SU1509855A1 - Pneumatic switch of gas flows - Google Patents

Abstract

The invention relates to pneumatic automation means, namely, gas flow switches, intended for cyclical alternating connection of the input gas channels to the output collector, and can be used in multipoint devices, for example, in alarm devices for pre-explosive gas concentrations. The purpose of the invention is to improve accuracy. The pneumatic gas flow switch contains the time control unit with the control unit, gas valves 3–5, inlet channels 1 and outlet headers 2. The first valve 3 is normally open, the last (valve 4) is normally closed, and the remaining valves 5 are positive and minus control cameras. The threshold elements 6 are made in the form of single-membrane repeaters with a shift, the deaf cameras of which are connected to the output 15 of the time of the master link. The control unit time of the master link is made in the form of a three-membrane relay 9 with a booster in the positive chamber and a normally open valve 10, the flow chamber of which is connected to the channel 12 of the reference pressure, the nozzle is connected to the channel 13 of the master link to the initial state, and the control chamber - with the output of the three-membrane relay 9 and with the nozzle of the first threshold element 6. The normally open nozzle of the three-membrane relay 9 communicates with the supply channel 11. The flow chamber of each threshold element 6 is connected with the positive control gas chamber the second valve corresponding to the threshold element 6, with the nozzle of the next threshold element 6 and with the negative chamber of the gas valve corresponding to the next threshold element. The flow chamber of the first threshold element 6 is connected to the control chamber of the first normally open gas valve 3, and the flow chamber of the last threshold element is connected to the control chamber of the last normally closed gas valve 4 and through the throttle 14 to the negative control chamber of the three-membrane control assembly 9 temporary link. 1 il.

Description

The invention relates to pneumatic automation means, namely to gas flow switches intended for cyclical, alternate connection to the output manifold of the input gas flows, and can

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be used in multipoint devices, for example, in pre-explosive concentration alarms.

The purpose of the invention is to improve the accuracy of the device.

The drawing is a diagram of the switch.

The switchboard contains gas valves, the inlets of which are connected to the corresponding inlet channels 1, and the outlets are connected to the outlet manifold 2. The first gas valve 3 is normally open, the last gas valve 4 is normally closed, and the remaining gas valves 5 plus (top) and minus (bottom on the drawing) control cameras.

Gas valves are controlled by threshold elements 6, made in the form of single-membrane shear repeaters.

The switch generally contains N gas valves, N input channels, labeled ..i, where i is 1, ..., N, and (N-1) threshold elements.

We are setting the link, as an example, made in the form of an inertial link with a capacity of 7 and throttle 8, through which the link is connected to the atmosphere. The link control unit contains a three-membrane relay 9 with an overpressure in the positive chamber and a normally open valve 10. The normally open nozzle of the relay 9 is connected to the power supply channel 11. The flow chamber of the valve 10 is in communication with the channel 12 of the reference pressure (Pc), and the nozzle is connected with the channel 13 of the installation of the driver link to the initial state.

The output of the last threshold element 6 through the choke 14 is connected to the negative camera relay 9.

A temporarizing link output 15 is connected to deaf chambers of threshold elements 6. The nozzle of the first threshold element 6 is connected to the output 16 of relay 9 (signal P, (). The flow chamber of each threshold element is connected to the positive control chamber of the corresponding gas valve and negative) the control chamber and the nozzle of the following gas valve and threshold element.

The device works as follows.

In the initial state after applying pressure of the backwater to the relay 9 in the valve -.

3 and 4, the reference pressure Pg is applied, which is set at outlet 15 of the time of the driver link and in the blind chambers of the threshold elements 6. In this position, the elements 6 are closed. The first input channel 1 (signal Bx.1) is connected to the output collector 2 through valve 3. Then, power is supplied to channel 11 and a signal is formed in channel 16 (). The valve 10 is closed and the discharge time of the driver link through the throttle 8 begins. The threshold elements 6 are set to successively open when a certain pressure is reached in the deaf chambers.

After the first threshold element 6 is activated, the valve 3 is closed and the next valve 5 is opened. Next, the gas valves are opened successively at intervals, determined by the setting of the threshold elements.

After the last threshold element 6 is triggered, a signal is generated which causes the relay 9 to switch with a time delay set by the choke 14.

The operation of the relay 9 will cause a signal reset () opening the valve 10 and setting the device to its original position.

The presence of capacitance 7 provides a delay in the formation of a P. signal. output 15. This delay is necessary for the discharge of air from the flow cells of elements 6 through the relay 9 ...

The air from the minus camera of the relay 9 is reset through the throttle 14, the relay 9 switches again and the signal RK 1 is generated, a new operation cycle begins.

When air is released from the negative chamber of the relay 9, the pressure in the flow chamber of the last threshold element 6 will increase somewhat. This should be taken into account when setting this threshold element.

Thus, in the proposed device, each threshold element has positive feedback, which improves its clarity and the accuracy of the device in its entirety.

Claims (1)

Invention Formula A pneumatic gas flow switch, containing a feed channel, the throttle, the time setting element with the control unit, gas valves, the inputs of which are connected to the corresponding input channels, and the outputs - with the output manifold, the first the gas valve is normally open, the latter is normally closed, and the rest of the gas valves are made with positive and negative control chambers, threshold elements made as single-membrane repeaters with a shift, the blind chambers of which are connected to the input of the driver time, the output of which is connected with the atmosphere, which differs in that, in order to increase accuracy, the time control unit of the master link is made in the form of a three-membrane relay supported in the positive chamber and a normally open valve, flow through the chamber of which is connected to the channel of the reference pressure nozzle — to the installation channel — the time of the driver link to the initial state No. 1E, and the control of the camera to the output of the three-membrane relay and from the first threshold element; the element is connected to the positive control chamber of the gas valve, corresponding to this threshold element, to the nozzle of the next threshold element, and to the negative control chamber of the gas valve, corresponding to following threshold element the flow chamber of the first threshold element is connected to the control chamber of the first normally open gas valve, and the flow chamber of the last threshold element is connected to the control chamber of the last normally closed gas yutapan and through the choke to the minus chamber of the three-membrane relay of the time star control unit no. jOBxN-1 b) (H-jbBxZ; 6Ar //; jYy  "Y Editor A. Shandor Compiled by N. Lanin Tehred A. KravchukKorrektor E. Lonchakova Order 5811/44 Circulation 668 VNIIPI State Committee on Inventions and opened 1 m at the State Science and Technology Committee of the USSR 113035, U.oskva, Zh-35, Raushsk nab. 4/5 Subscription