RU2232253C2 - Device for sealing well mouth - Google Patents

Abstract

FIELD: well maintenance technology.

SUBSTANCE: device has body with cover, force cylinder with hollow rod placed in the body and with piston, which separates cylinder on proximate and remote working hollows and compactor placed in body hollow between cover and hollow rod. Hollow rod is provided with longitudinal plungers mounted in through apertures made in this rod, which connect remote working hollow of force cylinder and body hollow, in which compactor is placed. Longitudinal plungers are provided with limiters of their displacement in direction opposite to compactor. Longitudinal plungers are made with capability for extending from through apertures of hollow rod. In current given variant limiters are made in form of ring-shaped plungers shelves. Longitudinal plungers, while extending, push out worn compactor from body for replacement with new.

EFFECT: lesser axial dimensions of sealing device.

1 dwg

Description

The invention relates to the field of operation and underground repair of oil and gas wells using flexible continuous pipes.

A wellhead sealant is known, comprising a housing with a cover, a power cylinder with a hollow rod and a piston located in the housing, dividing it into the working cavities near and far from the cover, and a seal (see RF patent No. 2047733, class E 21 B 33/06 ) In this sealant, the seal is tapered and installed in the conical bore of the cover.

The disadvantage of this sealant is the complexity of removing the worn seal from the cover, since during operation the seal is pressed into the wall of the cover.

Another wellhead sealant is known, comprising a housing with a cover, a ram with a hollow rod and a piston located in the housing, dividing it into the working cavities near and far from the cover, and a seal located in the housing cavity between the cover and the hollow rod (see A. G. Molchanov, S. M. Vainshtok, V. I. Nekrasov and V. I. Chernobrovkin. Underground repair and drilling of wells using flexible pipes. Academy of Mining. - M., 1999, p. 75, Fig. 3.1) . In this sealant, the seal is cylindrical and installed in the cylindrical cavity of the housing.

Due to the cylindrical seal and its installation in the cylindrical cavity of the housing, the removal of the worn seal from this sealant is not laborious compared to the sealant described above, since this removal is carried out by moving the hollow rod that pushes the worn seal out of the cavity of the housing when the cover is removed from this housing.

However, this sealant has significant axial dimensions due to the significant length of its ram, which is necessary to ensure the stroke of its piston, sufficient to push the hollow rod out of the cavity of the seal housing.

The objective of the present invention is to develop the design of the sealant wellhead, which allows to reduce the axial dimensions of this sealant.

The problem is solved in that in the sealant of the wellhead containing a housing with a cover, a power cylinder with a hollow rod and a piston located in the housing, dividing it into the working cavities near and far from the cover, and a seal located in the housing cavity between the cover and the hollow rod , the hollow rod is provided with longitudinal plungers installed in through holes made in this rod, which connect the working cavity of the power cylinder distant from the cover and the cavity of the housing in which the seal is located, the plungers are provided with stops movement in the direction opposite to the seal.

The difference between the proposed wellhead sealant and the above known closest to it is that it has a hollow rod equipped with longitudinal plungers installed in through holes made in this rod, which connect the working cylinder of the power cylinder distant from the cover and the body cavity, in which the seal is located, while the plungers are equipped with limiters for their movement in the direction opposite to the seal.

The hollow rod is supplied with longitudinal plungers and installed in through holes made in this rod, which connect the working cylinder far from the cover of the power cylinder and the body cavity in which the seal is located, allows the plungers to move and work under the pressure in the far from the cover of the working cavity of the power cylinder push the worn seal out of the body cavity when the piston with the hollow rod stops in the position closest to the cover.

The supply of plungers with limiters for their movement in the direction opposite to the seal provides the movement of the plungers together with the hollow rod.

The technical result of the proposed sealant is to reduce its axial dimensions.

The proposed sealant wellhead is illustrated in the drawing.

The sealant of the wellhead comprises a housing 1 with a cover 2, a power cylinder 3 with a hollow rod 4 and a piston 5 located in the housing 1, dividing it into the working cavities, respectively A and B, closest to and farthest from the cover 2, and a seal 6 located in cavity B body 1 between cover 2 and hollow stem 4.

The hollow rod 4 is provided with longitudinal plungers 7 installed in the through holes 8 made in this rod, which connect the working cavity B of the power cylinder 3 farthest from the cover 2 and the cavity “B” of the housing 1, in which the seal 6 is located. The plungers 7 are equipped with limiters for their movement to the side opposite the seal 6.

In this particular embodiment, the stops are made in the form of annular protrusions 9 of the plungers 7. They can be made in the form of interacting with the ends of the plungers 7 of the protrusions of the walls of the through holes 8 directed to the opposite side from the seal 6.

As the power cylinder 3, a hydraulic cylinder or a pneumatic cylinder can be used.

Position 10 denotes a flexible continuous pipe. Sealer wellhead works as follows. With increasing pressure of the working medium in the cavity B of the power cylinder 3 and dumping it in the cavity A, the piston 5 and its hollow rod 4 with plungers 7 rise up (according to the drawing), while the end of the hollow rod 4, interacting with the seal 6, compresses it, reducing its inner diameter. As a result of this, the flexible continuous pipe 10 is densified.

To unload the seal 6, the pressure of the working medium in the cavity B is released, and in the cavity A increase, as a result of this the piston 5 moves down (according to the drawing), and its hollow rod 4 with plungers 7 moves away from the seal 6. The seal 6 is restored to its size and a gap is formed between it and the flexible continuous pipe 10. With the indicated movement, the annular protrusions 9 of the plungers 7 interacting with the end face of the hollow rod 4 prevent the “loss” of the latter from the through holes 8 of the hollow rod 4 into the cavity B of the power cylinder 3.

To replace the worn seal 6 remove a flexible continuous pipe 10 from the sealant, remove the cover 2, increase the pressure of the working medium in the cavity B of the power cylinder 3 and discharge it into the cavity A, while the piston 5 with the hollow rod 4 rises to its highest position (according to the drawing ) and stops, and the plungers 7 are moved out from the through holes 8 of the hollow rod 4 upward (according to the drawing) under the influence of the working fluid pressure and push the seal 6 out of the housing 1. After that, I release the working fluid pressure in the cavity B of the power cylinder 3 And a cavity A increases, causing the piston 5 and a hollow stem 4 with plungers 7 are moved downward (in the drawing). A new seal 6 is inserted into the cavity In the housing 1, the cover 2 is closed and the sealant is ready for operation.

Using the present invention allows to reduce the axial dimensions of the sealant wellhead.

Claims (1)

A wellhead sealant comprising a housing with a cover, a power cylinder with a hollow rod and a piston located in the housing separating it into the working cavities near and far from the cover, and a seal located in the housing cavity between the cover and the hollow rod, characterized in that the hollow stem equipped with longitudinal plungers installed in through holes made in this rod, which connect the working cavity of the power cylinder distant from the cover and the body cavity in which the seal is located, while the longitudinal plunger The rods are equipped with limiters for their movement in the direction opposite to the seal, and are made with the possibility of extension from the through holes of the hollow rod and pushing of the worn seal out of the housing for replacement with a new one.