SU1080121A1 - Device for metering out corrosive liquids - Google Patents

Abstract

DEVICE FOR DOSES: ANIA OF AGGRESSIVE LIQUIDS, containing a supply tank with airlift, control: SCHY which entrance is connected with an exit, the first pneumoregle, one of which is controlled by the quiet chambers of the second pnevmorel and the control chamber of the pneumatic valve-reset, connected with the outlet one of the chambers of the reference element, the other of which is connected to the task channel, and the output to the control chamber of the second pneumoregulator, as well as the pneumoregule, in time, in order to improve the accuracy of the device , a remotely controlled choke is installed in it, and the pneumoregle of time is made as a clock pulse generator and connected to its output by a controlling channel of the pulsating throttle, the clock pulse generator input connected to the output of the second pneumorrhea, (L is the output of the pulsating throttle connected to the outlet of the pneumatic valve of the relief, and the nozzle immersed airlift pipe connected to the input of a remotely controlled throttle, the output of which is connected -2 to the supply input of the pulsating throttle.

Description

The invention relates to the dosing of liquids and can be used for the automatic dosing of aggressive liquids in the dyeing industry of the textile and knit industry. An automatic transport no-metering line is known, containing a supply tank, airlifts, a pneumatic command device and a pneumorelle C1. Closest to the present invention is a device for automatic dosing of aggressive liquids, containing a supply tank, a pneumatic command device consisting of a pneumorel, a reference element and a pneumatic valve, airlift, and a pneumatic relay 23. The specified device is characterized by insufficient dosing accuracy due to the non-linearity of the output signal of the pneumorel the time that arises due to the nonlinearity of the variable chokes in it. The purpose of the invention is to improve the accuracy of dosing. This goal is achieved by the fact that a device containing a supply tank with an airlift, the control input of which is connected with the output of the first pneumorel, one of the control chambers of which is connected to the output of the second pneumorel and the control chamber of the pneumatic relief valve, the output of the auxiliary valve and one of the chambers of the comparison element, the other — the chamber of which is associated with the assignment task, and the output — with the control chamber of the second pneumorel, as well as the pneumatic time valve — was introduced a remote-controlled choke, and in the form of a clock pulse generator and a pulsating throttle control channel connected to its output, the clock pulse generator input is connected to the second pneumorele output, the pulse throttle output is connected to the reset pneumatic valve output, the airlift of the immersion pipe is connected to the remotely controlled throttle input, the output which is connected to the power input of the pulsating throttle. The drawing shows a diagram of the proposed device. The device contains a supply tank 1, into which the airlift 2 is immersed, more pneumatic 3, pneumatic relief valve 4, pneumatic converter 5, signal lamp b, counter 7, pneumorele 8, pneumorele 9 of time, pneumatic capacity 10, comparison element 11. Pneumorel time 9 consists of a generator 12 clock pulses and a pulsating throttle 13. The generator 12 tract pulses contains pneumorele 14, air capacity 15 and a variable choke 16, and pulsating choke 13 consists of pneumatic valves 17 and 18, repeater 19 with a shift. The device also contains a remotely controlled choke 20. The device operates as follows. A task pressure, proportional to the required dose, is supplied to the lower control chamber of the reference element 11. A short start signal enters the lower nozzle of the pneumorel 8 which self-lifts, locks the pneumatic valve 4 resets, turns on the generator of 12 clock pulses and at the same time the pneumorel 3 giving a pneumatic signal to the airlift 2. The pulse frequency is tuned by a variable throttle 16. The clock pulses start to flow to the pneumo electric pulse In this case, the warning lamp b starts flashing, indicating that dosing is in progress, and the meter counts the amount of liquid dispensed. In addition, the clock pulses periodically lock the pneumatic valve 17 and simultaneously open the pneumatic valve 18, thereby bypassing the compressed air contained in a strictly fixed volume of the flow chamber of the pneumatic valve 18 and the line connecting this chamber with the pneumatic nozzle,. the latch 17, into the air capacity 10. The magnitude of the bypass pulses is adjusted by the repeater 19 with a shift. At a sufficiently high frequency of clock pulses, the law of pressure increase in pneumatic capacitors 10 approaches linear. After the air pressure from the pneumatic tank 10 to the upper control chamber of the comparison element 11 becomes greater than the reference pressure, the comparison element 11 opens, the air from its outlet turns off the pneumatic relay 8, the pneumatic valve 4 opens and resets the air from the system, the pneumatic relay 3 closes , the compressed air stops flowing - the airlift and dosing is stopped. The submersible air lift tube serves simultaneously as a piezometric tube, i.e. level sensor When the level in the supply tank 1 decreases, the pressure supplied to the inlet of the linearly controlled throttle 20 proportionally decreases, its conductivity decreases, the portions of compressed air entering the pneumatic capacity 10 decrease, and the dosing time increases, which compensates for the reduction of the airliner performance

that 2 due to a drop in level in the expansion tank 1.

The proposed device allows to improve the dosing accuracy by

linearization of the pneumorelé operation, improve safety due to the presence of a dosing alarm.

Claims (1)

: DEVICE FOR DOSING 'AGGRESSIVE LIQUIDS, containing' a supply tank with airlift, the control input of which is connected to the output * of the first pneumatic relay, one of the control chambers of which is connected to the output of the second pneumatic relay and the control chamber of the pneumatic valve · relief, the output connected to the tank and one of the cameras of the comparison element, the other camera of which is connected to the reference channel, and the output - to the control chamber of the second pneumatic relay, as well as a time pneumatic relay, characterized in that, in order to increase the accuracy of the device, a remotely controlled throttle is installed, and the time pneumatic relay is made in the form of a clock pulse generator and a pulsating throttle is connected to its output by the control channel, and the input of the clock pulse generator is connected to the output of the second pneumatic relay, the output of the pulsating throttle is connected to the output of the reset pneumatic valve, and the nozzle submersible * airlift pipes are connected to the input of a remotely controlled inductor, the output of which is connected to the supply input of a pulsating inductor.