RU1779781C - Method for measuring delivery of positive displacement pump with valve distributor - Google Patents

Abstract

Usage: control of the volumetric flow rate of the pump with valve distribution - 5 division and ensuring the adjustment of this value when the actual and reference flows are mismatched. SUMMARY OF THE INVENTION: The microprocessor 4 is given the required pump flow rate, the area of the displacer 3 and, if necessary, the physical properties of the pumped medium. Microprocessor 4 calculates the target speed of the displacer 3, the signal received from the indicator 2 is compared with the preset one and, when mismatching, the mismatch signal is used to affect the actual speed of the displacer 3 through the electric actuator 5 to change the stroke length of the displacer or the rotation speed of the motor shaft. 1 ill. fe x | About v | 00

Description

The invention relates to pump construction and can be used in systems for measuring and controlling the flow rate of volumetric predominantly dosing pumps.

A known method of measuring the flow rate used in the control and measurement of fluid flow for volumetric pumps 1. It includes the installation of pressure sensors in the working chamber and the discharge manifold of the pump, the installation of an indicator of linear displacement of the displacer, connecting the sensors and indicator to a microprocessor system with a clock, microprocessor calculation actual feed, comparing the actual and specified feeds, as well as receiving a signal from the microprocessor about the mismatch of feeds.

However, in the known method, it is not possible to control the volumetric flow of the pump, which narrows its functionality.

The purpose of the invention is to expand the functionality of the method in the operation of positive displacement pumps.

This is achieved by the fact that to determine the actual feed at the same time and together with the measurement of displacement as a component of the displacer speed, the pressure change in the working chamber is measured, the measurement results are mathematically processed to take into account the feed coefficient, the processing results are compared with the given feed and the received error signal is used to act on the device to change the speed of the displacer.

This method can be implemented using the installation shown in the drawing.

A pump 1 is installed in the installation with an indicator 2 for linear displacements of the displacer 3 installed on it. Indicator 2 is directly connected to the displacer 3 and is electrically connected to the microprocessor 4 included in the microprocessor system with a clock (not shown in the drawing). The microprocessor is also connected to devices for changing the speed of the displacer: with an electric actuating mechanism 5 for changing the stroke length of the displacer and an electric motor 6, as well as with a pressure sensor 7 installed in the working chamber (cylinder) of the pump,

The microprocessor 4 is set to the required flow rate, the area of the displacer 3 and, if necessary, the physical properties of the dosed liquid. The microprocessor calculates the necessary (predetermined) speed of the displacer obtained by dividing the total displacement path of the displacer by the time it takes to multiply this by the feed coefficient determined by the microprocessor either from the pump indicator diagram or in another way.

taking into account the discharge and suction pressure of the pump and the physical properties of the dosing liquid. The result is compared in a microprocessor with the actual speed of the displacer,

the value of the actual total displacement path of the displacer over the travel time, and the error signal is used to influence the actual speed of the displacer through the electric actuator 5 to change the stroke length of the displacer or the rotation speed of the motor shaft 6.

Claims (1)

The claims Method for measuring the amount of feed volumetric pump with valve distribution, including the installation of pressure sensors in the working chamber, the installation of a linear displacement indicator of the displacer and the connection of the sensor and indicator to the microprocessor system with the clock, calculation by the microprocessor of the actual flow rate and comparison of the actual and target flows, characterized in that, in order to expanding the functionality during operation of volumetric pumps, to determine the actual flow at the same time and together with measuring movement as a component of speed the displacer measures the change in pressure in the working chamber, mathematically processes the measurement results to take into account the flow rate, compares the processing results with a given flow rate and using the received mismatch signal to effect the speed of the displacer on the devices.