-
1 type-carrying cylinder
English-Russian big polytechnic dictionary > type-carrying cylinder
-
2 type-carrying cylinder
1) Полиграфия: барабан с литерами2) Макаров: барабан с литерами (в наборно-печатной машине)Универсальный англо-русский словарь > type-carrying cylinder
-
3 type-carrying cylinder
барабан с литерами (в наборно-печатной машине)Англо-русский словарь по полиграфии и издательскому делу > type-carrying cylinder
-
4 cylinder
1) цилиндр2) барабан3) валикАнгло-русский словарь по полиграфии и издательскому делу > cylinder
-
5 cylinder
1. барабан2. валикadvance cylinder — передаточный цилиндр бумагопитающей системы, листоускоряющий цилиндр
blanketed impression cylinder — печатный цилиндр, обтянутый резиновым полотном
3. медный вал, медный цилиндр4. цилиндр, на котором формируется изображениеinfeed cylinder — листоускоряющий цилиндр; вспомогательный цилиндр для передачи листов в захваты печатного цилиндра
ink vibrating cylinder — раскатной цилиндр, имеющий осевое перемещение
jaw cylinder — клапанный цилиндр ; цилиндр с захватами
locomotive printing cylinder — печатный цилиндр, прокатывающийся по неподвижной форме
hydraulic cylinder — гидроцилиндр; гидравлический цилиндр
5. формный цилиндр офсетной множительной машины; цилиндр с офсетной бумажной формой6. цилиндр с эталонной формойnonvibrating cylinder — цилиндр, не имеющий осевого перемещения
paneled cylinder — цилиндр с плоскими гранями ; призматический барабан
perfecting cylinder — цилиндр, используемый для запечатывания оборотной стороны
7. пресс-цилиндр, давящий цилиндр8. уст. печатное устройство9. прессовый валикprinting film cylinder — цилиндр с гибкой печатной формой; формный цилиндр
punch cylinder — перфорирующий барабан, цилиндр, несущий пуансон
registering cylinder — регистровый цилиндр, цилиндр с упорами для выравнивания
10. вращающийся цилиндр11. цилиндр ротационного устройстваrubber cloth cylinder — офсетный цилиндр; цилиндр с резиновым полотном
scanning cylinder — развёртывающий цилиндр, цилиндр развёртки
second printing cylinder — цилиндр для печатания второй краской, цилиндр второй печатной секции
sectional cylinder — цилиндр с плоскими гранями ; призматический барабан
single-sized impression cylinder — печатный цилиндр, по окружности которого размещается лист одинарного формата
skeleton cylinder — передаточный барабан с опорными дисками ; барабан с рядом направляющих дисков
staggered cylinder — цилиндр, смещаемый в продольном и поперечном направлениях
stereotype-bearing cylinder — формный цилиндр, несущий стереотипы; цилиндр со стереотипной формой
traveling cylinder — цилиндр, прокатывающийся по форме
vibrating cylinder — цилиндр, имеющий осевое перемещение
12. формный цилиндрhigh pressure cylinder — цилиндр высокого давления; ЦВД
13. уст. формный цилиндр с пазами для установки клинообразных литерvacuum-operated printing cylinder — вакуумный формный цилиндр; цилиндр, на котором форма закрепляется с помощью вакуума
-
6 drying cylinder
1. сушильный барабан2. сушильный цилиндрEnglish-Russian big polytechnic dictionary > drying cylinder
-
7 grinding cylinder
English-Russian big polytechnic dictionary > grinding cylinder
-
8 sand cylinder
-
9 барабан с литерами
1) Polygraphy: type-carrying cylinder2) Makarov: type-carrying cylinder (в наборно-печатной машине)Универсальный русско-английский словарь > барабан с литерами
-
10 формный цилиндр
1) Polygraphy: copper (plated) cylinder (глубокой печати), design cylinder, form cylinder, gravure cylinder, gravure cylinder (глубокой печати), image carrying roll, image cylinder, image roll, intaglio printing cylinder, master cylinder, outer cylinder, pattern cylinder, photogravure cylinder, photogravure cylinder (глубокой печати), plate cylinder, plate drum, plate roll, printer drum, printer drum (печатающего устройства), printing film cylinder, printing plate cylinder, printing plate holding cylinder, printing roll, rotogravure cylinder, rotogravure cylinder (глубокой печати), subject roller, type cylinder2) Advertising: design cylinder (глубокой печати)3) Makarov: intaglio printing cylinder (глубокой печати), printing roll (глубокой печати), printing roller (глубокой печати), type cylinder (высокой печати) -
11 Napier, David
SUBJECT AREA: Paper and printing[br]b. 1785 Scotlandd. 1873[br]Scottish engineer who devised printing machinery incorporating important improvements.[br]Born in Scotland, Napier moved to London to set up an engineering workshop in St Giles. In 1824 he was commissioned by Thomas Curson Hansard (1776–1833), who from 1803 began printing the debates in the Houses of Parliament, to make a perfecting press, i.e. one that printed on both sides of the paper. Known as the NayPeer, it was the first to incorporate grippers in order to improve register (the correct positioning of the paper on the inked type); the grippers took hold of a sheet of paper as it was fed on to the impression cylinder. Napier made several machines for Hansard, hand-powered at first but steam-powered from 1832. Napier did not patent the Nay-Peer, but in 1828 he took out a patent for a four-feeder press with a single impression cylinder, which had the then-usual "stop and start" action while the bed carrying the inked type passed to and fro beneath it. To speed output, two years later Napier patented a press with two cylinders revolving in the same direction in place of the single-stop cylinder. Also in 1830, the firm of Napier and Son introduced an improved form of bed and platen press, which became the most popular of its kind; one remained in use at Oxford University Press into the twentieth century. Another invention of Napier's, in 1825, was an automatic inking device, with which turning the rounce or mechanism for moving the type bed under the platen activated inking rollers working on the type. Napier is credited with being the first to introduce the printing machine to Ireland, for the Dublin Evening Post. His cylinder machine was the first of its kind in North America, where it was seen by Hoe and others.[br]Further ReadingJ.Moran, 1973, PrintingPresses, London: Faber \& Faber (contains details of Napier's printing machines).LRD -
12 head
1) головка2) головная часть; передняя часть || головной; передний; верхний3) шпиндельная головка; шпиндельная бабка (см. тж headstock)4) суппорт6) насадка, насадок10) напор; давление•head with collar — головка с цилиндрическим буртом, головка винта с цилиндрическим буртом
head with flange — головка с фланцем, головка винта с фланцем
head with nib — головка (напр. винта) с усом
head with oval neck — головка (напр. винта) с овальным подголовком
head with square neck — головка (напр. винта) с квадратным подголовком
- 5-side turret headhead with washer face — головка с опорной шайбой, головка винта с опорной шайбой
- added head
- adjustable boring head
- air gage head
- air plasma arc cutting head
- all-angle milling head
- angle gage dividing head
- angle head
- angled probe head
- angular head
- angular-positioning head
- articulating head
- assembling head
- attachment head
- autoindexing head
- automatic two-speed geared head
- axial tapping head
- ball-shaped head
- belt head
- bending head
- bidirectional planing head
- binding head
- birotary head
- bolt head
- boring head
- boring/milling head
- boring, drilling and milling head
- boring-and-facing head
- broach pull head
- broaching head
- buffing head
- button head
- capstan head
- cartridge head
- cassette head
- cassette-type spindle head
- center head
- chamfering head
- cheese head
- chisel head
- circular-type die head
- clamping head
- cluster head
- CNC angular-positioning head
- CNC milling heads
- combination head
- compound swivel spindle head
- compound-angle head
- contact head
- contacting head
- contouring head
- control wheel head
- copying head
- counterbalanced head
- counterboring head
- countersunk head
- coupling head
- cross beam head
- cross feed facing head
- cross feed head
- cross head
- cross milling-and-drilling head
- cross-rail head
- cup head
- cup-shaped head
- cutter head
- cutting head
- cylinder head
- detecting head
- detector head
- diamond knurled head
- die head
- direct-drive head
- direct-indexing head
- discharge head
- distributor head
- dividing head
- double swivel-mounted spindle head
- draw head
- drawing head
- dressing head
- drill head
- drill/tap head
- drilling head
- drilling-and-tapping head
- driving head
- dual chucking heads
- dual grinding head
- dynamic head
- effective head of pump wheel
- effective head of turbine wheel
- effective head
- electric gage head
- electric switching gage head
- electronic gage head
- end-rolling head
- engagement head
- erase head
- erasing head
- exchange gripper head
- extension head
- face-milling head
- face-mill-type cutter head
- facing head
- fang head
- fastener installation head
- feeding head
- feed-out head
- filister binding head
- filister head
- finish boring head
- fixed head
- flame tube head
- flange head
- flat head
- flexible spanner head
- flexible wrench head
- flush head
- forcing head
- fork head
- full CNC-controlled dividing head
- gage head
- gang head
- gear head
- Geneva head
- gib head
- globe head
- grinding head
- grinding wheel head
- gripper head
- half-countersunk head
- hammer head
- hex washer head
- hexagon head with collar
- hexagon head with flange
- hexagon head with washer face
- hexagon head
- hexagon turret head
- hexagonal head
- HF head
- high-speed head
- hob swivel head
- honing head
- horizontal milling head
- horizontal spindle head
- horizontal/vertical cutter head
- horizontal/vertical machining head
- hydraulically counterbalanced head
- impeller head
- index head
- indexing head
- indicating head
- inductance-type gage head
- inductive gage head
- insertion head
- instrument head
- integral facing head
- interchangeable head
- interchangeable horizontal spindle head
- keyway-cutting head
- knurled head
- knurling head
- L head
- laser gage head
- laser head
- laser-cutting head
- lever head
- live head
- live-tooling head
- loose head
- low head
- lubrication mist head
- lug head
- machine head
- machining head
- magnetic head
- manually indexable head
- master head
- maximum head
- measuring head
- mechanical dividing head
- micro-adjustable boring head
- micrometer head
- MIG welding head
- milling head
- milling spindle head
- milling-drilling head
- minimum head
- mist head
- modified boring head
- modular head
- movable head
- movable-armature gage head
- multiaxis head
- multidrill head
- multidrill/tap head
- multiple-blade gear-cutting head
- multiple-cutter head
- multiple-drill head
- multiple-sensor head
- multiple-spindle drill head
- multiple-spindle drilling head
- multiple-spindle machining head
- multipoint facing head
- multipurpose head
- multipurpose spindle head
- multispindle drilling-and-tapping head
- multispindle head
- multistation turret drilling head
- multitapping head
- multitool planing head
- multivertical spindle head
- mushroom head
- NC indexing head
- NC/TP head
- net positive suction head
- nonrotating die head
- nontilting head
- notched head
- numbering head
- nut installation head
- nutating head
- octagonal head
- offset boring head
- offset drill head
- offset head
- oil-cooled rotating machining head
- oil-pressure head
- optical dividing head
- optical scanning head
- orbiting head
- outfeed head
- oval binding head
- oven head
- pan head
- perception head
- Philips head
- photoelectric detector head
- photooptical reader head
- pickup head
- pinched head
- pipe-threading die head
- piston head
- pivot-action cutting head
- plain dividing head
- plain index head
- plain indexing head
- planer head
- planer milling head
- planetary thread-milling head
- planing head
- plasma-arc cutting head
- plotting head
- plunge milling head
- poppet head
- positive suction head
- power head
- precision concentric laser head
- pre-gaged cutting head
- pressure head
- primary head
- printer head
- probe head
- profiling head
- pulling head
- pump head
- punching-and-cutting head
- quill-adjustable cutter head
- quill-type head
- radial tapping head
- rag head
- rail head
- rail tool head
- raised cheese head
- raised countersunk head
- ram head
- ram-milling head
- ram-mounted machining head
- ram-type cutter head
- ram-type machining head
- randomly selectable head
- rated head
- read head
- read/write head
- reader head
- reading and writing head
- reading head
- read-record head
- reaming head
- recessing head
- record head
- recording head
- remote receiver head
- reproducing head
- resistance welding head
- retriever head
- right angle drill head
- right-angle head
- right-angle milling head
- right-angled head
- right-angled milling head
- riveted-over head
- rotary feeding head
- rotating reading head
- rotating tool head
- rough boring head
- round head
- round rivet head
- router head
- routing head
- saw head
- scanning head
- scanning tracing head
- screw die head
- self-opening die head
- sensing head
- sensor head
- set head
- shifting head
- side head
- side tool head
- simple spindle head
- single plate head
- single swivel-mounted spindle head
- single-cutter boring head
- single-cutter head
- sleeve-milling head
- slide-milling head
- sliding drill head
- sliding head
- sliding spindle head
- sliding vertical saddle spindle head
- slotted head
- slotting head
- snap head
- socket head
- solid head
- spark-erosion head
- spiked head
- spindle head
- spiral index head
- spiral-cutting head
- spiral-milling head
- spray head
- square head
- squeeze head
- start-up head
- static head
- static suction head
- steep head
- steeple head
- stock head
- stopper head
- straight knurled head
- straight side binding head
- suction head
- superfinishing head
- surfacing head
- swing-aside spindle head
- swinging head
- swing-on vertical head
- swivel head
- swivel spindle head
- swivel-block head
- swiveling head
- swiveling horizontal/vertical spindle head
- swiveling two-axis head
- swiveling vertical/horizontal head
- swivel-mounted head
- tandem-milling head
- tangential die head
- tapping head
- teaching head
- tension head
- T-head
- theoretical head
- thread head
- thread-cutting die head
- thread-cutting head
- threading head
- thread-rolling head
- thumb head
- tilting head
- tilting spindle head
- tool head
- tool post side head
- tool-carrying head
- tool-feeding head
- toolholder head
- tool-holding head
- tool-support head
- tool-supporting head
- torsion head
- total head
- tracer head
- tracing head
- transferrable head
- traveling head
- traversing spindle head
- trepanning head
- triangle head
- trigger probe head
- tripet turret head
- triple spindle head
- truss head
- turning head
- turret drilling head
- turret head
- twin-axis contour-facing head
- twin-cutter boring head
- twin-tool boring head
- two-flute boring head
- two-fluted boring head
- two-position cutter head
- two-position spindle head
- undercut countersunk head
- undercut raised countersunk head
- unit head
- unit spindle head
- unit-type boring head
- unit-type drill head
- unit-type mill head
- unit-type milling head
- universal boring head
- universal cutter head
- universal dividing head
- universal indexing head
- universal milling head
- upset head
- upstroking head
- vacuum head
- valve head
- velocity head
- vertical head for horizontal milling machine
- vertical milling head
- vertical/horizontal rotary head
- V-shaped head
- waisted head
- washer head
- welding head
- wheel head
- wobble broaching head
- wobble head
- work-carrying head
- workpiece-gripping head
- wrench head
- write head
- write-read head
- writing head
- X axis-controlled head
- Y axis-controlled head
- Z axis-controlled headEnglish-Russian dictionary of mechanical engineering and automation > head
-
13 Koenig, Friedrich
SUBJECT AREA: Paper and printing[br]b. 17 April 1774 Eisleben, Thuringia, Germanyd. 17 January 1833 Oberzell, near Würzburg, Germany[br]German inventor of the machine printing press.[br]Koenig became a printer and bookseller. Around 1800 he was among those who conceived the idea of mechanizing the hand printing press, which apart from minor details had survived virtually unchanged through the first three and a half centuries of printing. In 1803, in Sühl, Saxony, he designed a press in which the flat forme, carrying the type, was mechanically inked and passed to and from the platen. Whether this ma-chine was ever constructed is not known, but Koenig found little support for his ideas because of lack of technical and financial resources. So, in 1806, he went to England and was introduced to Thomas Bensley, a book printer off Fleet Street in London. Bensley agreed to support Koenig and brought in two other printers to help finance Koenig's experiments. Another German, Andreas Bauer, an engineer, assisted Koenig and became largely responsible for the practical execution of Koenig's plans.In 1810 they patented a press which was steam-driven but still used a platen. It was set to work in Bensley's office the following year but did not prove to be satisfactory. Koenig redesigned it, and in October 1811 he obtained a patent for a steam-driven press on an entirely new principle. In place of the platen, the paper was fixed around a hollow rotating cylinder, which impressed the paper on to the inked forme. In Bensley's office it was used for book printing, but its increased speed over the hand press appealed to newspaper proprietors and John Walter II of The Times asked Koenig to make a double-cylinder machine, so that the return stroke of the forme would be productive. A further patent was taken out in 1813 and the new machine was made ready to print the 29 November 1814 issue—in secrecy, behind closed doors, to forestall opposition from the pressmen working the hand presses. An important feature of the machine was that the inking rollers were not of the traditional leather or skin but a composite material made from glue, molasses and some soda. The inking could not have been achieved satisfactorily with the old materials. The editorial of that historic issue proclaimed, 'Our Journal of this day presents to the public the practical result of the greatest improvement connected with printing, since the discovery of the art itself Koenig's machine press could make 1,200 impressions an hour compared to 200 with the hand press; further improvements raised this figure to 1,500–2,000. Koenig's last English patent was in 1814 for an improved cylinder machine and a perfecting machine, which printed both sides of the paper. The steam-driven perfecting press was printing books in Bensley's office in February 1816. Koenig and Bauer wanted by that time to manufacture machine presses for other customers, but Bensley, now the principal shareholder, insisted that they should make machines for his benefit only. Finding this restriction intolerable, Koenig and Bauer returned to Germany: they became partners in a factory at Oberzell, near Würzburg, in 1817 and the firm of Koenig and Bauer flourishes there to this day.[br]Further ReadingJ.Moran, 1973, Printing Presses, London: Faber \& Faber.T.Goebel, 1956, Friedrich Koenig und die Erfindung der Schnellpresse, Würzburg.LRD -
14 ring
кольцо; поршневое кольцо; круг; обод; обруч; обойма; ободок; фланец; хомут; проушина; звучание; звон (издаваемый металлическим предметом при ударе); звонок (телефонный); обечайка; звено трубы; кольцевой жёлоб; II окружать кольцом; надевать кольцо; звенеть; звучать- piston ring scrapes off excess oil from the cylinder walls - piston ring is gummed up - piston ring sticks - e.g. due to carbonized oil - piston ring seats in - ring belt - ring-belt temperature - ring gap - ring gap in bore - ring groove bottom - ring-groove pounding - ring-groove side- ring nut- ring-oiling bearing - ring-shaped - ring side area - ring spacer - ring spring - ring squeezer - ring sticking - ring travel shoulder - ring valve - ring width - arcing ring - bottom ring - bridge ring - caulking ring - centring ring - damping ring- end ring- expander-type ring - expanding ring- eye ring- gas ring - grinding ring - helve ring - lifting ring - manhole ring - mounting ring - oil catch piston ring- oil ring- oil-scraper ring - oil-retaining ring - operating ring - pressing ring - pull ring - quick-setting ring - reinforcing ring - stiffening ring - resonant ring- rim ring- runner sealing ring - safety ring - screw ring - sealing ring - sectional adjusting ring - shell ring - shrink ring - shroud ring - shrouding ring - shrunk-on ring - slewing gear ring - sliding ring - slinger ring- oil ring- spac ring - spacing ring - speed ring - splash ring - split adjusting ring - spray ring - spring ring - stay ring - steady ring - stopper ring - strengthening ring - stuffing ring - support ring - supporting ring - suspension ring - taper ring - throat ring - thrower ring - thrust ring - tread ring - U-leather ring - U-shaped ring - V-ring - vortex ring - wearing ring - weight ring - wiper ring - yoke ring -
15 Ruggles, Stephen
SUBJECT AREA: Paper and printing[br]fl. 1820s-1850s Boston, Massachusetts, USA[br]American maker of the first successful jobbing platen press.[br]Ruggles, a Bostonian, made a cylinder press in 1827 and also a card press, but neither was manufactured. In 1839 he completed his "Engine" press, the first self-inking, treadle-driven jobbing platen press. The machine presses that had been developed from Koenig and Bauer c. 1810 were suitable for large-scale printing but less so for the small miscellaneous work of the jobbing printer. For these needs, the bed and platen press was developed. The bed (carrying the type) and the platen (which pressed the paper onto the inked type) were pivoted and brought together like the jaws of a nutcracker instead of moving on a separate carriage. With automatic inking and treadle operation, the press offered a rapid and simple action for the small printer. In Ruggles's first press of this kind, the bed and platen were still horizontal, the bed being uppermost. If the type became loose, however, it fell onto the platen, so in 1851 Ruggles constructed a new version in which bed and platen were vertical. Later designers modified the form of the press, but it was the Ruggles that opened up a new era for the jobbing printer.[br]Further ReadingJ.Moran, 1973, Printing Presses, London: Faber \& Faber (provides details of Ruggles's machines).LRD -
16 cover
2) покрытие; оболочка || покрывать, наносить покрытие3) кожух; футляр; чехол4) обёртка; конверт5) горн. покрывающая порода6) перекрывающая часть (черепицы, гонта или шиферного листа)8) переплётная крышка; сторонка переплётной крышки9) пищ. глазурь11) сито; совокупность сит ( в машине)•-
acoustic cover
-
antiicing cover
-
axle cap filler cover
-
axle cap inspection cover
-
axlebox cover
-
back-end cover
-
battery cover
-
belt cover
-
blank cover
-
blank end cover
-
cage cover
-
cardboard cover
-
carrying side cover
-
cassette cover
-
cell cover
-
chain pipe cover
-
closed-type cover
-
cloud cover
-
concrete cover
-
control cable cover
-
crimp cover
-
dampener cover
-
dead cover
-
deadlight cover
-
dome cover
-
dust cover
-
emery cover
-
end cover
-
exposure cover
-
flexible cover
-
flexible cylinder rod cover
-
flexible sound-damping cover
-
floating end cover
-
flour dressing cover
-
folding hatch cover
-
front end cover
-
gear case cover
-
glass cover
-
grit gauze cover
-
grout cover
-
guide-vane cover
-
hatch cover
-
head cover
-
heavy cover
-
hinged hatch cover
-
ice cover
-
integral cover
-
leaf spring cover
-
lift-off cover
-
manhole cover
-
mechanical batch cover
-
oil hole cover
-
oil-resistant hose cover
-
open-type end cover
-
pile cover
-
press cover
-
protective cover
-
pump cover
-
radiator cover
-
rigid cover
-
rock cover
-
rocker arm cover
-
rolling hatch cover
-
roll-up hatch cover
-
roof hatch cover
-
scalable cover
-
scroll cover
-
seat cover
-
shipping cover
-
shoe covers
-
single-pull hatch cover
-
sliding hatch cover
-
snow cover
-
spring cover
-
stop valve protection cover
-
storm cover
-
streamlined antenna cover
-
tail cover
-
telescopic car cover
-
three-level cloud cover
-
tip-off cover
-
top covers
-
torque hinge hatch cover
-
transmission cover
-
transparent cover
-
trough hatch cover
-
two-glass cover
-
valve chest cover
-
valve cover
-
wheel cover -
17 cover
1) крышка; кожух; щиток; чехол; оболочка || покрывать; закрывать; накрывать; защищать2) покрытие; защитный покров; накладка; обкладка ( конвейерной ленты)3) колпак, обмотка4) днище (напр. цилиндра)5) фланец•- air-tight cover
- automatic opening cover
- back cover
- bellows cover
- bellows-type cover
- blank cover
- bottom cover
- bucket side cover
- carrying side cover
- concertino cover
- concertino-type cover
- conveyor cover
- cylinder cover
- end cover
- flexible cover
- front cover
- gasket cover
- gearcase cover
- hinged cover
- insert cover
- laminated cover
- loose cover
- mobile cover
- movable cover
- nylon-weave cover
- protective cover
- pulley cover
- reinforced cover
- removable cover
- rough cover
- saw cover
- screw cover
- side cover
- sliding cover
- smooth cover
- snap-on cover
- striated cover
- telescopic covers
- thin cover
- top cover
- top side cover
- valve cover
- watertight cover
- way coverEnglish-Russian dictionary of mechanical engineering and automation > cover
-
18 paper
1. газета; журналbogus paper — газета — призрак
2. лист бумаги3. документsham paper — подложный, фальшивый документ
falsified paper — подложный, фальшивый документ
4. бумажные деньги5. пакетpaper bag — пакет; бумажный мешок
6. статья; научный докладinvited paper — заказная статья; заказной доклад
7. обои8. папье-машеcases, stands, tea-boards all of paper finely varnished and painted — коробки, подставки, чайные подносы из папье-маше, искусно разрисованные и покрытые лаком
9. подклеивать форзацacid-free paper — бескислотная бумага; антикоррозийная бумага
acid-proof paper — кислотоупорная бумага; антикоррозийная бумага
alabaster paper — алебастровая бумага; бумага, покрытая слоем свинцового сахара
Albert note paper — почтовая бумага форматом 9,8?15,2 см
albumenized paper — альбуминизированная бумага; бумага, покрытая слоем альбумина
antique paper — бумага с грубой поверхностью, имитирующая старинную бумагу ручной выделки; бумага с матовой отделкой
10. антикоррозийная бумага11. бумага с нетускнеющей поверхностью12. бумага-основа13. оклеечная бумага14. светозащитная бумага15. бумага для переноса красящего слояbakelite paper — бакелитовая бумага, бумага с наполнителем из фенольной смолы
baryta paper — баритированная бумага, баритовая бумага
bastard paper — грубая бумага; серая бумага; грубая обёрточная бумага
bible paper — словарная бумага, библьдрук
bibulous paper — промокательная бумага; впитывающая бумага
bill paper — бумага для изготовления денежных знаков и других документов строгой отчётности
blotting paper — промокательная бумага; впитывающая бумага
blueprint paper — светокопировальная бумага, бумага для изготовления синих копий, синька
board paper — часть форзаца, приклеиваемая к переплётной крышке
body paper — подложка, субстрат; бумага-основа
paper fff transparency — бумага — пленка
16. бумага для склеивания корешков блоков17. печатная бумага, бумага для печатания книг18. типографская бумагаboxed paper — бумага, уложенная или упакованная в коробку
brownprint paper — светокопировальная бумага, бумага для изготовления коричневых копий
calendered paper — каландрированная бумага, глазированная бумага, лощёная бумага, сатинированная бумага
calf paper — бумага, имитирующая телячью кожу
capsule-carrying paper — копировальная бумага с покрытием, содержащим химический реагент в микрокапсулах
carbonless paper — копировальная бумага, не содержащая пигмента, самокопирующая бумага
chattel paper — бумага, удостоверяющая имущественный интерес
19. чертёжная бумага низкого качестваbutcher paper — кровенепроницаемая бумага; толстый пергамент
20. обложечная бумагаEnglish-finish paper — глазированная, сатинированная бумага
21. бумага, испорченная при изготовленииwood-pulp paper — бумага, изготовленная из древесной массы
22. наружные листы пачки бумаги23. бумага машинного мелованияpaper web — лента бумаги, бумажная лента; бумажный рулон
24. мелованная бумага с повышенным лоскомchroma paper — высококачественная мелованная бумага, бумага высокой степени мелования
chromo paper — бумага, имитирующая хромовую кожу
clay-coated paper — бумага, покрытая слоем каолина
closely made paper with moderate finish — бумага с сомкнутой поверхностью и умеренным каландрированием
coarse paper — грубая бумага, шероховатая бумага, бумага с грубой поверхностью
coated paper — мелованная бумага; бумага с покрытием
coated free-sheet paper — мелованная бумага, не содержащая древесной массы
coated groundwood paper — мелованная бумага, содержащая древесную массу
coordinate paper — бумага с координатной сеткой, миллиметровая бумага
corn raw paper — бумага-основа для корнпапира, бумага-основа для зернёной бумаги
cross-section paper — бумага с координатной сеткой, миллиметровая бумага
cut sized paper — нарезанная бумага, бумага, разрезанная на листы канцелярского формата
Day-glo fluorescent paper — бумага дневного свечения, люминесцентная бумага
25. узорчатая бумага26. чертёжная бумага; рисовальная бумагаdeveloping paper — фотографическая бумага, фотобумага
diazo paper — диазотипная бумага, диазобумага
dielectric paper — изоляционная бумага, диэлектрическая бумага
dielectric coated paper — бумага, покрытая слоем диэлектрика
diffusion-transfer negative paper — негативная бумага, применяемая при диффузионном способе переноса изображения
27. прокладочная бумагаBible paper — библьдрук, особо тонкая непрозрачная бумага
28. промокательная бумагаsamurai commercial paper — коммерческая бумага "самурай"
29. эстампная бумага, бумага для художественной печати30. глазированная бумага; мелованная бумага31. конвертная бумагаoil tracing paper — бумага — основа для чертежной кальки
32. обёрточная бумагаextra-supercalendered paper — глазированная бумага высшего качества, суперкаландрированная бумага
fanfold paper — бумага, сфальцованная гармошкой
33. филигранная бумага, филигрань; бумага с водяными знаками34. тонкая бумага с прозрачным узором35. бумага с клеевым желатиновым слоем36. пигментная бумагаglass paper — наждачная бумага; бумага из стекловолокна
37. атласная бумагаglazed imitation paper — тонкая прочная глазированная бумага, имитирующая пергамент
38. «золотая» бумага39. бумага, окрашенная бронзовой краскойgraph paper — бумага с координатной сеткой, миллиметровая бумага
40. невыдержанная бумага41. свежевыработанная бумага; неотлежавшаяся бумагаhand-made paper — бумага ручного производства, бумага ручного отлива
hard paper — плотная бумага; картон
heat seal paper — бумага, приклеивающаяся при нагреве
heavy paper — плотная бумага, бумага с большой объёмной массой
hotmelt coated paper — бумага с покрытием, нанесённым из расплава
illustration printing paper — иллюстрационная бумага, бумага для печатания иллюстраций
image bearing paper — запечатанная бумага; бумага, несущая изображение
42. импрегнированная бумагаto rule lines on paper, to rule paper — линовать бумагу
43. изоляционная пропиточная бумагаone-side art paper — бумага, мелованная с одной стороны
metal base paper — бумага — основа для металлизирования
44. ротаторная бумага45. бумага для множительных машинIndian paper — бумага из волокон бамбука; тонкая печатная бумага
Indian Oxford paper — словарная бумага, библьдрук
46. японская бумага, японский пергамент47. имитация японской бумагиjob paper — контрольный лист ; приправочный лист
label paper — этикеточная бумага, бумага для печатания этикеток
laminated paper — многослойная бумага; ламинированная бумага
waxed paper — вощанка, вощёная бумага
48. форзацlegal paper — бумага формата 33?40,7 см
letter paper — почтовая бумага формата 25,4?40,7 см
light-weight paper — бумага с малой плотностью; неплотная бумага
49. цветная обложечная бумага50. форзацная бумага51. бумага для склеивания корешковlinty paper — бумага, пылящая при печатании
woodfree paper — бумага, не содержащая древесной массы
52. неплотная бумага53. свободная бумагаmachine-glazed paper — бумага, глазированная с одной стороны
metal paper — металлизированная бумага; фольга; станиоль
54. металлизированная бумага; фольга; станиоль55. металлописная бумагаmica paper — бумага, покрытая слюдой, слюдяная бумага
mill-conditioned paper — бумага, акклиматизированная на фабрике
mill-tinted paper — бумага фабричной окраски; бумага, окрашенная в массе
negative paper — негативная бумага, фотобумага для получения негативов
rag paper — бумага, содержащая хлопчатобумажное тряпье
paper waste — бумажный брак; макулатура; отходы бумаги
-
19 Applegath, Augustus
SUBJECT AREA: Paper and printing[br]fl. 1816–58 London, England[br]English printer and manufacturer of printing machinery.[br]After Koenig and Bauer had introduced the machine printing-press and returned to Germany, it fell to Applegath and his mechanic brother-in-law Edward Cooper to effect improvements. In particular, Applegath succeeded Koenig and Bauer as machine specialist to The Times newspaper, then in the vanguard of printing technology.Applegath and Cooper first came into prominence when the Bank of England began to seek ways of reducing the number of forged banknotes. In 1816 Cooper patented a device for printing banknotes from curved stereotypes fixed to a cylinder. These were inked and printed by the rotary method. Although Applegath and Cooper were granted money to develop their invention, the Bank did not pursue it. The idea of rotary printing was interesting, but it was not followed up, possibly due to lack of demand.Applegath and Cooper were then engaged by John Walter of The Times to remedy defects in Koenig and Bauer's presses; in 1818 Cooper patented an improved method of inking the forme and Applegath also took out patents for improvements. In 1821 Applegath had enough experience of these presses to set up as a manufacturer of printing machinery in premises in Duke Street, Blackfriars, in London. Increases in the size and circulation of The Times led Walter to ask Applegath to build a faster press. In 1827 he produced a machine with the capacity of four presses, his steam-driven four-feeder press.Its flat form carrying the type passed under four impression cylinders in a row. It could make 4,200 impressions an hour and sufficed to print The Times for twenty years, until it was superseded by the rotary press devised by Hoe. By 1826, however, Applegath was in financial difficulties; he sold his Duke Street workshop to William Clowes, a book printer. In the following year he gave up being a full-time manufacturer of printing machinery and turned to silk printing. In 1830 he patented a machine for printing rolls of calico and silk from bent intaglio plates.In 1848 Applegath was persuaded by The Times to return to newspaper printing. He tackled rotary printing without the benefit of curved printing plates and roll paper feed, and he devised a large "type revolving" machine which set the pattern for newspaper printing-presses for some twenty years.[br]Further ReadingJ.Moran, 1973, Printing Presses, London: Faber \& Faber.LRD -
20 Bollée, Ernest-Sylvain
[br]b. 19 July 1814 Clefmont (Haute-Marne), Franced. 11 September 1891 Le Mans, France[br]French inventor of the rotor-stator wind engine and founder of the Bollée manufacturing industry.[br]Ernest-Sylvain Bollée was the founder of an extensive dynasty of bellfounders based in Le Mans and in Orléans. He and his three sons, Amédée (1844–1917), Ernest-Sylvain fils (1846–1917) and Auguste (1847-?), were involved in work and patents on steam-and petrol-driven cars, on wind engines and on hydraulic rams. The presence of the Bollées' car industry in Le Mans was a factor in the establishment of the car races that are held there.In 1868 Ernest-Sylvain Bollée père took out a patent for a wind engine, which at that time was well established in America and in England. In both these countries, variable-shuttered as well as fixed-blade wind engines were in production and patented, but the Ernest-Sylvain Bollée patent was for a type of wind engine that had not been seen before and is more akin to the water-driven turbine of the Jonval type, with its basic principle being parallel to the "rotor" and "stator". The wind drives through a fixed ring of blades on to a rotating ring that has a slightly greater number of blades. The blades of the fixed ring are curved in the opposite direction to those on the rotating blades and thus the air is directed onto the latter, causing it to rotate at a considerable speed: this is the "rotor". For greater efficiency a cuff of sheet iron can be attached to the "stator", giving a tunnel effect and driving more air at the "rotor". The head of this wind engine is turned to the wind by means of a wind-driven vane mounted in front of the blades. The wind vane adjusts the wind angle to enable the wind engine to run at a constant speed.The fact that this wind engine was invented by the owner of a brass foundry, with all the gear trains between the wind vane and the head of the tower being of the highest-quality brass and, therefore, small in scale, lay behind its success. Also, it was of prefabricated construction, so that fixed lengths of cast-iron pillar were delivered, complete with twelve treads of cast-iron staircase fixed to the outside and wrought-iron stays. The drive from the wind engine was taken down the inside of the pillar to pumps at ground level.Whilst the wind engines were being built for wealthy owners or communes, the work of the foundry continued. The three sons joined the family firm as partners and produced several steam-driven vehicles. These vehicles were the work of Amédée père and were l'Obéissante (1873); the Autobus (1880–3), of which some were built in Berlin under licence; the tram Bollée-Dalifol (1876); and the private car La Mancelle (1878). Another important line, in parallel with the pumping mechanism required for the wind engines, was the development of hydraulic rams, following the Montgolfier patent. In accordance with French practice, the firm was split three ways when Ernest-Sylvain Bollée père died. Amédée père inherited the car side of the business, but it is due to Amédée fils (1867– 1926) that the principal developments in car manufacture came into being. He developed the petrol-driven car after the impetus given by his grandfather, his father and his uncle Ernest-Sylvain fils. In 1887 he designed a four-stroke single-cylinder engine, although he also used engines designed by others such as Peugeot. He produced two luxurious saloon cars before putting Torpilleur on the road in 1898; this car competed in the Tour de France in 1899. Whilst designing other cars, Amédée's son Léon (1870–1913) developed the Voiturette, in 1896, and then began general manufacture of small cars on factory lines. The firm ceased work after a merger with the English firm of Morris in 1926. Auguste inherited the Eolienne or wind-engine side of the business; however, attracted to the artistic life, he sold out to Ernest Lebert in 1898 and settled in the Paris of the Impressionists. Lebert developed the wind-engine business and retained the basic "stator-rotor" form with a conventional lattice tower. He remained in Le Mans, carrying on the business of the manufacture of wind engines, pumps and hydraulic machinery, describing himself as a "Civil Engineer".The hydraulic-ram business fell to Ernest-Sylvain fils and continued to thrive from a solid base of design and production. The foundry in Le Mans is still there but, more importantly, the bell foundry of Dominique Bollée in Saint-Jean-de-Braye in Orléans is still at work casting bells in the old way.[br]Further ReadingAndré Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).KM
- 1
- 2
См. также в других словарях:
Type-carrying cylinder — Барабан с литерами (в наборно печатной машине) … Краткий толковый словарь по полиграфии
Cylinder — Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation of a… … The Collaborative International Dictionary of English
Cylinder axis — Cylinder Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation… … The Collaborative International Dictionary of English
Cylinder engine — Cylinder Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation… … The Collaborative International Dictionary of English
Cylinder escapement — Cylinder Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation… … The Collaborative International Dictionary of English
Cylinder glass — Cylinder Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation… … The Collaborative International Dictionary of English
Cylinder mill — Cylinder Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation… … The Collaborative International Dictionary of English
Cylinder press — Cylinder Cyl in*der (s?l ?n d?r), n. [F. cylindre, OF. cilindre, L. cylindrus, fr. Gr. ky lindros, fr. kyli ndein, kyli ein, to roll. Cf. {Calender} the machine.] [1913 Webster] 1. (Geom.) (a) A solid body which may be generated by the rotation… … The Collaborative International Dictionary of English
Type 89 I-Go — Infobox Weapon name=Type 89 I Go (Chi Ro) caption=A restored Type 89 I Go at Tsuchiura GSDF Base open day origin=flag|Empire of Japan is vehicle=yes length=convert|5.73|m|ftin|abbr=on width=convert|2.13|m|ftin|abbr=on… … Wikipedia
Type 98 Ke-Ni — Infobox Weapon name=Type 98 Ke Ni caption=Type 98 light tank origin= flag|Empire of Japan is vehicle=yes length=5.5 meters width=2.2 meters height=2.38 meters weight=17 tons suspension=Bell crank speed road=50 km/hr vehicle range=300 kilometers… … Wikipedia
German Type VII submarine — Type VII U boats were the workhorses of the German World War II U boot waffe . Type VII was based on earlier German submarine designs going back to the World War I Type UB III, designed through the Dutch dummy company Ingenieurskantoor voor… … Wikipedia