RU2264528C1 - Preventer - Google Patents

Abstract

FIELD: equipment used for underground oil and gas well repair, for sealing well head in emergency and during long operation interruption.

SUBSTANCE: preventer has body with axial channel adapted for passing pipes with processing facilities into well, pipe rams with piston-like hydraulic drive installed in side lids and blind rams with piston-like hydraulic drive mounted in side lids. Preventer also has hydraulic cylinders connected in pairs through communication channels adapted to supply working liquid. Each channel communicating hydraulic cylinder with working liquid injection pipeline is provided with shut-off valve. One part of shut-off valve is arranged in body, another part is installed in side lid. When side lid is attached to body bypass channel is installed in opened position. When side lid is removed from the body for ram replacement bypass valve may close channel, which communicates hydraulic cylinder with working liquid injection pipeline to provide air-tightness of hydraulic drive system to prevent liquid from leaking from hydraulic cylinder interior.

EFFECT: possibility to retain air-tightness of channel connection with hydraulic cylinder interior during side lid demounting.

6 dwg

Description

The invention relates to equipment used in the underground repair of oil and gas wells, and is used to seal the mouth in the event of an emergency at the well, as well as during a long break in work.

Known preventer containing a housing with an axial channel for the passage of pipes with technological equipment into the well, pipe dies with a piston hydraulic actuator mounted on the side removable covers, and blind dies with a piston hydraulic actuator mounted on the side covers, hydraulic cylinders connected in pairs by communication channels for supplying a working liquids [1]. A disadvantage of the known preventer is the lack of a shut-off valve in the communication channels for supplying the working fluid, therefore, when replacing the dies, these channels are disconnected with the depressurization of the line and leakage of the working fluid from the hydraulic cylinder cavity.

Also known is a preventer comprising a housing with an axial channel for the passage of pipes with technological equipment into the well, pipe dies with a piston hydraulic actuator mounted on side removable covers, and blind dies with a piston hydraulic actuator mounted on side removable covers, hydraulic cylinders connected in pairs by communication channels for supply of working fluid [2]. A disadvantage of the known preventer is also the lack of a shut-off valve in the communication channels for supplying the working fluid, therefore, when replacing the dies, these channels are disconnected with the depressurization of the line and leakage of the working fluid from the hydraulic cylinder cavity.

The technical problem solved by the invention is to equip each communication channel of the hydraulic cylinder with the working fluid injection line with a shut-off valve, which maintains the tightness of the connection of the channels to the hydraulic cylinder cavity at the time of dismantling the side removable cover (in order to replace the die).

The problem is solved in that the preventer containing a housing with an axial channel for the passage of pipes with technological equipment into the well, pipe dies with a piston hydraulic actuator mounted on the side covers and blind dies with a piston hydraulic actuator mounted on the side covers, hydraulic cylinders connected in pairs by communication channels for supplying the working fluid, it is made so that each channel of the hydraulic cylinder with the discharge line of the working fluid is equipped with a shut-off valve, which is located in the connection plane side cover with the preventer housing and is in the "open" position, or in the "closed" position when the side cover is removed from the preventer housing.

The invention is illustrated by drawings, which depict:

In figure 1 is a General view of the preventer in the initial position "open".

In figure 2 is a General view of the preventer in the context of aa (without steering wheels).

In figure 3 is a section of a preventer according to BB.

Figure 4 is a view of B.

Figure 5 is a view G of the shut-off valve in the "open" position.

Figure 6 is a view of the shut-off valve in the "closed" position at the time of disconnecting the side removable cover with a hydraulic actuator from the body of the preventer.

The preventer comprises a housing 1 with an axial channel 2 for pipe passage (not shown), pipe dies 3, blind dies 4, side covers 5 with a hydraulic actuator made in the form of a hydraulic cylinder 6, a piston 7, a rod 8, a screw 9 and a helm 10 (Fig. 1). To the fittings 11 are connected hoses from the energy block (figure 2). The fittings 11 are connected by communication channels with the working cavities of the hydraulic cylinders 6 through an open bypass valve 12 (figure 3; 4). The bypass valve consists of two parts 12A and 12B (figure 5). Part of the bypass valve 12A is pressed into the housing 1, and 12B is pressed into the side cover 5. Each part of the bypass valve is equipped with a movable plug 13, a spring-loaded spring 14 and interacting with the seat 15. When the housing 1 is closed, the plugs 13 come into power contact mutually wring out from the seat 15 and the bypass valve takes the position "open" (figure 5). When the side cover 5 is removed, the plugs 13 are pressed against the seat 15 by the action of the spring 14 and the bypass valve is in the closed position (Fig. 6).

The hydraulic system of the preventer operates as follows. In the operating position of the preventer, the side cover 5 is tightly pressed against the housing 1, the bypass valve is in the "open" position (figure 5). The working fluid from the power unit through hoses (not shown) flows to the fittings 11, then through the communication channels through an open bypass valve 12 is pumped into the working cavity of the hydraulic cylinders 6 and work is done to move the dies 3 or 4 in the desired direction. If necessary, replace the dies 3 or 4 in the field proceed as follows. The dies 3 or 4 are transferred to the initial position “open”, the pressure in the preventer hydraulic system is reduced to atmospheric and the side cover 5 is disconnected from the housing 1. In this case, the plugs 13 are pressed against the seat 15 by the action of the spring 14 and the bypass valve is in the “closed” position ( 6). The tightness of the hydraulic drive system is not broken and the working fluid does not flow out of the hydraulic cylinder cavity. After replacing the dies, the side cover 5 is attached to the housing 1, the plugs 13 come into force contact, are wrung out from the seat 15, and the bypass valve reverts to the “open” position. When installing the side cover 5 on the housing 1, the part of the bypass valve 12B additionally performs the function of a centralizer.

The inventive preventer allows in the field to replace the dies without dismantling the hydraulic lines and without violating their tightness. The lack of external hydraulic strapping of the hydraulic cylinders increases the ease of use of the inventive preventer.

Sources of information

1. UDC 622.245.73 (031) G.M. Guliants. Supplemental Blowout Equipment Guide. M., Nedra, 1983, p. 70.

2. UDC 622.245.73 (031) G.M. Guliants. Supplemental Blowout Equipment Guide. M., Nedra, 1983, p. 72.

Claims (1)

A preventer comprising a housing with an axial channel for the passage of pipes with technological equipment into the well, pipe dies with a piston hydraulic actuator mounted on the side covers, and blind dies with a piston hydraulic actuator mounted on the side covers, hydraulic cylinders connected in pairs by communication channels for supplying working fluid, characterized in that each communication channel of the hydraulic cylinder with the discharge line of the working fluid is equipped with a shut-off valve, part of which is located in the housing, and part in the side cover, m when the housing with the side cover is closed, the bypass valve is in the “open” position, and when the side cover is removed to replace the dies, the bypass valve can block the hydraulic cylinder communication channel with the working fluid injection line to ensure the hydraulic drive system is tight, in which the working fluid from the cavity hydraulic cylinders do not leak.

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