CN212839173U - Well cementation is high-pressure manifold remote control ware protector for operation - Google Patents

Abstract

The utility model discloses a high-pressure manifold remote controller protection device for well cementation operation, which comprises a first plate body, wherein two first rod bodies are symmetrically welded on the two sides of the first plate body, two first springs are welded on the ends, away from the first plate body, of the first rod bodies, and a second plate body is welded on the end, away from the first rod body, of the first springs; through the arrangement of the third rod body and the movable plate, when the movable plate extrudes the second spring, the elastic force of the third spring can relieve the external force again; thereby eliminating the hidden trouble that the high-pressure manifold remote controller is accidentally dropped to cause damage.

Description

Well cementation is high-pressure manifold remote control ware protector for operation

Technical Field

The utility model relates to a well cementation operation technical field specifically is a well cementation is high-pressure manifold remote control ware protector for operation.

Background

In the existing well cementation, a casing is put into a well, and cement is injected into an annular space between a well hole and the casing. Is an indispensable important link in the process of drilling and completing operations, and comprises casing running and cementing. The well cementation technology is a comprehensive application technology of multiple disciplines and has the characteristics of systematicness, disposability and short time. The main purpose of cementing is to protect and support the casing in the oil and gas well, and to seal off oil, gas and water formations. In the prior art, because the high-pressure manifold remote controller is exposed outside for a long time and has no protective measure with good effect to protect the high-pressure manifold remote controller, the high-pressure manifold remote controller has the hidden trouble of damage caused by accidental falling, and therefore, the high-pressure manifold remote controller protective device for well cementation operation is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a well cementation is high-pressure manifold remote controller protector for operation to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-pressure manifold remote controller protection device for well cementation operation comprises a first plate body, wherein two first rod bodies are symmetrically welded on two sides of the first plate body, a first spring is welded at one end, far away from the first plate body, of each first rod body, a second plate body is welded at one end, far away from the first rod body, of each first spring, two first groove bodies are arranged inside the second plate body, the inner side walls of the two first groove bodies are connected with the first rod bodies in a sliding mode, arc-shaped pipes are fixedly connected inside the first plate body and the second plate body, rubber balls are uniformly arranged inside the arc-shaped pipes, one ends of the arc-shaped pipes are communicated with the first pipe bodies, the inner side walls of the first pipe bodies are connected with second rod bodies in a sliding mode, one ends, far away from the first pipe bodies, of the arc-shaped pipes are communicated with the second pipe bodies, and the inner side walls of the second pipe bodies are connected with third rod bodies, the welding of the one end of the third body of rod has the fly leaf, department's welding has the second spring in the middle of one side of fly leaf, the one end welding that the fly leaf was kept away from to the second spring has the fixed block, the outside welding of fixed block has the third body, the one end welding of third body has the riser, the second cell body that quantity is two is seted up to the lateral wall of third body, the both sides of fly leaf run through second cell body and symmetrical weld have the slide bar that quantity is two, two the equal sliding connection of lateral wall of slide bar has the fourth body, the one end and the riser welding of fourth body, one side of first plate body and second plate body all with riser fixed connection.

As further preferable in the present technical solution: the bracing piece has all been welded to one side of first plate body and second plate body, the one end and the second body welding of bracing piece.

As further preferable in the present technical solution: one end fixedly connected with push pedal of the second body of rod, the welding of one side of push pedal has the third spring.

As further preferable in the present technical solution: and one end of the third spring, which is far away from the push plate, is welded with a fixed rod, and one side of the fixed rod is welded with the first pipe body.

As further preferable in the present technical solution: two transverse plates are welded on one side, adjacent to the vertical plates, of each transverse plate, a fourth groove is formed in one side of each transverse plate, and a second rubber pad is connected to the inner side wall of each fourth groove in a threaded mode.

As further preferable in the present technical solution: and a third groove body is formed in one side adjacent to the two vertical plates, and a first rubber pad is connected to the inner side wall of the third groove body in a threaded manner.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a place the rubber ball in the inside of arc pipe, when making the push pedal drive the second body of rod under the exogenic action and extrude the rubber ball, the rubber ball can tentatively slow down external force; through the arrangement of the third rod body and the movable plate, when the movable plate extrudes the second spring, the elastic force of the third spring can relieve the external force again; thereby eliminating the hidden trouble that the high-pressure manifold remote controller is accidentally dropped to cause damage.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of a second rod structure of the present invention;

fig. 3 is a schematic view of the vertical plate structure of the present invention.

In the figure: 1. a first plate body; 2. a first rod body; 3. a first spring; 4. a second plate body; 5. a first tank body; 6. an arc tube; 7. a rubber ball; 8. a first pipe body; 9. a second rod body; 10. a second tube body; 11. a third rod body; 12. a third tube; 13. a second tank body; 14. a movable plate; 15. a second spring; 16. a slide bar; 17. a fourth tube body; 18. a fixed block; 19. a vertical plate; 20. pushing the plate; 21. a support bar; 22. a third tank body; 23. a first rubber pad; 24. a transverse plate; 25. a fourth tank body; 26. a second rubber pad; 27. fixing the rod; 28. and a third spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides a technical solution: a high-pressure manifold remote controller protection device for well cementation operation comprises a first plate body 1, wherein two first rod bodies 2 are symmetrically welded on two sides of the first plate body 1, a first spring 3 is welded at one end, far away from the first plate body 1, of each first rod body 2, a second plate body 4 is welded at one end, far away from the first rod body 2, of each first spring 3, two first groove bodies 5 are arranged inside the second plate body 4, the inner side walls of the two first groove bodies 5 are connected with the first rod bodies 2 in a sliding mode, arc-shaped pipes 6 are fixedly connected inside the first plate body 1 and the second plate body 4, rubber balls 7 are uniformly arranged inside the arc-shaped pipes 6, one ends of the arc-shaped pipes 6 are communicated with the first pipe bodies 8, the inner side walls of the first pipe bodies 8 are connected with second rod bodies 9 in a sliding mode, one ends, far away from the first pipe bodies 8, of the arc-shaped pipes 6 are communicated with the second pipe bodies 10, the inner side walls of the second, a movable plate 14 is welded at one end of the third rod body 11, a second spring 15 is welded in the middle of one side of the movable plate 14, a fixed block 18 is welded at one end, away from the movable plate 14, of the second spring 15, a third pipe body 12 is welded at the outer side of the fixed block 18, a vertical plate 19 is welded at one end of the third pipe body 12, two second groove bodies 13 are formed in the outer side wall of the third pipe body 12, two sliding rods 16 are symmetrically welded at two sides of the movable plate 14, the second groove bodies 13 are penetrated through the two sliding rods 16, fourth pipe bodies 17 are connected to the outer side walls of the two sliding rods 16 in a sliding mode, one end of each fourth pipe body 17 is welded to the vertical plate 19, and one sides of the first plate body; the vertical plate 19 and the horizontal plate 24 constitute an outer frame to which the controller is fixed.

In this embodiment, specifically: one side of each of the first plate body 1 and the second plate body 4 is welded with a support rod 21, and one end of each support rod 21 is welded with the second pipe body 10; the support rod 21 mainly functions to support the second pipe 10.

In this embodiment, specifically: one end of the second rod body 9 is fixedly connected with a push plate 20, and one side of the push plate 20 is welded with a third spring 28; the primary function of the third spring 28 is to support the push plate 20.

In this embodiment, specifically: a fixing rod 27 is welded at one end of the third spring 28 far away from the push plate 20, and one side of the fixing rod 27 is welded with the first pipe body 8; the main function of the fixing rod 27 is to support the third spring 28.

In this embodiment, specifically: two transverse plates 24 are welded at one adjacent side of the two vertical plates 19, a fourth groove body 25 is formed in one side of each of the two transverse plates 24, and a second rubber pad 26 is connected to the inner side wall of each fourth groove body 25 in a threaded mode; half of the second rubber pad 26 is fixed in the fourth groove 25, and the other half extends out of the fourth groove 25.

In this embodiment, specifically: a third groove 22 is formed in one adjacent side of each of the two vertical plates 19, and a first rubber pad 23 is connected to the inner side wall of each third groove 22 in a threaded manner; half of the first rubber pad 23 is fixed in the third groove 22, and the other half extends out of the third groove 22.

According to the working principle or the structural principle, when the controller is used, the controller is placed between the two first rubber pads 23 and the two second rubber pads 26, so that the controller can be clamped by the elastic forces of the first rubber pads 23 and the second rubber pads 26; when the controller is accidentally dropped, the push plate 20 pushes the second rod body 9 to slide in the first pipe body 8 under the action of external force and extrude the rubber ball 7; the elasticity of the rubber ball 7 can primarily slow down the external force; the rubber ball 7 can roll in the arc-shaped pipe 6 under the action of the second rod body 9 and extrude the third rod body 11; the third rod 11 drives the movable plate 14 to move in the second slot 13 of the third tube 12, and the movable plate 14 presses the second spring 15; the elastic force of the second spring 15 can relieve the external force again; the sliding rod 16 and the fourth tube 17 can limit the movable plate 14, so that the movable plate 14 can be kept stable in the moving process; when first plate body 1 or second plate body 4 received the exogenic action, can drive first body of rod 2 and slide at the inside wall of first cell body 5 to extrude first spring 3, make first spring 3 can alleviate exogenic action.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a well cementation is high-pressure manifold remote controller protector for operation, includes first plate body (1), its characterized in that: the two-dimensional symmetrical welding of the first plate body (1) is provided with two first rod bodies (2), two first spring bodies (3) are welded at the ends, far away from the first plate body (1), of the first rod bodies (2), the second plate body (4) is welded at the ends, far away from the first rod bodies (2), of the first spring bodies (3), two first groove bodies (5) are arranged inside the second plate body (4), the inner side walls of the two first groove bodies (5) are connected with the first rod bodies (2) in a sliding mode, arc pipes (6) are fixedly connected inside the first plate body (1) and the second plate body (4), rubber balls (7) are evenly arranged inside the arc pipes (6), one ends of the arc pipes (6) are communicated with the first pipe bodies (8), the inner side walls of the first pipe bodies (8) are connected with the second rod bodies (9) in a sliding mode, the pipe comprises an arc-shaped pipe (6), a second pipe body (10) is communicated with one end, far away from a first pipe body (8), of the arc-shaped pipe (6), a third pipe body (11) is connected to the inner side wall of the second pipe body (10) in a sliding mode, a movable plate (14) is welded to one end of the third pipe body (11), a second spring (15) is welded to the middle of one side of the movable plate (14), a fixed block (18) is welded to one end, far away from the movable plate (14), of the second spring (15), a third pipe body (12) is welded to the outer side of the fixed block (18), a vertical plate (19) is welded to one end of the third pipe body (12), two second groove bodies (13) are arranged on the outer side wall of the third pipe body (12), two sliding rods (16) are symmetrically welded to the two sides of the movable plate (14) in a penetrating mode, and a fourth pipe body (, one end of the fourth pipe body (17) is welded with the vertical plate (19), and one sides of the first plate body (1) and the second plate body (4) are fixedly connected with the vertical plate (19).

2. The high-pressure manifold remote controller protection device for well cementation operation according to claim 1, characterized in that: the utility model provides a joint structure of a steel pipe, including first plate body (1), second plate body (4), bracing piece (21) have all been welded to one side of first plate body (1) and second plate body (4), the one end and the welding of second body (10) of bracing piece (21).

3. The high-pressure manifold remote controller protection device for well cementation operation according to claim 1, characterized in that: one end of the second rod body (9) is fixedly connected with a push plate (20), and a third spring (28) is welded on one side of the push plate (20).

4. The high-pressure manifold remote controller protection device for well cementation operation according to claim 3, characterized in that: and one end of the third spring (28), which is far away from the push plate (20), is welded with a fixing rod (27), and one side of the fixing rod (27) is welded with the first pipe body (8).

5. The high-pressure manifold remote controller protection device for well cementation operation according to claim 1, characterized in that: two transverse plates (24) are welded on one adjacent side of the vertical plate (19), a fourth groove body (25) is formed in one side of each transverse plate (24), and a second rubber pad (26) is connected to the inner side wall of each fourth groove body (25) in a threaded mode.

6. The high-pressure manifold remote controller protection device for well cementation operation according to claim 1, characterized in that: and a third groove body (22) is formed in one side, adjacent to the two vertical plates (19), of each vertical plate, and a first rubber pad (23) is connected to the inner side wall of each third groove body (22) in a threaded mode.

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