SU739339A1 - Liquid meter - Google Patents

Description

The invention relates to a technique for the dosing of viscous suspensions and pas: t and can be used in various industries. Automatic liquid dispensers are known, which contain a supply and a receiving container connected by a pipeline in which a metering device is mounted, and a control and counting device 1. A disadvantage of the known dispensers is the low reliability and accuracy of the dispensing of particularly highly viscous mixtures. Closest to the invention is a liquid metering device containing a metering valve under constant pressure, a metering valve embedded in a pipeline connecting the supply and receiving tanks, and a control and counting device 21. The metering unit’s disadvantage is low reliability and accuracy of metering, due to the complexity of the ynpaf system and dosing control, especially for viscous liquids. The aim of the invention is to increase the reliability and accuracy of dosing viscous liquids. This goal is achieved due to the fact that the metering valve is made in the form of a capillary associated with a vibrator of ultrasonic vibrations, the internal diameter of the capillary being determined from the relation: D. f, AP where D is the diameter of the capillary; e is the length of the capillary; tp is the limiting shear stress of the fluid; I LR is the limiting value of the pressure drop across the valve. In order to increase the metering capacity, several parallel valves can be installed in the connecting pipe.

The drawing shows a schematic diagram I dispenser.

The dispenser consists of a supply tank 1, a pressure sensor 2, an actuator 3, a valve 4, a metering valve 5, a pipe 6, an ultrasonic generator 7, a transducer 8, a vibrator 9, a receiving tank 10 and a time relay 11

The liquid dispenser operates as follows.

In the consumption tank 1, a pressure sensor 2, an actuator 3 and a valve 4 connected to a source of compressed air are created in the cavity above the fluid pressure D, which is then maintained automatically.

At this pressure, the liquid from the flow rate, the tank 1 does not flow through the metering valve 5, made in the form of a capillary, but flows freely through the pipe 6.

When the ultrasonic generator 7 is turned on, alternating electric current is supplied to the converter 8, where it is converted into mechanical oscillations of the same frequency. Oscillations, spreading through the vibrator 9 and the valve 5, bring it and the nearby fluid into oscillations of the ultrasonic frequency. As a result of the collapse, the viscosity of the fluid decreases sharply, the yield point of the fluid becomes zero, and the fluid does not flow. flows through the metering valve 5.

In order to clearly trigger the metering valve 5, the diameter and the length of its capillary are selected - from the relation:

- Co, LR

The response time of the metering valve in the order of magnitude is equal to the time of passage of a layer of fluid with ultrasound with a thickness equal to the valve radius.

The amount of fluid dose (determined by the time of fluid flow through the valve

5) and the frequency of its supply to the receiving tank 10 is set using the time relay C. The liquid metering device has high reliability and metering accuracy, since there are no inertial effects in the metering valve and the valve opens and closes almost instantly.

FORUMUA AND 3 ABOUT AND

A fluid dispenser containing a metering valve under constant pressure, mounted in the pipeline,

connecting account and reception tanks,

and a control and counting device, which is based on the fact that, in order to increase the reliability and accuracy of dosing of viscous liquids, the dosing valve

made in the form of a capillary connected with a vibrator of ultrasonic vibrations, the inner diameter of the capillary being determined from the relation:

D

D is the diameter of the capillary;

6 — capillary length;

Wed is the ultimate shear stress

liquids; LR - the limiting value of the differential

pressure on the valve.

Sources of information taken into account in the examination

1. USSR Author's Certificate No. 480912, cl. 6 01 F 11/32, 1973.

2. Abilov A.G. and Lyutfaliev K.A. Automatic microbatchers for liquids M., Energii, 1975, p. 14-16, fig. 14 (prototype).

Claims (1)

formulas and A liquid dispenser containing a constant pressure valve mounted in a pipeline connecting the supply and receiving tanks, and a control and metering device is notable for the fact that, in order to increase the reliability and accuracy of dispensing viscous liquids, the metering valve made in the form of a capillary associated with a vibrator of ultrasonic vibrations, and the inner diameter of the capillary is determined from the ratio: 4% e ΔΡ where D is the diameter of the capillary; C is the length of the capillary; 4> _o - ultimate fluid shear stress; ΔΡ is the limit value of the pressure drop across the valve.