RU124759U1 - FIXED VALVE VALVE VALVE APPLICABLE FOR EXTRACTION OF LIQUID USEFUL FOSSIL - Google Patents

Abstract

1. Valve with a fixed position of the shutter, used in the extraction of liquid minerals, containing a body and a collection pipe with holes for the inlet and outlet of the flow medium, a seat, a shutter and means for fixing the position of the shutter, characterized in that it further comprises a plug, at least , a part of which is made of ferromagnetic material, installed in the housing, and the means for fixing the shutter position is made in the form of at least one magnet with a pre-calculated coercive force. 2. The valve according to claim 1, characterized in that the guides are additionally mounted on the collection pipe to orient the movement of the shutter. The valve according to claim 1, characterized in that a permanent magnet is installed in the lower end of the plug. The valve according to claim 3, characterized in that a permanent magnet with randomly oriented poles is used. The valve according to claim 3, characterized in that a permanent magnet with definitely oriented poles is used. The valve according to claim 1, characterized in that at least one permanent magnet is additionally installed in the shutter. The valve according to claim 6, characterized in that a permanent magnet with randomly oriented poles is used. The valve according to claim 6, characterized in that a permanent magnet with definitely oriented poles is used. The valve according to claim 1, characterized in that a permanent magnet is additionally installed in the seat. The valve according to claim 9, characterized in that a permanent magnet with randomly oriented poles is used. The valve according to claim 9, characterized in that a permanent magnet with definitely oriented poles is used. The valve according to claim 1, characterized in that, according to m

Description

The technical solution relates to the field of machine components and parts, namely, to the field of valves, preferably providing the passage of gas, liquid or gas-liquid flows, and can be used in any field of science and technology using controlled movement of gas, liquid or gas-liquid flows, in particular in the gas, petrochemical and chemical industries.

Known valve device (RU, patent 2066010), comprising a housing with inlet and outlet nozzles and installed in its channels, at least two locking elements, loaded towards the saddle by means of spring mechanisms mounted coaxially with these channels. The inlet and outlet nozzles are located coaxially and perpendicular to the indicated channels, and the spring mechanisms are placed in the cylindrical openings made in the housing, in communication with the inlet pipe in the open position of the valve and with the outlet pipe in the closed position of the valve.

A disadvantage of the known device should be recognized as the limited validity period due to the use of spring mechanisms subjected to periodic mechanical stresses.

Known (RU, patent 2447346) is a shut-off valve with an unloaded shutter, containing the lower and upper bodies, a seat with a sealing surface, a plunger in the form of a hollow sleeve with a sealing surface and through holes made in its bottom, with the formation of a chamber for unloading the plunger, the actuator rod, diaphragm bellows with a folding corrugation shape with end parts, the upper of which is hermetically connected to the upper part of the plunger, and the lower one is hermetically mounted in the valve body, providing the drive with compression from the bellows axial movement of the plunger, the internal cavity of the bellows through passage formed in the lower end piece, communicated through the bypass line provided with a shut-off device, with the cavity "under gate" medium pressure. The upper end part of the bellows is made in such a way that it forms a plunger pair and a cavity between the upper case and the outer surface of the bellows, the average diameter of which is equal to the average diameter of the sealing surface of the valve shutter, the valve is equipped with a second bypass line with a shut-off device, which connects the pressure cavity working medium "on the shutter" with the outer cavity of the bellows, in addition, both channels of the bypass lines are equipped with a check valve, while the locking device performed normally open action.

A disadvantage of the known valve should be recognized as the complexity of the design, as well as the limited duration due to the use of a membrane subjected to periodic mechanical stress.

The closest analogue of the developed valve can be recognized (RU, patent 96208) a valve with a fixed shutter position, used in the extraction of liquid minerals. The developed valve comprises a seat, a shutter, an elastic element with an aperture in the central part, a cover and a pin with a head, the elastic element being located between the shutter and the cover, a through hole is made in the shutter from the side of the cover to accommodate the pin with the head. The elastic element is preferably made spring or disk with windows for the passage of the medium flow. The seating surface of the valve seat may be in the form of a cone, sphere, plane, or may consist of several of the above forms. Accordingly, the landing surface of the valve shutter may also be in the form of a cone, sphere, plane, or consist of several of the above forms. The elastic element may be made of one or more plates or one or more petals. The contact surface of the shutter and the elastic element may be in the form of a cone, a sphere, or a rounded shape. The valve shutter in the closed position can be fixed by preloading the elastic element. The plane of the elastic element relative to the axis of the valve can be oriented at an angle of up to 90 °. In some embodiments of the device, the resilient member may be attached to the valve cover or seat, or sandwiched between the valve cover and valve seat.

A disadvantage of the known valve should be recognized as a limited duration due to the presence in the design of the spring element subjected to periodic mechanical stresses.

The technical result obtained as a result of the implementation of the developed design is to increase its validity.

To achieve the specified technical result, it is proposed to use a valve with a fixed shutter position, used in the extraction of liquid minerals. The developed valve comprises a housing and a collection pipe with openings for the inlet and outlet of the flow medium, a seat, a shutter, and a means for fixing the shutter position. In addition, it further comprises a plug, at least part of which is made of ferromagnetic material, mounted in the housing, and the means for fixing the shutter position is made in the form of at least one magnet with a coercive force calculated in advance.

The valve of the developed design is based on the interaction of two different physical phenomena - magnetism and hydrodynamics. For a normally open valve, this interaction occurs as follows. When the flow moves through the flow path formed by the valve structure, due to the existing hydraulic resistance and high-speed pressure of the fluid, the pressure on the gate surface changes. As a result, a force begins to act on the valve plug, which is compensated by the coercive force of at least one permanent magnet included in the valve. The value of the indicated coercive force is constant. It is calculated at the design stage of the valve, based on the conditions of its further operation. With increasing flow rate, the force acting on the shutter from the side of the current medium becomes more magnetic and changes the state of the valve. The shutter sits on the seat and the valve closes. In this case, the flow is directed along a different flow path. The interaction of forces proceeds similarly with a decrease in the flow rate of the fluid — the pressure drop across the valve decreases and the magnetic force returns the valve to its original state.

In some embodiments of the developed structure, guides are additionally installed on the collection pipe to orient the movement of the valve shutter.

In the lower end of the tube, a permanent magnet can be additionally installed with pre-calculated parameters, including the value of the coercive force, and the poles of the magnet can be oriented both arbitrarily and oriented. It depends on the application conditions of the developed valve.

In addition, magnets with pre-calculated parameters, including the value of the coercive force, can be installed in the shutter, in the saddle, in at least one side guide, while the poles of the magnet can also be oriented both arbitrarily and oriented. It depends on the application conditions of the developed valve.

Of the ferromagnetic material can be made prefabricated pipe, shutter and housing.

The developed valve design is shown in Fig. 1 (open position) and Fig. 2 (top view, the casing is not shown conventionally), with the following notation used: casing 1, shutter 2, permanent magnet 3, plug 4, side guide 5, seat 6 and the collection tube 7. In the normal state, the valve is in the open position due to the coercive force of the permanent magnet. Switching of the valve can occur under the action of a differential pressure across the gate when the flow rate of the current medium changes. Moreover, due to the coercive force of the permanent magnet, it is possible to adjust the valve actuation time (closing or opening it).

The valve of the developed design with some of its modifications can be used in a passive system for regulating the direction of flow within the well under various modes of operation: installing equipment in the well, oil production, hydraulic fracturing, flushing the well, etc.

Claims (17)

1. Valve with a fixed position of the shutter, used in the extraction of liquid minerals, comprising a body and a collection pipe with holes for the inlet and outlet of the flow medium, a seat, a shutter and a means for fixing the position of the shutter, characterized in that it further comprises a plug, at least , a part of which is made of ferromagnetic material, installed in the housing, and the means for fixing the shutter position is made in the form of at least one magnet with a pre-calculated coercive force. 2. The valve according to claim 1, characterized in that the guides for orienting the movement of the shutter are additionally mounted on the collection pipe. 3. The valve according to claim 1, characterized in that a permanent magnet is installed in the lower end of the plug. 4. The valve according to claim 3, characterized in that a permanent magnet with randomly oriented poles is used. 5. The valve according to claim 3, characterized in that a permanent magnet with definitely oriented poles is used. 6. The valve according to claim 1, characterized in that at least one permanent magnet is additionally installed in the shutter. 7. The valve according to claim 6, characterized in that a permanent magnet with randomly oriented poles is used. 8. The valve according to claim 6, characterized in that a permanent magnet with definitely oriented poles is used. 9. The valve according to claim 1, characterized in that a permanent magnet is additionally installed in the seat. 10. The valve according to claim 9, characterized in that a permanent magnet with randomly oriented poles is used. 11. The valve according to claim 9, characterized in that a permanent magnet with definitely oriented poles is used. 12. The valve according to claim 1, characterized in that at least one lateral guide additionally has a permanent magnet. 13. The valve according to claim 12, characterized in that a permanent magnet with randomly oriented poles is used. 14. The valve of claim 12, wherein the permanent magnet is used with specifically oriented poles. 15. The valve according to claim 1, characterized in that the collection pipe is made of ferromagnetic material. 16. The valve according to claim 1, characterized in that the shutter is made of ferromagnetic material. 17. The valve according to claim 1, characterized in that the housing is made of ferromagnetic material.

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