SU1113677A1 - Metering tank - Google Patents

Abstract

PORTIONAL DISPENSER OF LIQUIDS, containing a measuring container, a supply valve for a dosed medium, a pneumatic booster, a pneumatic discrete element. characterized in that, in order to improve the metering accuracy, a pulse device is introduced into it, a second valve for supplying a dosing medium, the control input of which is connected via a pulse control device to the first input of a pneumatic discrete element made as an element , the second input of which is in communication with the upper part of the measuring tank, and the cell of the support element OR is connected through the pneumatic amplifier with the atmosphere, and the output of the element OR is connected to the control input of the first valve The dosing flow rates, dyes, and two dosing medium supply valves are located in the lower part of the measuring tank. SO O) CH M

Description

The invention relates to the field of dispensing liquids, namely, portioned dispensing of predetermined volumes of liquid particles in the food, chemical, medical and other industries. ⁵

Known liquid dispenser containing a measuring tank, four controllable valves, a supply tank and equalization tube C]. The disadvantage of the dispenser is the low reliability and accuracy of dosing.

The closest in technical essence and the achieved result to the invention is a liquid dispenser comprising a pneumatic bridge made ₁₅ in the form of two constant and one variable chokes, a bubbler tube placed in a measuring container, a dosing medium supply valve, a differential pressure transducer with a bellows outlet, a throttle divider pressure with a shutter associated with a bellows, a discrete element associated with a pressure divider [2].

The disadvantage of the dispenser is the low accuracy of dosing, due to the error due to changes in atmospheric pressure ₂₅ .

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

This goal is achieved by the fact that in the batch liquid dispenser containing a measuring container, a metering valve supply valve, a pneumatic booster, a pneumatic discrete element, a pulse control device is introduced, a second metering medium supply valve, the control input of which is connected through the pulse control device to the first the input of a pneumatic-35 m ethical discrete element made in the form of an OR element, the + input of which is connected to the upper part of the measuring tank, and the OR element cell back-up chamber is connected through a pneumatic amplifier with an atmosphere of ₀ Fera, the output of the OR element being connected to the control input of the first dosing medium supply valve, and two dosing medium supply valves located at the bottom of the measuring tank.

The drawing shows pre- portioned ^{April 5} wort fluids.

A batch liquid dispenser consists of a pneumatic pulse control device I, an amplifier 2, a throttle 3, an OR element 4, a dosing tank 5, _{50 of the} first supply valve 6 with a filling tube 7, a drain pipe 8 and a second supply valve 9.

The operation of the dispenser is as follows.

The pulse control device 1 gives out pulses in the form of air pressures and provides pauses between them. At the beginning of the cycle, the tank 5 is empty, the air pressure in it is equal to atmospheric (P _o ,). The control unit 1 outputs the signal En, equal pressure valve closing at this sig10 ^g cash Py = 0 (atmospheric pressure), and the valve 6 closed, the valve 9 is opened and through the pipe 8, the dosing medium begins to flow into the vessel 5. As the filling container the air pressure in it increases; at a certain value of Р, it is compared with the back pressure in the chamber D of element 4. At the output of element 4, signal “1” appears (supply pressure), and valve 9 closes, cutting off the dose.

This is followed by the end of the pulse from the control device 1, the signals are reversed: Ru, = b P * = 0. Valve 6 opens, the dose of fluid merges into the tube 7, the pressure in the chamber 5 drops to P, but the valve switches (opens) 9 not 2 $ occurs, since at the output of the OR element 4 the signal "1" due to the input of the signal Ru, = 1.

When the signals from the control device 1 are subsequently changed, valve 9 opens, valve 6- closes and the dosing cycle is repeated.

The signal P ^ is generated by amplifier 2 from the condition P _e .F _t = P, E, where F ₁ \ F ₂ are the effective membrane areas of chambers A and B of amplifier 2. From this condition it follows: P ₍ = PoFi / F ₂ = k <P ₀ , where k> 1 is a constant factor of 35. Chambers B and C of amplifier 2 and inductor 3 form a repeater, that is, the output signal of amplifier 2 is equal to P, this signal is supplied to camera D of block 4.

Capacity 5 has a volume V ″ and when 4 _{0 of} volume V of liquid is supplied, the pressure P in the chamber is determined from the condition P ₀ V * - P (Vo — V). When the tank 5 is filled, the OR element 4 is activated under the condition P = Pj, stopping the fluid supply, and the dose volume V = V _e (l – P _p / P), but since P = P, = k, P ”., 45 then V = Vo (1-1 / k,) = kV _o = const, that is, for various atmospheric pressures P, the dose volume V is always constant.

Thus, in the dispenser due ispol'uet "mations pneumatic regulation circuit ⁵⁰ Nia dose change of atmospheric pressure is achieved improve the accuracy of dosing.

Claims (1)

A PORTIONAL LIQUID DISPENSER containing a measuring tank, a dosing medium supply valve, a pneumatic amplifier, a pneumatic discrete element, characterized in that, in order to increase the dosing accuracy, a pulse control device is introduced into it, a second dosing medium supply valve, the control input of which is connected via a pulse . a new control device with the first input of a pneumatic discrete element, made in the form of an OR element, second. a swarm whose input is communicated from the upper hour; thu measured capacity, and the camera backwater ele-; ment OR is connected through pneumatic gear; a body with an atmosphere, while the output of the OR element is connected to the control input! first metering valve dispensing medium. dy, and two dosing medium supply valves are located in the lower part of the measuring tank.