SU769341A1 - Apparatus for automatic metering of aggressive liquids - Google Patents

Description

The invention relates to devices for the automatic dosing of corrosive liquids used in the light and textile industries.

According to the main author. St. No. 603851, a device for automatic dosing of aggressive liquids is known, which contains a supply tank equipped with an airlift, a pneumatic relay, and a siphon made in the form of two pipes, an outer and an inner one having a truncated cone shape of variable cross section and a pneumatic nozzle connected in its lower part. a control device with a pneumatic timed dial associated with the pneumatic valve of the siphon 1.

In the known device, the possibility of fluctuating the level of the liquid in the supply tank is not excluded, as a result of which the accuracy of dosing is reduced.

The aim of the invention is to improve the dosing accuracy by eliminating fluctuations in the level of the liquid in the supply tank.

This is achieved by the fact that the supply tank is divided by an overflow partition into dosing and buffer compartments interconnected by an additional airlift installed in the buffer compartment.

The drawing shows schematically the described device.

The device for automatic dosing of aggressive liquids contains

5 supply tank /, overflow partition 2, dividing it into dosing and buffer compartment, pumping airlift 3, nozzle 4 of which is connected through pneumotumbler 5 with compressed air supply, airlift station, including siphon 6, in which 10 loaded pipe is fitted with air hopper 7, air lift 8, pneumatic valve 9 (normally closed), non-return valve 10, reverse delay // element, pneumatic 15, 12, pilot 13, pressure gauge 14, reference element 15, pneumatic valve 16 with self-lifting, pneumatic valve 17, variable throttle 18, shift element 19, pneumatic capacity 20, p nevmoklapan 21, pnevmopnopku

20 “Start 22, reverse delay element 23, pneumatic amplifier 24, air separator 25 and level switch 26. Variable throttle 18, shear element 19, pneumatic valve 21, setting unit / 5, comparison element 15

25 II button 22 represents in aggregate a pnevmorele time.

The device works as follows.,

The knob knob 13 on the element

30 comparisons 15 are fed according to the pressure gauge M the pressure P P aa. proportional to the required dose. Press the button “Start 22. A pulse of compressed air enters the pneumorel 16 with a self-supporting device, which activates the pneumorel to work, i.e. it opens the air access to the pneumatic reliever 17, and this in turn - to the shift element 19, pneumatic valve 21, to pneumatic capacity 20 K on Comparison Element J5.

At the same time, the impulse from the button 22 through the reverse delay element 23 arrives at the pneumatic actuator 24, which sends an amplified air signal to the pneumo 7 during the action of the delay element. At the same time, the same signal through the check valve 10 is supplied to the pneumatic valve 9, slightly opening it, and the reverse delay element // does not transmit this impulse in the control system for the time required for the electric inducement.

The presence of pressure on the air nozzle 7 with the valve ajar 9 causes an airlift effect. The fluid in the air-lift phonon is saturated with air bubbles, it becomes lighter in weight than the liquid in the tank /, which causes it to rise through the pipe of the air-lift engine, overflowing it through the knee and the air bubbles out through the ajar pneumatic valve 9. The pressure applied to the air bubble 7 will gradually fall , but the pressure applied to the pneumatic valve 9 will fall even faster, and it will close, since there is an element of reverse delay in this line.

Due to the taper of the immersed clock of the air-lift pipe and the forward closing of the pneumatic valve 9, there is a siphon effect in the air-lift valve, and the liquid continues to move upwards already without air on the pneumatic heater 7. Fluid flow continues until pressure Rdad and pressure P in air capacity 20 Comparison, then Comparative Element 15 will operate 1 and will give a pressure impulse to pneumatic valve 9 and at pneumorel 16. At this, pneumatic valve 9 opens and fluid movement stops, and relay 16 operates and causes the circuit in initial position. Thus, the dose given in the form of air pressure will be released.

Simultaneously with pressing the button “Start 22, the pneumo-tumbler 5 is turned on, through which compressed air enters the nozzle 4 of the pumping airlift 3. Liquid from the buffer compartment aka / is pumped to the dosed compartment of this tank, with This liquid flowing overflow overflow 2 into the buffer compartment. When the level in the buffer compartment drops below the preset level, the level switch 26 turns on and the buffer compartment is pumped.

In one supply tank, you can put the required number of airlifters and they can work simultaneously and alternately.

The introduction of a partition and an additional airlift ensure a constant level in the dosing compartment and reduce energy costs for pumping.

Claims (1)

1. USSR author's certificate No. 603851, cl. From 01 F 11/00, 10.04.76 (prototype).