RU2600471C1 - Drilling overflow valve shut-off device - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to gates of overflow valves and can be used in drilling equipment. Shut-off device is made in the form of a pressed to the seat spherical gate in form of a ball segment arranged with its base upwards with the possibility of movement, incorporates support elements made in the form of curvilinear legs bent in the direction to the top of the ball segment. Support elements are connected with the spherical gate and the support made, for example, in the form of a ring with a hole for the liquid passage. Shut-off device is made as a single part from an elastic wear-resistant material, for example polyurethane.

EFFECT: technical result is improvement of reliability of the valve operation.

5 cl, 3 dwg

Description

The invention relates to shut-off devices and can be used in various industries, in particular in drilling equipment, for example, overflow check valves when drilling wells.

Known valve shutoff valve overflow ball (RF patent No. 2424416, IPC E21B 21/10, publication date 07/20/2011), made in the form of a ball mounted in a limiter, which is fixed in a cage placed in the valve body, and has a return spring for the removal of the locking element from the saddle in case of stopping the flow of drilling fluid into the downhole motor.

The disadvantages of the known locking organ are:

- when the valve is open and the fluid flow passes through the overflow hole, the return spring is subject to hydroabrasive wear from the action of the fluid flow with the abrasive particles contained in it, which reduces the reliability of the shutoff valve and the valve as a whole;

- the possibility of jamming of the locking element in case of breakage of the return spring, which is subject to significant vibration during operation, which leads to failure of the valve.

Known valve stop valve (RF patent No. 2544351, IPC E21B 34/06, publication date 03/20/2015), taken as a prototype, made in the form of a spherical locking element pressed against the saddle in the form of a spherical segment, with the possibility of its movement, equipped with supporting elements made in the form of curved legs connected to the locking element and the support with a hole for the passage of fluid, while the locking body is made in the form of a separate part.

The disadvantages of the known locking organ are:

- low functionality due to the impossibility of its use in the overflow drill valve, since in the initial position the shut-off element is in a normally closed state. When the drill string is lifted from the well and the pipes are untwisted, there is no discharge of fluid from the in-pipe space into the well, which will lead to uncontrolled outflow of fluid at the wellhead;

- increased size along the vertical axis of the locking element.

The objective of the invention is the development of the design of the shutoff valve of the overflow valve, eliminating its jamming in the valve, which does not require an additional drive of the locking element when the valve is operating.

The technical result obtained as a result of the implementation of the proposed design is to simplify the device, increase reliability.

The specified technical result is achieved by the fact that the shutoff valve of the drilling overflow valve, made in the form of a spherical locking element pressed to the saddle, made in the form of a spherical segment with the possibility of its movement, equipped with supporting elements made in the form of curved legs connected to the locking element and the support with hole for the passage of fluid, while the locking element is made in the form of a single part, according to the invention, the locking element is located in the locking body base up, and the curve -linear legs at the juncture with the base of the spherical segment are curved and are directed towards the top spherical segment, the support is located above the top spherical segment of the valve plug.

The implementation of the supporting elements in the form of curved legs, curved and directed to the top of the spherical segment, allows to improve the operating conditions of the locking element, namely, to reduce the value of angular deformation with less bending stresses along the length of the legs when moving a spherical locking element along the central axis of the locking element to the valve seat, which improves reliability. In addition, the claimed technical solution of the locking body has a reduced size compared to the prototype, which allows the use of the locking body in devices requiring a compact arrangement along the valve axis.

The technical result is achieved by the fact that the supporting elements are made in the form of plates having straight sections adjacent to the support parallel to the axis of the locking member, which creates a zone subject to the same elastic deformation when the spherical segment at the junction of the straight section of legs adjoins to move. This provides high reliability when landing a spherical locking element on the valve seat when applying drilling fluid. After the liquid supply is shut off, it provides a reliable withdrawal of the locking element from the saddle by the force of elastically deformed legs, ensuring its centering and eliminating jamming.

The location of the support of the locking element above the top of the spherical segment allows to reduce the height of the curved legs, reducing material consumption, to improve the stability of the locking element, which improves the reliability of the product.

The implementation of the support in the form of a ring with a Central hole having a radius greater than the radius of the spherical segment, allows you to increase the area of the through section of the outlet opening connecting the annulus to the pipe cavity. And also reduce the flow rate and reduce hydraulic resistance to fluid flow.

Performing on the support of the outer annular belt allows to increase the ease of installation and the reliability of the locking element in the valve body.

The technical result is also achieved by the fact that the implementation of the locking element from an elastic material allows to reduce the level of vibration by reducing the impact force of the spherical locking element on the valve inlet, to increase the durability of the locking element.

The implementation of the locking body of a wear-resistant material, such as polyurethane, allows to increase the service life of the device when working in difficult conditions, for example in aggressive environments.

The implementation of the locking element in the form of one part allows you to simplify the device, improve manufacturability, maintainability, allows for quick installation / replacement of the locking element in the valve body.

The presence of these signs allows us to conclude that the technical solution is new. When comparing the claimed solution with other technical solutions in the given technical field, no totality of features has been identified that distinguish the claimed solution from the prototype, which allows us to conclude that the technical solution meets the criterion of "inventive step".

Thus, the claimed solution is new, has an inventive step.

The compliance of the claimed invention with the criterion of "industrial applicability" is shown on the example of a specific implementation of the locking body.

In FIG. 1 shows a general view of the shutoff valve element of a drilling overflow valve; FIG. 2 is an example of installing a locking member in a valve body; FIG. 3 is an example of the operation of a valve shutoff member when supplying drilling fluid to a drill pipe string.

The valve locking element comprises a spherical locking element 1 made in the form of a spherical segment placed upside down in the locking body, supporting elements connected to it made in the form of curved legs 2, for example, in the form of curved plates directed to the top of the ball segment (Fig. 1 ) The ends of the legs 2 are fixed on a support 3, made in the form, for example, of a ring with a central hole 4 for the passage of a fluid whose radius is greater than the radius of the spherical segment. Curved legs 2 have straight sections 5 connected to the support 3, and radius sections 6 connected to the base of the spherical segment 1. Radius sections 6 are made with oppositely directed curvature at the ends adjacent to the locking element 1 and support 3. In this case, support 3 is placed above the top of the spherical segment 1 of the locking organ.

The support 3 is provided with an outer annular girdle 7 for fixing the locking member in the valve (Fig. 2). The support legs 2 and the radius sections 6 connecting the spherical locking element 1 with the support 3 form radial openings 8 for the flow of the medium. The locking body is made in the form of a single part from an elastically elastic wear-resistant material, for example polyurethane, by casting.

The shut-off element is installed in the overflow hole 9 of the valve body 10 without stopping the spherical shut-off element 1 in the seat 11 and the support 3 of the shut-off element is fixed (fixed) with an annular girdle 7 in the protrusion 12 of the valve body 10, for example, using a stop 13 (Fig. 2 )

The shutoff valve of the drilling overflow valve operates as follows.

When the drill pipe string is lowered into the well in an arrangement with a drill overflow valve, the fluid (oil, drilling mud, groundwater) located in the well enters the drill string through the overflow hole 9, a normally open shutoff element 1, through radial holes 8 of the locking body, filling the drill pipe string.

When the drilling fluid is supplied into the drill string under pressure downward (Fig. 3) due to the pressure drop and hydraulic resistance, the locking element 1, deforming the elastic legs 2 in the radius part 6, sits on the saddle 11, reliably blocking the fluid flow through the overflow hole 9 case 10, thereby separates the annulus and the inner cavity of the drill pipe string.

When the supply of drilling fluid is stopped and the drill string is lifted, the pressure in the string decreases, as a result of the compression force of the elastic legs 2, the locking element 1 returns to its original position. The valve opens and the liquid from the pipes raised above the wellhead enters through the overflow openings 9 into the annulus with equalization of the liquid level in the pipes and the well.

Thus, the claimed valve shutoff valve overflow allows you to provide high reliability valve response, increase the service life of the valve.

Claims (5)

1. The shutoff valve of the drilling overflow valve, made in the form of a spherical locking element pressed against the saddle, made in the form of a spherical segment with the possibility of its movement, provided with supporting elements made in the form of curved legs connected to the locking element and the support with a hole for the passage of fluid, wherein the locking element is made in the form of one part, characterized in that the locking element is located in the locking body base up, and the curved legs at the junction with the base of the ball of the first segment are bent and directed to the top of the spherical segment, while the support is located above the top of the spherical segment of the locking member. 2. The locking body according to claim 1, characterized in that the supporting elements are made in the form of plates having straight sections connected to the support of the locking body, and radius sections connected to the locking element. 3. The locking body according to claim 1, characterized in that the support is made in the form of a ring having a hole radius greater than the radius of the spherical segment. 4. The locking body according to claim 1, characterized in that the support is provided with an outer annular belt for fixing the locking body in the valve. 5. The locking body according to claim 1, characterized in that it is made of a resiliently elastic wear-resistant material, such as polyurethane.

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