SU1113599A1 - Pneumatic generator of pulses - Google Patents

Abstract

PNEUMATIC PULSE GENERATOR, containing two elements of comparison, a linearly growing signal formation unit, made in the form of a repeater with a shift, the flow chamber of which is connected through an unregulated choke to the power supply channel and through an adjustable choke with a tank to its deaf chamber, the atmosphere through a normally closed valve and with the first input chambers of the comparison elements, the output of the first comparison element is connected to the output channel of the generator, the output of the second comparison element is connected to a pack the valve's first chamber, and the second input chambers of the first and second comparison elements communicate respectively with the duty cycle and frequency channels, characterized in that, in order to increase the convenience of tuning, the generator is equipped with a throttle divider, through which the frequency clock channel is connected to the duty cycle channel, and an additional (L throttle installed in the channel between the outlet of the second element from the comparison and the control chamber of the normally closed valve.

Description

00 SP

The invention relates to pneumatic automation devices, namely, pulse generators for use in control and monitoring systems. A pneumatic pulse generator is known, which contains a three-membrane relay, the output of which is connected through its inertial shield to its feedback chamber, and the backpressure chamber is connected to the power channel via a shear repeater and a choke divider 1.1. Such a generator does not cause high accuracy, the nonlinear dependence of the frequency and duty cycle on the pressure of the backwater makes it difficult to adjust. Closest to the proposed generator, which contains two elements of comparison, the node of forming a linearly increasing signal, made in the form of a repeater with a shift, the flow chamber of which is connected through an uncontrolled droplet to the supply channel and through a regulating choke with a capacitance with its own blind chamber, with the atmosphere through the normally closed valve and with the first input chambers of the comparison elements, the output of the first comparison element is connected to the output channel of the generator, the output of the second comparison element is connected to the control The second chamber of the first and second elements of the comparison communicates with the channels for setting the duty ratio and frequency C 21. In the known pulse generator, the frequency ratio simultaneously changes with frequency. The purpose of the invention is to increase the performance setting. This goal is achieved by that a pneumatic pulse generator containing two comparison elements, a linearly growing signaling unit, made in the form of a repeater with a shift, the flow chamber of which is connected through an unregulated choke with a power channel and through an adjustable choke with a tank with its deaf chamber, with the atmosphere through normal closed valve and with the first input chambers of the comparison elements, the output of the first comparison element is connected to the generator output channel, the output of the second comparison element is connected to the pack The secondary valve chamber, and the second input chambers of the first and second comparison elements communicate respectively with the channels for setting the duty cycle and frequency, is provided with a throttle divider, through which the frequency channel is connected to the channel for setting the duty ratio, and an additional throttle installed in the channel between the output of the second comparison element and a control chamber of a normally closed valve. The drawing shows a diagram of the generator. The generator contains a linearly increasing signal forming unit 1, which includes a repeater with an offset of 2, an unregulated choke 3, an adjustable choke 4 and a pneumatic capacity 5. The generator also includes the first 6 and second 7 comparison elements, the normally closed valve 8, the choke divider 9, pressure gauges 10 and 11 and an additional choke 12. Throttle 3 is connected to feed channel 13. The output of the comparison element 6 is connected to the output channel 14, and the output of the comparison element 7 via the throttle 12 is connected to the control chamber of the valve 8. The output of the node 1 is connected to the first input chambers of the 6 and 7 comparison elements and the inlet of the valve 8, the outlet of which is connected to the atmosphere . The second input chamber of the comparison element 7 communicates with the frequency setting channel 5 and through the choke divider 9 with the duty ratio channel 16 communicated with the second input camera of the first comparison element 6. The generator works as follows. After power is applied, the output of the Pd | node 1 starts to increase. Upon reaching the pressure level in the second input chamber of the comparison element 6, the signal 1 is generated at the output of the latter, and consequently, in the output channel 14 (pressure Pout). With further increase of pressure to the pressure level of the RZDD in the second input chamber of the comparison element 7, signal 1 also appears, which, entering the control chamber of valve 8,

3

opens it, pressure P / drops to O, at the outputs of the elements of Comparison 6 and 7, the signals O are set. Valve 8 is closed again and the cycle is repeated. Throttle 12 provides full depressurization Pj.

By varying the pressure level of the PJAA over a wide range, the frequency of the energetic changes, but with constant adjustment of the divider 9, the duty cycle remains almost unchanged, since R K P.

Changing the setting of the divider 9 at a constant pressure level of the RZAL only changes the duty ratio at a constant frequency. The value of Pj is adjustable from 0 (adjustable choke divider 9

3599. 4

fully open until (the choke divider is fully closed). Adjusting the throttles 4 and the amount of shift of the repeater 2 determines the gain setting of the generator frequency control range. Due to the fact that the level P of the output signal of node 1 varies linearly, it is easy to adjust the required frequency of the output signal of the generator and the duty cycle in the preset 4 and repeater 2 to the gauge 10 and II.

Thus, the setting of frequency and duty cycle are independent of each other and is made by changing pressure and P levels with control by gauges 10 and II.

flux.

Claims (1)

PNEUMATIC PULSE GENERATOR, containing two comparison elements, a linearly increasing signal generating unit made in the form of a repeater with a shift, the flow chamber of which is connected through an unregulated choke to the power channel and through an adjustable choke to the capacitance - to its dead chamber, with the atmosphere through normally a closed valve and with the first input chambers of the comparison elements, the output of the first comparison element is connected to the output channel of the generator, the output of the second comparison element is connected to the control a valve chamber, and the second input chambers of the first and second comparison elements are communicated respectively with the duty cycle and frequency setting channels, characterized in that, in order to increase the convenience of tuning, the generator is equipped with a throttle divider through which the frequency setting channel is connected to the duty cycle channel, and additional throttle installed in the channel between the output of the second comparison element and the control chamber of the normally closed valve. SU „„ 1113599 1 1 I