RU26830U1 - FLOW REGULATOR - Google Patents

Abstract

1. The flow regulator comprising a housing with a spring-loaded piston installed in it with passage holes and a locking groove for interacting with the latch, characterized in that the ends of the housing are made of annular grooves with the rings installed in them, the latch is made in the form of two pairs of locking nodes interacting with a locking groove, a sealing assembly is installed at the end of the piston, a turbine is installed in the piston cavity. 2. The flow regulator according to claim 1, characterized in that the rings in the end grooves of the housing are made of rubber. The flow regulator according to claim 1, characterized in that the fixing nodes in each pair are diametrically opposed, the fixing nodes of each pair are located in perpendicular planes and offset along the axis of the controller. The flow regulator according to claim 1, characterized in that the sealing assembly is made in the form of coaxial fluoroplastic and rubber rings pressed against the lid.

Description

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 about

Flow regulator

The utility model relates to pneumohydraulic shutoff valves, in particular to shut-off and shut-off valves for oil and gas pipelines, through which fluids are pumped under pressure.

Known flow regulator (RF patent No. 2032885, class G01F 11/00, publ. 1995), comprising a housing with a spring-loaded piston installed in it with passage holes and a locking groove for interacting with the latch.

The known device does not provide sufficient tightness and resistance to aggressive environments, prone to swelling of the sealing elements, does not provide long-term reliable interaction of the retainer and piston and reliable fixation of the piston in the open position.

The objective of this utility model is to develop a device devoid of these disadvantages.

The technical result consists in increasing the functional reliability of the flow controller.

The result is achieved in that in the flow regulator containing the housing with a spring-loaded piston installed in it with passage holes and a locking groove for interacting with the retainer, annular grooves with rings installed in them are made at the ends of the housing, the retainer is made in the form of two pairs of locking assemblies interacting with a locking groove, a sealing gasket is installed at the end of the piston

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node, a turbine is installed in the piston cavity, both by the fact that the rings in the end grooves of the housing are made of rubber, and by the fact that the fixing nodes in each pair are diametrically opposed, the fixing nodes of each pair are located in perpendicular planes and are displaced along the axis of the regulator, and the fact that the sealing unit is made in the form of coaxial fluoroplastic and rubber rings pressed against the cover.

The design of the flow controller is shown in the drawing, which shows the housing 1, clips 2, rubber rings 3, piston 4, cover 5, fluoroplastic ring b, rubber ring 7, threaded sleeve 8, spring 9, support ball 10, turbine 11, threaded sleeve 12 , fitting 13, stem 14, spring 15, nut 16, gasket 17, nut 18, gasket 19, support ball 20, drain screw 21, threaded sleeve 22.

The drawing does not show a 90 ° turn of one pair of clips relative to another.

The regulator operates as follows.

In the closed state of the regulator, the piston 4 is tightly adjacent to the input of the housing 1 and the interaction of the ring 6, spring-loaded by means of the ring 7, with the inner diameter of the housing 1 allows to ensure the tightness of the regulator and prevent unauthorized product flow. The rings 6, 7 are held at the end of the piston 4 by the cover 5. The regulator is kept closed by the interaction of one pair of latches 2 with one flange of the groove on the piston surface 4. Before working in the respective latches 2, the pressure of the ball 20 is adjusted by the spring 15 through the rod 14 s using the nut 18. In addition, the spring 9 helps to keep the piston 4 in this state.

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When the pressure drop at the inlet and outlet of the regulator reaches a value of 0.1 - 0.18 MPa (1 - 1.8 kg / cm), the piston 4 is shifted and opens the regulator for the passage of fluid flow. In this case, the energy of the fluid flow flowing through the holes of the piston 4, through the blades of the turbine 11 moves the piston to the open position and fixes it. In this case, another pair of clamps 2, located in the plane perpendicular to the plane in which the first pair of clamps 2 is located, interacts with the other groove rim on the surface of the piston 4 and helps to keep the regulator open. The setting of the pressure force of the ball 20 by the spring 15 is made as when fixing the closed position of the controller. In addition, the turbine 11 under the influence of a fluid flow rotates the piston 4 about an axis in an arbitrary manner and the balls 20 of the clips 2 do not roll unauthorized grooves on its surface.

As the liquid is discharged, the pressure drop decreases. With a decrease in the total force acting on the piston 4 by the fluid flow through the turbine and from the latches 2 of the open position to a lower value of the force of the return spring 9, the piston 4 returns to the closed position under the influence of the spring 9 and the latches 2 of the regulator closed state are activated. To relieve pressure and clean the regulator, drain screw 21 is unscrewed and drained.

Thus, the utility model provides sufficient tightness and resistance to aggressive media in the regulator, the sealing elements are not subject to swelling in it, provides long-term reliable interaction of the clamps and the piston and reliable fixation of the piston in the open position. All this increases the functional reliability of the flow controller.

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Claims (4)

1. The flow regulator comprising a housing with a spring-loaded piston installed in it with passage holes and a locking groove for interacting with the latch, characterized in that the ends of the housing are made of annular grooves with the rings installed in them, the latch is made in the form of two pairs of locking nodes interacting with a locking groove, a sealing assembly is installed at the end of the piston, a turbine is installed in the piston cavity.  2. The flow regulator according to claim 1, characterized in that the rings in the end grooves of the housing are made of rubber.  3. The flow regulator according to claim 1, characterized in that the fixing nodes in each pair are diametrically opposed, the fixing nodes of each pair are located in perpendicular planes and offset along the axis of the regulator. 4. The flow regulator according to claim 1, characterized in that the sealing assembly is made in the form of coaxial fluoroplastic and rubber rings pressed against the lid.