SU1456970A1 - Pulse frequency to analog signal pneumatic converter - Google Patents

Abstract

The invention relates to pneumatic computing devices. The purpose of the invention is to increase accuracy. A pneumatic pulse frequency converter to an analog signal contains a relay 6 with booster, normally open 5 and normally closed 4 valves, the control chambers of which are connected to the input channel I, the output channel 11 connected to the output of the normally open valve 5, throttle 8 and capacitance 7, communicated with the input of the normally closed valve 4, through the normally open contact of the relay 6 to the source 9 of the supply pressure and through the throttle 8 and the normally closed contact of the relay 6 to the atmosphere. The converter is equipped with a repeater 10 with a shift, an additional adjustable throttle 3 and a single-membrane element 2, the nozzle of which communicates with the atmosphere, the chamber is deaf connected to the input channel with scrap 1 and to the input of an additional drive-S sat 3 connected to the output of the control chamber of relay 6 and to the flow chamber of the single-membrane element 2, and the output of the normally closed valve 4 through the repeater 10 with a shift of the connecting-5 is not connected to the input of the normally open valve 5. 1 sludge. SL

Description

The invention relates to pneumatic computing devices, and in particular to pulse frequency converters in an analog signal.

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

The drawing shows a diagram of the Converter.

The input channel 1 is connected to the blind chamber of the single-membrane element 2, to the input of an additional adjustable throttle 3 and to the control chambers of the normally closed 4 and normally? 5 'normally open valves. The nozzle of element 2 is connected to the atmosphere; and its flow chamber is connected to the output of an additional adjustable throttle 3 and to the control chamber of relay 6. Capacity 7 is through an adjustable 20 throttle 8. and a normally closed contact of relay b is connected to the atmosphere through a normally open contact the relay 6 is connected to the supply pressure source 9 and directly connected to the input of the normally closed valve 4. The output of the valve 4 through the repeater 10 is shifted with a shift connected to the input of the valve 5 connected to the output channel 11 by its output.

The pressure value of the period of the valve 4 is set greater than that of the relay 6 and valve 5.

The device operates as follows.

The input channel 1 receives pulses with a constant duty cycle and a variable frequency proportional, for example, to the measured parameter. At a zero value of the input signal, the capacitance 7 through the normally open contact of the relay 6 is filled with air _о with the pressure set by the source 9. When the next single pulse arrives, valve 5 closes and valve 4 opens. At the same time, the nozzle of element 2 closes, and in the control chamber of the relay 6, pressure begins to increase. After a time interval specified with the help of inductor 3, relay 6 switches, ^ 0, as a result of which the discharge of capacitance 7 through the inductor 8 begins. The discharge of capacitance 7 continues for the duration of a single pulse (minus the delay time). Obviously. The smaller the frequency, te the longer the pulse duration, the smaller the pressure in the reservoir 7. At the time the single pulse ends, the valve 4 closes, thereby memorizing the pressure in the input chamber of the repeater 10 with a shift. After that, the valve 5 opens and the output of the repeater 10 is connected to the output channel 11. At the same time, through the nozzle of the element 2, air from the control chamber of the relay 6 is discharged into the atmosphere, relay 6 is switched. Then in the tank 7 is again set pressure P _about . When the frequency of the input signal changes, the pressure at the output of the repeater 10 increases or decreases, respectively, at the end of a single pulse and in the output channel 11.

The dependence between the frequency and duration of the pulse is hyperbolic, and the conversion of the pulse duration to pressure occurs exponentially. In a certain range, the curves that change according to these laws coincide quite closely. The use of a repeater with a shift allows you to combine the required sections of the curves.

I

The use of adjustable displacement of the leading edge of the pulse eliminates the influence of the difference in the origin of the leading and trailing edges of the pulse, i.e. to exclude the influence of different lengths of the communication line, and also to change the conversion range over a wide range.

Claims (1)

Claim Pneumatic converter, pulse frequencies to an analog signal containing a relay with backup, normally open and normally closed valves, the control chambers of which are connected to the input channel, the output channel connected to the output of the normally open valve, and through the adjustable throttle and capacitance communicated with the input normally a closed valve, through a normally open relay contact - with a pressure source, an adjustable throttle and a normally closed relay contact with the atmosphere, characterized in that, in order to increase the accuracy On the other hand, the converter is equipped with a repeater with a shift, an additional adjustable throttle and a single-membrane element, the nozzle of which is connected to the atmosphere, and a blind chamber is connected to the input channel and to the input of an additional adjustable throttle connected to the relay control chamber and to the through-flow chamber of the single-membrane element moreover, the output of the normally closed valve through a repeater with a shift connected to VHBDM normally open valve.