SU1103028A1 - Pneumatic pulse generator - Google Patents

Abstract

PNEUMATIC PULSE GENERATOR, containing two throttles, two five-line distributors, each of which has three inputs, two outputs, the first control chamber and the second control chamber in which the strut is located, the first input of the first distributor is connected to the generator input, the first output of the first the distributor is connected to the tank through the first throttle, to the first cam controllers of both valves and to the first output of the second distributor, the second output of the second distributor is connected to the output The generator channel and the second control chamber of the first distributor, the capacitance is connected to the inlet of the second throttle, the first inlet of the second distributor is connected to the atmosphere, and its third inlet is plugged, which in order to simplify the design and reduce air flow, the generator is installed the third choke, through which the first control chamber of the first distributor is connected to the tank, the output of the second throttle is connected to the third input of the first distributor, the second input of which is muffled, the first output The first distributor communicates with the second input of the second distributor, and the second output of the first distributor is connected to the atmosphere.

Description

This invention relates to temporary pneumatic automation devices for use in pneumatic control systems.

A pneumatic pulse generator containing a five-line distributor, two throttles, capacitance, input and output channels Cll is known. The disadvantage of this generator is that with a gradual increase in pressure in the control valve chamber and the linear characteristic of the backpressure spring, the distribution distributor element moves slowly and does not provide discreteness switching, especially when it is necessary to obtain a low frequency of signals, which reduces the reliability of operation of the generator In addition, the expiration of comp Atmospheric air into the atmosphere through the main throttle results in increased consumption of compressed air.

The closest to the technical essence of the invention is a generator containing two throttles, two five stranded. the distributor, each of which has three inputs, two inputs, the first control chamber and the second control chamber in which the backwater spring is located, the first input of the first distributor is connected to the generator input, the first output of the first distributor is connected to the first chambers through the first choke controlling both distributors and the first output of the second distributor, the second output of the second distributor is connected to the output channel of the generator and to the second control chamber of the first distributor, capaciously It is connected to the input of the second throttle, a first input of the second distributor is connected to the atmosphere, and its third input terminated. In addition, the known generator includes a check valve through which the first outlet of the first distributor is connected to the second inlet of the second distributor 2;

The disadvantages of the known pulse generator are the complexity of the design, as well as the increased consumption of compressed air.

The chain of the invention is to simplify the design and reduce air flow.

This goal is achieved by the fact that in a pneumatic pulse generator containing two throttles, two five-line distributors, each of which has three inputs, two outputs, a first control chamber and a second control chamber in which the back-up spring is located, the first input of the first distributor is connected to the generator input, the first output of the first distributor is connected to the tank via the first choke, to the first control cameras of both valves and to the first output of the second valve, the second output to The first distributor is connected to the output channel of the generator and to the second control chamber of the first distributor. The capacitance is connected to the input of the second throttle, the first input of the second distributor is connected to the atmosphere, and its third input is muffled, a third choke is installed through which the first control chamber of the first distributor is connected with capacity, the output of the second throttle is connected to the third input of the first distributor, the second input of which is muffled, the first output of the first distributor communicates with the second input of the second distribution box The second phase of the first distributor is connected to the atmosphere.

The drawing shows a diagram of the generator.

The first input 1 of the first distributor 2 is connected to the switching-on input 3 of the generator, the second input 4 is muffled and the third input 5 via the second throttle 6 communicates with the tank 7. The first output 8 of the distributor 2 is connected to the second input 9 of the second distribution of bodies 10 and through the first throttle 11 - with a capacity of 7, with the first control chambers .1.2 and 13 of the valves 2 and 10, respectively, and with the first outlet 14 of the distributor 10.

Moreover, the container 7 is connected to the control chamber 12 via the third choke 15. The latter can be made in the form of a throttling hole in the distributor case 2.

The first input 16 of the distributor 10 is muted, and the third 17 is connected to the atmosphere. The second outlet 18 of the distributor 10 is connected with the output channel 19 of the generator, as well as with the second control chamber 20 of the distributor 2. The springs of the back pressure 22 and 23 are installed into the second control chambers 20 and 21 of the distributors 2 and 10. The second outlet 24 of the distributor 2 connectors with an atmosphere The pulse generator works as follows. When a signal is applied to the input 3 of the generator - input 1 of the distributor 2, the compressed air passes to the outlet 8 of the distributor 2 and then to the input 9 of the distributor 10. Then the compressed air passes to the outlet 18 of the distributor 10 and a single signal appears at the output 19 of the generator. From the outlet 8 of the distributor 2 compressed air through the choke 11 enters the tank 7, into the chamber 12 of the distributor 2 and the chamber 13 of the distributor 10. From the outlet T8 of the distributor 10, the compressed air enters the chamber 20 of the distributor 2 in which the spring 23 is located, and together with it prevents the distributor 2 from switching. With the pressure rotor in the chamber 13 of the distributor 10, the latter switches. As soon as the input 9 of the distributor 10 communicates with its output 14, the un-throttled signal from the input 9 passes into the chambers 12 and 13 of the distributors 2 and 10, respectively. This ensures a quick and precise switching of the distributor 10. As a result, the output 18 of the distributor 10 communicates via the inlet 17 with the atmosphere and a zero signal appears at the output 19 of the generator. Fast and accurate. Switching the distributor 10 causes the pressure to disappear in the chamber 20 of the distributor 2, in which the spring 23 is located, which provides discrete switching of the distributor 2. After switching of the distributor 2, the pneumatic capacity 7 and the chambers 12 and 13 of the distributors 2 and 10 respectively are connected via a choke 6 and distributor 2 with the atmosphere. With a drop in pressure in the tank 7 and the chambers 12 and 13 of the valves 2 and 10, respectively, the latter are replaced by the action of the springs 22 and 23, after which the cycle repeats. The duration of a single signal at generator output 19 is adjusted by throttle 11, and the duration of zero signal by throttle 6. When pressure is released from chambers 12 and 13, for normal generator operation, it is necessary for distributor 2 to operate after distributor 10, which is achieved by throttle 15. With a small difference in the response levels of the distributors, the generator can work without the throttles 15.

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.12 -IS

Claims (1)

PNEUMATIC PULSE GENERATOR, containing two chokes, two five-line valves, each of which has three inputs, two outputs, the first control chamber and the second control chamber, in which the support spring is located, the first input of the first distributor is connected to the switching input of the generator, the first output of the first distributor through the first throttle connected to the tank, to the first control chambers of both valves and to the first output of the second valve, second, the swarm of the output of the second valve is connected to the output the generator’s analo the third choke, through which the first control chamber of the first distributor is connected to the tank, the output of the second choke is connected to the third input of the first distributor, the second input of which is muffled, the first output g of the first second distributor communicates with a second input of the second distributor 'and the second output of the first spread. La is associated with the atmosphere. 3D 1 1103028 1