SU1746354A1 - Volumeter - Google Patents

Abstract

Use: measurement of internal cavities of products, in particular cylinders. SUMMARY OF THE INVENTION: Into the cavity 5 of the products, water is pumped in measured portions by a plunger pump 6 with a characteristic stabilized by installing two inlet 7 in series and two outlet 8 check valves and anti-inertia diaphragm valve 9, while counting the portions is carried out using a sensor the pulsator 15 and the electronic calculating device 16 until the moment when the sensor 2 of the cavity filling end, located in the neck 4 of the product, is triggered. 1 il.

Description

The invention relates to measuring equipment and can be used in the metallurgical, chemical and other industries, and in particular to determine the actual volume of cylinders.

A device for checking the volume of a vessel containing a mechanism for fixing the liquid level with electrical contact and a liquid dispenser with an indication system.

A disadvantage of the known device is the low accuracy of measuring the volume of the vessel, depending on the volume of the vessel and on the tolerance on its volume.

The aim of the invention is to improve the accuracy of measuring the volume of a vessel, for example cylinders for their control and rejection during operation with an economic effect.

This goal is achieved in that the device for measuring the volume of the vessel, containing a dosing unit with a dose indicator connected to a control unit connected to a level gauge, the sensor of which is located in the neck of the vessel in communication with the outlet of the dosing unit, is equipped with a dosing unit in the form of a piston pump, behind the outlet of which two check valves are connected in series, connected through the working cavity of the spring-loaded membrane valve to the neck of the vessel.

The drawing shows a diagram of the device.

The device comprises a level gauge 1 with a transmitter 2 and a fitting 3 included in the opening 4 of the neck of the measured vessel 5; a piston pump 6 with check valves 7 and 8, a spring-loaded diaphragm valve 9 with a working cavity 10, a membrane 11 and a spring 12; hose 13, water tank 14, dose indicator 15 and control unit 16.

Sequentially installed check valves 8 through the working cavity 10 and the hose 13 are connected to the fitting 3, and the sensor 2 and the dose indicator 15 are connected to the control unit 16.

The measurement of the volume of blood vessels, such as cylinders, is as follows.

Editor G. Gerber

The vessel 5 is installed in a vertical position under the level gauge 1, while the fitting 3 and the sensor 2 enters the hole 4 of the neck of the vessel.

Water by a piston pump 6 from the reservoir 14 is sucked through the check valves 7 and pushed through the check valves 8 into the working cavity 10 of the membrane valve 9. Under pressure of the water, the membrane 11, bending, compresses the spring 12 and passes water from the working cavity 10 into the hose 13, through which it enters the nozzle 3 and is poured into the vessel 5. In this case, the dose indicator 15 connected to the control unit 16 continuously counts the actual volume of water pumped into the vessel until it contacts the sensor 2, after which the actual volume of water is fixed , the control unit 16 evaluates the measurement result relative to the set tolerance limits on the volume of the vessel, and the pump 6 stops, and the water supply to the vessel 5 is stopped.

The use of two check valves in series and a spring-loaded diaphragm valve allows for the high accuracy of the piston pump, since the tightness of the check valves is stabilized, and the spring-loaded diaphragm valve allows only the volume of water that is squeezed out by the piston to pass through.

Claims (1)

Claim Device For measuring the volume of a vessel, containing a dosing unit with a dose indicator connected to a control unit connected to a level gauge, the sensor of which is located in the neck of the vessel. * Connected to the outlet of the dosing unit, characterized in that, in order to increase accuracy, two non-return valves and a spring-loaded diaphragm valve, the metering unit is made in the form of a piston pump, behind the outlet of which two non-return valves are connected in series, connected through the working cavity of the suppressed membrane valve to the neck of the vessel.