SU1441363A1 - Flow controller - Google Patents

Abstract

The invention relates to the field of automatic regulation and can be used in heating systems. The aim of the invention is to improve the accuracy, reliability and enhanced functionality. To achieve this goal, the regulator includes a housing 1 with an inlet 2 and an outlet 3 with nozzles, a locking member made in the form of a vane 4 installed freely in the casing 5, a stepped piston 6, cavities above and below which

Description

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Rossel 9, the intermediate cavity 11 is connected to the hollow-drain 1.2 through the valve 16 n the saddle 7 with the cavity 8 above the stepped piston 6. In the control cavity 13 there is a larger piston 14, the cavities above and below which are connected to the cavity 8 above the stu

by the foam piston, the throttling holes 17 and 18, with the input 2 and the output 3 by the nozzles of the control channels 19 and 20, in which the nozzle-flap control elements 25 and 26 are installed, 2 hp. f-ly, 1 -IL.

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The invention relates to the automatic regulation of liquid and gas flows and can be used in thermal networks.

The aim of the invention is to improve the accuracy, reliability and enhanced functionality.

The drawing shows a flow controller.

The flow regulator includes a housing 1 with an inlet 2 and an outlet 3 with nozzles, a shut-off element, made in the form of a gate 4, freely mounted in the casing 5. The gateway 4 is connected with a stepped piston 6, at the end of which a saddle 7 is made from the side S of the cavity above the stepped a piston 6 connected by a throttle 9 with a cavity 10-under the stepped piston 6. The intermediate cavity I1 between the stages of the stepped piston 6 is connected with the drain cavity 12. In the control cavity 13 a control element is installed, made in the form of a small piston 14, connected .OKT 15 with s an auxiliary organ, made in the form of a valve 16 connected to the rod 15. The control cavity 13 is connected to the cavity 8 by the throttle holes 17 and 18, and by the control channels 19 and 20, the drain cavity 12 and the pipes 21-23 from the inlet 2 and outlet 3 nozzles. To switch the regulator to work with the return flow of the working medium, the tubes 21-23 are connected through a valve 24, and in the control channels 19 and 20 are installed trigger elements 25 and 26 of the nozzle-damper type. The rod 15 is spring-loaded spring 27, and the stroke of the gate is limited to the stop 28. At the ends of the input 2 and output 3 branch pipes will perform 1 of the saddle 29 and 30.

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The flow regulator works in the following way.

In the initial state, the piston assembly and the sleeve 5 with the gate 4 rest on the stop 28, and the flap 16 covers the saddle 7, both controls 25 and 26 are closed. With flow in, for example, in arrow A, the gate 4 is pressed tightly against the seat 29 and there is no flow at the outlet of the regulator. The valve 24 communicates the tube 21 with the tube 23, and the tube 22 is disconnected from the drain cavity 12. The flow through the gap between the gate 4 and the saddle 30 fills the cavity 10 under the stepped piston 6, through the cavity 10 fills the cavity 8 above the stepped piston 6 and through the throttle bores 17 and 18, the control cavity 1 3 above and below the small piston 14. Thus, the inlet pressure is established in all the piston cavities.

Before starting the regulator, it is necessary to connect the tube 24 to the tube 21 to the tube 22, while in the discharge cavity 12 an output pressure is established, which causes a pressure drop on the step piston -6 due to the difference in the area of the steps. Regulator is closed.

To supply flow to the regulator output, it is necessary to open control element 26 connecting the control cavity 12 above the small piston 14 through the control channel 20 to the drain cavity 12, where the pressure decreases, the small piston 14 moves upwards and retracts the valve 16 from the seat 7. This causes a decrease pressure in the cavity 8 above the stepped piston 6 and the movement of the stepped piston 6 upwards, which leads to the opening of the saddle 29

take 4. The flow enters the regulator output. When closing the control element 26 pressure in the control cavity 13 above and below the small piston

14 is leveled and the piston 14 is fixed in the reached position due to the force of pressing the rod 15 with the spring 27, and the magnitude of the protrusion of the rod

15 above the regulator housing indicates the degree of opening of the regulator.

To shut off the flow to the regulator output, open control element 25, which creates a reverse pressure drop on the small piston 14 and gate 4 overlaps the saddle 29 at the end of the outlet nozzle 3.

In the reverse flow in arrow B, the regulator operates in the same way, for which it is necessary to disconnect the tube 24 from the tube 22 and connect it to the tube 23. Thus, the flow regulator is functionally symmetrical with respect to the alternating flow.

Claims (3)

1. A flow regulator comprising a housing with inlet and outlet nozzles and a closure member connected between them connected to the piston, the cavities above and below which are connected 3 through the throttle and the spring installed in the housing, the tasks, the control element, installed in the control cavity and connected through the rod to the locking element, the drain cavity, the control cavity being connected to the inlet and outlet nozzles through the channels control, characterized in that, in order to increase the accuracy, reliability and enhancement of the functionality of the controller, the piston is stepped to form between the steps of the intermediate cavity connected to the drain cavity and through the shut-off element, made in the form of a valve, with the cavity above the stepped piston, the control element made in the form of a small piston, and control cavity above and below small. the piston is connected through the throttle holes with the cavity above the stepped piston. 2. A flow regulator according to claim 1, wherein the valve is made in the form of a gate. 3. Flow regulator according to claims 1 and 2, characterized in that control nozzle-flap control elements are installed in control channels B.