SU1203497A1 - Pneumatic switching device - Google Patents

Description

one

The invention relates to control means and is intended for use in automatic process control systems.

The purpose of the invention is to improve the performance by reducing the pneumatic resistance of the communication line of the input and output channels.

The drawing is a diagram of the switch.

The switch contains valves 1, connected in a matrix pattern. Each valve is made with two interconnected membranes 2 and 3 and with a nozzle 4 connected to the corresponding output channel 5. The membranes form the first 6 and second 7 control chambers and the flow chamber 8. The flow chambers 8 of all valves are connected through inlets 9 to the input channel 10.

The first chambers 6 of the control valves 1 of each column of the switch matrix are connected to the output of a corresponding electropneumatic transducer 11, the inputs of each of which are connected to the outputs of the first 12 and second 13 pressure setting devices.

The second chambers 7 of control valves 1 of each row of the switch matrix communicate with the output of the corresponding electropneumatic transducer 14, the inputs of each of which are connected to the atmosphere and to the third unit 15 of pressure.

The windings of the converters 11 and 14 are connected respectively to the address channels of 16 columns and 17 rows (one output of the windings is connected to the common bus 18).

The switch works as follows. in a way.

1203497

In the initial position, all control chambers 7 are connected to the atmosphere through transducers 14, and to control chambers 6 are fed through

5 converters 11 output pressure P1 from setpoint 12. At the same time, the nozzles of all valves are closed. When the input signal to one of the 11 column converters it,

 About srabatsha, connects to the cameras b a control device 13 with an output pressure of P2. However, the valve nozzles remain closed. Under the influence of the control voltage supplied

15, the winding of one of the converters 14 lines, it works and in the chambers 7 of the valves of this line, using the setting device 15, creates a pressure of RE. The RZ pressure selects 20 SI in such a way that, under the action of the total pressures P1 and RZ, the diaphragm valve block does not change its position and the nozzle-flap contacts remain closed. And only in

25 one valve, located at the intersection of the selected row and column, under the action of the pressure control pressure P2 and RE, the membrane unit occupies the second extreme position, as a result

30 which opens the nozzle-damper contact and the pressure Pg, is fed to the output in the channel 5.

The valve insertion order is determined by the order of incorporation of the transducer and can be easily changed according to a predetermined program. In cases where control is desired to be carried out using only pneumatic signals, the electropneumatic converters in the rows and columns can be replaced by corresponding pneumatic elements.

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Editor V. Petrash

Compiled by N. Lanin

Tehred i.Astalosh Proofreader A. Obruchar

Order 8417/51 Circulation 709 Subscription VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Filiap PGS Patent, Uzhgorod, st. Project, 4

Claims (1)

PNEUMATIC SWITCH containing an input channel, valves connected in a matrix circuit, each of which has a first membrane and a control chamber and a flow chamber connected to the input, in which a nozzle is connected, connected to the output channel, address channels of columns connected to the windings of the electropneumatic converters of the first groups, the outputs of each of which are connected to the first control chambers of valves in the corresponding column of the matrix, and the address channel lines connected to the windings of electro-pneumatic converters the second group, characterized in that, in order to improve operational characteristics by reducing the pneumatic resistance of the communication line of the input and output channels, it is equipped with three pressure adjusters, and each valve is made with a second membrane and with a second control chamber, and the outputs each electropneumatic converter of the second group is in communication with the second valve control chambers in the corresponding row of the matrix, the inputs of the electropneumatic converters of the first group are connected to the first and second pressure switches Nia, elektropnevmopreobrazovateley inputs of the second group are connected to a third pressure setting device and the atmosphere, and inputs the valves are connected to the switch input channel.