RU43905U1 - HEAD SEALING HEAD (OPTIONS) - Google Patents

Abstract

The utility model relates to the field of oil and gas production. The technical result consists in increasing the durability and reliability of the wellhead sealing head (GT) due to the stability and elimination of scuffing of the self-sealing cuff (M) during repeated tripping operations of the tubing and their sleeve connections, while giving the GG universality due to the possibility of using two valves on the valve sizes. Essence: GG consists of a cylindrical body (K) 1 with an axial channel (OK) 2 and connecting flanges (PF) 3 and 4 at the ends. Inside K 1, a concentric M 5 is installed, made in the form of a conical funnel (KB) according to the first embodiment, and made in the form of KB, the cylindrical part of which is made with a thickening 6 on the outer surface and with an annular groove 7 on the inner surface and ends with conical sockets 8. M 5 relies on a support landing element made in the form of an annular protrusion 9 in OK 2 K 1, on which a seat ring 10 is installed. Inside K 1, on the PF 3 side, a push nut (NG) 11 for preloading M 5 and an o-ring 12 are installed, placed between to NG 11 and M 5. Also inside K 1 from the PF 4 side there is a thrust nut 13, in the supporting socket of which a restrictive ring 14 is installed (according to the first embodiment). While PF 3 and 4 are made in relation to each other with different outer diameters. And the GT block, according to the first embodiment, consisting of NG 11, the sealing ring 12, M 5 and the seat ring 10, and the GG block, consisting of the thrust nut 13 and the restrictive ring 14, are made with the possibility of technological rearrangement of their location in OK 2 K 1 in relation to each other. 2 n.p. 2 C.p. 2 ill.

Description

The utility model relates to the field of oil and gas production, in particular, to devices for sealing the wellhead during tripping operations with tubing in the process of well development, as well as in the process of ongoing and overhauls.

Known wellhead sealant (RF Patent No. 2217574, class E 21 B 33/03, 2001), containing a cylindrical body with connecting flanges and an axial channel, inside of which an annular self-sealing elastic concentrically installed is mounted on a ring protrusion in the axial channel of the housing the cuff, the pressure cap, pressing the cuff, while the cuff in the upper part is equipped with an upper and lower annular collar, between which a metal frame is installed, and in the lower part of the cuff contains a fins covering the protrusion of the housing, and the sleeve. In the cover, upper and lower annular collars of the seal, a split ring and an annular protrusion, holes are made through which studs with a threaded upper and lower parts are passed.

However, this well-known wellhead sealant is quite difficult to manufacture, it requires unconventional parts.

In addition, this sealant does not exclude the formation of scoring during tripping operations of tubing (tubing), especially in the area of the coupling, which can lead to damage to the cuff, and therefore to the depressurization of the device.

Another disadvantage of the known sealant is the lack of versatility in its use on valves of various sizes.

Closest to the claimed utility model in technical essence is the wellhead sealing head (Auth. Certificate. USSR No. 1564323, class E 21 B 33/03, 1987), consisting of a cylindrical body with connecting flanges and with an axial channel, inside which with the support on the landing element is placed spacer sleeve. An annular self-sealing elastic cuff made in the form of a conical funnel, the inner surface of which is in the form of a cylinder with conical bells, is concentrically installed inside the housing in the axial channel. The head also contains a pressure nut installed in one of the flanges of the housing, and a thrust nut installed in the other flange of the housing. Over the entire inner surface of the cuff, the safety elements are evenly placed, made in the form of rods bent at the ends, repeating the shape of the generatrix of this surface in its free state, namely, a T-shape. Moreover, the rods at their curved ends from the side of the axial channel of the body have rigidly connected sectors, and in the middle part between the sectors, the rods are made with radial grooves to accommodate the material of the elastic cuff.

The specified wellhead wellhead sealing head is intended for use during tripping operations in the well under pressure.

However, it is not without drawbacks, namely:

- during the hoisting operations, the cuff can be seized when the tubing coupling passes upward or breaks in the bearing area on the support element during the passage of this coupling

connections down because the weakest point in the self-sealing cuff of the known sealing head is precisely the area of support on the support element, because in this place the cuff experiences the strongest and most uneven tension, and its additional protection is absent in the known head;

- in addition, the known sealing head does not ensure its use on valves of various types, because its connecting flanges are made of one standard size.

The technical result achieved by the proposed utility model is to increase the durability and reliability of the wellhead sealing head due to the stability and elimination of scuffing of the self-sealing cuff during repeated tripping operations of the tubing and their sleeve connections, while giving the head versatility due to the possibility of using two valves on the valve sizes.

The specified technical result is achieved according to the first embodiment of the wellhead sealing head containing a cylindrical body with connecting flanges and an axial channel, inside of which, relying on the landing element, made in the axial channel of the body, an annular self-sealing elastic cuff, a pressure nut, a tightening cuff and installed in one of the flanges of the housing, and a thrust nut installed in the other flange of the housing, while the device further comprises a seal a body ring installed between the pressure nut and the cuff, as well as a restrictive ring placed in the support seat of the thrust nut, and an annular protrusion made on the inner surface of the housing in the axial channel as a seating element for the cuff

which has a seating ring, the cuff is made in the form of a conical funnel, and the wellhead sealing head unit, consisting of a pressure nut, o-ring, cuff, and seating ring, and the wellhead sealing head unit, consisting of a thrust nut and a restrictive ring, are configured to the implementation of technological rearrangement of their location in the axial channel of the housing in relation to each other, and in the second embodiment of the proposed wellhead sealing head containing tsili Drica housing with connecting flanges and an axial channel, inside of which, supported by a seating element made in the axial channel of the housing, an annular self-sealing elastic cuff in the form of a conical funnel is installed concentrically, the cylindrical part of which ends with conical sockets, a pressure nut, a tightening cuff and installed in one of the flanges of the housing, and a thrust nut installed in another flange of the housing, while the device further comprises a sealing ring installed between a pressure nut and a cuff, moreover, as a seating element for the cuff on the inner surface of the housing in the axial channel, an annular protrusion is made on which a mounting ring is mounted, while the cylindrical part of the cuff is made with a thickening on the outer surface and with an annular groove on the inner surface, and the block wellhead sealing head, consisting of a pressure nut, o-ring, cuff and seat ring, and a wellhead sealing head unit, consisting of a thrust nut, are made with the possibility of technological permutation of their location in the axial channel of the housing with respect to each other.

In an advantageous embodiment of both variants of the wellhead sealing head, connecting flanges

made in relation to each other with different outer diameters.

The specified technical result is ensured by the following.

Thanks to the additional introduction to the design of the proposed sealing head for both versions of the sealing ring installed between the pressure nut and the sleeve, it is possible to create a more rigid and durable system in the upper part of the sleeve that is subjected to the most severe load. The landing ring installed between the cuff and the support element serves the same purpose. Due to this landing ring and due to the stiffness of all elements, the destructive tensile stresses of the cuff are absorbed when the coupling joint passes through it. All this provides increased durability and reliability of the inventive sealing head.

The execution according to the second embodiment of the cylindrical part of the self-sealing cuff of a special design, namely, with a thickening on the outer surface and with an annular groove on the inner surface, allows for maximum stress relief in the cuff body when the tubing sleeve passes through it.

And due to the fact that the connecting flanges are made with respect to each other with different outer diameters, it became possible to use the proposed head on equipment of various sizes by turning the head itself and simultaneously by technological rearrangement of the location of the blocks of elements in the axial channel of the housing with respect to each other. This makes the proposed wellhead sealing head versatile.

The essence of the proposed utility model is illustrated by drawings, where in Fig.1 shows a General view of the wellhead

a sealing head according to the first embodiment; figure 2 is a General view of the wellhead sealing head according to the second embodiment.

The proposed wellhead sealing head consists of a cylindrical body 1 with an axial channel 2 and connecting flanges 3 and 4 at the ends. Inside the housing 1, a ring self-sealing elastic cuff 5 is concentrically mounted, made in the form of a conical funnel (according to the first embodiment), and made in the form of a conical funnel, the cylindrical part of which is made with a thickening 6 on the outer surface and with an annular groove 7 on the inner surface and ends with conical sockets 8 (according to the second option). The cuff 5 is supported by a support landing element made in the form of an annular protrusion 9 in the axial channel 2 of the housing 1, on which the seat ring 10 is mounted. Inside the housing 1, a pressure nut 11 is installed on the side of the connecting flange 3 to compress the cuff 5 and the sealing ring 12 is placed between the pressure nut 11 and the collar 5.

Also inside the housing 1 from the side of the connecting flange 4 is placed a thrust nut 13, in the supporting socket of which a restrictive ring 14 is installed (according to the first embodiment). In this case, the connecting flanges 3 and 4 are made with respect to each other with different outer diameters. A block of the sealing head, according to the first embodiment, consisting of a pressure nut 11, a sealing ring 12, a sleeve 5 and a seat ring 10, and a block of a sealing head, consisting of a thrust nut 13 and a restrictive ring 14, are made with the possibility of technological rearrangement of their location in the axial channel 2 of the housing 1 with respect to each other (in this case, the top and bottom of the sealing head is swapped).

A similar technical rearrangement is provided for the head according to the second embodiment.

Wellhead sealing head operates as follows.

The wellhead sealing head assembly with the lower connecting flange 3 (the choice of the lower flange of the flange 3 or 4 depends on the size of the attached fittings) is installed and fixed at the wellhead. A preventer or other equipment is mounted on the upper flange 4.

After mounting the head at the wellhead, the tubing string is finally lowered. When the coupling approaches, the latter freely passes into the conical part of the cuff 5 and is inserted into the cylindrical part of the cuff 5, due to the fact that the block consisting of the sealing ring 12, the cuff 5 and the seat ring 10 forms a single system that ensures uniform distribution in it load voltage, eliminates the prohibitive load on the cuff 5 and its rupture. This is also ensured by the influence of the thrust nut 13 and the restrictive ring 14 (according to the first embodiment), which relieve unnecessary stresses from the sleeve 5 when the tubing clutch passes through it during descent. When lifting the elevator pipes, the above block also ensures that the cuff 5 is not damaged and damaged. The same uniform distribution of the load voltage is provided by the sealing head according to the second embodiment due to the cylindrical part of the cuff 5 with a thickening 6, while the annular groove 7 is present on the inner surface of the cylindrical part of the cuff 5.

The use of the proposed wellhead sealing head will allow several times to increase the total length of the lift pipes with coupling joints, which can be passed through the elastic cuff before it breaks down. All this proves the durability and reliability of the proposed sealing head.

Claims (4)

1. Wellhead sealing head containing a cylindrical body with connecting flanges and an axial channel, inside of which, supported by a seating element made in the axial channel of the body, an annular self-sealing elastic collar is concentrically installed, a pressure nut, a tightening collar and installed in one of the flanges of the housing , and a thrust nut installed in another flange of the housing, characterized in that the device further comprises a sealing ring installed between the pressure nut and cuff, and also a restrictive ring located in the support seat of the thrust nut, and as a seating element for the cuff on the inner surface of the housing in the axial channel, an annular protrusion is made on which the landing ring is mounted, while the cuff is made in the form of a conical funnel, and the wellhead sealing unit heads, consisting of a pressure nut, a sealing ring, a cuff and a seat ring, and a wellhead sealing head block, consisting of a thrust nut and a restrictive ring, are made with zhnosti process of rearrangement of their location in the axial channel of the body relative to each other. 2. Wellhead sealing head according to claim 1, characterized in that the connecting flanges are made in relation to each other with different outer diameters. 3. Wellhead sealing head containing a cylindrical body with connecting flanges and an axial channel, inside of which, supported by a seating element made in the axial channel of the body, an annular self-sealing elastic cuff in the form of a conical funnel, the cylindrical part of which ends with conical sockets, is pressed a nut tightening the cuff and installed in one of the flanges of the housing, and a thrust nut installed in the other flange of the housing, characterized in that the device additionally contains a sealing ring installed between the pressure nut and the cuff, and an annular protrusion on which the seating ring is mounted on the inner surface of the housing in the axial channel is made as a mounting element for the cuff, while the cylindrical part of the cuff is made with a thickening on the outer surface and with the annular a groove on the inner surface, wherein the wellhead sealing head unit, consisting of a compression nut, o-ring, cuff, and seat ring, and the mouth unit oh sealing head, consisting of a thrust nut, made with the possibility of technological rearrangement of their location in the axial channel of the housing with respect to each other. 4. Wellhead sealing head according to claim 3, characterized in that the connecting flanges are made in relation to each other with different outer diameters.