CN214930419U - Flexible butt joint device for pressure chamber - Google Patents

Abstract

The utility model discloses a flexible butt joint device for a pressure chamber, which comprises a pressure chamber component, wherein the pressure chamber component comprises a manhole pipe, a support frame and a fixed joint A, the fixed joint A is provided with a corresponding rotating shaft, the manhole pipe is welded on a chamber body, the support frame and the fixed joint A are welded on the manhole pipe, the end part of the manhole pipe is connected with a telescopic component A through a pipe clamp component A, the other end of the telescopic component A is connected with a telescopic component B through the pipe clamp component B, the application improves the defects of the prior art, and the upper and lower adjustment and the left and right adjustment can be carried out on the position of an outer joint by arranging two fine adjustment telescopic components matched with corresponding telescopic hydraulic cylinders, thereby solving the problem of angle difference during butt joint, ensuring the fast and convenient butt joint, and simultaneously, the high-pressure expansion joint A and the high-pressure expansion joint B have certain compression amount to buffer impact force, reduce the damage that causes the equipment when the butt joint, the practicality is strong.

Description

Flexible butt joint device for pressure chamber

Technical Field

The utility model relates to a butt joint technical field between the pressure chamber specifically is a flexible interfacing apparatus is used to pressure chamber.

Background

The pressure chamber is a manned pressure vessel, when people need to be transferred from one pressure chamber to another pressure chamber, a transfer chamber (a small pressure chamber convenient for transportation) needs to be used, the people are firstly transferred into the transfer chamber, and then transferred into the other pressure chamber, so that the transfer of the people is completed; in the transfer process, the transfer cabin needs to be butted with the pressure cabin, so that the butting device has higher requirements; at present, a rigid docking device is mostly adopted in the docking device in the field, a transfer cabin can generate great impact on a pressure cabin during docking, and the damage of the impact on the pressure cabin and the transfer cabin cannot be reduced; and the angle can not be finely adjusted during butt joint, and the butt joint is time-consuming and inconvenient, so that a flexible butt joint device for the pressure chamber is designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flexible interfacing apparatus is used to pressure chamber to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a flexible interfacing apparatus for pressure chamber, includes the pressure chamber subassembly, and the pressure chamber subassembly includes manhole pipe, support frame, fixed joint A, and fixed joint A has corresponding pivot, and manhole pipe welding is on the cabin body, and support frame and fixed joint A welding are on the manhole pipe, manhole pipe tip is connected with flexible subassembly A through pipe clamp subassembly A, the flexible subassembly A other end is connected with flexible subassembly B through pipe clamp subassembly B, be equipped with between flexible subassembly B and the manhole pipe and be used for driving flexible subassembly B wobbling fine setting spare.

As a further aspect of the present invention: the pipe clamp assembly A comprises a pipe buckle A, a mounting frame, a support plate A, a fixed joint B and a fixed joint C; the fixed joint B and the fixed joint C are provided with corresponding rotating shafts, the mounting frame is welded on the pipe buckle A and is provided with a corresponding rotating shaft and a corresponding shaft sleeve, the supporting piece A is arranged on the pipe buckle A, and the fixed joint B and the fixed joint C are arranged on the pipe buckle A;

the mounting frame of the pipe clamp assembly A is mounted on the support frame of the pressure chamber assembly; one end of the telescopic component A with the high-pressure expansion joint A is embedded into the pipe buckle A, the other end of the high-pressure expansion joint A is welded on the inner wall of the manhole pipe, and a boss at the front end of the support plate A is inserted into a bearing of the movable support component; the other end of the pipeline A is embedded into the pipe buckle B.

As a further aspect of the present invention: the telescopic component A comprises a pipeline A, a high-pressure expansion joint A, a fixed joint D, a fixed joint E and a movable supporting component, the fixed joint D and the fixed joint E are provided with corresponding rotating shafts, one end of the high-pressure expansion joint A is welded on the inner wall of one end of the pipeline A, the fixed joint D and the fixed joint E are welded on the pipeline A, and the movable supporting component is welded on the pipeline A.

As a further aspect of the present invention: the pipe clamp assembly B comprises a pipe buckle B, a fixed joint F, a fixed joint G and a supporting plate B, wherein the fixed joint F and the fixed joint G are provided with corresponding rotating shafts, the fixed joint F and the fixed joint G are arranged on the pipe buckle B, and the supporting plate B is arranged on the pipe buckle B.

As a further aspect of the present invention: the telescopic component B comprises a pipeline B, a high-pressure expansion joint B, a fixed joint H and a movable supporting component, wherein the fixed joint H is provided with a corresponding rotating shaft;

one end of the telescopic component B with the high-pressure expansion joint B is embedded into the pipe buckle B, the other end of the high-pressure expansion joint B is welded on the inner wall of the pipeline A, a boss at the front end of the support plate B is inserted into a bearing of the movable support component, and the other end of the pipeline B is in butt joint with the transfer cabin;

the manhole pipe flange, the flange at one end of the pipeline A and the high-pressure expansion joint A are completely embedded into the pipe buckle A.

As a further aspect of the present invention: the movable supporting assembly comprises a mounting plate, linear guide rails, a bearing seat, an end cover and a bearing, the mounting plate is welded on the pipeline A, the two linear guide rails are mounted on the mounting plate, the bearing seat is mounted on the linear guide rails, the bearing is mounted on the bearing seat, and the end cover is mounted on the bearing seat.

As a further aspect of the present invention: the fine adjustment part comprises a hydraulic cylinder A, a hydraulic cylinder B, a hydraulic cylinder D and a hydraulic cylinder C, two ends of the hydraulic cylinder A are respectively and rotatably connected with the outer sides of the manhole pipe and the pipe clamp assembly A, two ends of the hydraulic cylinder B are respectively and rotatably connected with the outer sides of the pipe clamp assembly A and the telescopic assembly A, and the hydraulic cylinder B and the hydraulic cylinder A are arranged in a staggered mode;

the two ends of the hydraulic cylinder D are rotatably arranged between the telescopic component B and the pipe clamp component B, the hydraulic cylinder C is rotatably arranged between the pipe clamp component B and the telescopic component A, and the hydraulic cylinder D and the hydraulic cylinder C are also arranged in a staggered mode.

Compared with the prior art, the beneficial effects of the utility model are that: this application improves to prior art's drawback, through setting up the corresponding pneumatic cylinder that can stretch out and draw back of the flexible subassembly collocation of two fine settings to make the outer joint position adjust from top to bottom and control the regulation, thereby there is the problem of angle difference when can solving the butt joint, guarantee that the butt joint is quick, convenient, high pressure expansion joint A and high pressure expansion joint B have certain compressive capacity to cushion the impact force simultaneously, reduce the damage that causes equipment when the butt joint, the practicality is strong.

Drawings

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

Fig. 2 is a rear view of the middle structure of the present invention.

Fig. 3 is a schematic structural view of the middle pressure chamber assembly of the present invention.

Fig. 4a is a schematic structural view of an end of a middle pipe clamp assembly a according to the present invention;

fig. 4b is a schematic structural view of the other end of the middle pipe clamp assembly a of the present invention;

FIG. 5a is a schematic structural view of an end of a middle telescopic assembly A of the present invention;

FIG. 5b is a schematic structural view of the other end of the retractable assembly A of the present invention;

fig. 6 is a schematic structural view of a middle tube clamp assembly B according to the present invention;

FIG. 7 is a schematic structural view of the middle telescopic assembly B of the present invention

Fig. 8a is a schematic structural view of the movable support assembly of the present invention;

fig. 8b is a schematic structural diagram of the interior of the middle mobile supporting component of the present invention.

Wherein: 1. a pressure chamber assembly; 2. a pipe clamp assembly A; 3. a telescopic component A; 4. a pipe clamp assembly B; 5. a telescopic component B;

11. a manhole tube; 12. a support frame; 13. fixing the joint A; 14. a hydraulic cylinder A;

21. a pipe fastener A; 22. a mounting frame; 23. a support plate A; 24. fixing the joint B; 25. fixing a joint C; 26. a hydraulic cylinder B;

31. a pipeline A; 32. a high pressure expansion joint A; 33. fixing the joint D; 34. fixing a joint E; 35. moving the support assembly;

41. b, pipe buckling; 42. fixing the joint F; 43. a hydraulic cylinder C; 44. fixing a joint G; 45. a hydraulic cylinder D; 46. supporting plate B

51. A pipeline B; 52. a high pressure expansion joint B; 53. fixing the joint H;

351. mounting a plate; 352. a linear guide rail; 353. a bearing seat; 354. an end cap; 355. and a bearing.

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.

Referring to fig. 1-8, in an embodiment of the present invention, a flexible docking device for a pressure chamber includes a pressure chamber assembly 1, a pipe clamp assembly a2, a telescopic assembly A3, a pipe clamp assembly B4, and a telescopic assembly B5;

the pressure chamber component 1 comprises a manhole pipe 11, a support frame 12, a fixed joint A13 and a hydraulic cylinder A14, wherein the fixed joint A13 is provided with a corresponding rotating shaft, the manhole pipe 11 is welded on the chamber body, the support frame 12 and the fixed joint A13 are welded on the manhole pipe 11, and the manhole pipe 11 is used for corresponding to the end part of a telescopic component A3;

the pipe clamp assembly A2 comprises a pipe buckle A21, a mounting frame 22, a support plate A23, a fixed joint B24, a fixed joint C25 and a hydraulic cylinder B26;

the fixed joint B24 and the fixed joint C25 have corresponding rotating shafts, the mounting frame 22 is welded on the pipe buckle A21, the mounting frame 22 has corresponding rotating shafts and shaft sleeves, the supporting piece A23 is installed on the pipe buckle A21, the fixed joint B24 and the fixed joint C25 are installed on the pipe buckle A2, the rear end of the hydraulic cylinder B26 is installed on the fixed joint C25, and the pipe buckle A21 is sleeved on the end portion of the manhole pipe 11 so as to provide a connection foundation for later butt joint;

the telescopic assembly A3 comprises a pipeline A31, a high-pressure expansion joint A32, a fixed joint D33, a fixed joint E34 and a movable support assembly 35, wherein the fixed joint D33 and the fixed joint E34 have corresponding rotating shafts, one end of the high-pressure expansion joint A32 is welded on the inner wall of one end of the pipeline A31, and the fixed joint D33 and the fixed joint E34 are welded on the pipeline A31;

the movable support assembly 35 is welded on the pipeline A31, the movable support assembly 35 comprises a mounting plate 351, a linear guide rail 352, a bearing seat 353, an end cover 354 and a bearing 355, the mounting plate 351 is welded on the pipeline A31, 2 linear guide rails 352 are installed on the mounting plate 351, the bearing seat 353 is installed on the linear guide rail 352, the bearing 355 is installed on the bearing seat 353, and the end cover 354 is installed on the bearing seat 353;

the pipe clamp assembly B4 comprises a pipe buckle B41, a fixed joint F42, a hydraulic cylinder C43, a fixed joint G44, a hydraulic cylinder D45 and a support plate B46, wherein the fixed joint F42 and the fixed joint G44 have corresponding rotating shafts, the hydraulic cylinder C43 is installed on the fixed joint F42, the hydraulic cylinder D45 is installed on the fixed joint G44, the fixed joint F42 and the fixed joint G44 are installed on the pipe buckle B41, and the support plate B46 is installed on the pipe buckle B41;

telescopic assembly B5 includes pipeline B51, high pressure expansion joint B52, fixed joint H53, removal supporting component 35, and fixed joint H53 has corresponding pivot, and the one end of high pressure expansion joint B52 welds on the inner wall of pipeline B51 one end, and fixed joint H53 welds on pipeline B51, and removal supporting component 35 welds on pipeline B51.

The mounting frame 22 of the pipe clamp assembly A2 is mounted on the support frame 12 of the pressure chamber assembly 1, and the hydraulic cylinder A14 is connected with a fixed joint A13 and a fixed joint B24; one end of a telescopic component A3 with a high-pressure expansion joint A32 is embedded into a pipe buckle A21, the other end of the high-pressure expansion joint A32 is welded on the inner wall of the manhole pipe 11, a boss at the front end of a supporting plate A23 is inserted into a bearing 355 of the movable supporting component 35, and a hydraulic cylinder B26 is connected with a fixed joint C25 and a fixed joint E34; the other end of the pipeline A31 is embedded into a pipe buckle B41, and a hydraulic cylinder C43 is connected with a fixed joint D33 and a fixed joint F42;

one end of a telescopic component B5 with a high-pressure expansion joint B52 is embedded into a pipe buckle B41, the other end of the high-pressure expansion joint B52 is welded on the inner wall of a pipeline A31, a boss at the front end of a supporting plate B46 is inserted into a bearing 355 of the movable supporting component 35, a hydraulic cylinder D45 is connected with a fixed joint G44 and a fixed joint H53, and the other end of a pipeline B51 is butted with a transfer cabin;

one end of the high-pressure expansion joint A32 is welded on the inner wall of the manhole pipe 11, the other end is welded on the inner wall of the pipeline A31, and a flange of the manhole pipe 11, a flange of one end of the pipeline A31 and the high-pressure expansion joint A32 are completely embedded in the pipe buckle A21; similarly, one end of the high-pressure expansion joint B52 is welded on the inner wall of the other end of the pipeline A31, the other end of the high-pressure expansion joint B52 is welded on the inner wall of the pipeline B51, and a flange at the other end of the pipeline A31, a flange at one end of the pipeline B51 and the high-pressure expansion joint B52 are completely embedded into the pipe buckle B41; when the transfer cabin is in butt joint with the flexible butt joint device, impact force can be generated, the high-pressure expansion joint has a certain expansion amount, and the high-pressure expansion joint A32 and the high-pressure expansion joint B52 have a certain compression amount to buffer the impact force; after the butt joint is finished, when the butt joint flexible butt joint device is pressurized, the high-pressure expansion joint A32 and the high-pressure expansion joint B52 have certain elongation, and because the inside of the pipe buckle A21 and the inside of the pipe buckle B41 are respectively embedded with the flange of the manhole pipe 11, the flange of the pipeline A31, the flange of the pipeline A31 and the flange of the pipeline B51, the high-pressure expansion joint is ensured not to be excessively elongated to cause damage; the angle about pipe clamp subassembly A2 can be finely tuned through the extension of pneumatic cylinder A14 or shorten, the angle change of drive rear end device, extension or the shortening through pneumatic cylinder B26 and pneumatic cylinder C43, can finely tune the angle about flexible subassembly A3, the angle change of drive rear end device, through the extension of pneumatic cylinder D45 or shorten the angle about flexible subassembly B5 that can finely tune, there is the poor problem of angle when the butt joint can be solved in this kind of operation, guarantee that the butt joint is quick, and is convenient.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention.

Claims (7)

1. A flexible butt joint device for a pressure chamber comprises a pressure chamber component (1), wherein the pressure chamber component (1) comprises a manhole pipe (11), a support frame (12) and a fixed joint A (13), the fixed joint A (13) is provided with a corresponding rotating shaft, the manhole pipe (11) is welded on a chamber body, and the support frame (12) and the fixed joint A (13) are welded on the manhole pipe (11);

the manhole pipe is characterized in that the end of the manhole pipe (11) is connected with a telescopic assembly A (3) through a pipe clamp assembly A (2), the other end of the telescopic assembly A (3) is connected with a telescopic assembly B (5) through a pipe clamp assembly B (4), and a fine adjustment piece used for driving the telescopic assembly B (5) to swing is arranged between the telescopic assembly B (5) and the manhole pipe (11).

2. The flexible docking device for pressure chambers according to claim 1, wherein the pipe clamp assembly a (2) comprises a pipe clamp a (21), a mounting frame (22), a support plate a (23), a fixed joint B (24), a fixed joint C (25);

the fixed joint B (24) and the fixed joint C (25) are provided with corresponding rotating shafts, the mounting rack (22) is welded on the pipe buckle A (21), the mounting rack (22) is provided with corresponding rotating shafts and shaft sleeves, the support plate A (23) is installed on the pipe buckle A (21), and the fixed joint B (24) and the fixed joint C (25) are installed on the pipe buckle A (21);

the mounting frame (22) of the pipe clamp assembly A (2) is mounted on the support frame (12) of the pressure chamber assembly (1); one end of the telescopic component A (3) with the high-pressure expansion joint A (32) is embedded into the pipe buckle A (21), the other end of the high-pressure expansion joint A (32) is welded on the inner wall of the manhole pipe (11), and a boss at the front end of the support plate A (23) is inserted into a bearing (355) of the movable support component (35); the other end of the pipeline A (31) is embedded into the pipe buckle B (41).

3. The flexible docking device for the pressure chamber according to claim 1, wherein the telescopic assembly A (3) comprises a pipeline A (31), a high-pressure expansion joint A (32), a fixed joint D (33), a fixed joint E (34) and a movable support assembly (35), the fixed joint D (33) and the fixed joint E (34) have corresponding rotating shafts, one end of the high-pressure expansion joint A (32) is welded on the inner wall of one end of the pipeline A (31), the fixed joint D (33) and the fixed joint E (34) are welded on the pipeline A (31), and the movable support assembly (35) is welded on the pipeline A (31).

4. The flexible docking device for pressure chambers according to claim 1, wherein the pipe clamp assembly B (4) comprises a pipe buckle B (41), a fixed joint F (42), a fixed joint G (44), and a support plate B (46), the fixed joint F (42) and the fixed joint G (44) have corresponding rotation axes, the fixed joint F (42) and the fixed joint G (44) are mounted on the pipe buckle B (41), and the support plate B (46) is mounted on the pipe buckle B (41).

5. The flexible docking device for pressure chambers according to claim 4, wherein the telescopic assembly B (5) comprises a pipeline B (51), a high-pressure expansion joint B (52), a fixed joint H (53) and a movable support assembly (35), the fixed joint H (53) has a corresponding rotating shaft, one end of the high-pressure expansion joint B (52) is welded on the inner wall of one end of the pipeline B (51), the fixed joint H (53) is welded on the pipeline B (51), and the pipeline B (51) is also welded with the movable support assembly (35);

one end of the telescopic component B (5) with a high-pressure expansion joint B (52) is embedded into the pipe buckle B (41), the other end of the high-pressure expansion joint B (52) is welded on the inner wall of the pipeline A (31), a boss at the front end of the support plate B (46) is inserted into a bearing (355) of the movable support component (35), and the other end of the pipeline B (51) is butted with the transfer cabin;

the flange of the manhole pipe (11), the flange at one end of the pipeline A (31) and the high-pressure expansion joint A (32) are completely embedded into the pipe buckle A (21).

6. The flexible docking device for pressure chambers according to claim 2 or 5, wherein the moving support assembly (35) comprises a mounting plate (351), linear guide rails (352), a bearing seat (353), an end cap (354), and a bearing (355), the mounting plate (351) is welded on the pipe A (31), the two linear guide rails (352) are mounted on the mounting plate (351), the bearing seat (353) is mounted on the linear guide rails (352), the bearing (355) is mounted on the bearing seat (353), and the end cap (354) is mounted on the bearing seat (353).

7. The flexible docking device for the pressure chamber, according to claim 1, is characterized in that the fine adjustment part comprises a hydraulic cylinder A (14), a hydraulic cylinder B (26), a hydraulic cylinder D (45) and a hydraulic cylinder C (43), two ends of the hydraulic cylinder A (14) are respectively and rotatably connected with the outer sides of the manhole pipe (11) and the pipe clamp assembly A (2), two ends of the hydraulic cylinder B (26) are respectively and rotatably connected with the outer sides of the pipe clamp assembly A (2) and the telescopic assembly A (3), and the hydraulic cylinder B (26) and the hydraulic cylinder A (14) are arranged in a staggered mode;

pneumatic cylinder D (45) both ends are rotated and are set up between flexible subassembly B (5) and pipe clamp subassembly B (4), pneumatic cylinder C (43) are rotated and are set up between pipe clamp subassembly B (4) and flexible subassembly A (3), and pneumatic cylinder D (45) and pneumatic cylinder C (43) also are the setting of staggering.

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