SU1315942A1 - Device for remote control of actuating mechanisms - Google Patents

Abstract

The invention relates to pneumatic automation and can be used in the coal industry. The purpose of the invention is to expand the field of application of the device. A device for remote control of actuators, contains a main sealed enclosure 1 with an air supply unit, which is equipped with a compressor 2 with a drive, a filter 4 and a receiver 3. The case 1 is connected to an elastic tank 10 and a remote control 14, in which the remote control elements are installed 12, 13. Weekend pneumohydr ss (L Y77 nasasnoy / 16 8 h W eRT PRr- f SAE SP CO 4; to W

Description

Equal valves 15 are connected to output channels 17 and to hydraulic supply channel 16, which is also connected to the hydraulic drive of compressor 2. The compressor control unit includes valves 8

one

This invention relates to pneumatic automation and can be used in coal industry.

The purpose of the invention is to expand the field of application of the device.

The drawing shows a diagram of a device for remote control of actuators.

The main sealed enclosure 1 contains an air supply unit which consists of a compressor 2 with a drive made in the form of a hydraulic motor, a receiver 3, a filter 4 and a gearbox 5. The compressor drive control unit contains valves 6 and 7 of the sequence of minimum and maximum pressures and distributors 8 and 9 The housing 1 communicates with the elastic tank 10. The outlet 11 of the air supply unit is connected to the remote control units - to the toggle switches 12 and 13, installed in the additional sealed case - the remote control 14. In part 1 of the housing there are installed pneumatic elements - a pneumohydraulic distributor 15, control chambers, which are connected to the outputs of toggle switches 12 and 13 (the drawing shows an embodiment: a device with two toggle switches and one output 1-1 element). The drive of the compressor 2 and the distributor 15 are connected to the hydraulic supply channel 16, and the outputs of the distributor 15 are connected to the output channel 17.

Before switching on the housing 1, the tank 10 and the console 14 are filled with purified and dried air, the amount of which provides a slight overpressure in the tank 1 when filled with air with the supply pressure of the receiver 3. The excess time is maintained in the system using the elastic tank 10 and valves of sequence 6, 7; In case 1, an excess pressure is maintained for a certain time, and the air leaks compensate by changing the volume of the elastic container 10. 1 Il.

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five

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pressure in the presence of small leaks.

The device works as follows.

When the device is turned on, the control signal to the distributor B is not received, and the hydraulic power is supplied to the hydraulic motor-drive of the compressor 2, which injects air into the receiver 3.

Compressed air from the latter is fed through filter 4 and gear 5 to the toggle switches 12 and 13, with the help of which the operator has the ability to send command signals to the distributor I5 and thereby control the actuator (not shown) connected to the channels 17,

After filter 4, the compressed air also enters the valves 6 and 7 of the sequence, respectively, the minimum and maximum pressures. . When the pressure in the receiver 3 is increased, the valve 6 of the minimum pressure sequence is activated, and compressed air enters the inlet of the distributor 8, when the pressure is increased, in the receiver 3 up to the maximum, the valve 7 of the sequence activates and the compressed air enters the control valves of the distributors 8 and 9 switches them. In this case, the valve 9 turns off the hydraulic drive of the compressor 2, and valve 8 becomes self-picking and remains in this position and when the pressure in the receiver 3 decreases, when the valve 7 of the maximum pressure sequence returns to its original position and blocks access of the compressed air to the control valves of the valves 8 and 9 Compressed air to them is pushed through valve 6 of the sequence of minimum pressure and distributor

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8 until pressure in receiver 3 drops to the release threshold of valve 6 of the minimum pressure sequence.

The presence of overpressure in the housing 1 prevents the penetration of ambient air, which may contain aggressive and contaminating impurities.

Claims (1)

Formula is invented e ni A device for remote control of actuators containing a main sealed enclosure with an air supply unit located in it, which is equipped with a compressor with a drive, filter and receiver, and a forming unit Or I.Gorn 2359/49 Compiled by N. Lanin T exp ed L.Oliynyk , tt. Proofreader S.She Circulation 863 Subscription VGASHPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 command signals with output elements associated with the output channels of the device, characterized in that, in order to expand the field of application, the device is provided with It is an elastic tank communicated with the main pressurized case and a console made in the form of an additional hermetic case in which pneumatic remote control bodies are installed that are connected to the control inputs of the output elements, and a compressor drive made in the form of a hydraulic motor is connected to the hydraulic supply channel , and output elements, made in the form of pneumatic and hydrodistributors. Proofreader S. Shekmar