SU1422220A2 - Device for controlling metering of solutions - Google Patents

Abstract

The invention is intended to dispense liquid media and allows automatic distribution of the solution to consumers. In the device, reactor 1 communicates through the outlet pipe 2 and the flexible hose 31 with the hollow rod 28 of the pneumatic cylinder 27. Before the dose of the pneumatic cylinder 27 is moved, it is rigidly connected with 22 of the pneumatic cylinder 14 by it. Beginning of the movement of the rod 22

Description

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with

The pneumatic pushbutton 16 is started and the trigger pneumotigger 15, and the displacement is made by the pneumatic stopper 20 and the end pneumatic switch 21 of the rod 22. The output end of the hollow rod 28, moving, coincides with the corresponding funnel of the consumer, Signal with pneumatic puller 21 after it reaches the stem 22 of the first pneumatic cylinder enters the circuit OR 23, the rotor through the second transducer 24 of the Continuous signal into a pulse and the additional pneumotrigger 26 lowers the output end of the stem cavity 28 to the funnel . The dose rate is determined by setting the time relay 11, which, after being triggered through the delay circuit 33, switches the additional pneumotrigger 26, which provides the lifting of the hollow rod 28 from the consumer's funnel. The first end switch is triggered by the movement of the hollow rod 28 and transfers the address selection unit 13 to the initial state. 1 z.p, f-ly, 1 ill.

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J The invention relates to dosage of liquid media and is an improvement of the known device according to the author. St. No. 1101791.

 The aim of the invention is to provide an automatic distribution of the dosing solution to consumers.

The drawing shows a device for controlling the dosing of solutions.

The device contains a reactor 1 with an output pipe 2, a sensor 3 and two setting points 4 and 5 of the parameter, the first of which is connected to element 6 of the expansion gate and controller 7, amplifier 8 connected to one of the valve inputs 9, start node 10, relay 11 time element I 12, address selection block 13, which is made in the form of the first pneumatic cylinder 14, cavities of which are connected to the start-up pneu outputs of the pneumogram 15, the first input of which is connected to the mon start button 16, and the second input to the first inputs of the pneumatic controller - Motriggers 17 and to the first converter 1 8 continuous signal per pulse. The second input of each master pneumotigger 17 is connected to the corresponding pneumatic button 19 of the address set, and the output of each master pneumomigger 17 is connected to the pneumatic stopper 20 and to the end pneumatic switch 21 of the rod

22 of the first rovnokilindra 14 connected by the output to the input of the element OR

23 and to the second converter 24 of a continuous signal to a pulse.

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The device also contains a relief valve 25, an additional pneumotrigger 26, a second pneumatic cylinder 27, the hollow rod 28 of which is equipped with two end pneumatic switches 29 and 30 and communicated at one end through a flexible hose 31 with an end of the output pipeline 2, and the other with a nozzle 32, The delay element 33 is connected by the output to the first input of the additional pneumomigger 25, and the input to the output of the relay. 11 times.

In the device, the rod: the first pneumatic cylinder 14 is attached to the housing of the second pneumatic cylinder 27, the first end pneumatic switch 29 of which is connected to the input of the start node 10, and the second to the output of the first continuous signal converter 18 to a pulse, the output of the second continuous signal converter 24 is connected to the second an inlet of an additional pneumotrigger 26, the outputs of which are connected to the cavities of the first pneumatic cylinder 14, the first inlet of the relief valve 25 being connected to the outlet of the starting unit 10, the second inlet - with the upper part of the valve 1 torus, and output - with the atmosphere.

The regulator 10 is made in the form of a pressure regulator connected to the supply input of valve 9 through the amplifier 8. The output of valve 9 is connected to the gas supply channel to the reactor 1; The second setpoint 5 is connected to one of the time relay 11 inputs, to the other input of which the output of element 12 is connected, the inputs associated with the output of comparison element 6 and the output of start node 10, the start of input of pressure regulator 7 and the input of valve 9 , and the power input of the node 10 run is connected to the output of the relay 11 time.

The operation of the device is as follows.

Before starting the dosing, the comparison operator 6 is closed. When you press pne15

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on the address selection block 13 sets the number of the consumer with which one of the consumer’s funnels is associated, for which one of the address selector pneumatic buttons 19 is pressed, including the corresponding master pneumotrigger 17, the signal from the output of which causes the end stopper 20 to turn on and off. pneumatic switch 21. Then when pressing 20 pneumatic buttons 16 of start-up, start-up pneumotrigger 15 is turned on, compressed air from its outlet is fed into the left cavity of the first pneumatic cylinder 14, the pressure of which starts to move the time until the stop rod 22 is not extended to reach the corresponding schtoka pnevmostopora 20.Pri vschvi-. When the pneumatic cylinder 14 is clamped, a spring-loaded roller, captured on its brush, alternately presses the non-sealed end switches 21. the second air cylinder 27 is under the desired consumer funnel. In addition, this signal arrives at one of the inputs of the OR element 23, the signal from the output of which through the second converter 24 of the continuous signal into a pulse turns on an additional pneumotrigger 26, compressing the air from the direct output of which will begin to be fed into the upper cavity of the additional pneumatic cylinder 26, the piston of which moves hollow down

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the start-up knot of the knot is cleared by its pneumorel, the signal from the output of which activates the pressure regulator 7 and enters the first input of the element I 12. Since at the initial moment the pressure before the nozzle is zero, the pressure at the regulator's output

7, after amplification, enters the supply input of the three-way valve 9. At the same time, the signal from the output of the start-up unit 10 closes the reset valve 25

and opens the valve 9, thereby passing air from the booster 8 into the reactor 1. The pressure in the reactor 1 gradually increases, while the solution rises through the overpressure pipe.

At the beginning of the discharge, the pressure in front of the nozzle (flexible hose) increases abruptly and becomes equal to the pressure set by the first unit 4. This opens the comparison element 6, the signal from its output goes to the second input of the H 12 element, which opens and gives a signal to turn on the relay 11 of time. Dose counting begins. A further increase in pressure before nozzle 32 is limited by pressure regulator 7, which reduces the flow of air into reactor 1. During the dosing process, level in reactor 1 drops, while pressure decreases before nozzle 32. This decrease is compensated by the operation of pressure regulator 7, which increases air supply to the reactor 1.

At the time of the end-dosing time relay 11 is turned off and gives a signal to close the pneumorel of the start-up unit 10, the three-way valve 9 closes, the compressed air ceases to flow into the reactor 1, which through the opened valve 25 is in communication with the atmosphere, the pressure of the reactor is discharged and dosing is stopped.

A brush with a nozzle and a seal at the end abuts the upper part of the funnel, and the line from the reactor 1 to the consumer is sealed. At the moment of sealing, the valve, fixed on the rod of the additional pneumatic cylinder 26, presses the end switch of the pneumatic switch 30, and the signal from its output switches on the pneumatic lamp, signaling that it is

Occurrence occurs and feeds the pneumatic button of the trigger assembly 10.

After selecting the address, the operator on the gauge by the second setter 5 gains air pressure proportional to the dosing time. This pressure comes on pneumorele 11 time. At the time of the start of dosing

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the start-up knot of the knot is cleared by its pneumorel, the signal from the output of which activates the pressure regulator 7 and enters the first input of the element I 12. Since at the initial moment the pressure before the nozzle is zero, the pressure at the regulator's output

7, after amplification, enters the supply input of the three-way valve 9. At the same time, the signal from the output of the start-up unit 10 closes the reset valve 25

and opens the valve 9, thereby passing air from the booster 8 into the reactor 1. The pressure in the reactor 1 gradually increases, while the solution rises through the overpressure pipe.

At the beginning of the discharge, the pressure in front of the nozzle (flexible hose) increases abruptly and becomes equal to the pressure set by the first unit 4. This opens the comparison element 6, the signal from its output goes to the second input of the H 12 element, which opens and gives a signal to turn on the relay 11 of time. Dose counting begins. A further increase in pressure before nozzle 32 is limited by pressure regulator 7, which reduces the flow of air into reactor 1. During the dosing process, level in reactor 1 drops, while pressure decreases before nozzle 32. This decrease is compensated by the operation of pressure regulator 7, which increases air supply to the reactor 1.

At the time of the end-dosing time relay 11 is turned off and gives a signal to close the pneumorel of the start-up unit 10, the three-way valve 9 closes, the compressed air ceases to flow into the reactor 1, which through the opened valve 25 is in communication with the atmosphere, the pressure of the reactor is discharged and dosing is stopped.

At the time of the end of the countdown, the time relay holdings 11 through the delay element 33 is required to delay the discharge time and drain the residual dose.

The signal for turning off the additional trigger 26 is activated, while the air C of its inverse output enters the lower cavity of the second pneumatic cylinder 27. Its rod rises and in the upper voltage presses the first end switch 29, the signal from the transistor. liroToporo includes pneumolamp and the first transducer 18 continuous | In the impulse signal, the impulse turns off the whole set of pneumotriggers 17, removing power from the pneumatic stoppers and the final pneumatic switches. At the same time, the additional pneumatic valve irep 26 is turned off, and the piston of the first 151 of the off-cylinder 14 returns to the pilot state.

This is the pneumatic button of the address set, and the output of the master pneumatic rider is to the pneumatic stop and to the final pneumatic switch of the rod of the first pneumatic cylinder connected to the input of the element OR and to the second converter of the continuous signal to impulse, additional pneumogger, second pneumatic cylinder, poli rod which is provided with two end pneumatic switches and communicated at one end through a flexible hose with the end of the code pipe, and the other with the nozzle, the delay element. Connected output to the first input of an additional pneumotrigger ,. and the input to the output of the time relay, while the rod of the first pneumatic cylinder is attached to the body of the second pneumatic cylinder, the first end pneumatic switch of which is connected to the input of the trigger unit, and the second to the output of the first converter of the continuous signal into it, in order to provide automatic - 25 pulses, the output of the second converter of the distribution of the dosed solution over the consumers, the address selection flock is entered in it, which is made like a first pneumatic cylinder, of which 4 are connected to the outputs of the START pneumotrigger and having a first input connected to pnevmoknopke starting, and the second input - to the first input and to seize pnevmotriggerov first transducer continuous pulse signal, the second input of each zadayu- Dego pnevmotriggera invention connected to sootFormula

; 1. A device for controlling the refining of solutions according to auth.St.

F 1101791, about l and h and ya

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A continuous signal in pulse is connected to the second input of an additional pneumotrigger, the outputs of which are connected to the cavity of the first pneum cylinder.

2. A device according to claim 1, characterized in that a relief valve is introduced therein, the first input of which is connected with the outlet of the ignition unit, the second input - with the upper part of the reactor, and the output - with the atmosphere.

This is the pneumatic button of the address set, and the output of the master pneumatic rider is to the pneumatic stop and to the final pneumatic switch of the rod of the first pneumatic cylinder connected to the input of the element OR and to the second converter of the continuous signal to impulse, additional pneumogger, second pneumatic cylinder, poli rod which is provided with two end pneumatic switches and communicated at one end through a flexible hose with the end of the code pipe, and the other with the nozzle, the delay element. Connected output to the first input of an additional pneumotrigger ,. and the input is connected to the output of the time relay, while the rod of the first pneumatic cylinder is attached to the body of the second pneumatic cylinder, the first end pneumatic switch of which is connected to the input of the trigger unit, and the second to the output of the first converter of the continuous signal in 5 pulse, the output of the second converter

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A continuous signal in pulse is connected to the second input of an additional pneumotrigger, the outputs of which are connected to the cavity of the first pneum cylinder.

2. A device according to claim 1, characterized in that a relief valve is introduced therein, the first input of which is connected with the outlet of the ignition unit, the second input - with the upper part of the reactor, and the output - with the atmosphere.

Claims (2)

The claims ₂ θ 1. A device for controlling the subsidization of solutions according to ed. Ф 1101791, moreover, in order to ensure automatic 25 distribution of the dosed solution by consumers, an address selection unit is introduced into it, which is made in the form of the first pneumatic cylinder, the cavities of which are connected to the outputs pnevmotriggera trigger _30, a first input of which is connected to the starter pnevmoknopke and the second input - to the first input and to seize pnevmotriggerov first transducer continuous pulse signal, the second input of each zadayu- present pnevmotriggera ³⁵ is connected to the corresponding set pnevmoknopke and the address, and the output of each master pneumatic trigger — to the pneumatic stop and to the terminal pneumatic switch of the rod of the first pneumatic cylinder, connected by the output to the input of the OR element and to the second continuous signal to pulse converter, an additional pneumatic trigger, the second pneumatic cylinder, the hollow rod of which is equipped with two final pneumatic switches and communicated with one end through a flexible hose with the end of the outlet pipe, and the other with a nozzle, a delay element connected by the output to the first input of the additional pneumatic trigger, and in odo - to the output of the time relay, while the rod of the first pneumatic cylinder is attached to the housing of the second pneumatic cylinder, the first end pneumatic switch of which is connected to the input of the trigger unit, and the second to the output of the first continuous signal to pulse converter, the output of the second continuous signal to pulse converter is connected to the second the input of the additional pneumatic trigger, the outputs of which are connected to the cavities of the first pneumatic cylinder. 2. The device according to claim 1, characterized in that a relief valve is introduced into it, the first input of which is connected to the output of the start-up unit, the second input - to the upper part of the reactor, and the output - to the atmosphere.