SU399832A1 - FLOW REGULATOR - Google Patents

Description

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The invention relates to liquid or gas flow rate controllers and can be used in the chemical, food and other industries where it is necessary to control the flow of liquids or gas, for example, in the production of synthetic rubber, alcohol, and sugar.

The known flow controllers, in which the sensitive element and the regulator are made in the form of a spring-loaded plunger with core holes on the lateral surface, are complex and have larger dimensions of the driver.

The purpose of the invention is to simplify the design and improve the accuracy of the controller.

This is achieved by the fact that the spring of the plunger is located in the chamber formed by the inner surface of the housing, the outer surface of the plunger and the collar, which is made in the middle part of the outer lateral surface of the plunger, which is connected through the setpoint to the input cavity of the regulator.

The drawing shows schematically a regulator consisting of a detachable body 1 with an input cavity 2 and an output 3, a sensing element - a plunger 4 in the form of a glass, on the surface of which a profile opening 5, a cutter 6, a spring 7 and a setting device 8 are made.

The principle of the regulator is based on the stabilization of the flow rate at a given value, regardless of the differential pressure of the fluid before and after the profile hole 5.

The sensing element is affected by the forces created by the pressures in the inlet 2 and outlet 3 cavities of the regulator, the force of the spring 7 placed in the annular chamber 9 formed by the inside surface of the housing 1, the shoulder 10 formed in the middle part of the plunger 4 and the outer side surface the plunger, and the force generated by the pressure in the chamber 9, the flange 10. The chamber 9 is connected to the input cavity 2

through the setting device 8, with which the pressure in the chamber 9 is changed, and the channels 11.

Thus, the chamber 9 is an inter-throttle chamber: the input throttle is the setting device 8, and the output is the clearance

between the flange 10 and the inner surface of the housing of the controller 1.

When the flow rate of a liquid or gas changes, the force on the sensing element 4 generated by the pressure in the chamber 9 and the spring 7 changes. As a result, axial mixing of the sensitive element 4 occurs against or in the direction of the controlled flow and the section of the orifice five,

through which the fluid flows.

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The design of the regulator allows you to simply control through the setting device 8 with high costs, affecting only a fraction of the controlled flow (5-10%). At the same time, the liquid flow control quality is improved.

The magnitude of the flow rate and, consequently, the position of the sensor element 4 in the regulator and the plate; the bore of the profile opening 5 is set by the setting device 8. The nominal flow rate l: the liquid is adjusted by the cutter 6, which simultaneously serves as the axial mixing of the sensitive element. Hole 5 is profiled depending on the desired type of static characteristic of the controller. Regulators can be calculated for any fluid flow rate. This eliminates the influence of pas

the quality of adjustment of the noise factors, such as curvature of the flow.

Subject invention

A flow regulator containing a housing with inlet and outlet cavities and an annular shut-off device, installed on its inner surface, in which a spring-loaded movable plunger is located, is made

in the form of a glass with shaped openings on the side surface, and a setting device, characterized in that, in order to construct and increase the accuracy of the controller, the plunger spring is located in the chamber formed by the inner surface of the housing, the outer surface of the plunger and the collar made in the middle of the outer side surface of the plunger, which is connected through the gauge to the input cavity

regulator.