CN212359662U - Turnover vehicle-mounted well workover automation operation equipment - Google Patents

Abstract

The utility model relates to a turnover vehicle-mounted well workover automation operation device, which comprises a derrick and an operation platform, wherein the center of the operation platform is provided with a guide rail, and the guide rail is provided with a hydraulic clamp mechanism; the lower part of the derrick is provided with an inner tong support, the left side of the derrick is fixed with a lifting oil cylinder, the piston part of the lifting oil cylinder is provided with a fixed plate which can lift along with the lifting oil cylinder, the right side of the operation platform is hinged on the fixed plate, the fixed plate is also provided with a turnover oil cylinder, the cylinder barrel of the turnover oil cylinder is hinged on the fixed plate, and the piston part of the turnover oil cylinder is connected with the lower part of the operation platform; the inner clamp frame support is provided with a placing groove matched with the hydraulic clamp mechanism. The utility model discloses can effectively solve current workover equipment integrated degree low, do not have the operation platform of high integrated level, need mechanisms such as on-the-spot installation hydraulic tong, it needs to spend a large amount of manpower and materials to install around the use and dismantles and carry inconvenient problem.

Description

Turnover vehicle-mounted well workover automation operation equipment

Technical Field

The utility model relates to a can overturn vehicle-mounted well workover automation equipment.

Background

At present, most workover rig operations are mainly used for the lifting and lowering procedures of equipment such as oil pipes, and other procedures such as the procedure of transferring the oil pipes from a pipe bent frame to an elevator need to be finished by manpower; at present, although some automation is available, the moving and dismantling are inconvenient, a crane needs to be equipped for hoisting, and meanwhile, liquid, gas and electric pipelines need to be dismantled and assembled; can not meet the requirements of the existing minor repair operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be a can overturn vehicle-mounted workover automation equipment, it is low to solve current workover equipment integrated degree, does not have the operation platform of high integrated level, needs mechanisms such as on-the-spot installation hydraulic tong, is depositing and need spending a large amount of manpower and materials to install around the use and dismantle and carry inconvenient problem.

The utility model provides a technical scheme that its technical problem adopted is: a turnover vehicle-mounted well workover automation operation device comprises a derrick and an operation platform, wherein a slip for clamping a pipe column is arranged at the center of the operation platform, and the slip is arranged on a flange on a pipeline port on the operation platform; the front side and the rear side of the center of the operation platform are respectively provided with a guide rail, and the guide rails are provided with hydraulic clamp mechanisms capable of sliding along the guide rails; the hydraulic clamp mechanism comprises a hydraulic clamp frame and hydraulic clamps arranged on the hydraulic clamp frame; the lower part of the derrick is provided with an inner tong support, the left side of the derrick is fixed with a lifting oil cylinder, the piston part of the lifting oil cylinder is provided with a fixed plate which can lift along with the lifting oil cylinder, the right side of the operation platform is hinged on the fixed plate, the fixed plate is also provided with a turnover oil cylinder, the cylinder barrel of the turnover oil cylinder is hinged on the fixed plate, and the piston part of the turnover oil cylinder is connected with the lower part of the operation platform; the inner clamp frame support is provided with a placement groove matched with the hydraulic clamp mechanism; the hydraulic clamp mechanism can be vertically turned over along with the operation platform, and is arranged on the arranging groove when the hydraulic clamp mechanism runs to the tail end of the guide rail.

Further, the left side of the operation platform, which deviates from the derrick, is provided with a well supporting mechanism.

Furthermore, the front side and the rear side of the central position of the operation platform are symmetrically provided with a pipe column centering mechanism.

Furthermore, the turnover oil cylinders are respectively arranged below the front side and the rear side of the operation platform.

Furthermore, the lifting oil cylinders are respectively arranged at the front side and the rear side of the tail end of the operation platform.

Further, the center of the operation platform is provided with a liquid accumulation groove, a pipeline port of the operation platform is arranged at the center of the liquid accumulation groove, and a liquid discharge port is arranged at the bottom of the liquid accumulation groove.

Furthermore, a rack is arranged on one outer side wall of the two guide rails, and a gear matched with the rack is meshed with the rack; the outer side wall of the bottom of the hydraulic tong frame is provided with a hydraulic motor, and the gear device is arranged on a rotating shaft of the hydraulic motor.

Further, the well supporting mechanism comprises a well supporting seat arranged on the operation platform, a reversible well supporting is hinged on the well supporting seat, a gripper used for clamping the tubing string is arranged on the well supporting seat, a three-position air cylinder is further arranged on the well supporting seat, a cylinder barrel of the three-position air cylinder is hinged on the well supporting seat, and the top end of a piston part of the three-position air cylinder is connected with the well supporting seat; the well handrail is a square frame, and the bottom frame of the well handrail is hinged on the well handrail seat; the top ends of the piston parts of the two three-position cylinders are respectively hinged with the front frame and the rear frame of the well support; the tongs are arranged on the top frame of the well handrail.

Furthermore, the centering mechanism comprises a centering fixed seat, two groups of centering mechanisms are symmetrically arranged on the centering fixed seat relative to the position of a wellhead, and each pair of centering mechanisms comprises a contralateral pushing cylinder, a rotating seat, a guide seat, a half pipe positioning sleeve, an adjusting plate and a lateral swinging cylinder; the bottom of the rotating seat is hinged on the centering fixed seat; the bottom of the cylinder barrel of the side-swinging cylinder is hinged on the centering fixed seat, and the piston part of the side-swinging cylinder is hinged on the right side wall of the rotating seat; the guide seat is telescopically arranged at the top of the inner cavity of the rotating seat; the cylinder barrel of the side-push cylinder is fixed on the left side wall of the rotary seat, and the piston part of the side-push cylinder is hinged on the left side wall of the guide seat; the adjusting plate is arranged on the top of the guide seat; the half-pipe positioning sleeve is arranged on the adjusting plate and used for clamping the oil pipe column; and when the half-pipe positioning sleeves in the two groups of centering mechanisms are butted, the half-pipe positioning sleeves are matched with each other to clamp the oil pipe column.

Furthermore, the turnover vehicle-mounted well repairing automatic operation equipment also comprises an upright post fixed on the derrick, and a guide groove is arranged in the upright post; a roller assembly capable of lifting along the guide groove is arranged in the guide groove, the roller assembly comprises a roller capable of lifting along the guide groove, and a roller shaft is arranged at the center of the roller; the bottom of the upright post is fixed by the lifting oil cylinder, and the piston part of the lifting oil cylinder is connected with the roller shaft; the fixed plate is arranged on the roller component.

The utility model has the advantages that: through the lift cylinder, the lift of operation platform is realized in the cooperation of fixed plate, through the upset hydro-cylinder, operation platform, the upset of operation platform is realized in the cooperation of fixed plate, realize through setting up the arrangement groove that hydraulic tong mechanism moves to the end and along with the operation platform upset back, can arrange on it, and simultaneously, the left side of derrick is arranged in the upset of whole operation platform, reduce occuping of space, and be convenient for the vehicle-mounted transportation, do not need to be equipped with the hoist and mount, remove and tear convenient and fast, simultaneously hydraulic tong, the well is right the mechanism, the whole concentrated setting of centering mechanism, high durability and convenient use, only need transport the position that needs to use, need not to install in addition, be applicable to current minor overhaul operation requirement, reduce artifical intensity of labour simultaneously, the incident has. The problems that the existing workover equipment is low in integration degree, does not have a high-integration-level operation platform, needs to be provided with mechanisms such as hydraulic tongs on site, and needs to spend a large amount of manpower and material resources before and after use to carry out installation, disassembly and carrying inconvenience are effectively solved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the structure schematic diagram of the utility model discloses after operation platform overturns.

Fig. 3 is a schematic diagram of a positional relationship structure of the guide rail and the hydraulic tong mechanism.

Fig. 4 is a schematic structural diagram of the work platform.

Fig. 5 is a schematic structural diagram of the well supporting mechanism.

Fig. 6 is a schematic structural view of the centering mechanism.

Fig. 7 is a schematic structural view of the roller assembly.

Detailed Description

In the embodiment, the turnover vehicle-mounted workover automation operation equipment shown in fig. 1 to 7 comprises a derrick 1 and a work platform 2, wherein a slip 3 for clamping a pipe column is arranged at the center of the work platform 2, and the slip 3 is arranged on a flange on a pipeline port 14 on the work platform 2; a guide rail 4 is respectively arranged at the front side and the rear side of the central position of the operation platform 2, and a hydraulic clamp mechanism 5 capable of sliding along the guide rail 4 is arranged on the guide rail 4; the hydraulic clamp mechanism 5 comprises a hydraulic clamp frame 21 and a hydraulic clamp 22 arranged on the hydraulic clamp frame 21; an inner clamp support 6 is arranged below the derrick 1, a lifting oil cylinder 7 is fixed on the left side of the derrick 1, a fixing plate 8 capable of lifting along with the lifting oil cylinder 7 is arranged on a piston part of the lifting oil cylinder 7, the right side of the operation platform 2 is hinged on the fixing plate 8, a turnover oil cylinder 9 is further arranged on the fixing plate 8, a cylinder barrel of the turnover oil cylinder is hinged on the fixing plate 8, and a piston part of the turnover oil cylinder 9 is connected with the lower part of the operation platform 2; the inner clamp frame support 6 is provided with a placing groove 10 matched with the hydraulic clamp mechanism 5; the hydraulic clamp mechanism 5 can be vertically turned over along with the operation platform 2, and when the hydraulic clamp mechanism 5 runs to the tail end of the guide rail 4, the hydraulic clamp mechanism is arranged on the arranging groove 10.

In the description of the present invention, it is to be understood that the terms "center", "lateral", "up", "down", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified. Furthermore, the term "comprises" and any variations thereof is intended to cover non-exclusive inclusions.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

The concept of the present invention is further explained below with reference to fig. 1 to 7.

A turnover vehicle-mounted well workover automation operation device comprises a derrick 1 and an operation platform 2, wherein a slip 3 for clamping a pipe column is arranged at the center of the operation platform 2, and the slip 3 is arranged on a flange on a pipeline port 14 on the operation platform 2; a guide rail 4 is respectively arranged at the front side and the rear side of the central position of the operation platform 2, and a hydraulic clamp mechanism 5 capable of sliding along the guide rail 4 is arranged on the guide rail 4; the hydraulic clamp mechanism 5 comprises a hydraulic clamp frame 21 and a hydraulic clamp 22 arranged on the hydraulic clamp frame 21; an inner clamp support 6 is arranged below the derrick 1, a lifting oil cylinder 7 is fixed on the left side of the derrick 1, a fixing plate 8 capable of lifting along with the lifting oil cylinder 7 is arranged on a piston part of the lifting oil cylinder 7, the right side of the operation platform 2 is hinged on the fixing plate 8, a turnover oil cylinder 9 is further arranged on the fixing plate 8, a cylinder barrel of the turnover oil cylinder is hinged on the fixing plate 8, and a piston part of the turnover oil cylinder 9 is connected with the lower part of the operation platform 2; the inner clamp frame support 6 is provided with a placing groove 10 matched with the hydraulic clamp mechanism 5; the hydraulic clamp mechanism 5 can be vertically turned over along with the operation platform 2, and when the hydraulic clamp mechanism 5 runs to the tail end of the guide rail 4, the hydraulic clamp mechanism is arranged on the arranging groove 10.

The left side of the working platform 2, which is far away from the derrick 1, is provided with a well supporting mechanism 11. The well supporting mechanism 11 comprises a well supporting seat arranged on the operation platform 2, a reversible well supporting 31 is hinged on the well supporting seat, a gripping handle 32 used for clamping a tubing string is arranged on the well supporting 31, a three-position air cylinder 33 is further arranged on the well supporting seat, a cylinder barrel of the three-position air cylinder 33 is hinged on the well supporting seat, and the top end of a piston part of the three-position air cylinder is connected with the well supporting 31.

The well handrail 31 is a square frame, and the bottom frame of the well handrail is hinged on the well handrail seat; the two three-position cylinders 33 are provided, and the top ends of the piston parts of the two three-position cylinders 33 are respectively hinged with the front frame and the rear frame of the well support 31; the gripper 32 is arranged on the top rim of the well rest 31.

The well is held up the seat and is held up a riser 34 and well and hold up a bottom frame 35 including the well, and the vertical setting of well is held up a riser 34 and is held up a bottom frame 35 on the well, and the bottom frame that the well was held up 31 articulates on well holds up a riser 34, and the cylinder of two tribit cylinders 3 articulates on well holds up a bottom frame 35, and well is held up, well and is held up a riser 34 and well and hold up a bottom frame 35 and be provided with and be used for articulated hinge ear 36. The gripper 32 may be removably mounted to the top rim of the well curb 31.

The front side and the rear side of the working platform 2 at the center are symmetrically provided with a pipe column centering mechanism 12. The pipe column centering mechanism 12 comprises a centering fixed seat 41, two groups of centering mechanisms are symmetrically arranged on the centering fixed seat 41 relative to the wellhead position, and each pair of centering mechanisms comprises an opposite side pushing cylinder 42, a rotating seat 43, a guide seat 44, a half pipe positioning sleeve 45, an adjusting plate 46 and a side swinging cylinder 47; the bottom of the rotating seat 43 is hinged on the centering fixed seat 41; the bottom of the cylinder barrel of the side swing cylinder 7 is hinged on the centering fixed seat 41, and the piston part of the side swing cylinder is hinged on the right side wall of the rotating seat 43; the guide seat 44 is telescopically arranged at the top of the inner cavity of the rotating seat 43; the cylinder barrel of the side-push cylinder 42 is fixed on the left side wall of the rotating seat 43, and the piston part of the side-push cylinder is hinged on the left side wall of the guide seat 44; an adjusting plate 46 is arranged on the top of the guide seat 44; the half-pipe positioning sleeve 45 is arranged on the adjusting plate 46 and used for clamping the oil pipe column; and when the half-pipe positioning sleeves 45 in the two groups of centering mechanisms are butted, the oil pipe columns are clamped in a matching manner. The right side wall of the rotating seat 43 is provided with a right side wall hinge lug 49, the left side wall of the guide seat 44 is provided with a left side wall hinge lug 48, the piston part of the side swing air cylinder 7 is hinged with the right side wall hinge lug 49, and the piston part of the side push air cylinder 42 is hinged with the left side wall hinge lug 48.

The centering fixing seat 41 may be one, or may further be: the centering fixing seat 41 is provided with one corresponding to each group of centering mechanisms, and the centering fixing seat 41 is provided with a lateral swing limiting plate 14 on the left side of the bottom of the rotating seat 3.

The rotating seat 43 can rotate 45-60 degrees left and right respectively, and the rotating angle can be selected and adjusted according to needs. The main point of the scheme is that the angle of rotation can be selected according to requirements, and can be smaller than 45 degrees or larger than 60 degrees.

The adjusting plate 46 is provided with a set of assembling holes 410, the top of the guide seat 44 is provided with a key 411 matched with the assembling holes 410, and the position of the adjusting plate 46 relative to the guide seat 44 can be adjusted by inserting the key 411 into the assembling holes 410 which are different to be main parts. The insertion keys 411 are provided with two, the assembly holes 410 are provided in groups of two, and a plurality of groups are provided, and the two assembly holes 410 in each group are just matched with the two insertion keys 411.

Each half pipe positioning sleeve 5 comprises a half pipe 412 which is vertically arranged and a half funnel 413 which is arranged at the top of the half pipe 412, and the two half pipes 412 and the two half funnels 413 are matched to form a complete pipe sleeve and a complete funnel which are matched with the oil pipe column. The half pipe 412 and the half funnel 413 are integrally formed or detachably formed in a separate body.

The turnover oil cylinders 9 are respectively arranged below the front side and the rear side of the operation platform 2. The lifting oil cylinders 7 are respectively arranged at the front side and the rear side of the tail end of the operation platform 2.

The center of the operation platform 2 is provided with a liquid accumulation groove 13, a pipeline port 14 of the operation platform 2 is arranged at the center of the liquid accumulation groove 13, and a liquid discharge port is arranged at the bottom of the liquid accumulation groove 13.

One outer side wall of the two guide rails 4 is provided with a rack 15, and a gear 16 matched with the rack 15 is meshed with the rack 15; the outer side wall of the bottom of the hydraulic tong frame is provided with a hydraulic motor 17, and a gear 16 is arranged on a rotating shaft of the hydraulic motor 17. When the operation platform 2 is horizontally arranged, the tail end of the guide rail 4 extends to the upper side of the arranging groove 10, and when the operation platform 2 is overturned, the tail end of the guide rail 4 is arranged in the arranging groove 10.

The turnover vehicle-mounted well repairing automatic operation equipment also comprises a stand column 18 fixed on the derrick 1, wherein a guide groove 19 is arranged in the stand column; a roller assembly capable of lifting along the guide groove 19 is arranged in the guide groove 19, the roller assembly comprises a roller 51 capable of lifting along the guide groove 19, and a roller shaft 52 is arranged in the center of the roller 51; the lifting oil cylinder 7 is fixed at the bottom of the upright post 18, and the piston part of the lifting oil cylinder 7 is connected with the roller shaft 52; the fixed plate 8 is arranged on the roller component. The roller 51 is also provided with a roller bearing 53, a pressure plate 54 and a spacer 55.

The above embodiments are not to be considered from a limiting point of view, but rather from an illustrative point of view. The scope of the present invention is defined by the scope of the claims, rather than the description, and all differences within the scope and equivalence thereof should be construed as being included in the present invention. Various insubstantial improvements are made by adopting the method conception and the technical proposal of the utility model; or without improvement, the above conception and technical solution of the present invention can be directly applied to other occasions, all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a can overturn vehicle-mounted well workover automation equipment which characterized in that: the pipe string clamping device comprises a derrick and an operation platform, wherein a slip for clamping a pipe string is arranged in the center of the operation platform and is arranged on a flange on a pipe port on the operation platform; the front side and the rear side of the center of the operation platform are respectively provided with a guide rail, and the guide rails are provided with hydraulic clamp mechanisms capable of sliding along the guide rails; the hydraulic clamp mechanism comprises a hydraulic clamp frame and hydraulic clamps arranged on the hydraulic clamp frame; the lower part of the derrick is provided with an inner tong support, the left side of the derrick is fixed with a lifting oil cylinder, the piston part of the lifting oil cylinder is provided with a fixed plate which can lift along with the lifting oil cylinder, the right side of the operation platform is hinged on the fixed plate, the fixed plate is also provided with a turnover oil cylinder, the cylinder barrel of the turnover oil cylinder is hinged on the fixed plate, and the piston part of the turnover oil cylinder is connected with the lower part of the operation platform; the inner clamp frame support is provided with a placement groove matched with the hydraulic clamp mechanism; the hydraulic clamp mechanism can be vertically turned over along with the operation platform, and is arranged on the arranging groove when the hydraulic clamp mechanism runs to the tail end of the guide rail.

2. The reversible vehicular well servicing automation apparatus of claim 1, wherein: the operation platform is provided with a reversible well supporting mechanism.

3. The reversible onboard well servicing automation equipment of claim 1 or 2, characterized in that: the front side and the rear side of the operation platform, which are positioned at the center position, are symmetrically provided with pipe column centering mechanisms.

4. The reversible vehicular well servicing automation apparatus of claim 3, wherein: the turnover oil cylinders are respectively arranged below the front side and the rear side of the operation platform.

5. The reversible vehicular well servicing automation apparatus of claim 4, wherein: the front side and the rear side of the lifting oil cylinder at the tail end of the operation platform are respectively provided with one lifting oil cylinder.

6. The reversible vehicular well servicing automation apparatus of claim 5, wherein: the center of the operation platform is provided with a liquid accumulation groove, a pipeline port of the operation platform is arranged at the center of the liquid accumulation groove, and a liquid discharge port is arranged at the bottom of the liquid accumulation groove.

7. The reversible vehicular well servicing automation apparatus of claim 6, wherein: one outer side wall of the two guide rails is provided with a rack, and a gear matched with the rack is meshed with the rack; the outer side wall of the bottom of the hydraulic clamp frame is provided with a hydraulic motor, the gear device is arranged on a rotating shaft of the hydraulic motor, and when the operation platform is horizontally arranged, the tail end of the guide rail extends to the upper part of the arranging groove.

8. The reversible vehicular-mounted well servicing automation equipment of claim 7, characterized in that: the device comprises a well support seat arranged on an operation platform, wherein the well support seat is hinged with a reversible well support, the well support is provided with a gripper for clamping a tubing string, the well support seat is also provided with a three-position air cylinder, a cylinder barrel of the three-position air cylinder is hinged on the well support seat, and the top end of a piston part of the three-position air cylinder is connected with the well support; the well handrail is a square frame, and the bottom frame of the well handrail is hinged on the well handrail seat; the top ends of the piston parts of the two three-position cylinders are respectively hinged with the front frame and the rear frame of the well support; the tongs are arranged on the top frame of the well handrail.

9. The reversible vehicular well servicing automation apparatus of claim 8, wherein: the centering mechanism comprises a centering fixed seat, two groups of centering mechanisms are symmetrically arranged on the centering fixed seat relative to the position of a wellhead, and each pair of centering mechanisms comprises a contralateral push cylinder, a rotating seat, a guide seat, a half pipe positioning sleeve, an adjusting plate and a lateral swing cylinder; the bottom of the rotating seat is hinged on the centering fixed seat; the bottom of the cylinder barrel of the side-swinging cylinder is hinged on the centering fixed seat, and the piston part of the side-swinging cylinder is hinged on the right side wall of the rotating seat; the guide seat is telescopically arranged at the top of the inner cavity of the rotating seat; the cylinder barrel of the side-push cylinder is fixed on the left side wall of the rotary seat, and the piston part of the side-push cylinder is hinged on the left side wall of the guide seat; the adjusting plate is arranged on the top of the guide seat; the half-pipe positioning sleeve is arranged on the adjusting plate and used for clamping the oil pipe column; and when the half-pipe positioning sleeves in the two groups of centering mechanisms are butted, the half-pipe positioning sleeves are matched with each other to clamp the oil pipe column.

10. The reversible vehicular-mounted well servicing automation equipment of claim 9, characterized in that: the device also comprises an upright post fixed on the derrick, wherein a guide groove is arranged in the upright post; a roller assembly capable of lifting along the guide groove is arranged in the guide groove, the roller assembly comprises a roller capable of lifting along the guide groove, and a roller shaft is arranged at the center of the roller; the bottom of the upright post is fixed by the lifting oil cylinder, and the piston part of the lifting oil cylinder is connected with the roller shaft; the fixed plate is arranged on the roller component.

Images