RU2208126C2 - Rotating universal hydraulic blowout preventer - Google Patents

Abstract

FIELD: oil and gas producing industry; applicable for sealing wellhead in well drilling. SUBSTANCE: preventer has body with cavity and central hole, cover with hole, bearings. Sleeve has cavity accommodating sealing member. Sealed piston with stepped external surface is installed in body. Preventer has working, return and relief chambers. Additional hydraulic channels communicate relief and return chambers for directing the pressure from top downward. Diameters of contact of rotating piston with body and sleeve with cover are equal. EFFECT: higher versatility of hydraulic preventer and increased degree of sealing reliability, reduced overall dimensions and weight. 3 cl, 1 dwg

Description

 The invention relates to the oil and gas industry and is intended for sealing the mouth during drilling of oil and gas wells to prevent open fountains, as well as rotation and pacing of the drill string while sealing the mouth.

 A preventer is known having a housing, a cover, supports and a mechanism for transmitting pressure to the seal, consisting of a concentrically arranged hollow piston, a pressure cup and a support sleeve, wherein the pressure cup is mounted on a support in the piston and contacts the inner conical surface with the seal, and the lower part of the support sleeve located in the annular space formed by the outer surface of the pressure cup and the inner surface of the piston, its upper part is connected with the cover (AS 523167, E 21 B 33/06).

 The disadvantage of this preventer is the design complexity and insufficient reliability of the wellhead sealing.

 A known preventer comprising a housing with a cavity and a central hole, a cover with a central hole, a sleeve with a cavity for installing a sealing element, a bearing for transmitting force from the sleeve to the cover, a sealing piston with a central hole, with a surface for accommodating a sealing element having a working and return chambers, unloading chamber, hydraulic channels for connecting the working return and unloading chambers with a pressure source (Shaffer brochure, rotating blowout preventer).

 The disadvantage of this technical solution is the need for an additional hydraulic drive station for supplying pressure to the discharge chamber and increased torque for rotation of the device.

 A device is known for sealing a wellhead, comprising a housing with a cavity and a central hole, a cover with a central hole, a sealing element made of elastic material, a sleeve with a cavity for accommodating the sealing element, a bearing for transmitting force from the sleeve to the cover, a sealing piston with a stepped outer surface and surface to accommodate the sealing element, the working, return and discharge chambers, a hydraulic channel connecting the return and discharge chambers to the source m of pressure (patent application 97109588/03, Е 21 В 33/06 - prototype).

 The disadvantage of this technical solution is the lack of reliability of sealing, large dimensions and weight of the device.

 The technical task in developing the design of a rotating universal hydraulic preventer is reliable sealing of the wellhead during drilling, rotation and pacing of the drill string, reducing the dimensions of the weight of the preventer.

 This technical problem is solved by a structure comprising a housing with a cavity and a central hole, a sealing element made of elastic reinforced material, a sleeve with a cavity for accommodating the sealing element, a bearing for transmitting force from the sleeve to the cover, a sealed piston with a stepped outer surface and a surface for placement sealing element, bearing, working, return and unloading chambers, a hydraulic channel for connecting the working and unloading chambers with a pressure source, additional additional hydraulic channels passing through the sleeve and sleeve for connecting the return chamber to the pressure source when applying pressure from top to bottom. The return chamber is formed by the outer stepped surface of the piston, the inner surface of the lower part of the sleeve and the end face of the sleeve. The sleeve is installed between the piston and the sleeve, dividing the inner surface of the sleeve into the lower part and the cavity for installing the sealing element. The large piston stage on the return chamber side has a groove. The diameters of the contact surfaces during rotation of the piston with the housing and the cover with the sleeve are equal. In this design, the pressure supply mechanism, consisting of a piston, sleeve, sleeve, sealing element, makes up a closed chain with a return chamber inside. The hydraulic channel for connecting the working and unloading chambers with the pressure source is formed by the inner surface of the housing and cover and the outer surface of the sleeve. The rotating hydraulic preventer of this design has a high degree of sealing, compact with an easily movable piston, and a minimum weight.

 The drawing shows a rotating universal hydraulic preventer in the context (preventer). The preventer consists of a housing 1 with a cavity and a central bore, a piston 2 coaxially mounted inside the housing with a stepped outer surface, a central bore and seals 3, 4, 5. A sealing element 6 is installed at the end of the piston 2. The preventer has a working chamber A formed by a larger end the piston stage 2 and the body cavity 1, the discharge chamber B, formed by the outer surface of the upper part of the sleeve 7 and the inner surface of the cover 8. The inner surface of the sleeve 7 in the upper part has a cavity for accommodating of the relative element 6, and in the lower part forms with the outer stepped surface of the piston 2 a return chamber B connected to the pressure source by additional hydraulic channels 9. Between the cover 8 and the sleeve 7 in the unloading chamber B there is a thrust bearing 10 for transmitting force from the sleeve 7 to the cover 8. A sleeve 11 is installed between the piston 2 and the sleeve 7. A bearing 12 is installed between the housing 1 and the sleeve 7. A pressure transmission mechanism consisting of a piston 2, a sleeve 7, a sealing element 6, conjugated into one unit and during rotation, d Contact diameters of the surface of the piston 2 and the housing 1, the sleeve 7 and the cover 8 are equal and are the smallest. Channels 13 and 14 in the preventer are used to supply pressure.

 Rotating universal hydraulic preventer works as follows. Pressure is applied to the working chamber A through the channel 14. The piston 2 moves upward under pressure along the cylindrical lateral surface of the recess of the housing 1 and the inner surface of the sleeve 11, compressing the reinforced sealing element 6 from below and around the sphere of the sleeve 7, blocking the internal opening of the preventer or, if the borehole of a drilling tool (not shown), crimping it. When the tool is rotated on a sealed wellhead, together with a drill string, a seal 6, a piston 2 and a sleeve 7 coupled into one assembly rotate, which rests on the corresponding bearing bearings 10 and 12. The sealing element 6 is made of reinforced rubber. To open the preventer, pressure is supplied from above through the channel 13 through additional hydraulic channels 9 to the return chamber B. The piston 2 moves down, the reinforced sealing element 6, under the action of elastic forces, returns to its original position, sliding along the sphere of the sleeve 7.

 The proposed preventer has a compact small-sized design that provides reliable sealing of the well during rotation and pacing of the drill string.

Claims (3)

 1. A rotating universal hydraulic preventer having a housing with a cavity and a central hole, a cap with a hole coaxially mounted, a sealing element, a sleeve with a cavity for accommodating the sealing element, a bearing for transmitting force from the sleeve to the cover and a sealed piston with a stepped outer surface and with a surface for placement of the sealing element, bearing, working, return and unloading chambers, a hydraulic channel for communication of the working and unloading chambers, connected to the source Aviation, characterized in that the return chamber is formed by the outer stepped surface of the piston, the inner surface of the lower part of the sleeve and the end face of the sleeve installed between the piston and the sleeve, dividing the inner surface of the sleeve into the lower part and the cavity for installing the sealing element, and is connected by additional hydraulic channels to the source pressure for supplying hydraulic fluid from top to bottom, while the diameters of contact during rotation of the piston with the housing and the sleeve with the cover are equal.  2. The rotating universal hydraulic preventer according to claim 1, characterized in that the additional hydraulic channels are located in the sleeve and the sleeve.  3. The rotating universal hydraulic preventer according to claim 1, characterized in that the large piston stage on the return chamber side has a groove.