seen+from+the+outside

arc-proof switchboard

1. НКУ с защитой от воздействия электрической дуги

 

НКУ с защитой от воздействия электрической дуги
комплектное устройство с защитой от электрической дуги
низковольтное комплектное устройство с защитой от электрической дуги
НКУ распределения и управления с защитой от электрической дуги
-
[Интент]

EN

arc-resistant switchgear
A type of switchgear design which is designed to withstand the effects of an internal arcing fault, without causing harm to personnel who are located in defined areas. It is not intended to withstand these internal arcing fault without possibly causing physical damage to the structure and/or components, but often the physical damage is less with an arc-resistant design.

There are three classes of protection:
Type A - eliminates the emission of gases and particles from the front of the switchgear during an internal arcing fault,
Type B - eliminates the emission of gases and particles from the front and sides of the switchgear during an internal arcing fault,
Type C - eliminates the emission of gases and particles from the front and sides of the switchgear, from between compartments within the same cell, and between adjacent cells during an internal arcing fault.

Arc-resistant switchgear has traditionally been metal-clad, but the basic concept could also be applied to other types of switchgear as well.

arc-proof switchgear
An incorrect term. Please refer to arc-resistant switchgear
[Schneider Electric]
[ http://electrical-engineering-portal.com/glossary-of-medium-voltage-switchgear-terms]

Параллельные тексты EN-RU

If the electric arc occurs inside LV switchgear it generates internal overpressures and results in local overheatings which may cause high mechanical and thermal stresses in the equipment.

Besides, the involved materials can generate hot decomposition products, gases or fumes, which, due to the overpressure, are almost always ejected to the outside of the enclosure thus jeopardizing the operator safety.

The European Directive 2006/95/EC states the fundamental safety requirements for low voltage electric materials (from 50 V to 1000 V in alternating current, from 75 V to 1500 V in continuos current) to be put on the market within the European Community.

Among the essential safety requirements defined by this Directive particular importance is given to the need of taking technical measures to prevent “temperature rises, electric arcs or radiations which may result in hazards” from occurring.

This aspect has always been highly considered for apparatus, but it has been wrongly neglected for electrical switchgear and only in the last 10-15 years it has been catching on both at Italian as well as at international level.

Safety for the operator and for the installation in case of arcing inside LV switchgear can be obtained through three different design philosophies:
1. assemblies mechanically capable of withstanding the electric arc (passive protection)
2. assemblies equipped with devices limiting the effects of internal arcing (active protection)
3. assemblies equipped with current limiting circuitbreakers.

These three solutions (also combined together) have found a remakable development in the industrial field and have been successfully applied by the main manufacturers of LV switchgear and controlgear assemblies.

As it can be seen hereafter by examining the first two solutions, an “active” protection against arc faults is intrinsecally more complex than a “passive” one.

This because of the presence of additional electromechanical/ electronic devices5 which limit the arcing effects and which, by their nature, may be subject to faults or not-tripping.

[ABB]

Дуга, возникшая внутри НКУ, создает внутреннее избыточное давление и вызывает локальный перегрев, что может привести к воздействию на оборудование значительного механического напряжения и перепада температур.

Кроме того, под воздействием дуги различные материалы разлагаются на продукты, имеющие высокую температуру, в том числе газы и дым, которые почти всегда вырываются из оболочки НКУ под высоким давлением, подвергая опасности оперативный персонал.

Европейская директива 2006/95/EC определяет основные требования безопасности для низковольтного (от 50 до 1000 В переменного тока и от 75 до 1500 В постоянного тока) оборудования поставляемого на рынок Европейского Сообщества.

Одно из основных требований безопасности, определяемое данной директивой как наиболее важное, заключается в необходимости предпринять технические меры для предотвращения "подъема температуры, возникновения электрической дуги или излучения", которые могут причинить ущерб.

Данная проблема всегда учитывалась при создании различных аппаратов, но незаслуженно игнорировалась при разработке электрических комплектных устройств, и только в последние 10-15 лет ей стали уделять должное внимание как в Италии, так и во всем мире.

При возникновении электрической дуги внутри НКУ безопасность оператора и электроустановки обеспечивается тремя способами:
1. Конструкция НКУ должна выдерживать механические воздействия, возникающие при горении электрической дуги (пассивная защита).
2. НКУ должно быть оснащено устройствами, ограничивающими воздействие электрической дуги (активная защита)
3. НКУ должны быть оснащены токоограничивающими автоматическими выключателями.

Указанные три способа (применяемые совместно) получили дальнейшее развитие в промышленности и успешно применяются основными изготовителями НКУ распределения и управления.

Как будет показано далее при рассмотрении первых двух способов, активная защита от дуговых» неисправностей является более сложной, чем пассивная защита.

Это объясняется необходимостью использования дополнительных электромеханических или электронных устройств, задачей которых является ограничение воздействий дуги и которые сами могут оказаться неисправными и не сработать.

[Перевод Интент]

Тематики

• НКУ (шкафы, пульты,...)

Синонимы

• комплектное устройство с защитой от электрической дуги
• низковольтное комплектное устройство с защитой от электрической дуги
• НКУ распределения и управления с защитой от электрической дуги

EN

• arc-proof low voltage switchgear and controlgear assembly
• arc-proof switchboard
• arc-proof switchgear
• arc-resistant switchgear
• internal arc-proof switchgear and controlgear assemblу

arc-proof switchgear

1. НКУ с защитой от воздействия электрической дуги

 

НКУ с защитой от воздействия электрической дуги
комплектное устройство с защитой от электрической дуги
низковольтное комплектное устройство с защитой от электрической дуги
НКУ распределения и управления с защитой от электрической дуги
-
[Интент]

EN

arc-resistant switchgear
A type of switchgear design which is designed to withstand the effects of an internal arcing fault, without causing harm to personnel who are located in defined areas. It is not intended to withstand these internal arcing fault without possibly causing physical damage to the structure and/or components, but often the physical damage is less with an arc-resistant design.

There are three classes of protection:
Type A - eliminates the emission of gases and particles from the front of the switchgear during an internal arcing fault,
Type B - eliminates the emission of gases and particles from the front and sides of the switchgear during an internal arcing fault,
Type C - eliminates the emission of gases and particles from the front and sides of the switchgear, from between compartments within the same cell, and between adjacent cells during an internal arcing fault.

Arc-resistant switchgear has traditionally been metal-clad, but the basic concept could also be applied to other types of switchgear as well.

arc-proof switchgear
An incorrect term. Please refer to arc-resistant switchgear
[Schneider Electric]
[ http://electrical-engineering-portal.com/glossary-of-medium-voltage-switchgear-terms]

Параллельные тексты EN-RU

If the electric arc occurs inside LV switchgear it generates internal overpressures and results in local overheatings which may cause high mechanical and thermal stresses in the equipment.

Besides, the involved materials can generate hot decomposition products, gases or fumes, which, due to the overpressure, are almost always ejected to the outside of the enclosure thus jeopardizing the operator safety.

The European Directive 2006/95/EC states the fundamental safety requirements for low voltage electric materials (from 50 V to 1000 V in alternating current, from 75 V to 1500 V in continuos current) to be put on the market within the European Community.

Among the essential safety requirements defined by this Directive particular importance is given to the need of taking technical measures to prevent “temperature rises, electric arcs or radiations which may result in hazards” from occurring.

This aspect has always been highly considered for apparatus, but it has been wrongly neglected for electrical switchgear and only in the last 10-15 years it has been catching on both at Italian as well as at international level.

Safety for the operator and for the installation in case of arcing inside LV switchgear can be obtained through three different design philosophies:
1. assemblies mechanically capable of withstanding the electric arc (passive protection)
2. assemblies equipped with devices limiting the effects of internal arcing (active protection)
3. assemblies equipped with current limiting circuitbreakers.

These three solutions (also combined together) have found a remakable development in the industrial field and have been successfully applied by the main manufacturers of LV switchgear and controlgear assemblies.

As it can be seen hereafter by examining the first two solutions, an “active” protection against arc faults is intrinsecally more complex than a “passive” one.

This because of the presence of additional electromechanical/ electronic devices5 which limit the arcing effects and which, by their nature, may be subject to faults or not-tripping.

[ABB]

Дуга, возникшая внутри НКУ, создает внутреннее избыточное давление и вызывает локальный перегрев, что может привести к воздействию на оборудование значительного механического напряжения и перепада температур.

Кроме того, под воздействием дуги различные материалы разлагаются на продукты, имеющие высокую температуру, в том числе газы и дым, которые почти всегда вырываются из оболочки НКУ под высоким давлением, подвергая опасности оперативный персонал.

Европейская директива 2006/95/EC определяет основные требования безопасности для низковольтного (от 50 до 1000 В переменного тока и от 75 до 1500 В постоянного тока) оборудования поставляемого на рынок Европейского Сообщества.

Одно из основных требований безопасности, определяемое данной директивой как наиболее важное, заключается в необходимости предпринять технические меры для предотвращения "подъема температуры, возникновения электрической дуги или излучения", которые могут причинить ущерб.

Данная проблема всегда учитывалась при создании различных аппаратов, но незаслуженно игнорировалась при разработке электрических комплектных устройств, и только в последние 10-15 лет ей стали уделять должное внимание как в Италии, так и во всем мире.

При возникновении электрической дуги внутри НКУ безопасность оператора и электроустановки обеспечивается тремя способами:
1. Конструкция НКУ должна выдерживать механические воздействия, возникающие при горении электрической дуги (пассивная защита).
2. НКУ должно быть оснащено устройствами, ограничивающими воздействие электрической дуги (активная защита)
3. НКУ должны быть оснащены токоограничивающими автоматическими выключателями.

Указанные три способа (применяемые совместно) получили дальнейшее развитие в промышленности и успешно применяются основными изготовителями НКУ распределения и управления.

Как будет показано далее при рассмотрении первых двух способов, активная защита от дуговых» неисправностей является более сложной, чем пассивная защита.

Это объясняется необходимостью использования дополнительных электромеханических или электронных устройств, задачей которых является ограничение воздействий дуги и которые сами могут оказаться неисправными и не сработать.

[Перевод Интент]

Тематики

• НКУ (шкафы, пульты,...)

Синонимы

• комплектное устройство с защитой от электрической дуги
• низковольтное комплектное устройство с защитой от электрической дуги
• НКУ распределения и управления с защитой от электрической дуги

EN

• arc-proof low voltage switchgear and controlgear assembly
• arc-proof switchboard
• arc-proof switchgear
• arc-resistant switchgear
• internal arc-proof switchgear and controlgear assemblу

arc-resistant switchgear

1. НКУ с защитой от воздействия электрической дуги

 

НКУ с защитой от воздействия электрической дуги
комплектное устройство с защитой от электрической дуги
низковольтное комплектное устройство с защитой от электрической дуги
НКУ распределения и управления с защитой от электрической дуги
-
[Интент]

EN

arc-resistant switchgear
A type of switchgear design which is designed to withstand the effects of an internal arcing fault, without causing harm to personnel who are located in defined areas. It is not intended to withstand these internal arcing fault without possibly causing physical damage to the structure and/or components, but often the physical damage is less with an arc-resistant design.

There are three classes of protection:
Type A - eliminates the emission of gases and particles from the front of the switchgear during an internal arcing fault,
Type B - eliminates the emission of gases and particles from the front and sides of the switchgear during an internal arcing fault,
Type C - eliminates the emission of gases and particles from the front and sides of the switchgear, from between compartments within the same cell, and between adjacent cells during an internal arcing fault.

Arc-resistant switchgear has traditionally been metal-clad, but the basic concept could also be applied to other types of switchgear as well.

arc-proof switchgear
An incorrect term. Please refer to arc-resistant switchgear
[Schneider Electric]
[ http://electrical-engineering-portal.com/glossary-of-medium-voltage-switchgear-terms]

Параллельные тексты EN-RU

If the electric arc occurs inside LV switchgear it generates internal overpressures and results in local overheatings which may cause high mechanical and thermal stresses in the equipment.

Besides, the involved materials can generate hot decomposition products, gases or fumes, which, due to the overpressure, are almost always ejected to the outside of the enclosure thus jeopardizing the operator safety.

The European Directive 2006/95/EC states the fundamental safety requirements for low voltage electric materials (from 50 V to 1000 V in alternating current, from 75 V to 1500 V in continuos current) to be put on the market within the European Community.

Among the essential safety requirements defined by this Directive particular importance is given to the need of taking technical measures to prevent “temperature rises, electric arcs or radiations which may result in hazards” from occurring.

This aspect has always been highly considered for apparatus, but it has been wrongly neglected for electrical switchgear and only in the last 10-15 years it has been catching on both at Italian as well as at international level.

Safety for the operator and for the installation in case of arcing inside LV switchgear can be obtained through three different design philosophies:
1. assemblies mechanically capable of withstanding the electric arc (passive protection)
2. assemblies equipped with devices limiting the effects of internal arcing (active protection)
3. assemblies equipped with current limiting circuitbreakers.

These three solutions (also combined together) have found a remakable development in the industrial field and have been successfully applied by the main manufacturers of LV switchgear and controlgear assemblies.

As it can be seen hereafter by examining the first two solutions, an “active” protection against arc faults is intrinsecally more complex than a “passive” one.

This because of the presence of additional electromechanical/ electronic devices5 which limit the arcing effects and which, by their nature, may be subject to faults or not-tripping.

[ABB]

Дуга, возникшая внутри НКУ, создает внутреннее избыточное давление и вызывает локальный перегрев, что может привести к воздействию на оборудование значительного механического напряжения и перепада температур.

Кроме того, под воздействием дуги различные материалы разлагаются на продукты, имеющие высокую температуру, в том числе газы и дым, которые почти всегда вырываются из оболочки НКУ под высоким давлением, подвергая опасности оперативный персонал.

Европейская директива 2006/95/EC определяет основные требования безопасности для низковольтного (от 50 до 1000 В переменного тока и от 75 до 1500 В постоянного тока) оборудования поставляемого на рынок Европейского Сообщества.

Одно из основных требований безопасности, определяемое данной директивой как наиболее важное, заключается в необходимости предпринять технические меры для предотвращения "подъема температуры, возникновения электрической дуги или излучения", которые могут причинить ущерб.

Данная проблема всегда учитывалась при создании различных аппаратов, но незаслуженно игнорировалась при разработке электрических комплектных устройств, и только в последние 10-15 лет ей стали уделять должное внимание как в Италии, так и во всем мире.

При возникновении электрической дуги внутри НКУ безопасность оператора и электроустановки обеспечивается тремя способами:
1. Конструкция НКУ должна выдерживать механические воздействия, возникающие при горении электрической дуги (пассивная защита).
2. НКУ должно быть оснащено устройствами, ограничивающими воздействие электрической дуги (активная защита)
3. НКУ должны быть оснащены токоограничивающими автоматическими выключателями.

Указанные три способа (применяемые совместно) получили дальнейшее развитие в промышленности и успешно применяются основными изготовителями НКУ распределения и управления.

Как будет показано далее при рассмотрении первых двух способов, активная защита от дуговых» неисправностей является более сложной, чем пассивная защита.

Это объясняется необходимостью использования дополнительных электромеханических или электронных устройств, задачей которых является ограничение воздействий дуги и которые сами могут оказаться неисправными и не сработать.

[Перевод Интент]

Тематики

• НКУ (шкафы, пульты,...)

Синонимы

• комплектное устройство с защитой от электрической дуги
• низковольтное комплектное устройство с защитой от электрической дуги
• НКУ распределения и управления с защитой от электрической дуги

EN

• arc-proof low voltage switchgear and controlgear assembly
• arc-proof switchboard
• arc-proof switchgear
• arc-resistant switchgear
• internal arc-proof switchgear and controlgear assemblу

internal arc-proof switchgear and controlgear assemblу

1. НКУ с защитой от воздействия электрической дуги

 

НКУ с защитой от воздействия электрической дуги
комплектное устройство с защитой от электрической дуги
низковольтное комплектное устройство с защитой от электрической дуги
НКУ распределения и управления с защитой от электрической дуги
-
[Интент]

EN

arc-resistant switchgear
A type of switchgear design which is designed to withstand the effects of an internal arcing fault, without causing harm to personnel who are located in defined areas. It is not intended to withstand these internal arcing fault without possibly causing physical damage to the structure and/or components, but often the physical damage is less with an arc-resistant design.

There are three classes of protection:
Type A - eliminates the emission of gases and particles from the front of the switchgear during an internal arcing fault,
Type B - eliminates the emission of gases and particles from the front and sides of the switchgear during an internal arcing fault,
Type C - eliminates the emission of gases and particles from the front and sides of the switchgear, from between compartments within the same cell, and between adjacent cells during an internal arcing fault.

Arc-resistant switchgear has traditionally been metal-clad, but the basic concept could also be applied to other types of switchgear as well.

arc-proof switchgear
An incorrect term. Please refer to arc-resistant switchgear
[Schneider Electric]
[ http://electrical-engineering-portal.com/glossary-of-medium-voltage-switchgear-terms]

Параллельные тексты EN-RU

If the electric arc occurs inside LV switchgear it generates internal overpressures and results in local overheatings which may cause high mechanical and thermal stresses in the equipment.

Besides, the involved materials can generate hot decomposition products, gases or fumes, which, due to the overpressure, are almost always ejected to the outside of the enclosure thus jeopardizing the operator safety.

The European Directive 2006/95/EC states the fundamental safety requirements for low voltage electric materials (from 50 V to 1000 V in alternating current, from 75 V to 1500 V in continuos current) to be put on the market within the European Community.

Among the essential safety requirements defined by this Directive particular importance is given to the need of taking technical measures to prevent “temperature rises, electric arcs or radiations which may result in hazards” from occurring.

This aspect has always been highly considered for apparatus, but it has been wrongly neglected for electrical switchgear and only in the last 10-15 years it has been catching on both at Italian as well as at international level.

Safety for the operator and for the installation in case of arcing inside LV switchgear can be obtained through three different design philosophies:
1. assemblies mechanically capable of withstanding the electric arc (passive protection)
2. assemblies equipped with devices limiting the effects of internal arcing (active protection)
3. assemblies equipped with current limiting circuitbreakers.

These three solutions (also combined together) have found a remakable development in the industrial field and have been successfully applied by the main manufacturers of LV switchgear and controlgear assemblies.

As it can be seen hereafter by examining the first two solutions, an “active” protection against arc faults is intrinsecally more complex than a “passive” one.

This because of the presence of additional electromechanical/ electronic devices5 which limit the arcing effects and which, by their nature, may be subject to faults or not-tripping.

[ABB]

Дуга, возникшая внутри НКУ, создает внутреннее избыточное давление и вызывает локальный перегрев, что может привести к воздействию на оборудование значительного механического напряжения и перепада температур.

Кроме того, под воздействием дуги различные материалы разлагаются на продукты, имеющие высокую температуру, в том числе газы и дым, которые почти всегда вырываются из оболочки НКУ под высоким давлением, подвергая опасности оперативный персонал.

Европейская директива 2006/95/EC определяет основные требования безопасности для низковольтного (от 50 до 1000 В переменного тока и от 75 до 1500 В постоянного тока) оборудования поставляемого на рынок Европейского Сообщества.

Одно из основных требований безопасности, определяемое данной директивой как наиболее важное, заключается в необходимости предпринять технические меры для предотвращения "подъема температуры, возникновения электрической дуги или излучения", которые могут причинить ущерб.

Данная проблема всегда учитывалась при создании различных аппаратов, но незаслуженно игнорировалась при разработке электрических комплектных устройств, и только в последние 10-15 лет ей стали уделять должное внимание как в Италии, так и во всем мире.

При возникновении электрической дуги внутри НКУ безопасность оператора и электроустановки обеспечивается тремя способами:
1. Конструкция НКУ должна выдерживать механические воздействия, возникающие при горении электрической дуги (пассивная защита).
2. НКУ должно быть оснащено устройствами, ограничивающими воздействие электрической дуги (активная защита)
3. НКУ должны быть оснащены токоограничивающими автоматическими выключателями.

Указанные три способа (применяемые совместно) получили дальнейшее развитие в промышленности и успешно применяются основными изготовителями НКУ распределения и управления.

Как будет показано далее при рассмотрении первых двух способов, активная защита от дуговых» неисправностей является более сложной, чем пассивная защита.

Это объясняется необходимостью использования дополнительных электромеханических или электронных устройств, задачей которых является ограничение воздействий дуги и которые сами могут оказаться неисправными и не сработать.

[Перевод Интент]

Тематики

• НКУ (шкафы, пульты,...)

Синонимы

• комплектное устройство с защитой от электрической дуги
• низковольтное комплектное устройство с защитой от электрической дуги
• НКУ распределения и управления с защитой от электрической дуги

EN

• arc-proof low voltage switchgear and controlgear assembly
• arc-proof switchboard
• arc-proof switchgear
• arc-resistant switchgear
• internal arc-proof switchgear and controlgear assemblу

desde

desde preposición 1 ( en el tiempo) since;

◊ desde entonces/desde que se casó since then/since he got married;

¿desde cuándo trabajas aquí? how long have you been working here?; desde el primer momento right from the start; no los veo desde hace meses I haven't seen them for months; desde el 15 hasta el 30 from the 15th to o until the 30th 2 ( en el espacio) from;

◊ desde aquí/allá from here/there;

¿desde dónde tengo que leer? where do I have to read from?; desde la página 12 hasta la 20 from page 12 (up) to page 20 3 (en escalas, jerarquías) from;

◊ blusas desde 12 euros blouses from 12 euros

desde
I preposición
1 (punto en que comienza a contarse el tiempo) since: estuvo allí desde el jueves hasta el lunes, she was there from Thursday until Monday
no he hablado con él desde hace meses, I haven't talked to him for months
¿desde cuándo lo sabes?, how long have you known?
desde que María me lo dijo, ever since Maria told me
desde ayer, since yesterday
desde esta mañana, from this morning on
2 (punto en que comienza a contarse una distancia o se señala una perspectiva) from
desde aquí, from here
desde la ventana, from the window figurado habla desde la ignorancia, he speaks out from ignorance Locuciones: desde luego, of course
desde siempre, always ' desde' also found in these entries: Spanish: abandonarse - arriba - borrasca - caer - cuándo - desarrollar - doblarse - donde - ermitaña - ermitaño - españolizar - ir - gritar - judoka - lloro - llover - lozana - lozano - luego - mendicidad - mustia - mustio - nos - residir - risa - robar - rondar - siempre - tarde - ver - vivir - yudoka - abajo - antiguo - arrastrar - bombardear - bombardeo - descender - descenso - dominar - exterior - mejor - memoria - mirar - pie - razón - retroactivo - saber - ser - simpatizar English: absolutely - all - approach - arouse - back up - beginning - blow - burning - can - carry - certainly - conception - ease off - ease up - educationally - elapse - explode - first - for - from - go - gorgeous - grandstand - hear of - hence - inherent - jump down - kerb-crawl - kerb-crawling - know - listen - look down - lost - mainland - off - ought - outset - outside - pass down - perspective - range - respect - scene - see - since - spectacular - splendid - standing - talk down - then

Bollée, Ernest-Sylvain

SUBJECT AREA: Automotive engineering, Mechanical, pneumatic and hydraulic engineering

[br]

b. 19 July 1814 Clefmont (Haute-Marne), France

d. 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 Reading

André Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.

Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).

KM

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) exterior

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) de ida

outward adj de ida

the outward journey el viaje de ida

outward

tr['aʊtwəd]

adjective

1 (appearance) exterior; (sign) externo,-a, show

2 (journey, flight) de ida

adverb

1 SMALLAMERICAN ENGLISH/SMALL→ link=outwards outwards{

outward ['aʊtwərd] or outwards [-wərdz] adv

: hacia afuera, hacia el exterior

outward adj

1) : hacia afuera

an outward flow: un flujo hacia afuera

2) : externo, external

outward beauty: belleza externa

outward

adj.

• aparente adj.

• exterior adj.

• exterior y externo adj.

• externo, -a adj.

adv.

• exterior adv.

• exteriormente adv.

• hacia fuera adv.

I 'aʊtwərd, 'aʊtwəd

adjective (before n)

a) < appearance> exterior; < sign> externo

his outward cheerfulness — su aparente buen humor

b) <journey/flight> de ida

II

BrE also outwards -z adverb hacia afuera, hacia el exterior

['aʊtwǝd]

1. ADJ

1) (=going out) [flight, ship, freight] de salida, de ida; [movement] hacia fuera

on the outward journey — en el viaje de ida

2) (=exterior) [appearance etc] exterior, externo

with an outward show of concern — haciendo gala de or (LAm) luciendo preocupación

2.

ADV hacia fuera

outward bound (from/for) — saliendo (de/con rumbo a)

the ship was outward bound from/for Vigo — el barco salía de/iba con rumbo a Vigo

* * *

I ['aʊtwərd, 'aʊtwəd]

adjective (before n)

a) < appearance> exterior; < sign> externo

his outward cheerfulness — su aparente buen humor

b) <journey/flight> de ida

II

BrE also outwards [-z] adverb hacia afuera, hacia el exterior

outward

['aʊtwəd] 1.

aggettivo [appearance, sign] esteriore; [ calm] apparente

to all outward appearances — stando alle o a giudicare dalle apparenze

outward journey — viaggio d'andata

2.

avverbio outwards

* * *

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) esteriore

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) d'andata

* * *

outward /ˈaʊtwəd/

A a.

1 esterno; esteriore; estrinseco: outward form, forma esterna; outward beauty, bellezza esteriore; outward show, aspetto esteriore; apparenza

2 corporeo; materiale: outward things, le cose materiali; gli oggetti; il mondo esteriore

3 apparente; superficiale; visibile

4 di andata: (naut.) the outward voyage, il viaggio d'andata

B n.

1 [u] (l') apparenza; (l') aspetto esteriore

2 (pl.) (le) cose materiali; (il) mondo esteriore

C avv.

► outwards

● (naut.) outward bill of lading, polizza di carico per il viaggio di andata □ (naut.: di nave o passeggero) outward bound, diretto a un porto straniero; in viaggio d'andata □ (naut.) outward bounder, nave in partenza; nave in viaggio d'andata □ (naut.) outward cargo, carico di andata □ (naut.) outward freight, nolo di andata □ (teol.) the outward man, l'uomo come entità corporea.

* * *

['aʊtwəd] 1.

aggettivo [appearance, sign] esteriore; [ calm] apparente

to all outward appearances — stando alle o a giudicare dalle apparenze

outward journey — viaggio d'andata

2.

avverbio outwards

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) ytre, utvendig

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) ut-

utvendig

--------

ytre

I

subst. \/ˈaʊtwəd\/

1) ( gammeldags) ytre, utseende

2) forklaring: det som er utenfor, forklaring: den eksterne eller materielle verden

outwards ytre ting

to outward seeming tilsynelatende

II

adj. \/ˈaʊtwəd\/

1) utgående, ut-

• outward freight

(handel) utfrakt

• the outward journey

utreisen

2) ytre, ut-

• his outward appearance

hans ytre\/utseende

• outward form

utseende

3) utvendig, utvortes

• for outward application only

kun til utvortes bruk

4) ( om retning) utadrettet, utadvendt

5) kroppslig, materiell

6) ( teologi) kjødelig, legemlig

III

adv. \/ˈaʊtwəd\/ eller outwards

ut, utad, utetter, utover

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) ytri, yfirborðs-

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) útleið, ferðalag að heiman

outward

kifelé tartó, felületi

* * *

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) külső

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) kifelé tartó

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) exterior

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) ida

* * *

out.ward

['autwəd] n aparência exterior, mundo exterior. • adj 1 externo, exterior. 2 visível, aparente. 3 material,corpóreo. 4 extrínseco. 5 para uso externo. 6 superficial. • adv 1 fora, do lado externo. 2 visivelmente, publicamente. 3 para fora. 4 materialmente.

outward

adj. dış, dışa doğru olan, dışarıya giden, görünen

————————

adv. dışa doğru, dışarıya, görünüşte

* * *

dış

* * *

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) dışa doğru, dışarıya

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) dışarı, dış ülkelere

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) zunanji

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) tja grede

* * *

I [áutwəd]

adjective ( outwardly adverb)

zunanji; viden, očividen

to outward seeming — kot vse kaže

medicine for outward application — za zunanjo uporabo

mathematics outward angle — zunanji kot

nautical outward freight ( —ali cargo) — odpravni tovor

outward trade — izvozna trgovina

II [áutwəd]

noun

zunanjost; (zlasti plural) zunanji svet

outward

• ulkopuoli

• ulkopuolinen

• ulkoinen

• ulospäin

• ulko-

• ulkonainen

• ulko

• summittainen

• ylimalkainen

• pinnallinen

* * *

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) ulkoinen

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) menomatka

outward

['autwəd] 1. adj

sign, appearances zewnętrzny; journey w tamtą stronę post

2. adv, see outwards

* * *

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) zewnętrzny

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) w tamtą stronę

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) ārējs

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) turp

* * *

āriene; ārējais, ārpuses; uz āru

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) išorinis, išviršinis, matomas, pastebimas

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) į tą pusę

outward

adj. yttre; utvärtes

--------

adv. ut, utåt

* * *

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) yttre, utvändig

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) ut[]

outward

adjective

1) (on or towards the outside; able to be seen: Judging by his outward appearance, he's not very rich; no outward sign of unhappiness.) vnější

2) ((of a journey) away from: The outward journey will be by sea, but they will return home by air.) směřující ven

* * *

• vnější

• vně