CN114109312A

CN114109312A - Gas injection and production process module for gas storage

Info

Publication number: CN114109312A
Application number: CN202111278749.9A
Authority: CN
Inventors: 仝淑月; 王令群; 高继峰; 徐昊; 公明明; 申成伟
Original assignee: Sinopec Oilfield Service Corp; Sinopec Zhongyuan Petroleum Engineering Design Co Ltd
Current assignee: Sinopec Oilfield Service Corp; Sinopec Zhongyuan Petroleum Engineering Design Co Ltd
Priority date: 2021-10-31
Filing date: 2021-10-31
Publication date: 2022-03-01
Anticipated expiration: 2041-10-31
Also published as: CN114109312B

Abstract

The invention discloses a gas storage injection and production process module which comprises an in-out station valve group submodule, an in-out station filtering separation submodule, an injection and production in-out station valve group submodule, a gas production tank water separation submodule and an in-out station separation submodule, wherein the modules are fixedly arranged on an iron frame, a complete process flow is formed by the mutual connection between the iron frame and the iron frame, a connecting assembly is arranged between the iron frame and used for connecting the two iron frames so as to enable the two iron frames to form a whole, the iron frames are placed at intervals, and the two iron frames are connected through the connecting assembly, so that the connection between the iron frames does not need bolts, and the disassembly is convenient.

Description

Gas injection and production process module for gas storage

Technical Field

The invention relates to the technical field of ground process facilities of gas storage injection and production stations, in particular to a gas storage injection and production process module.

Background

Along with the continuous development of social economy, the demand of people for energy sources such as natural gas is increasing, in order to meet the demand of people for the energy sources of the natural gas and increase the storage capacity of the natural gas, all places in China begin to establish gas storage reservoirs, and the gas storage reservoirs are widely applied to the production of gas injection, oil displacement, gas lift, gas recovery and the like.

The ground process facilities of the gas storage injection and production station are mostly arranged in a flat mode, and are connected and installed in a construction phenomenon through a skid-mounted process, but are troublesome to detach through installation between bolts, and when the middle ring section goes wrong, the gap between the module and the module is small, so that inconvenient maintenance personnel can enter the module to maintain, and therefore the gas storage injection and production process module is provided.

Disclosure of Invention

The invention aims to provide a gas injection and production process module for a gas storage, which reduces the connection time by quickly connecting iron frames, and when the module in the middle link breaks down, the connecting components on the two sides of the module can be disassembled, so that the broken module is not connected with the modules on the two sides, and a certain distance is reserved, so that the iron frame of the module can be conveniently pulled out, and the maintenance can be conveniently carried out.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a gas storage annotates and adopts gas technology module, includes business turn over station valves submodule piece, the branch of entering station filters the separation submodule piece, annotates and adopts business turn over station valves submodule piece, gas production jar water separation submodule piece and the separation submodule piece of entering station to constitute jointly, the equal fixed mounting of module is on the iron stand, and constitutes complete process flow through the interconnect between iron stand and the iron stand, be provided with coupling assembling between iron stand and the iron stand, thereby coupling assembling is used for connecting two iron stands of connection and makes two iron stands form a whole.

Preferably, the iron stand is including placing the board, two place the board at the top of iron stand, the bottom bilateral symmetry equidistance fixed mounting who places the board has the fixed block, the inside upset subassembly that is provided with of fixed block, and be connected with the bottom plate on the upset subassembly, the inside roof contact of bottom plate and iron stand, be provided with the joint subassembly on the upset subassembly, and the joint subassembly is used for carrying out the joint to the upset subassembly after the upset subassembly overturns, be provided with the power drive subassembly on the fixed block, the power drive subassembly is used for providing power to the upset of upset subassembly, the inside of placing the board is provided with side position joint subassembly, and the power drive subassembly provides power to side position joint subassembly.

Preferably, the upset subassembly includes dwang, support arm and accepts the board, it is connected with two dwangs, two adjacent to rotate on the fixed block the inside dwang outside of fixed block all fixed cup joints the support arm, two of homonymy rotate on the support arm and be connected with and accept the board, bottom plate fixed connection is at the top of accepting the board.

Preferably, two the dwang uses the central point of fixed block to be central symmetry setting as the dot, support arm length on the dwang is the same, the rotation axis of cup jointing on the lateral wall of accepting the board is rotated to the bottom of support arm.

Preferably, the clamping component comprises a clamping hook, a clamping block and a torsion spring, the outer sides of the bearing plates at the two ends of the clamping component are rotatably connected with the clamping hook, the clamping hook and the bearing plates are elastically and rotatably connected through the torsion spring, the inner side of the support arm far away from the clamping hook on the bearing plates is fixedly connected with the clamping block, and the clamping block is movably clamped with the clamping hook.

Preferably, one side of the top of the clamping hook is arc-shaped, and the distance of the top of the clamping groove of the clamping hook is smaller than that of the bottom of the clamping groove of the clamping hook.

Preferably, the power drive subassembly includes the power box, the bottom fixedly connected with power box of placing the board, and the dwang rotates and passes the power box, the outside rotate on the fixed block and be connected with the live-rollers, and the other end of live-rollers rotates the inside that gets into the power box, the live-rollers is located the outside one end fixedly connected with rocking handle of power box, the live-rollers is located two main cone pulleys of the inside outside fixedly connected with of power box, the dwang is located the inside outside of power box and has all been cup jointed from the cone pulley, rotate with the main cone pulley meshing from the cone pulley and be connected.

Preferably, two main cone pulleys in the power box are arranged in the same direction, and two auxiliary cone pulleys in the power box are arranged in the same direction and are arranged in the opposite direction to the main cone pulleys.

Preferably, side position joint subassembly includes central cone pulley and bottom cone pulley, the inside roof of power box rotates and is connected with the bottom cone pulley, the live-rollers is located the inside outside fixedly connected with center cone pulley of power box, center cone pulley rotates with the meshing of bottom cone pulley to be connected, the inside of placing the board rotates and is connected with the gear, and the axis of rotation of gear and the coaxial fixed connection of axis of rotation of center cone pulley, the inside of placing the board has half pinion rack with the both sides sliding connection who is located the gear, and half pinion rack rotates with the meshing of gear to be connected, the one end fixedly connected with cylinder of half pinion rack, and the cylinder slidable wears out the lateral wall of placing the board, the cylinder slides and wears out the one end fixedly connected with splint of placing the board lateral wall.

Compared with the prior art, the invention has the following beneficial effects:

1. the connecting assembly is arranged between the two iron frames at intervals, so that the connecting assemblies on the two sides of the module can be detached conveniently during maintenance, the module with a fault is not connected with the modules on the two sides, a certain interval is reserved, the iron frames of the module can be pulled out conveniently, the maintenance is convenient, and the installation is convenient;

2. when the support arm rotates in a circle, the clamping block on the support arm at the end far away from the clamping hook touches the clamping hook, so that the clamping hook rotates in a small angle, the clamping block slides down along the arc surface of the clamping hook and enters the clamping groove of the clamping hook, the clamping hook rotates at the moment, so that the clamping block enters the clamping hook, at the moment, the distance between the clamping hook and the clamping hook as well as the distance between the support arm rotating point and the clamping hook rotating point form a triangle, and the clamping hook cannot move at the moment, so that the triangle is in a locked state, the locking of the turnover assembly after turnover is completed is realized, and the phenomenon that the turnover assembly rotates under the action of external force is avoided.

Drawings

FIG. 1 is a schematic block diagram of the present invention;

FIG. 2 is a schematic view of a connecting assembly according to the present invention;

FIG. 3 is a schematic view of the front view of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of a coupling assembly according to one half of the present invention;

FIG. 5 is a schematic view of a clamping assembly according to the present invention;

FIG. 6 is a schematic view of a clamping assembly according to the present invention;

FIG. 7 is a schematic structural view of a power drive assembly of the present invention;

FIG. 8 is a schematic view of a side clamping assembly according to the present invention;

in the figure: 1. an in-out station valve group submodule; 2. the station entry sub-module is used for filtering and separating; 3. an injection-production in-out station valve group submodule; 4. a gas production tank water separator sub-module; 5. an inbound separation submodule; 6. an iron frame; 7. a connecting assembly; 8. placing the plate; 9. a fixed block; 10. a turnover assembly; 101. rotating the rod; 102. a support arm; 103. a bearing plate; 11. a base plate; 12. a clamping assembly; 1201. a hook is clamped; 1202. a clamping block; 1203. a torsion spring; 13. a power drive assembly; 1301. a power cartridge; 1302. a driven bevel wheel; 1303. a rotating roller; 1304. a rocking handle; 1305. a main cone pulley; 14. a lateral clamping component; 1401. a central cone pulley; 1402. a bottom cone pulley; 1403. a gear; 1404. a half toothed plate; 1405. a cylinder; 1406. and (4) clamping the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a gas storage injection and production process module technical solution: including business turn over station valves submodule piece 1, the branch of entering station filters separation submodule piece 2, the business turn over station valves submodule piece 3 is adopted in the injection, gas production jar water separation submodule piece 4 constitutes jointly with the separation submodule piece 5 of entering station, the equal fixed mounting of module is on iron stand 6, and constitute complete process flow through the interconnect between iron stand 6 and the iron stand 6, be provided with coupling assembling 7 between iron stand 6 and the iron stand 6, thereby coupling assembling 7 is used for connecting two iron stands 6 of connection and makes two iron stands 6 form a whole.

Further, the iron frame 6 comprises a placing plate 8, the placing plate 8 is placed on the tops of the two iron frames 6, the placing plate 8 is placed on the top of the iron frame 6, the tops of the two iron frames 6 are extruded, fixing blocks 9 are fixedly mounted on the two sides of the bottom of the placing plate 8 symmetrically and equidistantly, a turning assembly 10 is arranged inside each fixing block 9, a bottom plate 11 is connected to each turning assembly 10, the bottom plate 11 is in contact with the inner top wall of the iron frame 6, the bottom plate 11 is driven to turn over through the turning assembly 10, and therefore the bottom plate 11 extrudes the bottom of the iron frame 6, and the top and the bottom of the iron frame 6 are extruded at the same time;

further, be provided with joint subassembly 12 on upset subassembly 10, and joint subassembly 12 is used for carrying out the joint to upset subassembly 10 after upset subassembly 10 overturns, be provided with power drive subassembly 13 on fixed block 9, power drive subassembly 13 is used for providing power to the upset of upset subassembly 10, upset subassembly 10 is under the transmission that does not receive power drive subassembly 13, carry out the joint to upset subassembly 10 through joint subassembly 12, thereby the phenomenon of upset subassembly 10 return has been avoided, the inside of placing board 8 is provided with side position joint subassembly 14, and power drive subassembly 13 provides power to side position joint subassembly 14, the side is fixed a position to upset subassembly 10.

Further, upset subassembly 10 includes dwang 101, support arm 102 and accepts board 103, rotates on the fixed block 9 and is connected with two dwang 101, and the inside dwang 101 outside of two adjacent fixed blocks 9 all fixedly cup joints support arm 102, and when dwang 101 rotated, can drive support arm 102 and rotate, rotates on two support arms 102 of homonymy and is connected with and accepts board 103 for it is circular rotation motion to accept board 103, and bottom plate 11 fixed connection is at the top of accepting board 103.

Furthermore, two dwang 101 use the central point of fixed block 9 to be the central symmetry setting as the dot, and the support arm 102 length on the dwang 101 is the same, and the rotation axis of cup jointing on the lateral wall of accepting board 103 is rotated to the bottom of support arm 102, forms the dislocation to make bottom plate 11 when contacting with the inside diapire of iron stand 6, support arm 102 is the horizontality.

Further, the clamping assembly 12 includes a hook 1201, a latch 1202 and a torsion spring 1203, the outer sides of the receiving plates 103 at the two ends of the device are rotatably connected with the hook 1201, and the hook 1201 and the receiving plates 103 are elastically and rotatably connected through the torsion spring 1203, the latch 1202 is fixedly connected to the inner side of the supporting arm 102 far away from the hook 1201 on the receiving plates 103, the latch 1202 and the hook 1201 are movably clamped, one side of the top of the hook 1201 is arc-shaped, and the distance of the top of the slot of the hook 1201 is smaller than that of the bottom. When the support arm 102 rotates in a circular manner, the clamping block 1202 on the support arm 102 at the end far away from the clamping hook 1201 touches the clamping hook 1201, so that the clamping hook 1201 rotates in a small angle, the clamping block 1202 slides down along the arc surface of the clamping hook 1201 and enters the clamping groove of the clamping hook 1201, and the clamping hook 1201 rotates at the moment, so that the clamping block 1202 enters the clamping hook 1201, at the moment, the distance between the clamping hook 1201 and the support arm 102 and the clamping hook 1201 and the distance between the rotation point of the support arm 102 and the rotation point of the clamping hook 1201 form a triangle, and the clamping hook 1201 cannot move at the moment, so that the triangle is in a locked state, thereby locking after the turnover component 10 is turned over is completed, and the phenomenon that the turnover component 10 rotates under the action of external force is avoided.

Further, the power driving assembly 13 includes a power box 1301, the bottom of placing the board 8 is fixedly connected with the power box 1301, and the dwang 101 rotates and passes through the power box 1301, it is connected with the live-rollers 1303 to rotate on the fixed block 9 in the outermost side, and the other end of the live-rollers 1303 rotates and gets into the inside of power box 1301, the one end fixedly connected with rocking handle 1304 that the live-rollers 1303 are located the outside of power box 1301, the live-rollers 1303 are located two main cone pulleys 1305 of outside fixedly connected with of power box 1301 inside, the outside that the dwang 101 is located power box 1301 inside all cup joints from cone pulley 1302, from cone pulley 1302 and main cone pulley 1305 meshing rotation connection, through outside rotation rocking handle 1304, make the inside main cone pulley 1305 of power box 1301 and from cone pulley 1302 meshing rotation, thereby drive the dwang 101 to rotate.

Further, two main cone pulleys 1305 arranged in the power box 1301 are arranged in the same direction, and two auxiliary cone pulleys 1302 arranged in the power box 1301 are arranged in the same direction and are arranged in opposite directions to the main cone pulleys 1305, so as to ensure that the rotating directions of the rotating rods 101 are the same.

Further, the side position clamping assembly 14 comprises a central cone pulley 1401 and a bottom cone pulley 1402, the top wall inside the power box 1301 is rotatably connected with the bottom cone pulley 1402, a rotating roller 1303 is fixedly connected with the central cone pulley 1401 at the outer side inside the power box 1301, the central cone pulley 1401 is meshed with the bottom cone pulley 1402 and is rotatably connected with the top wall, a gear 1403 is rotatably connected inside the placing plate 8, the rotating shaft of the gear 1403 is coaxially and fixedly connected with the rotating shaft of the central cone pulley 1401, half toothed plates 1404 are slidably connected inside the placing plate 8 and at two sides of the gear 1403, the half toothed plates 1404 are meshed with the gear 1404 and are rotatably connected with the gear, one ends of the half toothed plates 1404 are fixedly connected with a cylinder 1405, the cylinder 1405 can slidably penetrate through the side wall of the placing plate 8, one ends of the cylinder 1405 which penetrate through the side wall of the placing plate 8 are fixedly connected with a clamping plate 1406, and are meshed with the half toothed plates 1404 on two sides through the gear 1403, so that the half toothed plates 1404 are pulled back to the clamping plate 1406, the clamping plate 1406 clamps the hob 6 and the base plate 11.

The whole working process of the invention is as follows:

the method comprises the following steps: the two iron frames 6 are placed in parallel, and when a certain gap exists between the two iron frames 6, the device is placed into the gap between the two iron frames 6, and the bottom of the placing plate 8 is in contact with the top of the iron frame 6;

step two: a worker rotates the rocking handle 1304 through the outside to enable the rotating roller 1303 coaxially and fixedly connected with the rocking handle 1304 to rotate, and the main cone pulley 1305, which is positioned inside the power box 1301, on the outer side of the rotating roller 1303 is meshed with the auxiliary cone pulley 1302, which is fixed on the outer side of the rotating rod 101, of the power box 1301 to rotate, so that the rotating rod 101 rotates;

step three: when the rotating rod 101 rotates, the supporting arm 102 is driven to rotate, the two supporting arms 102 on the same side are rotatably connected with the bearing plate 103, so that the bearing plate 103 performs circular rotation motion, the angle of the bearing plate 103 cannot change when the supporting arms 102 rotate, the bearing plate is always horizontally arranged, and when the supporting arms 102 are in a horizontal state, the bottom plate 11 is attached to the bottom wall inside the iron stand 6;

step four: the step three is a synchronous process, when the support arm 102 rotates circularly and tends to be in a horizontal state, the clamping block 1202 on the support arm 102 at the end far away from the clamping hook 1201 touches the clamping hook 1201, so that the clamping hook 1201 rotates at a small angle, the clamping block 1202 slides down along the arc surface of the clamping hook 1201 and enters the clamping groove of the clamping hook 1201, and the clamping hook 1201 rotates at the moment, so that the clamping block 1202 enters the inside of the clamping hook 1201, at the moment, the distance from the clamping hook 1201 to the clamping hook 1201 and the distance between the rotation point of the support arm 102 and the rotation point of the clamping hook 1201 form a triangle, and the clamping hook 1201 cannot move at the moment, so that the triangle is in a locked state, locking after the turnover assembly 10 is turned over is finished, and the phenomenon that the turnover assembly 10 rotates under the action of external force is avoided;

step five: the step is synchronous with the step three, when the rotating roller 1303 rotates, the central cone pulley 1401 on the rotating roller 1303 can rotate step by step, so that the central cone pulley 1401 is meshed with the bottom cone pulley 1402 in the power box 1301 to rotate, when the bottom cone pulley 1402 rotates, the gear 1403 is driven to rotate, the half-tooth plates 1404 on two sides of the gear 1403 are meshed with the gear 1403 to rotate, at the moment, the moving directions of the two half-tooth plates 1404 are opposite, and the cylinder 1405 moves towards the inside of the placing plate 8, so that the cylinder 1405 drives the clamping plate 1406 to clamp the position where the bottom plate 11 is connected with the iron frame 6;

after the above five steps are completed, the top of the iron frame 6 is provided with the placing plate 8 for extrusion, and the bottom of the iron frame 6 is provided with the bottom plate 11 for clamping the clamping assembly 12 and the clamping plate 1406, so that the stable connection between the device and the iron frame 6 is completed.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and alterations can be made to these embodiments without departing from the spirit and scope of the invention, which is defined by the claims and their equivalents.

Claims

1. The utility model provides a gas storage annotates and adopts gas technology module, includes business turn over station valves submodule piece (1), the branch of entering a station filters separation submodule piece (2), annotates and adopts business turn over station valves submodule piece (3), gas production jar water separation submodule piece (4) and the separation submodule piece (5) of entering a station and constitute jointly, the equal fixed mounting of module is on iron frame (6), and constitutes complete process flow through the interconnect between iron frame (6) and iron frame (6), be provided with coupling assembling (7) between iron frame (6) and iron frame (6), thereby coupling assembling (7) are used for connecting two iron frames (6) of connection and make two iron frames (6) form a whole.

2. The gas injection and production process module of the gas storage according to claim 1, wherein: the iron frame (6) comprises a placing plate (8), the two placing plates (8) are placed at the top of the iron frame (6), fixed blocks (9) are fixedly installed at the two sides of the bottom of each placing plate (8) in a symmetrical and equidistant mode, a turning component (10) is arranged inside each fixed block (9), a bottom plate (11) is connected onto each turning component (10), the bottom plates (11) are in contact with the top wall inside the iron frame (6), a clamping component (12) is arranged on each turning component (10), the clamping components (12) are used for clamping the turning components (10) after the turning components (10) are turned, a power driving component (13) is arranged on each fixed block (9), the power driving component (13) is used for providing power for turning of the turning components (10), and a lateral clamping component (14) is arranged inside each placing plate (8), and the power driving component (13) provides power for the lateral clamping component (14).

3. The gas injection and production process module of the gas storage according to claim 2, wherein: upset subassembly (10) are including dwang (101), (support arm 102) and accept board (103), it is connected with two dwang (101), two adjacent to rotate on fixed block (9) inside dwang (101) outside all fixed support arm (102), two of homonymy of having cup jointed on fixed block (9) rotate on support arm (102) and be connected with and accept board (103), bottom plate (11) fixed connection is at the top of accepting board (103).

4. The gas injection and production process module of the gas storage according to claim 3, wherein: two dwang (101) are centrosymmetric setting for the dot with the central point of fixed block (9), support arm (102) length on dwang (101) is the same, the rotation axis of cup jointing on the lateral wall of adapting plate (103) is rotated to the bottom of support arm (102).

5. The gas injection and production process module of the gas storage according to claim 4, wherein: the clamping assembly (12) comprises a clamping hook (1201), a clamping block (1202) and a torsion spring (1203), the outer sides of the bearing plates (103) at the two ends of the device are rotatably connected with the clamping hook (1201), the clamping hook (1201) and the bearing plates (103) are elastically and rotatably connected through the torsion spring (1203), the inner side of the support arm (102) far away from the clamping hook (1201) on the bearing plates (103) is fixedly connected with the clamping block (1202), and the clamping block (1202) is movably clamped with the clamping hook (1201).

6. The gas injection and production process module of the gas storage according to claim 5, wherein: one side of the top of the clamping hook (1201) is arc-shaped, and the distance of the top of the clamping groove of the clamping hook (1201) is smaller than that of the bottom.

7. The gas injection and production process module of the gas storage according to claim 4, wherein: the power driving assembly (13) comprises a power box (1301), the bottom fixedly connected with power box (1301) of placing plate (8) is provided, rotating rod (101) rotates to penetrate through power box (1301), the outermost side of the rotating rod is provided with rotating roller (1303) in fixed block (9), the other end of rotating roller (1303) rotates to enter the power box (1301), rotating roller (1303) is located at one end fixedly connected with rocking handle (1304) outside power box (1301), rotating roller (1303) is located at two main cone pulleys (1305) in the outer side fixedly connected with power box (1301), the outer side of rotating rod (101) inside power box (1301) is sleeved with a slave cone pulley (1302), and the slave cone pulley (1302) is in meshed rotation connection with the main cone pulley (1305).

8. The gas injection and production process module of the gas storage according to claim 7, wherein: the two main cone pulleys (1305) in the power box (1301) are arranged in the same direction, and the two auxiliary cone pulleys (1302) in the power box (1301) are arranged in the same direction and are arranged in the opposite direction of the main cone pulleys (1305).

9. The method for exercising the gas injection and production process module of the gas storage according to claim 7, wherein: the lateral clamping assembly (14) comprises a central cone pulley (1401) and a bottom cone pulley (1402), the top wall inside the power box (1301) is rotatably connected with the bottom cone pulley (1402), the rotating roller (1303) is located on the outer side of the inside of the power box (1301) and fixedly connected with the central cone pulley (1401), the central cone pulley (1401) is meshed with the bottom cone pulley (1402) and rotatably connected with the inside of the placing plate (8) in a rotating mode, a gear (1403) is rotatably connected with the inside of the placing plate (8) in a rotating mode, a rotating shaft of the gear (1403) is fixedly connected with the rotating shaft of the central cone pulley (1401) in a coaxial mode, two sides of the placing plate (8) which are located on the gear (1403) are slidably connected with a half toothed plate (1404), the half toothed plate (1404) is rotatably connected with the gear (1403) in a meshing mode, a cylinder (1405) is fixedly connected with one end of the half toothed plate (1404), and the cylinder (1405) can penetrate through the side wall of the placing plate (8) in a sliding mode, the cylinder (1405) slides out of one end of the side wall of the placing plate (8) and is fixedly connected with a clamping plate (1406).