RU2067153C1 - Hoisting plant for servicing oil and gas wells - Google Patents

Abstract

FIELD: oil and gas production; applicable in installations for round-trip operations with continuous steel pipe in operation and repairs of oil and gas wells. SUBSTANCE: mounted on the platform of transportation facility are operator's cabin, drum with continuous steel pipe, drum pipe layer, hydraulic pumping unit, hydraulically controlled supports and boom mechanism whose main section is hinged with platform. The main and additional section of boom mechanism are hinged to each other and are U-shaped in cross-section. Sections apertures are facing each other. In the transportation position the additional section is partially accommodated in the main section aperture. Arranged in aperture is hydraulic cylinder connecting the sections. Delivery mechanism is connected through carriage and platform with additional section, and is movable in mutually perpendicular planes. In a particular case of the plant embodiment, the hydraulic cylinder body located in section aperture may be connected with main section by means of levers hinged to each other and to bracket. In this case, bracket is rigidly secured to the platform. EFFECT: simple design and compact structure in transportation position. 2 cl, 5 dwg

Description

 The invention relates to the field of oil and gas production, can be used in installations for lowering and lifting continuous steel pipes during operation and repair of oil and gas wells.

 A known installation for servicing oil and gas wells, comprising a continuous steel pipe drum mounted on a vehicle platform, a continuous steel pipe stacker on a drum, a boom mechanism with driven hydraulic cylinders, a platform associated with a boom mechanism, and a feed mechanism (US Pat. No. 3,811,407) , CL E 21 B 33/03, 1974).

 A disadvantage of the known device is the complexity of the guidance process of the feed mechanism at the wellhead, due to the inability to move it in the horizontal plane in the direction perpendicular to the longitudinal axis of the platform and in the direction coinciding with it, which increases the duration of installation and dismantling works and their complexity. The installation itself is characterized by complexity of construction and bulkiness in the transport position.

 Known lifting installation for servicing oil and gas wells, containing installed on the platform of the vehicle operator’s cabin, a drum with a continuous steel pipe, a stacker of a continuous steel pipe on a drum, a boom mechanism with drive hydraulic cylinders, a platform with rails associated with the boom mechanism, a carriage mounted with the possibility of movement in the guides of the site, and the feed mechanism mounted on the carriage (US patent N 4336840, CL E 21 B 15/00, 1982).

 A disadvantage of the known device is the complexity of the guidance process of the feed mechanism at the wellhead, since there is no possibility of moving it in a horizontal plane in the direction perpendicular to the longitudinal axis of the vehicle platform, which increases the duration of installation and dismantling work and their complexity. The installation itself has a complex structure and is bulky in the transport position.

 Known lifting installation for servicing oil and gas wells, containing installed on the platform of the vehicle operator’s cabin, a drum with a continuous steel pipe, a stacker of a continuous steel pipe on a drum, a hydraulic pump station, hydraulic bearings, boom with drive hydraulic cylinders, a platform with guides connected with a boom mechanism, a carriage mounted with the possibility of movement in the guides of the site and made with its own guides, is located nnym coplanar with and perpendicular to the guide pad latter, and the feed mechanism, movably mounted in the guide carriage (patent of RF N 2010943, Cl. E 21 B 19/22, 1974). This known invention is the closest to the proposed and selected as a prototype.

 The disadvantage of the prototype is the complexity of the design of the installation, due to the need for a mechanism for moving the site, which includes in addition to the hydraulic cylinder blocks, flexible elements, rollers, bearing units. In addition, the installation is bulky in the transport position.

 The basis of the invention is a task, the solution of which allows to obtain a technical result, expressed in providing the possibility of a simpler installation design, characterized by compactness in the transport position.

 The problem is solved due to the fact that in a lifting installation for servicing oil and gas wells, which contains an operator’s cabin, a drum with a continuous steel pipe, a stacker of a continuous steel pipe on the drum, a hydraulic pump station, controlled supports, articulated with a platform, a boom mechanism with drive hydraulic cylinders, a platform with guides associated with the boom mechanism, a carriage mounted to move in the guide pads and made with its own guides located in the same plane with the guides of the platform and perpendicular to the last, and the feed mechanism installed with the possibility of movement in the guides of the carriage, the boom mechanism is made of two sections of articulated interconnected main and additional sections having U-shaped profiles in cross sections, forming openings facing each other, while the additional section is made with the possibility of partial placement in the opening of the main sections in the transport position of the lifting unit under the action of a hydraulic cylinder located in the openings of the said sections, and the platform with guides is connected to the additional section of the boom mechanism pivotally with the possibility of rotation in a vertical plane under the action of the hydraulic cylinder connecting them to each other.

 The technical result is facilitated by the fact that the lifting unit is equipped with a bracket fixed to the vehicle platform and two levers, one of which is pivotally connected to the bracket with one end and the other with a hydraulic cylinder housing located in the openings of the main and additional sections of the boom mechanism, this second lever is pivotally connected at one end with the middle part of the first lever, and the other with the main section of the boom mechanism.

 Figure 1 shows a lifting installation in a transport position; figure 2 is the same in the working position; in Fig. 3, view A in Fig. 2; figure 4 - schematically a special case of installation, when it is equipped with an arm and levers, through which the housing of the hydraulic cylinder is pivotally connected to the main section of the boom mechanism; figure 5 section BB in figure 4.

 The lifting installation for servicing oil and gas wells comprises a vehicle 1 with a platform 2. An operator’s cabin 3, a drum 4 with a continuous steel pipe 5, and a hydraulic pump station 6 are installed on the platform 2. The operator’s cabin is installed with the possibility of vertical lifting to the operating position under the influence of hydraulic cylinders 7. The stacker 8 of the continuous steel pipe 5 on the drum 4 is pivotally connected to the axis of the drum 4 and has hydraulic cylinders 9 for transferring from the transport to the working position. Hydraulically controlled supports are installed on the platform 2. The boom mechanism is made of two sections of the main and additional sections 11, 12 pivotally connected to each other and the platform 2 and has hydraulic cylinders 13, 14, 15. The main and additional sections 11, 12 have U-shaped profiles in cross-sections (Fig. 5), forming openings 16, 17 facing towards each other. The additional section 12 is made with the possibility of partial placement in the opening 16 of the main section 11 in the transport position of the lifting installation. In the openings 16, 17 of the said sections 11, 12 there is a hydraulic cylinder 14, under the action of which the additional section 12 is rotated relative to the main section 11. In the particular case of the installation, the latter can be equipped with an arm 18, mounted on the platform 2 of the vehicle 1, and two levers 19, 20. The lever 19 is pivotally connected at one end to the aforementioned bracket 18, and at the other to the body of the hydraulic cylinder 14. The lever 20 is pivotally connected at one end to the middle part of the lever 19 and the other to the main section 11 of the boom mechanism. Such a connection of the housing of the hydraulic cylinder 14 with the main section 11 creates more favorable conditions for the operation of the hydraulic cylinder 14, since it eliminates bending loads. A platform 21 having guides 22 is pivotally connected to an additional section 12 of the boom mechanism. The platform 21 can be rotated in a vertical plane under the action of the hydraulic cylinder 15 relative to the additional section 12. In the guides 22 of the platform 21, a carriage 23 is installed having its own guides 24 located in one plane with guides 22 platforms 21 and perpendicular to the last. The movement of the carriage 23 is carried out by the hydraulic cylinder 25. In the guides 24 of the carriage 23 a feed mechanism 26 is installed, the movement of which is carried out by the hydraulic cylinder 27. On the feed mechanism 26, a guide arch 28 for a continuous steel pipe 5 is rigidly fixed. All hydraulic actuators, including hydraulic cylinders, are connected to the hydraulic pump station 6.

 Lifting installation for servicing oil and gas wells works as follows. After it was backed up to the well and installed at a certain distance from its mouth, the hydraulically-controlled supports are put forward 10. Then, the boom mechanism is moved from the transport (initial) position to the working position using hydraulic cylinders 13, 14, 15. For this purpose 26 supply occupies a vertical position above the wellhead piping of the well. The inclusion of the hydraulic cylinder 25 is regulated by the position of the feed mechanism 26 relative to the wellhead in the transverse direction. Thus, the operation of guiding the feed mechanism 26 at the wellhead ends upon reaching their coaxial location. The stacker 8 of the continuous steel pipe 5 with hydraulic cylinders 9 is translated into working position. The free end of the continuous steel pipe 5 is fed into the supply mechanism 26 through the stacker 8 and the guide arc 28 by means of a flexible mounting rod (not shown). The hydraulic cylinder 27 is axially mounted to feed the well head 26. The installation of the lifting installation is completed, and it is ready for work on the descent of a continuous steel pipe 5 into the well. After lifting the pipe 5, the dismantling of the lifting installation is carried out in the reverse order. Management of the installation is carried out from the cab 3 operator.

 The use of the invention allows to simplify the design of the lifting installation and increase its compactness in the transport position. YYY2 YYY4

Claims (2)

 1. A lifting installation for servicing oil and gas wells, comprising an operator’s cabin mounted on a vehicle platform, a continuous steel pipe drum, a continuous steel pipe stacker on a drum, a hydraulic pump station, hydraulic bearings, a jib mechanism with drive hydraulic cylinders pivotally connected to the platform, a platform with guides associated with the boom mechanism, a carriage mounted to move in the guides of the platform and made with its own guides located in the same plane with the guides of the platform and perpendicular to the last, and a feed mechanism installed with the possibility of movement in the carriage guides, characterized in that the boom mechanism is made of two sections of articulated interconnected main and additional sections having U-shaped profiles in transverse sections, forming openings facing each other, while the additional section is made with the possibility of partial placement in the opening of the main section with conveyor SG elevator installation position by a drive cylinder disposed in the openings of said sections, while the guide pad is associated with the additional section of the boom mechanism pivotally rotatable in a vertical plane under the action of the drive cylinder connecting them together.  2. Installation according to p. 1, characterized in that it is equipped with a bracket mounted on the platform of the vehicle, and two levers, one of which is pivotally connected to the bracket by one end and the hydraulic cylinder housing located in the openings of the main and additional boom sections mechanism, while the second lever is pivotally connected at one end to the middle part of the first lever, and the other to the main section of the boom mechanism.

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