NO331619B1 - Device for drill hole plug set tool - Google Patents

Description

DEVICE FOR SETTING TOOLS FOR WELLHOLE PLUGS

A device is described for a setting tool for a wellbore plug arranged to be able to lie tightly against a wellbore wall by radial expansion, a hydraulic actuator being arranged to be able to be connected to the wellbore plug, and a first part of a housing forming a piston chamber that accommodates a working piston arranged to be able to be connected to the wellbore plug by means of a piston rod.

During well operations in the search for and production of oil and gas, plugs are often used to delimit a part of the wellbore from the rest of the wellbore. Such plugs can be set, i.e. activated by expanding to abutment against the wellbore wall, using a hydraulic locking system, as one or more actuators adjacent to the plug displace one or more plug elements in an axial direction to thereby expand the plug in a radial direction to a sealing arrangement against the wellbore wall.

Setting tools of the hydraulic type often have the disadvantage that they have a relatively long construction length.

US 4493374 A describes a hydraulically actuable setting tool for a radially expandable wellbore plug. The setting tool comprises an elongated, tubular body suitable for advancement in a wellbore by means of a cable. The body has an outer sleeve part and an inner piston part which is slidable inside the sleeve part. The piston part and the sleeve part can be engaged with an element to be set by counter movement of the piston part relative to the sleeve part acting to set the element. An electric motor is placed in the tubular body and is connected to an electric power source on the surface. A hydraulic pump is arranged in the tubular body and is provided with a fluid intake and is connected to and driven by the electric motor. A fluid passage places the fluid inlet in fluid communication with the piston portion in the interior of the body to provide pressurized hydraulic fluid to move the piston portion relative to the sleeve portion.

The purpose of the invention is to remedy or to reduce at least one of the disadvantages of known technology, or at least to provide a useful alternative to known technology.

The purpose is achieved by features that are stated in the description below and in subsequent patent claims.

There is provided a setting tool for a wellbore plug where the wellbore plug rests against an end part of a housing and is connected to a piston rod in such a way that when the piston rod is displaced in the axial direction of the housing away from the wellbore plug, the plug expands in a radial direction. The well plug in itself is not described further, as the setting tool according to the invention can be used for a wide range of plug types.

The housing forms a piston chamber delimited between a fixed gable element and a floating end piston. The gable element is provided with a continuous opening for the piston rod, and an internal gable opening wall is provided with fluid-tight piston rod seals that abut against the piston rod. The piston rod is fixed in a working piston which is axially displaceable in the piston chamber. A hydraulic pump and an associated electric motor are attached to the working piston. Lines designed to supply energy to the motor are led in a fluid-tight manner through the end piston and exhibit sufficient slack so that the end piston and working piston can be displaced relative to each other without the lines inhibiting such movement.

The floating end piston causes the volume of the piston chamber to change in accordance with the displacement of the working piston, as this displacement causes a varying proportion of the piston rod to occupy a partial volume in the piston chamber. There is thus no need for a hydraulic fluid accumulator outside the piston chamber.

The working piston and the pump are assembled so that one or more fluid conduits are provided between a first fluid port in the pump and a first part of the piston chamber which is delimited by the working piston and the end element so that this piston chamber part can thus be applied to a prescribed working pressure.

A second fluid port in the pump is in fluid communication with a second portion of the piston chamber which is bounded by the working piston and the floating piston.

When the setting tool is ready for operation, the piston chamber is filled with a suitable hydraulic fluid.

The gable element can be provided with a closable drain line for use, among other things, when the piston chamber is filled with the hydraulic fluid, as unwanted gas content can be evacuated through the drain line.

At least that part of the housing which forms the piston chamber is formed by a cylindrical body. The housing can be formed of two tubular bodies which are joined together by means of the gable element, preferably in that the opposite touching end parts are provided with threads which are designed to engage with corresponding threaded parts on the gable element. The housing preferably has an external, uniform casing surface.

The motor can be a brushless electric motor.

The invention relates more specifically to a device for a setting tool for a well-hole plug arranged to be able to lie tightly against a well-hole wall during radial expansion, a hydraulic actuator being arranged to be able to be connected to the well-hole plug, and a first part of a housing forms a piston chamber which accommodates a working piston adapted to be able to be connected to the wellbore plug by means of a piston rod, characterized in that

the piston chamber is delimited by a gable element which is fixed in the housing, and an end piston which is arranged axially floating in said first part of the housing; and

A hydraulic pump and an associated drive motor are attached to the working piston.

A first and a second part of the piston chamber can be interconnected in a fluid-communicating manner via the hydraulic pump.

A pressurized fluid line can form a fluid communication between a piston rod chamber and hydraulic pump.

The housing may be provided with a well fluid passage which forms a fluid communication between an end piston chamber defined by the end section and the end piston, and the surroundings.

A closable drainage line can be arranged in the gable element and extends between the piston chamber and an external surface of the gable element.

A second pipe body can form a supporting structure between the gable element and the well-hole plug.

The end piston can be provided with one or more fluid-sealing conduit passages arranged substantially in the axial direction of the end piston.

In what follows, an example of a preferred embodiment is described which is visualized in the accompanying drawing, where: Fig. 1 shows a side view of a setting tool and an associated wellbore plug (shown

schematically), where a house is cut through for the sake of overview.

A setting tool according to the invention comprises a housing 1 formed by a first and a second pipe body 11, 12. The second pipe body 12 is attached to an end part 111 in the first pipe body 11 by means of a threaded connection 116, 121. The opposite end part 111 is the first the pipe body 11 is provided with an end section 14 which is arranged for connection to a device not shown for advancing the housing 1 into a wellbore 8. The housing 1 is arranged to be able to connect a wellbore plug 7 of a known nature and which, by compression, can rest against a wellbore wall 81 which delimits the wellbore 8 from a structure 9. In the figure, only a part of the wellbore 8 and the surrounding structure 9 is shown. An end part 122 of the second pipe body 12 is designed to be able to form a facility for the wellbore plug 7 when this is to be compressed. Compression elements (not shown) in the wellbore plug 7 are connected to the piston rod 22 of a working piston 2.

The working piston 2 is arranged in a piston chamber 3 formed in the housing 1 between the end part 111 and a floating end piston 6, and the working piston 2 forms an interface between a first and a second piston chamber part 31, 32. The first piston chamber part 31 is also called a piston rod chamber. The working piston 2 is, in a manner known per se, provided with piston seals 21 which lie tightly against an internal wall 117 in the first tube body 11. The piston rod 22 which projects from the piston 2 is guided in a fluid-tight manner through a piston rod opening 112 in the end part 111 , where piston rod gaskets 113 lie sealingly between the wall surface of the piston rod opening 112 and the periphery of the piston rod 22.

Opposite the piston rod 22, a hydraulic pump 4 is attached to the piston 2 and is provided with a suction port 43 which is in fluid communication with the second piston chamber part 32. A pressure port (not shown) on the hydraulic pump 4 is in fluid communication with the piston rod chamber 31 via a pressure fluid line 23 which opens out in the periphery of the piston rod 22 near the piston 2. Although the hydraulic pump's 4 ports are here referred to as "suction port" and "pressure port", it is obvious to a person skilled in the art that a hydraulic pump of this type can be reversed so that the fluid delivery is reversed in relation to what is described in the following.

A drive motor 5, preferably a brushless, electric motor, is connected to the hydraulic pump 4 via a motor coupling 51. Motor lines 52, which are arranged for the supply of energy from a remote energy source (not shown), are led in a fluid-tight manner through a joint passage 62 in the end piston 6 and further through the end section 14 and away from the housing 1. The motor cables 52 show sufficient slack between the drive motor 5 and the end piston 6 so that the pistons 2, 6 can be displaced to the maximum distance without the motor cables 52 being subjected to a tensile load.

Near the end section 14, the housing 1 is provided with a well fluid passage 13. An end piston chamber 63 bounded by the end section 14 and the end piston 6 will, when the setting tool is operative, be filled with well fluid 82 which is found in the well hole 8.

The end piston 6 is provided with end piston seals 61 which abut against the inner wall 117 of the first tube body 11 in a fluid-tight manner.

In the end portion 111, a closable drainage line 114 has been formed which connects the piston chamber 3 with the surroundings in a fluid-communicating manner. The drain line 114 can be closed using a sealing plug 115. The drain line 114 is used when the piston chamber 3 is to be filled with and emptied of hydraulic fluid 33.

When the setting tool according to the invention is guided down into the wellbore 8, the internal pressure in the setting tool is balanced with the pressure in the wellbore 8, as the well fluid 82

fills the end volumes in the housing 1, i.e. the volume between the floating end piston 6 and the end section 14 through the well fluid passage 13, as well as the volume in the second pipe body 12 as the end part 122 is open to the surroundings. The well pressure will propagate to the piston chamber 3 by the end piston 6 floating.

When the associated well plug 7 is to be inserted, an overpressure is generated in the piston rod chamber 31 by activating the hydraulic pump 4 with the help of the drive motor 5. Hydraulic fluid 33 is pumped through the piston 2 via the pressure fluid line 23 from the second piston chamber part 32 to the piston rod chamber 31, and the piston 2 is pushed away from the end part 111. The piston rod 22 pulls the wellbore plug 7 into contact with the end portion 122 of the second tubular body 12 so that the wellbore plug 7 expands in a manner known per se to a sealing contact with the wellbore wall 81.

The difference in displacement volumes in the two sub-chambers 31, 32 due to the varying volume uptake of the piston rod 22 in the first piston chamber section 31 is compensated by the floating end piston 6 being displaced so that the pressure in the second piston chamber section 32 remains in balance with the pressure in the well fluid 82.

The drive motor 5 is preferably a brushless electric motor. As the drive motor 5 is located in the piston chamber 3 which is filled with hydraulic fluid 33, the drive motor 5 is shielded from contact with the well fluid 82 which may be electrically conductive. The drive motor 5 can thus be immersed in the electrically non-conductive hydraulic fluid 33, which is, for example, a suitable hydraulic oil, and there is no need to shield the drive motor 5 further, for example by fluid-tight encapsulation. The setting tool according to the invention thus provides an arrangement that exhibits a high degree of operational reliability, as the setting tool is to a small extent vulnerable to pressure effects from the well fluid 82.

Claims (7)

1. Device for a setting tool for a wellbore plug (7) designed to be able to lie tightly against a wellbore wall (81) by radial expansion, as a hydraulic actuator (2, 3, 11, 22) is designed to be able to be connected to the wellbore plug (7), and a first part (11) of a housing (1) forms a piston chamber (3) which accommodates a working piston (2) arranged to be able to be connected to the wellbore plug (7) by means of a piston rod (22), characterized by the piston chamber (3) is delimited by an end element (111) fixed in the housing (1) and an end piston (6) arranged axially floating in said first part (11) of the housing (1); and a hydraulic pump (4) and an associated drive motor (5) are attached to the working piston (2). 2. Device according to claim 1, characterized in that a first and a second part (31, 32) of the piston chamber (3) are interconnected in a fluid-communicating manner via the hydraulic pump (4). 3. Device according to claim 1, characterized in that a pressurized fluid conduit (23) forms a fluid communication between a piston rod chamber (31) and the hydraulic pump (4). 4. Device according to claim 1, characterized in that the housing (1) is provided with a well fluid passage (13) which forms a fluid communication between an end piston chamber (63) which is delimited by the end section (14) and the end piston (6), and the surroundings ( 8). 5. Device according to claim 1, characterized in that a closable drainage line (114) is arranged in the end element (111) and extends between the piston chamber (3) and an external surface of the end element (111). 6. Device according to claim 1, characterized in that a second pipe body (12) forms a supporting structure between the gable element (111) and the wellbore plug (7). 7. Device according to claim 1, characterized in that the end piston (6) is provided with one or more fluid-tight conduit passages (62) arranged substantially in the axial direction of the end piston (6).