United Conference в Чикаго (см. вставку).Proactive maintenanceRemote Service also allows ABB engineers to monitor and detect potential problems in the robot system and opens up new possibilities for proactive maintenance.Прогнозирование неисправностейRemote Service позволяет инженерам АББ дистанционно контролировать состояние роботов и прогнозировать возможные неисправности, что открывает новые возможности по организации профилактического обслуживания.The service box regularly takes condition measurements. By monitoring key parameters over time, Remote Service can identify potential failures and when necessary notify both the end customer and the appropriate ABB engineer. The management and storage of full system backups is a very powerful service to help recover from critical situations caused, for example, by operator errors.Сервисный блок регулярно выполняет диагностические измерения. Непрерывно контролируя ключевые параметры, Remote Service может распознать потенциальные опасности и, при необходимости, оповещать владельца оборудования и соответствующего специалиста АББ. Резервирование данных для возможного отката является мощным средством, обеспечивающим восстановление системы в критических ситуациях, например, после ошибки оператора.The first Remote Service installation took place in the automotive industry in the United States and quickly proved its value. The motherboard in a robot cabinet overheated and the rise in temperature triggered an alarm via Remote Service. Because of the alarm, engineers were able to replace a faulty fan, preventing a costly production shutdown.Первая система Remote Service была установлена на автозаводе в США и очень скоро была оценена по достоинству. Она обнаружила перегрев материнской платы в шкафу управления роботом и передала сигнал о превышении допустимой температуры, благодаря чему инженеры смогли заменить неисправный вентилятор и предотвратить дорогостоящую остановку производства.MyRobot: 24-hour remote access
Having regular access to a robot’s condition data is also essential to achieving lean production. At any time, from any location, customers can verify their robots’ status and access maintenance information and performance reports simply by logging in to ABB’s MyRobot Web site. The service enables customers to easily compare performances, identify bottlenecks or developing issues, and initiate the mostСайт MyRobot: круглосуточный дистанционный доступДля того чтобы обеспечить бесперебойное производство, необходимо иметь регулярный доступ к информации о состоянии робота. Зайдя на соответствующую страницу сайта MyRobot компании АББ, заказчики получат все необходимые данные, включая сведения о техническом обслуживании и отчеты о производительности своего робота. Эта услуга позволяет легко сравнивать данные о производительности, обнаруживать возможные проблемы, а также оптимизировать планирование технического обслуживания и модернизации. С помощью MyRobot можно значительно увеличить выпуск продукции и уменьшить количество выбросов.Award-winning solutionIn June 2008, the innovative Remote Service solution won the Gold Value Chain award at the M2M United Conference in Chicago. The value chain award honors successful corporate adopters of M2M (machine–to-machine) technology and highlights the process of combining multiple technologies to deliver high-quality services to customers. ABB won in the categoryof Smart Services.Приз за удачное решениеВ июне 2008 г. инновационное решение Remote Service получило награду Gold Value Chain (Золотая цепь) на конференции M2M United Conference в Чикаго. «Золотая цепь» присуждается за успешное масштабное внедрение технологии M2M (машина – машина), а также за достижения в объединении различных технологий для предоставления высококачественных услуг заказчикам. АББ одержала победу в номинации «Интеллектуальный сервис».Case study: Tetley Tetley GB Ltd is the world’s second-largest manufacturer and distributor of tea. The company’s manufacturing and distribution business is spread across 40 countries and sells over 60 branded tea bags. Tetley’s UK tea production facility in Eaglescliffe, County Durham is the sole producer of Tetley tea bags 2.Пример применения: Tetley Компания TetleyGB Ltd является вторым по величине мировым производителем и поставщиком чая. Производственные и торговые филиалы компании имеются в 40 странах, а продукция распространяется под 60 торговыми марками. Чаеразвесочная фабрика в Иглсклифф, графство Дарем, Великобритания – единственный производитель чая Tetley в пакетиках (рис. 2).ABB offers a flexible choice of service agreements for both new and existing robot installations, which can help extend the mean time between failures, shorten the time to repair and lower the cost of automated production.Предлагаемые АББ контракты на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и общую стоимость автоматизированного производства.Robots in the plant’s production line were tripping alarms and delaying the whole production cycle. The spurious alarms resulted in much unnecessary downtime that was spent resetting the robots in the hope that another breakdown could be avoided. Each time an alarm was tripped, several hours of production time was lost. “It was for this reason that we were keen to try out ABB’s Remote Service agreement,” said Colin Trevor, plant maintenance manager.Установленные в технологической линии роботы выдавали аварийные сигналы, задерживающие выполнение производственного цикла. Ложные срабатывания вынуждали перезапускать роботов в надежде предотвратить возможные отказы, в результате чего после каждого аварийного сигнала производство останавливалось на несколько часов. «Именно поэтому мы решили попробовать заключить с АББ контракт на дистанционное техническое обслуживание», – сказал Колин Тревор, начальник технической службы фабрики.To prevent future disruptions caused by unplanned downtime, Tetley signed an ABB Response Package service agreement, which included installing a service box and system infrastructure into the robot control systems. Using the Remote Service solution, ABB remotely monitors and collects data on the “wear and tear” and productivity of the robotic cells; this data is then shared with the customer and contributes to smooth-running production cycles.Для предотвращения ущерба в результате незапланированных простоев Tetley заключила с АББ контракт на комплексное обслуживание Response Package, согласно которому системы управления роботами были дооборудованы сервисными блоками с необходимой инфраструктурой. С помощью Remote Service компания АББ дистанционно собирает данные о наработке, износе и производительности роботизированных модулей. Эти данные предоставляются заказчику для оптимизации загрузки производственного оборудования.Higher production uptimeSince the implementation of Remote Service, Tetley has enjoyed greatly reduced robot downtime, with no further disruptions caused by unforeseen problems. “The Remote Service package has dramatically changed the plant,” said Trevor. “We no longer have breakdown issues throughout the shift, helping us to achieve much longer periods of robot uptime. As we have learned, world-class manufacturing facilities need world-class support packages. Remote monitoring of our robots helps us to maintain machine uptime, prevent costly downtime and ensures my employees can be put to more valuable use.”Увеличение полезного времениС момента внедрения Remote Service компания Tetley была приятно удивлена резким сокращением простоя роботов и отсутствием незапланированных остановок производства. «Пакет Remote Service резко изменил ситуацию на предприятии», – сказал Тревор. «Мы избавились от простоев роботов и смогли резко увеличить их эксплуатационную готовность. Мы поняли, что для производственного оборудования мирового класса необходим сервисный пакет мирового класса. Дистанционный контроль роботов помогает нам поддерживать их в рабочем состоянии, предотвращать дорогостоящие простои и задействовать наш персонал для выполнения более важных задач».Service accessRemote Service is available worldwide, connecting more than 500 robots. Companies that have up to 30 robots are often good candidates for the Remote Service offering, as they usually have neither the engineers nor the requisite skills to deal with robotics faults themselves. Larger companies are also enthusiastic about Remote Service, as the proactive services will improve the lifetime of their equipment and increase overall production uptime.Доступность сервисаСеть Remote Service охватывает более 700 роботов по всему миру. Потенциальными заказчиками Remote Service являются компании, имеющие до 30 роботов, но не имеющие инженеров и техников, способных самостоятельно устранять их неисправности. Интерес к Remote Service проявляют и более крупные компании, поскольку они заинтересованы в увеличении срока службы и эксплуатационной готовности производственного оборудования.In today’s competitive environment, business profitability often relies on demanding production schedules that do not always leave time for exhaustive or repeated equipment health checks. ABB’s Remote Service agreements are designed to monitor its customers’ robots to identify when problems are likely to occur and ensure that help is dispatched before the problem can escalate. In over 60 percent of ABB’s service calls, its robots can be brought back online remotely, without further intervention.В условиях современной конкуренции окупаемость бизнеса часто зависит от соблюдения жестких графиков производства, не оставляющих времени для полномасштабных или периодических проверок исправности оборудования. Контракт Remote Service предусматривает мониторинг состояния роботов заказчика для прогнозирования возможных неисправностей и принятие мер по их предотвращению. В более чем 60 % случаев для устранения неисправности достаточно дистанционной консультации в сервисной службе АББ, дальнейшего вмешательства не требуется.ABB offers a flexible choice of service agreements for both new and existing robot installations, which helps extend the mean time between failures, shorten the time to repair and lower the total cost of ownership. With four new packages available – Support, Response, Maintenance and Warranty, each backed up by ABB’s Remote Service technology – businesses can minimize the impact of unplanned downtime and achieve improved production-line efficiency.Компания АББ предлагает гибкий выбор контрактов на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, которые позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и эксплуатационные расходы. Четыре новых пакета на основе технологии Remote Service – Support, Response, Maintenance и Warranty – позволяют минимизировать внеплановые простои и значительно повысить эффективность производства.The benefits of Remote Sevice are clear: improved availability, fewer service visits, lower maintenance costs and maximized total cost of ownership. This unique service sets ABB apart from its competitors and is the beginning of a revolution in service thinking. It provides ABB with a great opportunity to improve customer access to its expertise and develop more advanced services worldwide.Преимущества дистанционного технического обслуживания очевидны: повышенная надежность, уменьшение выездов ремонтных бригад, уменьшение затрат на обслуживание и общих эксплуатационных расходов. Эта уникальная услуга дает компании АББ преимущества над конкурентами и демонстрирует революционный подход к организации сервиса. Благодаря ей компания АББ расширяет доступ заказчиков к опыту своих специалистов и получает возможность более эффективного оказания технической помощи по всему миру.Тематики
- тех. обсл. и ремонт средств электросвязи
Обобщающие термины
EN
Англо-русский словарь нормативно-технической терминологии > remote maintenance
35 remote sevice
дистанционное техническое обслуживание
Техническое обслуживание объекта, проводимое под управлением персонала без его непосредственного присутствия.
[ОСТ 45.152-99 ]Параллельные тексты EN-RU из ABB Review. Перевод компании Интент
Service from afarДистанционный сервисABB’s Remote Service concept is revolutionizing the robotics industryРазработанная АББ концепция дистанционного обслуживания Remote Service революционизирует робототехникуABB robots are found in industrial applications everywhere – lifting, packing, grinding and welding, to name a few. Robust and tireless, they work around the clock and are critical to a company’s productivity. Thus, keeping these robots in top shape is essential – any failure can lead to serious output consequences. But what happens when a robot malfunctions?Роботы АББ используются во всех отраслях промышленности для перемещения грузов, упаковки, шлифовки, сварки – всего и не перечислить. Надежные и неутомимые работники, способные трудиться день и ночь, они представляют большую ценность для владельца. Поэтому очень важно поддерживать их в надлежащей состоянии, ведь любой отказ может иметь серьезные последствия. Но что делать, если робот все-таки сломался?ABB’s new Remote Service concept holds the answer: This approach enables a malfunctioning robot to alarm for help itself. An ABB service engineer then receives whole diagnostic information via wireless technology, analyzes the data on a Web site and responds with support in just minutes. This unique service is paying off for customers and ABB alike, and in the process is revolutionizing service thinking.Ответом на этот вопрос стала новая концепция Remote Service от АББ, согласно которой неисправный робот сам просит о помощи. C помощью беспроводной технологии специалист сервисной службы АББ получает всю необходимую диагностическую информацию, анализирует данные на web-сайте и через считанные минуты выдает рекомендации по устранению отказа. Эта уникальная возможность одинаково ценна как для заказчиков, так и для самой компании АББ. В перспективе она способна в корне изменить весь подход к организации технического обслуживания.Every minute of production downtime can have financially disastrous consequences for a company. Traditional reactive service is no longer sufficient since on-site service engineer visits also demand great amounts of time and money. Thus, companies not only require faster help from the service organization when needed but they also want to avoid disturbances in production.Каждая минута простоя производства может привести к губительным финансовым последствиям. Традиционная организация сервиса, предусматривающая ликвидацию возникающих неисправностей, становится все менее эффективной, поскольку вызов сервисного инженера на место эксплуатации робота сопряжен с большими затратами времени и денег. Предприятия требуют от сервисной организации не только более быстрого оказания помощи, но и предотвращения возможных сбоев производства.In 2006, ABB developed a new approach to better meet customer’s expectations: Using the latest technologies to reach the robots at customer sites around the world, ABB could support them remotely in just minutes, thereby reducing the need for site visits. Thus the new Remote Service concept was quickly brought to fruition and was launched in mid-2007. Statistics show that by using the system the majority of production stoppages can be avoided.В 2006 г. компания АББ разработала новый подход к удовлетворению ожиданий своих заказчиков. Использование современных технологий позволяет специалистам АББ получать информацию от роботов из любой точки мира и в считанные минуты оказывать помощь дистанционно, в результате чего сокращается количество выездов на место установки. Запущенная в середине 2007 г. концепция Remote Service быстро себя оправдала. Статистика показывает, что её применение позволило предотвратить большое число остановок производства.Reactive maintenance The hardware that makes ABB Remote Service possible consists of a communication unit, which has a function similar to that of an airplane’s so-called black box 1. This “service box” is connected to the robot’s control system and can read and transmit diagnostic information. The unit not only reads critical diagnostic information that enables immediate support in the event of a failure, but also makes it possible to monitor and analyze the robot’s condition, thereby proactively detecting the need for maintenance.Устранение возникающих неисправностей Аппаратное устройство, с помощью которого реализуется концепция Remote Service, представляет собой коммуникационный блок, работающий аналогично черному ящику самолета (рис. 1). Этот блок считывает диагностические данные из контроллера робота и передает их по каналу GSM. Считывается не только информация, необходимая для оказания немедленной помощи в случае отказа, но и сведения, позволяющие контролировать и анализировать состояние робота для прогнозирования неисправностей и планирования технического обслуживания.If the robot breaks down, the service box immediately stores the status of the robot, its historical data (as log files), and diagnostic parameters such as temperature and power supply. Equipped with a built-in modem and using the GSM network, the box transmits the data to a central server for analysis and presentation on a dedicated Web site. Alerts are automatically sent to the nearest of ABB’s 1,200 robot service engineers who then accesses the detailed data and error log to analyze the problem.При поломке робота сервисный блок немедленно сохраняет данные о его состоянии, сведения из рабочего журнала, а также значения диагностических параметров (температура и характеристики питания). Эти данные передаются встроенным GSM-модемом на центральный сервер для анализа и представления на соответствующем web-сайте. Аварийные сообщения автоматически пересылаются ближайшему к месту аварии одному из 1200 сервисных инженеров-робототехников АББ, который получает доступ к детальной информации и журналу аварий для анализа возникшей проблемы.A remotely based ABB engineer can then quickly identify the exact fault, offering rapid customer support. For problems that cannot be solved remotely, the service engineer can arrange for quick delivery of spare parts and visit the site to repair the robot. Even if the engineer must make a site visit, service is faster, more efficient and performed to a higher standard than otherwise possible.Специалист АББ может дистанционно идентифицировать отказ и оказать быструю помощь заказчику. Если неисправность не может быть устранена дистанционно, сервисный инженер организовывает доставку запасных частей и выезд ремонтной бригады. Даже если необходимо разрешение проблемы на месте, предшествующая дистанционная диагностика позволяет минимизировать объем работ и сократить время простоя.Remote Service enables engineers to “talk” to robots remotely and to utilize tools that enable smart, fast and automatic analysis. The system is based on a machine-to-machine (M2M) concept, which works automatically, requiring human input only for analysis and personalized customer recommendations. ABB was recognized for this innovative solution at the M2M United Conference in Chicago in 2008 Factbox.Remote Service позволяет инженерам «разговаривать» с роботами на расстоянии и предоставляет в их распоряжение интеллектуальные средства быстрого автоматизированного анализа. Система основана на основе технологии автоматической связи машины с машиной (M2M), где участие человека сводится к анализу данных и выдаче рекомендаций клиенту. В 2008 г. это инновационное решение от АББ получило приз на конференции M2M United Conference в Чикаго (см. вставку).Proactive maintenanceRemote Service also allows ABB engineers to monitor and detect potential problems in the robot system and opens up new possibilities for proactive maintenance.Прогнозирование неисправностейRemote Service позволяет инженерам АББ дистанционно контролировать состояние роботов и прогнозировать возможные неисправности, что открывает новые возможности по организации профилактического обслуживания.The service box regularly takes condition measurements. By monitoring key parameters over time, Remote Service can identify potential failures and when necessary notify both the end customer and the appropriate ABB engineer. The management and storage of full system backups is a very powerful service to help recover from critical situations caused, for example, by operator errors.Сервисный блок регулярно выполняет диагностические измерения. Непрерывно контролируя ключевые параметры, Remote Service может распознать потенциальные опасности и, при необходимости, оповещать владельца оборудования и соответствующего специалиста АББ. Резервирование данных для возможного отката является мощным средством, обеспечивающим восстановление системы в критических ситуациях, например, после ошибки оператора.The first Remote Service installation took place in the automotive industry in the United States and quickly proved its value. The motherboard in a robot cabinet overheated and the rise in temperature triggered an alarm via Remote Service. Because of the alarm, engineers were able to replace a faulty fan, preventing a costly production shutdown.Первая система Remote Service была установлена на автозаводе в США и очень скоро была оценена по достоинству. Она обнаружила перегрев материнской платы в шкафу управления роботом и передала сигнал о превышении допустимой температуры, благодаря чему инженеры смогли заменить неисправный вентилятор и предотвратить дорогостоящую остановку производства.MyRobot: 24-hour remote access
Having regular access to a robot’s condition data is also essential to achieving lean production. At any time, from any location, customers can verify their robots’ status and access maintenance information and performance reports simply by logging in to ABB’s MyRobot Web site. The service enables customers to easily compare performances, identify bottlenecks or developing issues, and initiate the mostСайт MyRobot: круглосуточный дистанционный доступДля того чтобы обеспечить бесперебойное производство, необходимо иметь регулярный доступ к информации о состоянии робота. Зайдя на соответствующую страницу сайта MyRobot компании АББ, заказчики получат все необходимые данные, включая сведения о техническом обслуживании и отчеты о производительности своего робота. Эта услуга позволяет легко сравнивать данные о производительности, обнаруживать возможные проблемы, а также оптимизировать планирование технического обслуживания и модернизации. С помощью MyRobot можно значительно увеличить выпуск продукции и уменьшить количество выбросов.Award-winning solutionIn June 2008, the innovative Remote Service solution won the Gold Value Chain award at the M2M United Conference in Chicago. The value chain award honors successful corporate adopters of M2M (machine–to-machine) technology and highlights the process of combining multiple technologies to deliver high-quality services to customers. ABB won in the categoryof Smart Services.Приз за удачное решениеВ июне 2008 г. инновационное решение Remote Service получило награду Gold Value Chain (Золотая цепь) на конференции M2M United Conference в Чикаго. «Золотая цепь» присуждается за успешное масштабное внедрение технологии M2M (машина – машина), а также за достижения в объединении различных технологий для предоставления высококачественных услуг заказчикам. АББ одержала победу в номинации «Интеллектуальный сервис».Case study: Tetley Tetley GB Ltd is the world’s second-largest manufacturer and distributor of tea. The company’s manufacturing and distribution business is spread across 40 countries and sells over 60 branded tea bags. Tetley’s UK tea production facility in Eaglescliffe, County Durham is the sole producer of Tetley tea bags 2.Пример применения: Tetley Компания TetleyGB Ltd является вторым по величине мировым производителем и поставщиком чая. Производственные и торговые филиалы компании имеются в 40 странах, а продукция распространяется под 60 торговыми марками. Чаеразвесочная фабрика в Иглсклифф, графство Дарем, Великобритания – единственный производитель чая Tetley в пакетиках (рис. 2).ABB offers a flexible choice of service agreements for both new and existing robot installations, which can help extend the mean time between failures, shorten the time to repair and lower the cost of automated production.Предлагаемые АББ контракты на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и общую стоимость автоматизированного производства.Robots in the plant’s production line were tripping alarms and delaying the whole production cycle. The spurious alarms resulted in much unnecessary downtime that was spent resetting the robots in the hope that another breakdown could be avoided. Each time an alarm was tripped, several hours of production time was lost. “It was for this reason that we were keen to try out ABB’s Remote Service agreement,” said Colin Trevor, plant maintenance manager.Установленные в технологической линии роботы выдавали аварийные сигналы, задерживающие выполнение производственного цикла. Ложные срабатывания вынуждали перезапускать роботов в надежде предотвратить возможные отказы, в результате чего после каждого аварийного сигнала производство останавливалось на несколько часов. «Именно поэтому мы решили попробовать заключить с АББ контракт на дистанционное техническое обслуживание», – сказал Колин Тревор, начальник технической службы фабрики.To prevent future disruptions caused by unplanned downtime, Tetley signed an ABB Response Package service agreement, which included installing a service box and system infrastructure into the robot control systems. Using the Remote Service solution, ABB remotely monitors and collects data on the “wear and tear” and productivity of the robotic cells; this data is then shared with the customer and contributes to smooth-running production cycles.Для предотвращения ущерба в результате незапланированных простоев Tetley заключила с АББ контракт на комплексное обслуживание Response Package, согласно которому системы управления роботами были дооборудованы сервисными блоками с необходимой инфраструктурой. С помощью Remote Service компания АББ дистанционно собирает данные о наработке, износе и производительности роботизированных модулей. Эти данные предоставляются заказчику для оптимизации загрузки производственного оборудования.Higher production uptimeSince the implementation of Remote Service, Tetley has enjoyed greatly reduced robot downtime, with no further disruptions caused by unforeseen problems. “The Remote Service package has dramatically changed the plant,” said Trevor. “We no longer have breakdown issues throughout the shift, helping us to achieve much longer periods of robot uptime. As we have learned, world-class manufacturing facilities need world-class support packages. Remote monitoring of our robots helps us to maintain machine uptime, prevent costly downtime and ensures my employees can be put to more valuable use.”Увеличение полезного времениС момента внедрения Remote Service компания Tetley была приятно удивлена резким сокращением простоя роботов и отсутствием незапланированных остановок производства. «Пакет Remote Service резко изменил ситуацию на предприятии», – сказал Тревор. «Мы избавились от простоев роботов и смогли резко увеличить их эксплуатационную готовность. Мы поняли, что для производственного оборудования мирового класса необходим сервисный пакет мирового класса. Дистанционный контроль роботов помогает нам поддерживать их в рабочем состоянии, предотвращать дорогостоящие простои и задействовать наш персонал для выполнения более важных задач».Service accessRemote Service is available worldwide, connecting more than 500 robots. Companies that have up to 30 robots are often good candidates for the Remote Service offering, as they usually have neither the engineers nor the requisite skills to deal with robotics faults themselves. Larger companies are also enthusiastic about Remote Service, as the proactive services will improve the lifetime of their equipment and increase overall production uptime.Доступность сервисаСеть Remote Service охватывает более 700 роботов по всему миру. Потенциальными заказчиками Remote Service являются компании, имеющие до 30 роботов, но не имеющие инженеров и техников, способных самостоятельно устранять их неисправности. Интерес к Remote Service проявляют и более крупные компании, поскольку они заинтересованы в увеличении срока службы и эксплуатационной готовности производственного оборудования.In today’s competitive environment, business profitability often relies on demanding production schedules that do not always leave time for exhaustive or repeated equipment health checks. ABB’s Remote Service agreements are designed to monitor its customers’ robots to identify when problems are likely to occur and ensure that help is dispatched before the problem can escalate. In over 60 percent of ABB’s service calls, its robots can be brought back online remotely, without further intervention.В условиях современной конкуренции окупаемость бизнеса часто зависит от соблюдения жестких графиков производства, не оставляющих времени для полномасштабных или периодических проверок исправности оборудования. Контракт Remote Service предусматривает мониторинг состояния роботов заказчика для прогнозирования возможных неисправностей и принятие мер по их предотвращению. В более чем 60 % случаев для устранения неисправности достаточно дистанционной консультации в сервисной службе АББ, дальнейшего вмешательства не требуется.ABB offers a flexible choice of service agreements for both new and existing robot installations, which helps extend the mean time between failures, shorten the time to repair and lower the total cost of ownership. With four new packages available – Support, Response, Maintenance and Warranty, each backed up by ABB’s Remote Service technology – businesses can minimize the impact of unplanned downtime and achieve improved production-line efficiency.Компания АББ предлагает гибкий выбор контрактов на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, которые позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и эксплуатационные расходы. Четыре новых пакета на основе технологии Remote Service – Support, Response, Maintenance и Warranty – позволяют минимизировать внеплановые простои и значительно повысить эффективность производства.The benefits of Remote Sevice are clear: improved availability, fewer service visits, lower maintenance costs and maximized total cost of ownership. This unique service sets ABB apart from its competitors and is the beginning of a revolution in service thinking. It provides ABB with a great opportunity to improve customer access to its expertise and develop more advanced services worldwide.Преимущества дистанционного технического обслуживания очевидны: повышенная надежность, уменьшение выездов ремонтных бригад, уменьшение затрат на обслуживание и общих эксплуатационных расходов. Эта уникальная услуга дает компании АББ преимущества над конкурентами и демонстрирует революционный подход к организации сервиса. Благодаря ей компания АББ расширяет доступ заказчиков к опыту своих специалистов и получает возможность более эффективного оказания технической помощи по всему миру.Тематики
- тех. обсл. и ремонт средств электросвязи
Обобщающие термины
EN
Англо-русский словарь нормативно-технической терминологии > remote sevice
36 run
1. noun1) Lauf, dermake a late run — (Sport or fig.) zum Endspurt ansetzen
come towards somebody/start off at a run — jemandem entgegenlaufen/losrennen
I've had a good run for my money — ich bin auf meine Kosten gekommen
go for a run [in the car] — einen [Auto]ausflug machen
3)she has had a long run of success — sie war lange [Zeit] erfolgreich
have a long run — [Stück, Show:] viele Aufführungen erleben
5) (tendency) Ablauf, derthe general run of things/events — der Lauf der Dinge/der Gang der Ereignisse
6) (regular route) Strecke, die7) (Cricket, Baseball) Lauf, der; Run, derproduction run — Ausstoß, der (Wirtsch.)
10)11) (unrestricted use)12) (animal enclosure) Auslauf, der2. intransitive verb,-nn-, ran, run1) laufen; (fast also) rennenrun for the bus — laufen od. rennen, um den Bus zu kriegen (ugs.)
2) (compete) laufen3) (hurry) laufendon't run to me when things go wrong — komm mir nicht angelaufen, wenn etwas schiefgeht (ugs.)
4) (roll) laufen; [Ball, Kugel:] rollen, laufen5) (slide) laufen; [Schlitten, [Schiebe]tür:] gleiten6) (revolve) [Rad, Maschine:] laufen7) (flee) davonlaufen8) (operate on a schedule) fahrenrun between two places — [Zug, Bus:] zwischen zwei Orten verkehren
the train is running late — der Zug hat Verspätung
the train doesn't run on Sundays — der Zug verkehrt nicht an Sonntagen
9) (pass cursorily)run through — überfliegen [Text]
run through one's head or mind — [Gedanken, Ideen:] einem durch den Kopf gehen
run through the various possibilities — die verschiedenen Möglichkeiten durchspielen
10) (flow) laufen; [Fluss:] fließenrun dry — [Fluss:] austrocknen; [Quelle:] versiegen
run low or short — knapp werden; ausgehen
11) (be current) [Vertrag, Theaterstück:] laufen12) (be present)run in the family — [Eigenschaft, Begabung:] in der Familie liegen
13) (function) laufenkeep/leave the engine running — den Motor laufen lassen/nicht abstellen
the machine runs on batteries/oil — etc. die Maschine läuft mit Batterien/Öl usw.
14) (have a course) [Straße, Bahnlinie:] verlaufeninflation is running at 15 % — die Inflationsrate beläuft sich auf od. beträgt 15 %
17) (seek election) kandidierenrun for mayor — für das Amt des Bürgermeisters kandidieren
18) (spread quickly)a shiver ran down my spine — ein Schau[d]er (geh.) lief mir den Rücken hinunter
19) (spread undesirably) [Butter, Eis:] zerlaufen; (in washing) [Farben:] auslaufen20) (ladder) [Strumpf:] Laufmaschen bekommen3. transitive verb,-nn-, ran, runrun one's hand/fingers through/along or over something — mit der Hand/den Fingern durch etwas fahren/über etwas (Akk.) streichen
run an or one's eye along or down or over something — (fig.) etwas überfliegen
2) (cause to flow) [ein]laufen lassen3) (organize, manage) führen, leiten [Geschäft usw.]; durchführen [Experiment]; veranstalten [Wettbewerb]; führen [Leben]4) (operate) bedienen [Maschine]; verkehren lassen [Verkehrsmittel]; einsetzen [Sonderbus, -zug]; laufen lassen [Motor]; abspielen [Tonband]run forward/back — vorwärts-/zurückspulen [Film, Tonband]
5) (own and use) sich (Dat.) halten [Auto]this car is expensive to run — dieses Auto ist im Unterhalt sehr teuer
6) (take for journey) fahrenI'll run you into town — ich fahre od. bringe dich in die Stadt
7) (pursue) jagenrun somebody hard or close — jemandem auf den Fersen sein od. sitzen (ugs.)
be run off one's feet — alle Hände voll zu tun haben (ugs.); (in business) Hochbetrieb haben (ugs.); see also academic.ru/23126/earth">earth 1. 4)
8) (complete) laufen [Rennen, Marathon, Strecke]run messages/errands — Botengänge machen
9)run a fever/a temperature — Fieber/erhöhte Temperatur haben
10) (publish) bringen (ugs.) [Bericht, Artikel usw.]Phrasal Verbs:- run away- run down- run in- run into- run off- run on- run out- run over- run to- run up* * *1. present participle - running; verb2) (to move smoothly: Trains run on rails.) fahren4) ((of a machine etc) to work or operate: The engine is running; He ran the motor to see if it was working.) laufen(lassen)5) (to organize or manage: He runs the business very efficiently.) leiten6) (to race: Is your horse running this afternoon?) laufen7) ((of buses, trains etc) to travel regularly: The buses run every half hour; The train is running late.) verkehren9) (to own and use, especially of cars: He runs a Rolls Royce.) sich halten12) (to move (something): She ran her fingers through his hair; He ran his eyes over the letter.) gleiten lassen13) ((in certain phrases) to be or become: The river ran dry; My blood ran cold (= I was afraid).) werden2. noun1) (the act of running: He went for a run before breakfast.) das Laufen2) (a trip or drive: We went for a run in the country.) der Abstecher6) (in cricket, a batsman's act of running from one end of the wicket to the other, representing a single score: He scored/made 50 runs for his team.) der Lauf7) (an enclosure or pen: a chicken-run.) der Auslauf•- runner- running 3. adverb(one after another; continuously: We travelled for four days running.) aufeinanderfolgend- runny- runaway
- rundown
- runner-up
- runway
- in
- out of the running
- on the run
- run across
- run after
- run aground
- run along
- run away
- run down
- run for
- run for it
- run in
- run into
- run its course
- run off
- run out
- run over
- run a temperature
- run through
- run to
- run up
- run wild* * *[rʌn]I. NOUNto let the dog out for [or let the dog have] a \run den Hund hinauslassen [o ÖSTERR fam äußerln führen]to break into a \run zu laufen beginnento go for [or do] a \run laufen gehenI go for [or do] a 5 mile \run before breakfast ich laufe vor dem Frühstück 5 Meilento set off/come in at a \run weg-/hereinlaufenhe took the ditch at a \run er nahm Anlauf und sprang über den Graben; ( fig)with his main rival out injured, he has a clear \run at the title da sein Hauptrivale verletzt ist, hat er keine Konkurrenten beim Kampf um den Titelthe \run down to the coast only takes half an hour man braucht nur eine halbe Stunde zur Küsteon the London—Glasgow \run auf der Strecke London—Glasgowbombing \run Bombardierungsstrecke f\run of bad/good luck Pech-/Glückssträhne fa long \run of bad weather eine lange Schlechtwetterperiodein the normal \run of things normalerweiseafter a short \run on Broadway nach kurzer Laufzeit am Broadwaythe company is planning a first \run of 10,000 red teddy bears die Firma plant eine Anfangsproduktion von 10.000 roten Teddybärena cheque \run Ausstellung f von Schecks durch Computera computer \run Arbeitsgang m [o Durchlauf m] eines Computerstest \run Probelauf ma sudden \run on the dollar has lowered its value die plötzliche Nachfrage nach dem Dollar ließ den Kurs sinkena \run on a bank ein Ansturm m auf eine Banka \run on the pound Panikverkäufe pl des Pfundestheir food is not the usual \run of hotel cooking ihr Essen hebt sich von der üblichen Hotelküche abchicken \run Hühnerhof mto score 4 \runs vier Treffer erzielento score a home \run einen Homerun erzielento have the \runs Dünnpfiff haben sl14.▶ to give sb a \run for their money jdn etw für sein Geld tun lassen▶ to have the \run of sth etw zur Verfügung habenwhile she's away, I have the \run of the house während sie weg ist, hat sie mir das Haus überlassen▶ to have a [good] \run for one's money etw für sein Geld bekommen▶ in the long \run langfristig, auf lange Sicht gesehen▶ in the short \run kurzfristigwhen I am rushed in the mornings, I eat breakfast on the \run wenn ich morgens in Eile bin, dann esse ich mein Frühstück auf dem Weg<ran, run>1. (move fast) laufen, rennenhe ran up/down the hill er rannte den Hügel hinauf/hinunterhe ran along/down the street er rannte die Straße entlang/hinunterhe ran into/out of the house er rannte in das Haus/aus dem Hauspeople came \running at the sound of shots Menschen kamen gelaufen, als sie Schüsse hörtento \run for the bus dem Bus nachlaufento \run for cover schnell in Deckung gehento \run for it sich akk aus dem Staub machento \run for one's life um sein Leben rennento \run for help um Hilfe laufento \run for the police die Polizei benachrichtigento \run on the spot auf der Stelle laufento go \running laufen gehen▪ to \run at sb jdn angreifenare there a lot of trains \running between London and York? verkehren viele Züge zwischen London und York?they had the new computer system up and \running within an hour sie hatten das neue Computerprogramm innerhalb einer Stunde installiert und am Laufen; ( fig)work is \running smoothly at the moment die Arbeit geht im Moment glatt von der Handto keep the economy \running die Wirtschaft am Laufen haltenthe route \runs through the mountains die Strecke führt durch die Bergea shiver ran down my back mir lief ein Schauder über den Rücken gehto \run off the road von der Straße abkommenthe vine \runs up the wall and along the fence die Weinreben schlingen sich die Wand hinauf und den Zaun entlang5. (extend)there's a beautiful cornice \running around all the ceilings ein wunderschönes Gesims verläuft um alle Decken6. (last) [an]dauernhow much longer does this course \run? wie lange dauert dieser Kurs noch?a magazine subscription usually only \runs for one year ein Zeitschriftenabonnement läuft normalerweise nur ein JahrI've had that tune \running in my head all day diese Melodie geht mir schon den ganzen Tag im Kopf herumthis show will \run and \run diese Show wird ewig laufen7. (be)inflation is \running at 10% die Inflationsrate beträgt 10 %; (amount to)he has an income \running into six figures er hat ein Einkommen, das sich auf sechsstellige Zahlen beläuft8. (flow) fließenI could feel trickles of sweat \running down my neck ich fühlte, wie mir die Schweißtropfen den Hals herunterliefentheir bodies were \running with sweat ihre Körper waren schweißüberströmtwhen the sand has \run through the egg timer, it'll be five minutes wenn der Sand durch die Eieruhr gelaufen ist, dann sind fünf Minuten vorbeithe river \runs [down] to the sea der Fluss mündet in das Meerthere was a strong tide/heavy sea \running die Flut/die See war hochdon't cry, or your make-up will \run weine nicht, sonst verwischt sich dein Make-upthe colour of the dress has \run das Kleid hat abgefärbtmy nose is \running meine Nase läuftif the paint is wet, the colours will \run into each other wenn die Farbe nass ist, fließen die Farben ineinanderto \run for President für das Präsidentenamt kandidieren, sich akk für das Amt des Präsidenten bewerben▪ to \run against sb gegen jdn kandidieren10. (in tights)oh no, my tights have \run oh nein, ich habe eine Laufmasche im Strumpf11. (proceed) verlaufencan you give me an idea of how the discussion ran? kannst du mir den Verlauf der Diskussion schildern?12. NAUT fahrento \run before the wind vor dem Wind segeln13. (to be in force) price, value of commodity gelten, gültig sein14.▶ to \run amok Amok laufen▶ to \run with blood blutüberströmt seinthe streets were \running with blood in den Straßen floss überall Blut▶ to \run deep:differences between the two sides \run deep die Unterschiede zwischen den beiden Seiten sind sehr groß▶ to \run in the family in der Familie liegen▶ feelings are \running high die Gefühle gehen hoch▶ to make sb's blood \run cold jds Blut in den Adern gefrieren lassen▶ to \run short knapp werdento \run short of sth etw nicht mehr habenwe're beginning to \run short of money uns geht langsam das Geld ausshe lets her kids \run wild [or \run riot] sie setzt ihren Kindern keinerlei Grenzento let one's imagination \run wild seiner Fantasie freien Lauf lassenIII. TRANSITIVE VERB<ran, run>1. (move fast)to \run a dead heat/a mile/a race ein totes Rennen/eine Meile/ein Rennen laufen2. (enter in race)to \run a candidate einen Kandidaten aufstellento \run a horse ein Pferd laufen lassen3. (drive)he ran his car into a tree last night er fuhr letzte Nacht mit seinem Auto gegen einen Baumto \run sb home jdn nach Hause fahrento \run sb to the station jdn zum Bahnhof bringen4. (pass)she ran her eyes/finger down the list sie ließ die Augen/den Finger über die Liste gleiten\run this rope round the tree wickle dieses Seil um den Baumhe ran a vacuum cleaner over the carpet er saugte den Teppich abto \run one's fingers through one's hair sich dat mit den Fingern durchs Haar fahren5. (operate)to \run a computer program ein Computerprogramm laufen lassento \run the engine den Motor laufen lassento \run additional trains zusätzliche Züge einsetzento \run the dishwasher/washing machine die Spülmaschine/Waschmaschine laufen lassen6. (manage)how did he end up \running the city? wie wurde er Bürgermeister der Stadt?don't tell me how to \run my life! erklär mir nicht, wie ich mein Leben leben soll!some people \run their lives according to the movements of the stars manche Leute richten ihr Leben nach dem Verlauf der Sterne austo \run a company ein Unternehmen leitento \run a government/household eine Regierung/einen Haushalt führento \run a store ein Geschäft haben7. (conduct)to \run a course einen Kurs anbietento \run an experiment/a test ein Experiment/einen Test durchführen8. (let flow)he ran a little cold water into the bath er ließ etwas kaltes Wasser in die Badewanne laufento \run [sb] a bath [or to \run a bath [for sb]] [jdm] ein Bad einlaufen lassen9. (in newspaper)to \run an article/a series einen Artikel/eine Serie bringen fam10. (smuggle)▪ to \run sth etw schmuggelnto \run sth across the border etw über die Grenze schmuggeln11. (not heed)to \run a blockade eine Blockade durchbrechento \run a red light eine rote Ampel überfahren12. (incur)to \run a risk ein Risiko eingehenyou \run the risk when gambling of losing your entire stake wenn du spielst, riskierst du, deinen gesamten Einsatz zu verlieren13. (perform small tasks)to \run errands [for sb] [für jdn] Botengänge machen14.▶ to \run sb/sth close nur knapp von jdm/etw geschlagen werden▶ to let sth \run its course etw seinen Lauf nehmen lassen▶ to \run sb to earth [or ground] jdn aufspüren▶ to \run one's eye over sth etw überfliegen▶ to \run a fever [or temperature] Fieber haben▶ to \run the show verantwortlich sein* * *run [rʌn]A s1. a) Lauf m (auch fig):in the long run auf die Dauer, auf lange Sicht, langfristig;in the short run auf kurze Sicht, kurzfristig;make a run for it sich aus dem Staub machen fig;make a run for the door zur Tür rennenb) SPORT Lauf m, Durchgang m (eines Slaloms etc)2. Laufen n, Rennen n:a) (immer) auf Trab sein umg,b) auf der Flucht sein ( from the police vor der Polizei);keep sb on the run jemanden in Trab halten umg;shoot on the run (Fußball) aus vollem Lauf schießen;give sb a (good) run for their money es jemandem nicht leicht machen;this car gives you a (good) run for your money dieser Wagen ist sein Geld wert;he’s had a (good) run for his money er ist auf seine Kosten gekommen, er kann sich nicht beklagen3. Laufschritt m:at a run im Laufschritt;go off at a run davonlaufen4. Anlauf m:take a run (einen) Anlauf nehmen5. SCHIFF, AUTO Fahrt fgo for a run in the car eine Spazierfahrt machento nach)8. Reiten: schneller Galopp9. JAGD Hatz f11. (Laich)Wanderung f (der Fische)12. MUS Lauf m13. US (kleiner) Wasserlauf14. US Laufmasche f15. (Ver)Lauf m, Fortgang m:run of the play SPORT Spielverlauf;be against the run of the play SPORT den Spielverlauf auf den Kopf stellen16. Verlauf m:17. a) Tendenz fb) Mode fa run of bad (good) luck eine Pechsträhne (eine Glückssträhne, ein Lauf);a run of good weather eine Schönwetterperiode;a run of wins eine Siegesserie20. Auflage f (einer Zeitung etc)21. TECH Herstellungsmaße pl, -größe f, (Rohr- etc) Länge f, (Betriebs) Leistung f, Ausstoß m:a) Fördererz n,b) Rohkohle f23. TECHa) Durchlauf m (eines Beschickungsguts)b) Charge f, (Beschickungs)Menge f24. TECHa) Arbeitsperiode f, Gang mb) IT (Durch)Lauf mc) Bedienung f (einer Maschine etc)25. THEAT, FILM Lauf-, Spielzeit f:the play had a run of 44 nights das Stück wurde 44-mal hintereinander gegeben;run of validity Gültigkeitsdauer27. a) Strecke fb) FLUG Rollstrecke fc) SCHIFF Etmal n (vom Schiff in 24 Stunden zurückgelegte Strecke)28. give sb the run of sth jemandem etwas zur Verfügung stellen;have the run of sth etwas zur freien Verfügung haben;29. besonders Bra) Weide f, Trift fb) Auslauf m, (Hühner) Hof m30. a) JAGD Wechsel m, (Wild)Bahn fb) Maulwurfsgang m, Kaninchenröhre f31. SPORTa) (Bob-, Rodel) Bahn f32. TECHa) Bahn fb) Laufschiene f, -planke f33. TECH Rinne f, Kanal m34. TECH Mühl-, Mahlgang mthe common run of mankind der Durchschnittsmensch37. a) Herde fb) Schwarm m (Fische)38. SCHIFF (Achter-, Vor) Piek f39. Länge f, Ausdehnung fB adj1. geschmolzen2. gegossen, geformt:run with lead mit Blei ausgegossenC v/i prät ran [ræn], pperf run1. laufen, rennen, eilen, stürzen:run round one’s backhand (Tennis etc) seine Rückhand umlaufen3. SPORTa) (um die Wette) laufenb) (an einem Lauf oder Rennen) teilnehmenc) als Zweiter etc einkommen:he ran second er wurde oder war Zweiter4. (for)a) POL kandidieren (für)b) umg sich bemühen (um):run for election kandidieren, sich zur Wahl stellen5. fig laufen (Blick, Feuer, Finger, Schauer etc):his eyes ran over it sein Blick überflog es;run back over the past Rückschau halten;this tune (idea) keeps running through my head diese Melodie (Idee) geht mir nicht aus dem Kopf6. fahren:7. gleiten (Schlitten etc), ziehen, wandern (Wolken etc):let the skis run die Skier laufen lassen10. fließen, strömen (beide auch fig), rinnen:11. lauten (Schriftstück):12. gehen (Melodie)13. vergehen, -streichen (Zeit etc)14. dauern:15. laufen (Theaterstück etc), gegeben werden16. verlaufen (Straße etc, auch Vorgang), sich erstrecken, gehen, führen (Weg etc):my talent (taste) does not run that way dafür habe ich keine Begabung (keinen Sinn)17. TECH laufen:a) gleiten:b) in Betrieb oder Gang sein, arbeiten (Maschine, Motor etc), gehen (Uhr, Mechanismus etc), funktionieren:run hot (sich) heiß laufen;with the engine running mit laufendem Motor18. in Betrieb sein (Hotel, Fabrik etc)19. zer-, auslaufen (Farbe)run with tears in Tränen schwimmen21. auslaufen (Gefäß)22. schmelzen (Metall etc):running ice tauendes Eis23. MED laufen, eiterna) wachsen, wuchern,b) klettern, ranken25. fluten, wogen:a heavy sea was running SCHIFF es lief eine schwere See27. WIRTSCHa) laufenb) fällig werden (Wechsel etc)the lease runs for 7 years der Pachtvertrag läuft auf 7 Jahre30. (mit adj und s) werden, sein:a) versiegen (Quelle),b) austrocknen,c) keine Milch mehr geben (Kuh),d) fig erschöpft sein,31. WIRTSCH stehen auf (dat) (Preis, Ware)32. klein etc ausfallen:D v/t1. einen Weg etc laufen, einschlagen, eine Strecke etc durchlaufen (auch fig), zurücklegen:run its course fig seinen Verlauf nehmen;things must run their course man muss den Dingen ihren Lauf lassenrun 22 knots SCHIFF mit 22 Knoten fahrenrun races Wettrennen veranstalten4. um die Wette laufen mit, laufen gegen5. fig sich messen mit:run sb close dicht herankommen an jemanden (a. fig)6. ein Pferda) treiben, hetzenb) laufen lassen, (für ein Rennen auch) meldena) einen Fuchs im Bau aufstöbern, bis in seinen Bau verfolgen,b) fig jemanden, etwas aufstöbern, ausfindig machen10. entfliehen (dat):run the country außer Landes flüchten11. passieren:12. Vieha) treibenb) weiden lassen14. befördern, transportieren15. Alkohol etc schmuggelnrun one’s comb through one’s hair (sich) mit dem Kamm durchs Haar fahren18. einen Film laufen lassen19. eine Artikelserie etc veröffentlichen, bringen20. TECH eine Maschine etc laufen lassen, bedienen21. einen Betrieb etc verwalten, führen, leiten, ein Geschäft, eine Fabrik etc betreiben:22. hineingeraten (lassen) in (akk):run debts Schulden machen;this faucet runs hot water aus diesem Hahn kommt heißes Wasser25. Fieber, Temperatur haben26. a) Metall schmelzenb) verschmelzenc) Blei etc gießen27. stoßen, stechen ( beide:29. Bergbau: eine Strecke treiben31. ein Bad, das Badewasser einlaufen lassen32. schieben, führen ( beide:33. (bei Spielen) eine bestimmte Punktzahl etc hintereinander erzielen:run fifteen auf fünfzehn (Punkte etc) kommen34. eine Schleuse öffnen:run dry leerlaufen lassen35. eine Naht etc mit Vorderstich nähen, heften* * *1. noun1) Lauf, dermake a late run — (Sport or fig.) zum Endspurt ansetzen
come towards somebody/start off at a run — jemandem entgegenlaufen/losrennen
go for a run [in the car] — einen [Auto]ausflug machen
3)she has had a long run of success — sie war lange [Zeit] erfolgreich
have a long run — [Stück, Show:] viele Aufführungen erleben
5) (tendency) Ablauf, derthe general run of things/events — der Lauf der Dinge/der Gang der Ereignisse
6) (regular route) Strecke, die7) (Cricket, Baseball) Lauf, der; Run, derproduction run — Ausstoß, der (Wirtsch.)
10)the runs — (coll.): (diarrhoea) Durchmarsch, der (salopp)
12) (animal enclosure) Auslauf, der2. intransitive verb,-nn-, ran, run1) laufen; (fast also) rennenrun for the bus — laufen od. rennen, um den Bus zu kriegen (ugs.)
2) (compete) laufen3) (hurry) laufendon't run to me when things go wrong — komm mir nicht angelaufen, wenn etwas schiefgeht (ugs.)
4) (roll) laufen; [Ball, Kugel:] rollen, laufen5) (slide) laufen; [Schlitten, [Schiebe]tür:] gleiten6) (revolve) [Rad, Maschine:] laufen7) (flee) davonlaufen8) (operate on a schedule) fahrenrun between two places — [Zug, Bus:] zwischen zwei Orten verkehren
run through — überfliegen [Text]
run through one's head or mind — [Gedanken, Ideen:] einem durch den Kopf gehen
10) (flow) laufen; [Fluss:] fließenrun dry — [Fluss:] austrocknen; [Quelle:] versiegen
run low or short — knapp werden; ausgehen
11) (be current) [Vertrag, Theaterstück:] laufen12) (be present)run in the family — [Eigenschaft, Begabung:] in der Familie liegen
13) (function) laufenkeep/leave the engine running — den Motor laufen lassen/nicht abstellen
the machine runs on batteries/oil — etc. die Maschine läuft mit Batterien/Öl usw.
14) (have a course) [Straße, Bahnlinie:] verlaufen15) (have wording) lauten; [Geschichte:] gehen (fig.)inflation is running at 15 % — die Inflationsrate beläuft sich auf od. beträgt 15 %
17) (seek election) kandidieren18) (spread quickly)a shiver ran down my spine — ein Schau[d]er (geh.) lief mir den Rücken hinunter
19) (spread undesirably) [Butter, Eis:] zerlaufen; (in washing) [Farben:] auslaufen20) (ladder) [Strumpf:] Laufmaschen bekommen3. transitive verb,-nn-, ran, run1) (cause to move) laufen lassen; (drive) fahrenrun one's hand/fingers through/along or over something — mit der Hand/den Fingern durch etwas fahren/über etwas (Akk.) streichen
run an or one's eye along or down or over something — (fig.) etwas überfliegen
2) (cause to flow) [ein]laufen lassen3) (organize, manage) führen, leiten [Geschäft usw.]; durchführen [Experiment]; veranstalten [Wettbewerb]; führen [Leben]4) (operate) bedienen [Maschine]; verkehren lassen [Verkehrsmittel]; einsetzen [Sonderbus, -zug]; laufen lassen [Motor]; abspielen [Tonband]run forward/back — vorwärts-/zurückspulen [Film, Tonband]
5) (own and use) sich (Dat.) halten [Auto]6) (take for journey) fahrenI'll run you into town — ich fahre od. bringe dich in die Stadt
7) (pursue) jagenrun somebody hard or close — jemandem auf den Fersen sein od. sitzen (ugs.)
be run off one's feet — alle Hände voll zu tun haben (ugs.); (in business) Hochbetrieb haben (ugs.); see also earth 1. 4)
8) (complete) laufen [Rennen, Marathon, Strecke]run messages/errands — Botengänge machen
9)run a fever/a temperature — Fieber/erhöhte Temperatur haben
10) (publish) bringen (ugs.) [Bericht, Artikel usw.]Phrasal Verbs:- run away- run down- run in- run into- run off- run on- run out- run over- run to- run up* * *(of a ladder) n.Leitersprosse f. n.Fahrt -en f.Lauf -e m.Laufmasche f. v.(§ p.,p.p.: ran, run)= laufen v.(§ p.,pp.: lief, ist gelaufen)rennen v.(§ p.,pp.: rannte, ist gerannt)37 area
1) площадь; поверхность2) зона; участок3) область действия; область применения•- area of cut per unit time
- area of inefficiency
- area of instantaneous contact
- area of passage
- assembly area
- base area
- bearing area
- bearing surface area
- blade area
- buffer area
- cable area
- calculated area
- carrying area
- charging area
- chip area
- chucking area
- CIM area
- clearance area
- collar area
- common data area
- common service area
- communications area
- contact area
- control area
- controlled area
- cross-sectional area
- cumulative contact area
- cutting area
- danger area
- data area
- deviation area
- discharge area
- dual work area
- effective area
- elliptical contact area
- enclosed working area
- environmentally controlled area
- equivalent cross-section area
- equivalent cross-sectional area
- exclusion area
- exit area
- finished-tool-storage area
- fixture build area
- fixture load/unload area
- flow area
- focusing area
- forbidden area
- force-transfer area
- free-fall area for chips
- galvanizing area
- goods inwards area
- goods-receiving area
- grinding area
- gripping area
- guarded area of the machine
- hazard area
- hazardous area
- heating area
- high EMI area
- high RFI area
- high-rise storage area
- high-volume area
- high-wear area
- holding area
- image area
- inactive area
- interfacial area
- intermittent area
- internal/external communications area
- laser manufacturing production area
- laser-heated area
- lateral area
- lifting-surface area
- light-sensitive area
- load-and-unload area
- locating area
- low-volume area
- machine-tool area
- machine-tool use area
- machining area
- manned area
- manual machining area
- manual setting-up area
- manufacturing area
- mounting area
- net area
- no-go area
- nominal area
- nonexposed area
- nonirradiated area
- nonworking area
- nozzle area
- operating area of the machine
- operating area
- overstressed local area
- paint area
- painted area
- painting area
- pallet area
- pallet-loading area
- pallet-parking area
- piston area
- plan area
- plane area
- premachining area
- preparation-of-parts area
- problem area
- production area
- prohibited area
- racking area
- ready area
- reference area
- refurbishment area
- robot arm total working area
- robot operating area
- roof area
- rough hole area
- rupture area
- sectional area
- setting-up area
- set-up area
- shearing area
- slipping area
- specific application area
- staging area
- storage area
- superimposed area
- supporting area
- system control area
- table work area
- test area
- throat area
- tool service area
- tool-inventory area
- tool-presetting area
- tool-staging area
- transitional area
- treated area
- uncontrolled area
- unit area
- useful area
- user area
- wash area
- washing area
- weld area
- work area
- working area
- workpiece-staging area
- workplace areaEnglish-Russian dictionary of mechanical engineering and automation > area
38 Singer, Isaac Merritt
[br]b. 27 October 1811 Pittstown, New York, USAd. 23 July 1875 Torquay, Devonshire, England[br]American inventor of a sewing machine, and pioneer of mass production.[br]The son of a millwright, Singer was employed as an unskilled labourer at the age of 12, but later gained wide experience as a travelling machinist. He also found employment as an actor. On 16 May 1839, while living at Lockport, Illinois, he obtained his first patent for a rock-drilling machine, but he soon squandered the money he made. Then in 1849, while at Pittsburgh, he secured a patent for a wood-and metal-carving machine that he had begun five years previously; however, a boiler explosion in the factory destroyed his machine and left him penniless.Near the end of 1850 Singer was engaged to redesign the Lerow \& Blodgett sewing machine at the Boston shop of Orson C.Phelps, where the machine was being repaired. He built an improved version in eleven days that was sufficiently different for him to patent on 12 August 1851. He formed a partnership with Phelps and G.B. Zieber and they began to market the invention. Singer soon purchased Phelps's interest, although Phelps continued to manufacture the machines. Then Edward Clark acquired a one-third interest and with Singer bought out Zieber. These two, with dark's flair for promotion and marketing, began to create a company which eventually would become the largest manufacturer of sewing machines exported worldwide, with subsidiary factories in England.However, first Singer had to defend his patent, which was challenged by an earlier Boston inventor, Elias Howe. Although after a long lawsuit Singer had to pay royalties, it was the Singer machine which eventually captured the market because it could do continuous stitching. In 1856 the Great Sewing Machine Combination, the first important pooling arrangement in American history, was formed to share the various patents so that machines could be built without infringements and manufacture could be expanded without fear of litigation. Singer contributed his monopoly on the needle-bar cam with his 1851 patent. He secured twenty additional patents, so that his original straight-needle vertical design for lock-stitching eventually included such refinements as a continuous wheel-feed, yielding presser-foot, and improved cam for moving the needle-bar. A new model, introduced in 1856, was the first to be intended solely for use in the home.Initially Phelps made all the machines for Singer. Then a works was established in New York where the parts were assembled by skilled workers through filing and fitting. Each machine was therefore a "one-off" but Singer machines were always advertised as the best on the market and sold at correspondingly high prices. Gradually, more specialized machine tools were acquired, but it was not until long after Singer had retired to Europe in 1863 that Clark made the change to mass production. Sales of machines numbered 810 in 1853 and 21,000 ten years later.[br]Bibliography12 August 1851, US patent no. 8,294 (sewing machine)Further ReadingBiographies and obituaries have appeared in Appleton's Cyclopedia of America, Vol. V; Dictionary of American Biography, Vol XVII; New York Times 25 July 1875; Scientific American (1875) 33; and National Cyclopaedia of American Biography.D.A.Hounshell, 1984, From the American System to Mass Production 1800–1932. TheDevelopment of Manufacturing Technology in the United States, Baltimore (provides a thorough account of the development of the Singer sewing machine, the competition it faced from other manufacturers and production methods).RLH39 drilling
бурение; сверление; высверливаниеbottom supported marine drilling — бурение скважин с опорой на дно (со стационарной свайной платформы)
* * *
1. бурение2. pl. буровой шлам, буровая мелочь
* * *
* * *
1) бурение; сверление; высверливание || буровой; бурильный2) pl выбуренная порода3) pl буровой шлам, буровая мука; буровая мелочь4) pl скважины5) pl алмазы величиной от 4 до 23 штук на карат•drilling afloat — бурение наплаву;
drilling ahead — 1) бурение ниже башмака обсадной колонны ( на значительную глубину) 2) бурение, опережающее проходку горной выработки;
drilling by flame — 1) термическое бурение 2) прожигание скважин;
drilling by jetting method — 1) бурение гидравлическим способом 2) гидромониторное бурение;
drilling deeper — углубка скважины;
drilling for gas — бурение на газ;
drilling for oil — бурение на нефть;
drilling for structure — картировочное бурение;
drilling for water — бурение на воду;
drilling from floating vessel — бурение с плавучего основания;
drilling in cramped quarter — бурение глубоких скважин из выработки малого сечения;
drilling into abnormal pressure zone — бурение в зоне высокого давления;
not drilling — простаивающий ();
drilling off the whipstock — бурение со стационарного отклонителя;
drilling on the bottom — чистое бурение;
drilling out of cement plug — разбуривание цементной пробки;
drilling suspended indefinitely — бурение прекращено на неопределённое время;
drilling the pay — разбуривание продуктивного пласта;
drilling to completion — бурение до проектной глубины;
drilling to predetermined depth — бурение до проектной глубины;
drilling to projected depth — бурение до проектной глубины;
drilling with aerated fluid — бурение с промывкой аэрированной жидкостью;
drilling with aerated formation water — бурение с промывкой аэрированными пластовыми водами;
drilling with air — бурение с очисткой забоя воздухом;
drilling with counterflow — бурение с обратной промывкой;
drilling with explosives — взрывное бурение;
drilling with localized mud circulation — бурение с местной промывкой;
drilling with mud — бурение с промывкой буровым раствором;
drilling with oil — бурение с промывкой раствором на углеводородной основе;
drilling with salt water — бурение с промывкой солёной водой;
drilling with sound vibration — вибробурение со звуковыми частотами;
- drilling of submarine wellsdrilling without drill pipe — беструбное бурение;
- abrasive jet drilling
- aerated-fluid drilling
- aerated-mud drilling
- aeration drilling
- air drilling
- air-and-gas drilling
- air-and-stable-foam drilling
- air-flush drilling
- air-hammer drilling
- air-hammer rotary drilling
- air-motor drilling
- air-percussion drilling
- air-reverse-circulation drilling
- angled drilling
- angular drilling
- anomaly drilling
- appraisal drilling
- arc drilling
- auger drilling
- balanced drilling
- barge drilling
- bench drilling
- blasthole drilling
- blind drilling
- borehole drilling
- bottom supported marine drilling
- bottomhole circulation drilling
- bottom-supported offshore drilling
- branched-hole drilling
- cable drilling
- cable-churn drilling
- cable-Pennsylvanian drilling
- cable-rotary drilling
- cable-tool drilling
- calibration drilling
- Calyx drilling
- Canadian drilling
- carbide percussion drilling
- chain bit drilling
- checkerboard drilling
- chemical drilling
- chilled-shot drilling
- churn drilling
- churn flame drilling
- city-lot drilling
- clean drilling
- close drilling
- close-spaced surface drilling
- close-spaced underground drilling
- cluster drilling
- cluster directional drilling of slant
- combination drilling
- compressed air drilling
- continuous penetration drilling
- contract drilling
- control angle drilling
- controlled drilling
- controlled-angle drilling
- core drilling
- counterflush drilling
- counterflush core drilling
- cover drilling
- Craelius method drilling
- deep drilling
- deep-hole drilling
- deep-water drilling
- deep-well drilling
- definition drilling
- dense drilling
- development drilling
- diamond drilling
- diamond core drilling
- direct-air-circulation drilling
- direct-circulation drilling
- directed drilling
- directional drilling
- directional drilling of slant holes
- double-barreled drilling
- double-directional drilling
- double-hand drilling
- double-inclinated drilling
- double-simultaneous drilling
- double-tube drilling
- downhole drilling
- downhole electrical motor drilling
- downhole hammer drilling
- downhole percussion drilling
- downhole turbine motor drilling
- down-the-hole drilling
- drainhole drilling
- drive-pipe drilling
- dry drilling
- dry-hole drilling
- dry percussive drilling
- dual-bore cluster drilling
- dual-hole simultaneous drilling
- dust-free drilling
- dustless drilling
- easy drilling
- electrical drilling
- electrical arc drilling
- electrical bottomhole drilling
- electrohydraulic drilling
- electrojet drilling
- electron beam drilling
- erosion drilling
- erosion jet drilling
- exhaust gas drilling
- exploration drilling
- exploratory drilling
- explosion drilling
- extended reach drilling
- failure-free drilling
- fan drilling
- flame drilling
- flame-jet drilling
- floating drilling
- fluid circulating drilling
- fluid core drilling
- flush drilling
- foam drilling
- formation drilling
- full-diameter drilling
- full-hole drilling
- gas drilling
- gas-well drilling
- geological drilling
- group drilling
- grout-hole drilling
- guided drilling
- hand drilling
- hand churn drilling
- hand hammer drilling
- hard-rock drilling
- heavy weight drilling
- high-frequency drilling
- high-frequency percussion drilling
- high-velocity jet drilling
- hooded dry drilling
- horizontal drilling
- horizontal branched-hole drilling
- horizontal-drainhole drilling
- horizontal-radial diamond drilling
- horizontal-ring drilling
- hydraulical drilling
- hydraulical percussion drilling
- hydraulical rotary drilling
- hydrodynamical drilling
- hydropercussion drilling
- hydropercussion rotary drilling
- hydroturbine downhole motor drilling
- implosion drilling
- inclination drilling
- induction drilling
- infill drilling
- injection drilling
- instrumental drilling
- intermediate hole drilling
- inverted oil emulsion drilling
- jet drilling
- jet-bit drilling
- jet-erosion drilling
- jet-piercer drilling
- jet-piercing drilling
- jetted-particle drilling
- jetting drilling
- jump drilling
- key well drilling
- large-hole drilling
- laser drilling
- lateral drilling
- line drilling
- line-hole drilling
- line-well drilling
- long-hole drilling
- machine drilling
- magnetostriction drilling
- magnetostriction rotary drilling
- marine drilling
- mechanical drilling
- mechanized drilling
- Mesabi structural drilling
- microbit drilling
- mist drilling
- moderate drilling
- mud-circulating drilling
- mud-powered hammer drilling
- multidirectional drilling
- multihole drilling
- multiple drilling
- multiple-plan drilling
- noncore drilling
- nonpressure drilling
- offset drilling
- offshore drilling
- oil-emulsion drilling
- oil-mud drilling
- oil-well drilling
- old-well deeper drilling
- one-man drilling
- on-land drilling
- optimized drilling
- oriented drilling
- original drilling
- outstep drilling
- overbalanced drilling
- overburden drilling
- overhead drilling
- parallel hole drilling
- pay drilling
- pellet impact drilling
- Pennsylvanian drilling
- percussion drilling
- percussion-air drilling
- percussion-rod drilling
- percussion-rotation drilling
- percussive drilling
- percussive-machine drilling
- percussive-rotary drilling
- performance drilling
- permafrost drilling
- petroleum drilling
- pier drilling
- pillar extraction drilling
- pilot drilling
- pipe-driving drilling
- pipeless drilling
- pipeless downhole electrical motor drilling
- placer drilling
- plasma drilling
- plug drilling
- pneumatical drilling
- preliminary drilling
- pressure drilling
- probe drilling
- production drilling
- prospect drilling
- pulsed jet drilling
- push-button drilling
- push-feed drilling
- quick-blow drilling
- radial drilling
- random drilling
- rapid-blow drilling
- reduced-pressure drilling
- remote automated drilling
- reverse-circulation core drilling
- ring drilling
- rock drilling
- rocket drilling
- rod drilling
- rod-tool drilling
- roller-bit drilling
- rope drilling
- rotary drilling
- rotary-percussion drilling
- rotary-turbine drilling
- rotation drilling
- rotation-vibropercussion drilling
- rough drilling
- run-to-waste drilling
- safe drilling
- salt-dome drilling
- sample drilling
- scattered drilling
- seam drilling
- secondary drilling
- sectional steel drilling
- self-cleaning drilling
- shaft drilling
- shallow drilling
- shaped charge drilling
- shelf drilling
- ship-side drilling
- shock-wave drilling
- shot drilling
- shot core drilling
- shothole drilling
- simultaneous drilling
- single-hand drilling
- single-pass drilling
- single-row drilling
- slant-hole drilling
- slim-hole drilling
- sonic combination drilling
- spark drilling
- spindle feed drilling
- spring-pole drilling
- steel-shot drilling
- straight-ahead drilling
- straight-hole drilling
- straight-hole directional drilling
- stratigraphic test drilling
- structure drilling
- subgrade drilling
- submarine drilling
- subsurface drilling
- superdeep drilling
- surface drilling
- surface blasthole drilling
- surface hole drilling
- tension drilling
- test drilling
- test-hole drilling
- test-well drilling
- thermal drilling
- top hammer drilling
- top hole drilling
- tough drilling
- town-lot drilling
- triple-hole simultaneous drilling
- trouble-free drilling
- tungsten-carbide drilling
- turbine motor drilling
- ultradeep drilling
- ultrasonic drilling
- underbalanced drilling
- underground drilling
- underwater drilling
- up-hole drilling
- upper-hole drilling
- vacuum drilling
- vertical drilling
- vertical ring drilling
- vibration drilling
- vibratory drilling
- vibratory-percussion drilling
- vibratory-rotary drilling
- vibropercussion drilling
- vibropercussion rotary drilling
- wash drilling
- water drilling
- water-assisted drilling
- water-flush drilling
- water-jet drilling
- water-well drilling
- well drilling
- wet drilling
- wild-cat drilling
- wireline drilling* * *Англо-русский словарь нефтегазовой промышленности > drilling
40 Produktion
Produktion f IND production, manufacturing capacity, output, shop floor • die Produktion ausweiten IND expand output • die Produktion erhöhen IND increase production • die Produktion steigern IND increase production • die Produktion umschalten IND switch production • etw. in Produktion geben IND put sth into production • Produktion einschränken GEN, IND scale down production • Produktion herunterfahren GEN, IND scale down production* * *f < Ind> production, manufacturing capacity, output, shop floor ■ die Produktion ausweiten < Ind> expand output ■ Produktion einschränken <Geschäft, Ind> scale down production ■ die Produktion erhöhen < Ind> increase production ■ Produktion herunterfahren <Geschäft, Ind> scale down production ■ die Produktion steigern < Ind> increase production ■ die Produktion umschalten < Ind> switch production ■ etw. in Produktion geben < Ind> put sth into production* * *Produktion
production, producing, output, manufacture, manufacturing, outturn, make;
• aus örtlicher Produktion home-grown;
• abnehmende Produktion ebbing production;
• mit hohen Selbstkosten arbeitende Produktion high-cost production;
• beanstandete Produktion rejected production;
• bedarfsgerechte Produktion production on demand;
• billige Produktion low-cost production;
• computerüberwachte Produktion computer-aided machining;
• durchschnittliche Produktion average production;
• einheimische Produktion home (domestic) production;
• erhöhte Produktion increased production;
• fabrikmäßige Produktion mass (series) production;
• gedrosselte Produktion curtailed production;
• gekoppelte Produktion combined production;
• gelenkte Produktion controlled production;
• genormte Produktion standardized production;
• geplante Produktion budgeted production;
• gesamtwirtschaftliche Produktion overall economic output;
• patentamtlich (urheberrechtlich) geschützte Produktion copyrighted productions;
• gewerbliche Produktion factory production;
• gleichmäßige Produktion steady production;
• großbetriebliche Produktion large-scale (wholesale) production;
• handwerkliche Produktion manual production;
• industrielle Produktion industrial production;
• inländische Produktion domestic (home) production;
• jährliche Produktion annual production;
• landwirtschaftliche Produktion agricultural (farm) production, farm output;
• laufende Produktion current production;
• innerhalb der Rentabilität liegende Produktion marginal production;
• lohnintensive Produktion wage-intensive production;
• maschinelle Produktion machine production;
• minderwertige Produktion irregulars;
• mittelbare Produktion indirect production;
• monatliche Produktion monthly production;
• nachhinkende Produktion lag in production;
• rückläufige Produktion falling (declining, receding) production;
• saisonbedingte Produktion seasonal production;
• schlanke Produktion lean production;
• schrumpfende Produktion contracting (falling) production, contraction of production;
• serienmäßige Produktion serial (series, volume) production, production in bulk;
• stetige Produktion settled production;
• stillgelegte Produktion non-production;
• tägliche Produktion daily output;
• teure Produktion high-cost (expensive) production;
• überschüssige Produktion surplus production;
• verbundene Produktion joint production;
• vergesellschaftete Produktion socialized production;
• verminderte Produktion curtailed production;
• vorgesehene Produktion proposed production;
• vorübergehende Produktion change-over production;
• wirkliche Produktion genuine production;
• zurückgewiesene Produktion rejected production;
• Produktion vor Auftragseingang speculative production;
• Produktion bei voller Auslastung capacity output;
• Produktion am laufenden Band moving-band production, assembly-line technique, line (belt-system of) production;
• Produktion je Beschäftigtenstunde production per man-hour;
• Produktion nur auf Bestellung intermittent manufacturing;
• Produktion für den Eigenbedarf in-house manufacture;
• Produktion der Euro-Banknoten printing of the euro;
• Produktion mit großen Exportmöglichkeiten output of high export potential;
• Produktion schnell verbrauchter Güter soft-goods production;
• Produktion der verarbeitenden Industrie manufacturing production;
• Produktion pro Kopf per-capita production;
• Produktion an der Kostengrenze marginal production;
• Produktion von Massengütern large-scale (wholesale) production, production of manufactured goods;
• Produktion an Ort und Stelle on-the-spot production;
• Produktion abbremsen to put a check on production;
• Produktion ankurbeln to crank up production;
• Produktion den Absatzmöglichkeiten anpassen to match production to the absorption capacities;
• Produktion der Nachfrage anpassen (angleichen) to tailor (gear) production to demand;
• Produktion anregen to stimulate production;
• in der Produktion arbeiten to work on the assembly line;
• bei geringerer Produktion wirtschaftlicher arbeiten to work economically at a lower output;
• Produktion aufnehmen to go into production;
• Produktion auslagern to relocate production;
• wesentlichen Teil der Produktion ausmachen to form the bulk of production;
• mit der Produktion beginnen to go into production;
• sofort wieder mit der Produktion beginnen to rush into production;
• Produktion beschränken to curtail production;
• Produktion auf den Höchststand bringen to raise production to a maximum;
• Produktion drosseln (einschränken) to reduce the output, to restrain (curb, curtail, cut, slash, check, restrict) production;
• Produktion künstlich einschränken to ca’canny;
• Produktion einstellen to discontinue production (the manufacture), to fold up, to phase out;
• Produktion erhöhen to step up production;
• Produktion fördern to stimulate (promote) production;
• in Produktion gehen to go into production;
• Produktion in Gang halten to keep industry going (production wheels humming; seine Produktion auf dem Stand (Niveau) von 2002 halten to keep production at its 2002 level;
• Produktion hochtreiben to gear up production;
• Produktion programmieren to scale production;
• in der Produktion begriffen sein to be in process of production;
• Produktion steigern to step up (increase) production;
• Produktion stilllegen to halt production lines;
• Produktion umstellen to convert production;
• Produktion verlangsamen (verringern) to slow down (reduce) production;
• Produktion zurückfahren to slow down production.СтраницыСм. также в других словарях:
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