Automation is the system of manufac

Automation is the system of manufacture performing certain tasks, previouslydone by people, by machines only. The sequencesof operations are controlled automatically. The most familiar example of a highly automated system is an assembly plantfor automobiles or other complex products.

The term automation is also used to describe non-manufacturingsystems in which automatic devicescan operate independently of human control. Such devices as automatic pilots, automatic telephone equipment and automated control systems are used to perform various operations much faster and better than could be done by people.

Automated manufacturing had several steps in its development. Mechanization was the first step necessary in the development of automation. The simplification of work made it possible to design and build machines that resembledthe motions of the worker. These specialized machines were motorized and they had better productionefficiency.

Industrial robots, originally designed only to perform simple tasks in environments dangerous to human workers, are now widely used to transfer, manipulate, and position both light and heavy workpieces performing all the functions of a transfer machine.

In the 1920s the automobile industry for the first time used an integrated system of production. This method of production was adopted by most car manufacturers and became known as Detroit automation.

The feedback principle is used in all automatic-control mechanisms when machines have ability to correct themselves. The feedback principle has been used for centuries. An outstanding early example is the flyball governor,invented in 1788 by James Watt to control the speed of the steam engine.The common household thermostatis another example of a feedback device.

Using feedback devices, machines can start, stop, speed up, slow down, count, inspect, test, compare, and measure. These operations are commonly applied to a wide variety of production operations.

Computers have greatly facilitatedthe use of feedback in manufacturing processes. Computers gave rise to the development of numerically controlled machines. The motions of these machines are controlled by punched paper or magnetic tapes. In numerically controlled machining centres machine tools can perform several different machining operations.

More recently, the introduction of microprocessors and computers have made possible the development of computer-aided design and computer-aided manufacture (CAD and CAM) technologies. When using these systems a designer draws a part and indicates its dimensionswith the help of a mouse, light pen, or other input device. After the drawing has been completed the computer automatically gives the instructions that direct a machining centre to machine the part.

Another development using automation are the flexible manufacturing systems (FMS). A computer in FMS can be used to monitor and control the operation of the whole factory.

Automation has also had an influence on the areas of the economy other than manufacturing. Small computers are used in systems called word processors, which are rapidly becoming a standard part of the modern office. They are used to edit texts, to type letters and so on.

Automation in Industry

Many industries are highly automated or use automation technology in some part of their operation. In communications and especially in the telephone industry dialing and transmission are all done automatically. Railways are also controlled by automatic signaling devices, which have sensors that detect carriages passing a particular point. In this way the movement and location of trains can be monitored.

Not all industries require the same degree of automation. Sales, agriculture, and some service industries are difficult to automate, though agriculture industry may become more mechanized, especially in the processing and packaging of foods.

The automation technology in manufacturing and assembly is widely used in car and other consumer product industries.

Nevertheless, each industry has its own concept of automation that answers its particular production needs.

The term automation is also used to describe non-manufacturingsystems in which automatic devicescan operate independently of human control. Such devices as automatic pilots, automatic telephone equipment and automated control systems are used to perform various operations much faster and better than could be done by people.

Automated manufacturing had several steps in its development. Mechanization was the first step necessary in the development of automation. The simplification of work made it possible to design and build machines that resembledthe motions of the worker. These specialized machines were motorized and they had better productionefficiency.

Industrial robots, originally designed only to perform simple tasks in environments dangerous to human workers, are now widely used to transfer, manipulate, and position both light and heavy workpieces performing all the functions of a transfer machine.

In the 1920s the automobile industry for the first time used an integrated system of production. This method of production was adopted by most car manufacturers and became known as Detroit automation.

The feedback principle is used in all automatic-control mechanisms when machines have ability to correct themselves. The feedback principle has been used for centuries. An outstanding early example is the flyball governor,invented in 1788 by James Watt to control the speed of the steam engine.The common household thermostatis another example of a feedback device.

Using feedback devices, machines can start, stop, speed up, slow down, count, inspect, test, compare, and measure. These operations are commonly applied to a wide variety of production operations.

Computers have greatly facilitatedthe use of feedback in manufacturing processes. Computers gave rise to the development of numerically controlled machines. The motions of these machines are controlled by punched paper or magnetic tapes. In numerically controlled machining centres machine tools can perform several different machining operations.

More recently, the introduction of microprocessors and computers have made possible the development of computer-aided design and computer-aided manufacture (CAD and CAM) technologies. When using these systems a designer draws a part and indicates its dimensionswith the help of a mouse, light pen, or other input device. After the drawing has been completed the computer automatically gives the instructions that direct a machining centre to machine the part.

Another development using automation are the flexible manufacturing systems (FMS). A computer in FMS can be used to monitor and control the operation of the whole factory.

Automation has also had an influence on the areas of the economy other than manufacturing. Small computers are used in systems called word processors, which are rapidly becoming a standard part of the modern office. They are used to edit texts, to type letters and so on.

Automation in Industry

Many industries are highly automated or use automation technology in some part of their operation. In communications and especially in the telephone industry dialing and transmission are all done automatically. Railways are also controlled by automatic signaling devices, which have sensors that detect carriages passing a particular point. In this way the movement and location of trains can be monitored.

Not all industries require the same degree of automation. Sales, agriculture, and some service industries are difficult to automate, though agriculture industry may become more mechanized, especially in the processing and packaging of foods.

The automation technology in manufacturing and assembly is widely used in car and other consumer product industries.

Nevertheless, each industry has its own concept of automation that answers its particular production needs.

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Automation is the system of manufacture performing certain tasks, previouslydone by people, by machines only. The sequencesof operations are controlled automatically. The most familiar example of a highly automated system is an assembly plantfor automobiles or other complex products.The term automation is also used to describe non-manufacturingsystems in which automatic devicescan operate independently of human control. Such devices as automatic pilots, automatic telephone equipment and automated control systems are used to perform various operations much faster and better than could be done by people.Automated manufacturing had several steps in its development. Mechanization was the first step necessary in the development of automation. The simplification of work made it possible to design and build machines that resembledthe motions of the worker. These specialized machines were motorized and they had better productionefficiency.Industrial robots, originally designed only to perform simple tasks in environments dangerous to human workers, are now widely used to transfer, manipulate, and position both light and heavy workpieces performing all the functions of a transfer machine.In the 1920s the automobile industry for the first time used an integrated system of production. This method of production was adopted by most car manufacturers and became known as Detroit automation.The feedback principle is used in all automatic-control mechanisms when machines have ability to correct themselves. The feedback principle has been used for centuries. An outstanding early example is the flyball governor,invented in 1788 by James Watt to control the speed of the steam engine.The common household thermostatis another example of a feedback device.Using feedback devices, machines can start, stop, speed up, slow down, count, inspect, test, compare, and measure. These operations are commonly applied to a wide variety of production operations.Computers have greatly facilitatedthe use of feedback in manufacturing processes. Computers gave rise to the development of numerically controlled machines. The motions of these machines are controlled by punched paper or magnetic tapes. In numerically controlled machining centres machine tools can perform several different machining operations.More recently, the introduction of microprocessors and computers have made possible the development of computer-aided design and computer-aided manufacture (CAD and CAM) technologies. When using these systems a designer draws a part and indicates its dimensionswith the help of a mouse, light pen, or other input device. After the drawing has been completed the computer automatically gives the instructions that direct a machining centre to machine the part.Another development using automation are the flexible manufacturing systems (FMS). A computer in FMS can be used to monitor and control the operation of the whole factory.Automation has also had an influence on the areas of the economy other than manufacturing. Small computers are used in systems called word processors, which are rapidly becoming a standard part of the modern office. They are used to edit texts, to type letters and so on.Automation in IndustryMany industries are highly automated or use automation technology in some part of their operation. In communications and especially in the telephone industry dialing and transmission are all done automatically. Railways are also controlled by automatic signaling devices, which have sensors that detect carriages passing a particular point. In this way the movement and location of trains can be monitored.Not all industries require the same degree of automation. Sales, agriculture, and some service industries are difficult to automate, though agriculture industry may become more mechanized, especially in the processing and packaging of foods.The automation technology in manufacturing and assembly is widely used in car and other consumer product industries.Nevertheless, each industry has its own concept of automation that answers its particular production needs.

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Автоматизация является система производства выполнения определенных задач, previouslydone людьми, лишь на машинах. Операции sequencesof контролируются автоматически. Наиболее известным примером высокой степенью автоматизации системы представляет собой сборку plantfor автомобилей или других сложных изделий.

Термин автоматизации также используется для описания не-manufacturingsystems , в которых автоматические devicescan работают независимо от человеческого контроля. Такие устройства , как автопилоты, АТС оборудования и автоматизированных систем управления используются для выполнения различных операций намного быстрее и лучше , чем можно было бы сделать людьми.

Автоматизированный производство было несколько шагов в своем развитии. Механизация был первый шаг , необходимый в развитии автоматизации. Упрощение работы позволили спроектировать и построить машины , которые resembledthe движения работника. Эти специализированные машины были моторизованные , и они были лучше productionefficiency.

Промышленные роботы, изначально предназначены только для выполнения простых задач в условиях , опасных для человека работников, в настоящее время широко используется для передачи, обработки, а также позиции как легких , так и тяжелых деталей выполнения всех функций передачи машины.

В 1920 - е годы в автомобильной промышленности впервые использовали интегрированную систему производства. Этот метод производства был принят большинством производителей автомобилей и стал известен как автоматизации Detroit.

Принцип обратной связи используется во всех механизмах автоматического управления , когда машины имеют возможность исправить себя. Принцип обратной связи был использован в течение многих столетий. Выдающийся ранний пример является Flyball губернатор, изобретенный в 1788 году Джеймс Ватт , чтобы контролировать скорость пара engine.The обычных бытовых thermostatis другой пример устройства обратной связи.

Использование устройств обратной связи, машины могут запускать, останавливать, ускорить, замедлить , граф, осмотр, испытание, сравнить и измерить. Эти операции обычно применяются для самых разнообразных производственных операций.

Компьютеры имеют значительно facilitatedthe использование обратной связи в производственных процессах. Компьютеры привели к разработке машин с числовым программным управлением. Движения этих машин находятся под контролем перфорированной бумаги или магнитных лент. В с числовым программным управлением обрабатывающих центров станков может выполнять несколько различных операций механической обработки.

В последнее время , внедрение микропроцессоров и компьютеров сделали возможным разработку автоматизированного проектирования и автоматизированного производства (САПР и CAM) технологий. При использовании этих систем дизайнер рисует часть и указывает его dimensionswith помощь мыши, светового пера или другого устройства ввода. После того , как рисунок завершен компьютер автоматически дает инструкции , которые направляют обрабатывающий центр на машине детали.

Еще одна разработка с использованием автоматизации являются гибкие производственные системы (FMS). Компьютер в FMS может использоваться для мониторинга и управления работой всего завода.

Автоматизация также оказывает влияние на области экономики , кроме производства. Маленькие компьютеры используются в системах , называемых текстовых процессоров, которые быстро становятся стандартной частью современного офиса. Они используются для редактирования текстов, вводить буквы и так далее.

Автоматизация в промышленности

многих отраслях промышленности отличаются высокой степенью автоматизации или использовать технологию автоматизации в некоторой части их работы. В связи и особенно в телефонной индустрии набора и передачи выполняются автоматически. Железные дороги также управляются с помощью автоматических устройств сигнализации, которые имеют датчики , которые обнаруживают вагонов , проходящих определенную точку. Таким образом , движение и расположение поездов можно контролировать.

Не во всех отраслях промышленности требуют той же степени автоматизации. Продажи, сельское хозяйство, и некоторые сервисные отрасли трудно автоматизировать, хотя сельское хозяйство промышленность может стать более механизированы, особенно в переработке и упаковке пищевых продуктов.

Технология автоматизации в производстве и сборке широко используется в автомобильной промышленности и других потребительских товаров отраслей.

Тем не менее, каждая отрасль имеет свою собственную концепцию автоматизации , которая отвечает конкретным потребностям производства.

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