RU2649172C1 - Flow rate controller - Google Patents

Abstract

FIELD: valves industry.

SUBSTANCE: flow rate controller relates to stop valves, namely to the shut-off and cut-off valves for gas and oil pipelines, through which liquids are pumped under pressure. Technical result of the proposed technical solution is the possibility of additional adjustment of the differential pressure at the inlet and outlet of the controller, at which the valve is open and closed by means of a flow rate controller comprising a housing with a rod connected thereto cooperating with the leverage system, a valve is mounted on the rod end, controller comprises a washer mounted on the housing and axially movable relative to the rod and fixing the position, and a spring is installed between the washer and the valve; the washer is mounted on the housing by means of a threaded connection and is provided with at least two fixing screws.

EFFECT: providing the possibility of additional adjustment of the differential pressure at the inlet and outlet of the controller.

1 cl, 1 dwg

Description

The flow regulator relates to shutoff valves, namely to shut-off and shut-off valves for oil and gas pipelines, through which fluids are pumped under pressure.

The closest in technical essence to the claimed device is the “COSTS REGULATOR" according to the patent for utility model 76096 dated 06/09/2008, IPC F16K17 / 04, comprising a housing with a stem installed in it, interacting with a lever system, a valve is installed at the end of the stem, characterized in that a spring is installed between the housing and the valve, a stroke limiter is installed in the housing; the lever system is made in the form of two pairs of interconnected levers, with one end of each pair fixed, the second end of each pair connected to the rod, the connection of the levers of each pair are spring-loaded; the valve is made in the form of coaxial bearing, retaining and restrictive rings pressed by the cover, between the cover and the bearing ring the packing and shock-absorbing rings are installed, a sealing ring is installed between the bearing and retaining rings; the housing is hermetically connected to the pipeline by a clamp; the retaining ring is made with holes made around the perimeter of the ring; the sealing ring is made with a protrusion around the perimeter; the restrictive ring is made with a ledge.

The force at which the valve moves from open to closed and vice versa is controlled by the preload of the four springs that make up the lever system interacting with the stem. The force of influence of the mentioned springs is regulated by their compression with the help of bolts.

The objective of the proposed technical solution is to enable additional adjustment of the differential pressure at the inlet and at the outlet of the regulator, at which the valve opens and closes.

The problem is solved by a flow regulator containing a housing with a rod installed in it, interacting with a system of levers, a valve is installed on the end of the rod, and the regulator contains a washer mounted on the housing with the possibility of axial movement relative to the rod and fixing the position, and between the washer and a spring is installed by a valve; the washer is mounted on the housing using a threaded connection and is provided with at least two fixing screws.

The essence of the technical solution is illustrated in figure 1, which shows a longitudinal section of a flow controller.

In FIG. 1 shows: flow controller 1, body 2, cover 3, rod 4, levers 5, springs 6, adjusting bolts 7, valve 8, washer 9, spring 10.

The flow controller is as follows.

The flow controller 1 comprises a housing 2 provided with a cover 3. In the housing 2, a rod 4 is mounted with the possibility of axial movement. The rod 4 interacts with a system of levers 5 located inside the housing 1. The system of levers 5 is made in the form of two pairs of radially arranged levers 5. Each lever 5 is pivotally fixed at one end to the housing 2, and the second end is pivotally connected to the rod 4. The levers 5 are spring-loaded springs 6. Springs 6 are made with the possibility of adjusting the preload using adjusting bolts 7. A valve 8 is installed on the stem 4. An additional washer 9 is installed on the outer surface of the body 2. The washer 9 is mounted on the body 2 sevogo movement relative to the rod 4 and the locking position. Optionally, the washer 9 is threaded and mounted on the housing 2 using a threaded connection. The position of the washer 9 is fixed by at least two fixing screws passing through the lateral threaded holes in the washer 9. A spring 10 is installed between the washer 9 and the valve 8.

The flow controller operates as follows.

The levers 5 tighten the stem 4 with the help of the springs 6 pressing on them, as well as the spring 10 installed between the additional washer 9 and the valve 8. The force of the action of the springs 8 is regulated by their compression by means of the bolts 7. The force of the action of the spring 10 is regulated by its compression by moving and fixing the selected position of the washer 9 on the housing 2. In the initial, closed, position, the valve 8 is held due to the force of the springs 6 of the lever-spring mechanism, as well as the force of the external spring 10. When the differential pressure at the inlet and outlet of the regulator 1 is reached with this spring 10 and springs 6 of magnitude, the rod 4 is displaced, raises the valve 8 and opens the channel of the pipe socket, while the energy of the fluid flow flowing through the channel of the pipe socket moves the rod 4 of the regulator 1 to the open position and fixes it to the lever-spring mechanism in open position. When reducing the total force acting on the valve 8 to the value specified by the springs 6 and 10, this valve 8 is moved to the closed position and fixed in this position using the lever-spring mechanism. The pressure drop for opening and closing the valve 8 of the regulator 1 is adjusted using the bolts 7 by loosening or pulling the springs 6, and also by loosening or pulling the spring 10 by moving the washer 9 and fixing its position on the housing 2. Introduction of an additional control means, namely, the washer 9, made with the possibility of axial movement relative to the rod 4 and fixing the selected position, expands the ability to adjust the operating modes of the device, including already mounted bath in working position. The proposed technical solution provides a wider range of adjustment of working pressure drops and allows you to move the washer 9 to set the nominal pressure at which the regulator 1 will trigger to open and at the same time, when the pressure exerted on the valve 8 decreases, the spring 10 helps to put the regulator 1 in the closed position .

The technical result of the proposed technical solution is the provision of the possibility of additional adjustment of the differential pressure at the inlet and at the outlet of the regulator, at which the valve is opened and closed due to the flow regulator containing a housing with a rod installed in it, which interacts with the lever system, a valve is installed at the end of the rod, the controller contains a washer mounted on the housing with the possibility of axial movement relative to the rod and fixing the position, and between the washer and the valve tanovlen spring; the washer is mounted on the housing using a threaded connection and is provided with at least two fixing screws.

Claims (2)

1. The flow regulator, comprising a housing with a rod installed in it, interacting with a system of levers, a valve is installed on the end of the rod, characterized in that the regulator contains a washer mounted on the housing with the possibility of axial movement relative to the rod and fixing the position, and between the washer and valve spring installed. 2. The flow regulator according to claim 1, characterized in that the washer is mounted on the housing by means of a threaded connection and is equipped with at least two fixing screws.

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