SU929813A1 - Underwater well-head gear - Google Patents

Description

(54) WELLWATER EQUIPMENT WELLS

one

The invention relates to the oil and gas industry, and therefore, to the subsea wellhead equipment.

Known underwater wellhead equipment, including a piston group and a locking mechanism 1.

However, the device has no sending mechanism, and the piston group is made with two connectors, with the opening and closing cavities respectively located above and below the piston group, which excludes the possibility of filling the cavity above and below the piston group with an anticorrosive inhibitor. In addition, this design of the coupling implies that each time the emergency alarm is triggered, the passage of its seals through the cavity supply opening opens, which is due to the reduced reliability of the emergency operation.

It is also known to have an underwater wellhead equipment, including connectors of the mouth and seawater, containing installed in the cavity formed by the upper and lower parts of the body, driving piston groups with shut-off mechanisms and the installation assembly of the seawater connector 2.

However, the installation unit descends separately from the seawater connector and requires separate control lines. During the 5th time of docking of connectors with heads, the body can be hit and damaged.

The use of device assemblies in various drilling systems requires the replacement of the lower part of the body.

The purpose of the invention is to simplify the design, increase reliability in operation by combining the control lines of the connectors and the installation node, as well as unifying the device nodes. 15

The goal is achieved by the fact that the installation unit is concentrically mounted relative to the body of the seawater connector, the upper part of the body is made with an annular groove, and the installation unit has an annular protrusion placed in the groove of the body, the lower part of the body of connectors has a stepped shape and is equipped with a replaceable guide shell.

FIG. 1 shows underwater wellhead equipment, general view; in fig. 2 - Ust connector; in fig. 3 — seawater connector with installation unit; in fig. 4 — node I in FIG. 2; in fig. 5 — node II in FIG. four; in fig. 6 — node III in FIG. four.

The subsea, wellhead equipment contains a connecting unit 1, a seawater connector 2 with an installation unit 3. The latter is connected to the subsea pipeline by a 4-m long floating drilling rig.

Connector 1 Ust contains a piston group 5 consisting of a fixing piston 6 and a release piston 7 interconnected. A similar piston group contains the seawater connector 2. In both connectors, the pistons are bonded to each other by means of a radial 8 and end 9 seals. The release piston is also connected with a ring 11 carrying wedge protrusions by means of a cylindrical ska and a radial seal 10. The lower part 12 of the connector body carries a locking mechanism 13, which interacts with the piston group 5. In the cavity formed by the upper H and the lower 12 parts of the case, an emergency piston 15 is placed. The upper part of the case has an annular groove on its outer surface installation node. Ust connector has a cap 16.

The lower part of the body has a stepped shape and a replaceable guide shell 17, forming a cavity a with the body.

In the seawater connector 2, the upper part 14 of the housing is provided with a protrusion with sealing elements and a groove for the fasteners 19 of the mounting unit 3 mounted on the movable cylinder 18 of the fastener 19, to which an abutment 20 adjoins from below. through holes 21. The connector 1, with its locking mechanism, interacts with the mouth of the guide head 22, and the connector 2 with the head 23 of the wellhead equipment. The cavities A between the piston group 5 and the cover 16 and B between the piston group 5 and the emergency piston 15 are filled with an anticorrosive liquid, and these cavities are interconnected through the through holes in the piston group 5. The cavities C, D and D are insulated from each other and from the surrounding mediums are sealing elements. and are, respectively, open, close and emergency openings of the connectors, and cavities E and F, respectively, are lifting and lowering the installation unit.

The device works as follows.

When connecting the wellhead equipment to the wellhead, the connector 1 is lowered onto the guide head 22, which slides

at the same time on the side 17 of the housing part 12. Then, applying pressure to the cavity D, move the pinch group 5 downward along parts 12 and 14 of the housing until the locking mechanism 13 is fully actuated. In this case, the connector 1 is rigidly attached to the head 22. The anticorrosive fluid flows from cavity B to cavity A through a through-hole in the piston group 5. Seals 9 and 10 prevent the penetration of sea water into cavities A and B and prevent the leakage of anti-corrosive fluid.

When separating the wellhead equipment from the wellhead, applying pressure into the cavity B, move the piston group 5 up to

5 as long as the locking mechanism 13 and the piston group 5 do not rest against the cap 16. The anticorrosive fluid flows from cavity A to cavity B, seals 9 and 10 work as stated above,

Qa and seal 8 perceives the pressure of cavity B, and when it goes out of order, as well as if it is necessary to increase the opening force, pressure is applied to cavity D, which moves the piston group 5 up and opens the locking device. With

5 this anticorrosive liquid of the cavities A and B flows into the pneumohydroaccumulator along the opening in the cap 16.

When connecting the wellhead equipment to the seawater, the connector 2 is lowered onto the head of the wellhead equipment 23, which slides over the shell 17, then occurs during the process of connecting the connector and the head. After that, applying pressure to the cavity W, lowering the movable cylinder 18 of the installation unit 3 until

5, the subsea pipeline 4 fails to connect and the cylinder 18 does not abut with its inner shoulder at the stop 20, after which the clips 19 will enter the groove of the body part 14 and close the cylinder 18 with the subsea pipeline 4 in their working position.

0 When separating the seawater from the wellhead equipment, the latches 19 are opened, then, by applying pressure to the cavity E, the movable cylinder 18 with the subsea pipeline 4 is moved upward until

until the conduit 4 is separated from the mouth, and the cylinder 18 does not rest against the protrusion outside the body part 14. Then, the connector 2 is separated from the head 23.

Next, the connector 2 with the sending device raise over the sea hundred to

The drilling vessel, while the movable cylinder 18 is in the upper position, carried in its internal cavity a large amount of sea water, which gradually flows out through the combined through holes 21 in the hulls and the stop.

Claims (2)

Combining the upper part of the housing of the seawater connector with the guide of the installation unit increases the rigidity of the entire device, which is necessary for shocks during the attachment of the connector to the head, and also reduces the size and weight. The execution of the piston group of connectors, equipped with a sealed uncoupling piston and a ring carrying wedge lugs, allows even when the piston group connector seals out of the joint, to perform both closing and opening of the connectors, and sealing the cavities with an anticorrosive fluid prevents seawater from entering them, which ensures the durability of the connectors. The use of a replaceable guide shell on the lower part of the connector's corpus increases their durability and. GLTL allows the lower part of the body to connect, allowing the lower part of the connector ™ body of the GTG TTLIUTK G / THESE of the mouth and the seawater to be the same. Claims 1. The underwater wellhead equipment of the well, including the mouth and seawater connectors, which are installed in the cavity formed by the upper and lower parts of the body, the driving piston groups with the locking mechanisms and the mounting assembly of the seawater connector, - that, in order to simplify the design, increase reliability in operation by combining the control lines of the connectors and the installation unit, as well as unifying the device nodes, the installation unit is concentrically set The core of the connector of the marine drain, the upper part of the body is made with an annular groove, and the installation unit has an annular protrusion inserted into the groove of the body. 2. Equipment under item 1, characterized in that the lower part of the body connect ClVl .TlV, 11Г1ЛЧ -Mw -, - "the stepped form and is equipped with a lx GT GTLOl I JlCn rliVlVt- 1 ijtiv-i j - a replaceable guide shell. guide ring. Sources of information taken into account in examinations 1 USSR author's certificate No. 655813, cl. Е 21 В 33/03, 1977. 2 Project of the company ARMCO National Subsea WEU-HEAD Equipement, Houston, TEXAS, 1977 (prototype). Fm.1 Fig 2