CN115127743A - Pressure vessel leakage detection device with high reliability - Google Patents

Abstract

The invention discloses a high-reliability pressure container leakage detection device which comprises a base and a glass container located above the base and used for containing water, wherein a bearing plate and a placing table used for bearing a pressure container to be detected are arranged above the base, the bearing plate and the placing table are intermittently attached, and a conveying assembly used for driving the bearing plate to move into the glass container is arranged above the base. According to the invention, the conveying assembly is arranged, so that the bearing plate and the pressure container on the bearing plate can be conveniently driven to move into the glass container, the pressure container is detected to see whether bubbles are generated on the surface of the pressure container, and the bearing plate and the pressure container on the bearing plate can be driven to move out of the glass container to restore the original position after the detection of the pressure container is completed, so that the convenience of the device is effectively improved; through setting up drive assembly to after pressure vessel gets into the glass container, the drive pressure vessel rotated.

Description

Pressure vessel leakage detection device with high reliability

Technical Field

The invention relates to the technical field of pressure vessels, in particular to a pressure vessel leakage detection device with high reliability.

Background

The pressure container is a closed device which contains gas or liquid and bears certain pressure. In order to implement scientific management and safety supervision and inspection more effectively, pressure vessels are divided into three categories according to working pressure, medium hazard and the effect of the medium hazard in production in the pressure vessel safety supervision regulations in China.

In the actual use process, the conventional pressure container leakage detection is to completely immerse a pressure container filled with gas into water to check whether bubbles are generated on the surface of the pressure container; if the pressure vessel to be detected is lifted into the vessel filled with water manually and repeatedly, and the pressure vessel needs to be taken out of the water after detection is completed, the operation process is more laborious due to certain weight of the pressure vessel.

Therefore, a pressure vessel leakage detection device with high reliability is provided to solve the above problems.

Disclosure of Invention

The invention aims to provide a high-reliability pressure container leakage detection device which is provided with a conveying assembly, so that a bearing plate and a pressure container on the bearing plate can be driven to move into a glass container, the pressure container is detected, whether bubbles are generated on the surface of the pressure container is checked, and the bearing plate and the pressure container on the bearing plate can be driven to move out of the glass container to restore the original position after the pressure container is detected, so that the convenience of the device is effectively improved, the problems that the pressure container to be detected is lifted into a container filled with water manually and repeatedly, and the pressure container needs to be taken out of the water after the detection is finished, and the operation process is laborious due to the fact that the pressure container has certain weight are solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a pressure vessel leakage detection device that reliability is high, includes the base to and be located the base top and be used for flourishing water glass container, the base top is provided with and is used for bearing the loading board that waits to detect pressure vessel and places the platform, the loading board with place intermittent type nature laminating between the platform, the base top is provided with and is used for driving the conveying assembly that the loading board removed to the glass container in.

Preferably, a fixing plate is arranged above the bearing plate, a spring is fixedly connected between the fixing plate and the bearing plate, a limiting telescopic rod is arranged in the spring, one end of the limiting telescopic rod is fixed on the bearing plate, and the other end of the limiting telescopic rod is fixed on the fixing plate.

Preferably, the conveying assembly comprises a vertical plate located above the base, an L-shaped connecting rod is fixedly connected between the vertical plate and the base, a sliding plate is connected to the left side and the right side of the surface of the vertical plate in a limiting sliding mode, a U-shaped sliding groove is formed in the surface of the vertical plate, a V-shaped sliding groove is formed in the surface of the sliding plate, an L-shaped sliding rod is connected in the V-shaped sliding groove in a sliding mode, one end of the L-shaped sliding rod is rectangular and is connected in the U-shaped sliding groove in a sliding mode after the L-shaped sliding rod penetrates through the V-shaped sliding groove, the bearing plate is fixedly connected to the lower end of the L-shaped sliding rod, the glass container is located under one end of the U-shaped sliding groove, and an L-shaped long rod is fixedly connected between the glass container and the base.

Preferably, the base top is rotated and is connected with the incomplete gear that is driven by external drive equipment to and the complete gear of incomplete gear intermittent type nature meshing one, base upper surface vertical fixation has two L shape bracing pieces, complete gear one and incomplete gear rotate respectively and connect in two L shape bracing pieces, the base top is provided with the pendulum rod with the coaxial fixed of complete gear, the spacing sliding connection in the left and right sides of base upper surface has back font frame, pendulum rod one end fixedly connected with stand, stand sliding connection is in returning font frame, be fixed with the connecting rod between back font frame and the slide.

Preferably, a driving assembly for driving the pressure container to rotate is arranged in the glass container.

Preferably, the driving assembly comprises an inner gear ring rotatably connected to the bottom surface of the inner wall of the glass container, a second complete gear coaxially fixed with the inner gear ring is arranged above the base, the second complete gear is intermittently meshed with the non-complete gear, circular holes are formed in the bearing plate and the fixing plate, circular plates are rotatably connected in the circular holes, a third complete gear coaxially fixed with one of the circular plates is arranged on the lower surface of the bearing plate, and the third complete gear is intermittently meshed with the inner gear ring.

Preferably, the bearing plate is provided with an annular frame and a cleaning assembly for driving the annular frame to reciprocate along the vertical direction, and the inner wall of the annular frame is fixedly connected with an annular sponge.

Preferably, the clearance subassembly is including rotating the threaded rod of connecting in the loading board upper surface, the loading board below is provided with complete gear four with the coaxial fixed of threaded rod, outer ring gear has been cup jointed on the ring gear surface, outer ring gear and the four intermittent type nature meshing of complete gear, the threaded rod pass the annular frame and with annular frame between threaded connection, loading board upper surface vertical fixation has the gag lever post, spacing sliding connection is in the gag lever post about the annular frame.

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

1. according to the invention, the conveying assembly is arranged, so that the bearing plate and the pressure container on the bearing plate can be conveniently driven to move into the glass container, the pressure container is detected, whether bubbles are generated on the surface of the pressure container or not is checked, and the bearing plate and the pressure container on the bearing plate can be driven to move out of the glass container to be restored after the detection of the pressure container is completed, so that the convenience of the device is effectively improved.

2. According to the invention, the driving assembly is arranged, so that the pressure container is driven to rotate after entering the glass container, a worker can stand on one side to check whether bubbles are generated on the surface of the pressure container, the worker does not need to check around the glass container, and the convenience of the device in use is effectively improved.

3. According to the invention, the cleaning assembly is arranged, so that the annular frame and the annular sponge can be driven to move along the outer wall of the pressure container in the vertical direction, bubbles attached to the surface of the pressure container can be removed, and a worker can easily distinguish whether the pressure container leaks gas.

Drawings

FIG. 1 is a schematic structural diagram of a highly reliable pressure vessel leakage detection apparatus according to the present invention;

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

FIG. 3 is a second schematic structural view of the conveying assembly of the present invention;

FIG. 4 is a third schematic structural view of a delivery assembly of the present invention;

FIG. 5 is a schematic cross-sectional structural view of the glass container of FIG. 1 in accordance with the present invention;

FIG. 6 is a schematic view of the structure of a circular plate according to the present invention;

FIG. 7 is a schematic view of a cleaning assembly according to the present invention.

In the figure: 1. a base; 11. an L-shaped long rod; 12. an L-shaped support bar; 13. an L-shaped connecting rod; 2. a glass container; 31. carrying a plate; 32. a placing table; 33. a fixing plate; 34. a spring; 4. a delivery assembly; 41. a vertical plate; 42. a slide plate; 43. a U-shaped chute; 44. a V-shaped chute; 45. an L-shaped sliding rod; 46. a non-full gear; 47. a first complete gear; 48. a swing rod; 49. a frame shaped like a Chinese character 'hui'; 491. a column; 492. a connecting rod; 5. a drive assembly; 51. an inner gear ring; 52. a complete gear II; 53. a circular plate; 54. a third complete gear; 6. an annular frame; 61. a ring-shaped sponge; 7. cleaning the assembly; 71. a threaded rod; 72. a complete gear four; 73. an outer ring gear; 74. a limiting rod.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a pressure vessel leakage detection device that reliability is high, includes base 1 to and be located the glass container 2 that base 1 top is used for flourishing water, base 1 top is provided with and is used for bearing the loading board 31 that waits to detect pressure vessel and places platform 32, loading board 31 with place platform 32 between the intermittent type nature laminating, base 1 top is provided with and is used for driving loading board 31 to remove to the conveying assembly 4 in the glass container 2.

In use, in an initial state, the bearing plate 31 and the placing table 32 are in the same horizontal position and are attached to each other, all pressure containers to be detected are placed on the placing table 32, one of the pressure containers to be detected is manually moved to the bearing plate 31, and a proper amount of external water source is injected into the glass container 2;

move to glass container 2 in through conveying component 4 drive loading board 31 and the pressure vessel that is located on loading board 31, detect work to pressure vessel, inspect whether the pressure vessel surface has the bubble to produce to can detect at pressure vessel and accomplish the back, drive loading board 31 and the pressure vessel on the loading board 31 and remove to the outer normal position that resumes of glass container 2, the effectual convenient degree that has improved the device.

The bearing plate 31 is provided with a fixing plate 33 above, a spring 34 is fixedly connected between the fixing plate 33 and the bearing plate 31, a limiting telescopic rod is arranged in the spring 34, one end of the limiting telescopic rod is fixed on the bearing plate 31, and the other end of the limiting telescopic rod is fixed on the fixing plate 33.

In use, a worker first pulls the fixing plate 33 upward to move one of the pressure vessels to be tested on the placing table 32 onto the bearing plate 31, so that the pressure vessel is clamped between the fixing plate 33 and the bearing plate 31.

Conveying component 4 is including the riser 41 that is located base 1 top, fixedly connected with L shape connecting rod 13 between riser 41 and the base 1, spacing sliding connection has slide 42 about riser 41 surface, U font spout 43 has been seted up on riser 41 surface, V font spout 44 has been seted up on slide 42 surface, sliding connection has L shape slide bar 45 in V font spout 44, L shape slide bar 45 one end is the rectangle and sliding connection in U font spout 43 after passing V font spout 44, loading board 31 fixed connection is in L shape slide bar 45 lower extreme, glass container 2 is located U font spout 43 one end under, fixedly connected with L shape stock 11 between glass container 2 and the base 1.

In use, in an initial state, the loading plate 31 and the placing table 32 are at the same horizontal position, the slide plate 42 is at a position far from the glass container 2, the L-shaped slide bar 45 is located at one end of the U-shaped chute 43, when the worker places one of the pressure vessels to be inspected on the placing table 32 on the carrying plate 31, the driving slide plate 42 is moved in the horizontal direction toward the side close to the glass vessel 2, because one end of the L-shaped sliding rod 45 is slidably connected in the U-shaped sliding groove 43 and the V-shaped sliding groove 44, the slide plate 42, when moving toward the side close to the glass container 2 in the horizontal direction, can drive the L-shaped slide bar 45 to move from one end of the U-shaped slide groove 43 to the other end, the L-shaped slide bar 45 can drive the carrying plate 31 fixed to the lower end thereof, and the pressure container to be detected on the bearing plate 31 is moved into the glass container 2 along with the pressure container to facilitate subsequent detection.

In use, after the pressure container in the glass container 2 is detected, the sliding plate 42 is driven to move back along the horizontal direction, so that the sliding plate 42 drives the L-shaped sliding rod 45 to move back along the U-shaped sliding groove 43 to recover the original position, the L-shaped sliding rod 45 drives the bearing plate 31 fixed at the lower end of the bearing plate and the pressure container detected on the bearing plate 31 to recover the original position, and the pressure container detected by the staff is taken out from the bearing plate 31.

The upper side of the base 1 is rotatably connected with a non-complete gear 46 driven by an external driving device and a complete gear I47 intermittently meshed with the non-complete gear 46, two L-shaped support rods 12 are vertically fixed on the upper surface of the base 1, the complete gear I47 and the non-complete gear 46 are respectively and rotatably connected with the two L-shaped support rods 12, a swing rod 48 coaxially fixed with the complete gear I47 is arranged above the base 1, a square-shaped frame 49 is slidably connected with the left and right limits of the upper surface of the base 1, one end of the swing rod 48 is fixedly connected with an upright post 491, the upright post 491 is slidably connected in the square-shaped frame 49, and a connecting rod 492 is fixed between the square-shaped frame 49 and the sliding plate 42.

The external driving device is a motor.

When the external driving device is used, the motor of the external driving device is started to drive the incomplete gear 46 to rotate along with the incomplete gear, the incomplete gear 46 can drive the complete gear 47 intermittently meshed with the incomplete gear to rotate for a half circle along with one rotation, the complete gear 47 can drive the swing rod 48 coaxially fixed with the complete gear to rotate along with the complete gear, the swing rod 48 can drive the upright post 491 vertically fixed at one end of the upright post 491 to rotate along with the complete gear, the upright post 491 is connected in the square-shaped frame 49 in a sliding manner, the square-shaped frame 49 can only slide left and right along the base 1, the upright post 491 can drive the square-shaped frame 49 to reciprocate in the horizontal direction, the square-shaped frame 49 can drive the sliding plate 42 to reciprocate in the horizontal direction along with the connecting rod 492, and the sliding plate 42 can reciprocate once per rotation of the complete gear 47;

the incomplete gear 46 can drive the complete gear 47 which is intermittently meshed with the incomplete gear to rotate for a half circle every time when rotating for one circle, so that the complete gear 47 can be stationary for a moment every time when rotating for a half circle, and then the sliding plate 42 intermittently reciprocates, and when the sliding plate 42 moves from one side of the vertical plate 41 to the other side, the bearing plate 31 and the pressure container to be detected are driven to be stopped for a period of time after being immersed in water in the glass container 2, so that certain detection time is reserved; after the detection is completed, the sliding plate 42 moves back to return to the original position, so as to drive the bearing plate 31 and the detected pressure vessel to return to the original position, and stay for a period of time, so that the worker can replace the next pressure vessel to be detected.

Example two

Referring to fig. 5-7, in this embodiment, for further description of the first embodiment, a driving assembly 5 for driving the pressure container to rotate is disposed in the glass container 2.

In use, through setting up drive assembly 5 to in pressure vessel gets into glass container 2 back, the drive pressure vessel rotates, and whether the staff can stand in one side and inspect the pressure vessel surface and have the bubble to produce, need not the staff and inspect round glass container 2, the effectual convenient degree that improves the device when using.

The driving assembly 5 comprises an inner gear ring 51 rotatably connected to the bottom surface of the inner wall of the glass container 2, a second complete gear 52 coaxially fixed with the inner gear ring 51 is arranged above the base 1, the second complete gear 52 is intermittently meshed with the non-complete gear 46, circular holes are formed in the bearing plate 31 and the fixing plate 33, circular plates 53 are rotatably connected in the circular holes, a third complete gear 54 coaxially fixed with one circular plate 53 is arranged on the lower surface of the bearing plate 31, and the third complete gear 54 is intermittently meshed with the inner gear ring 51.

In use, the worker moves the pressure vessel to be detected from the placing table 32 to the bearing plate 31 and makes the pressure vessel to be detected completely located on the circular plate 53, and when the bearing plate 31, the circular plate 53 and the pressure vessel to be detected are completely immersed in the water of the glass vessel 2, the third full gear 54 below the bearing plate 31 is meshed with the inner gear ring 51 in the glass vessel 2;

meanwhile, the incomplete gear 46 is disengaged from the complete gear 47 in rotation, so that the bearing plate 31 and the pressure vessel are in a static state in the glass vessel 2;

then the incomplete gear 46 is meshed with the complete gear two 52 to drive the complete gear two 52 to rotate along with the incomplete gear, the incomplete gear 46 can drive the complete gear two 52 to rotate for one circle every circle, the complete gear two 52 can drive the inner gear ring 51 coaxially fixed with the complete gear two to rotate along with the complete gear ring, the inner gear ring 51 can drive the complete gear three 54 meshed with the complete gear two to rotate along with the complete gear three 54, the complete gear three 54 can drive the circular plate 53 coaxially fixed with the complete gear two to rotate along with the complete gear two, and the circular plate 53 can drive the pressure container on the upper surface of the pressure container to rotate along with the pressure container, so that a worker can stand at one side of the glass container 2 to observe whether the pressure container in the glass container 2 has a leakage problem.

EXAMPLE III

Referring to fig. 5-7, in this embodiment, for further explanation of the first embodiment, the bearing plate 31 is provided with an annular frame 6 and a cleaning assembly 7 for driving the annular frame 6 to reciprocate along a vertical direction, and an annular sponge 61 is fixedly connected to an inner wall of the annular frame 6.

When the pressure container is immersed in water in the glass container 2, the surface of the pressure container is adhered with a plurality of small bubbles, which is easy to be confused with bubbles generated during air leakage, so that a worker can hardly distinguish whether the pressure container leaks air;

through setting up cleaning assembly 7 to drive annular frame 6 and annular sponge 61 and carry out ascending removal of vertical direction along pressure vessel's outer wall, dispose pressure vessel attached bubble on the surface, so that whether the staff distinguishes the problem that pressure vessel produced gas leakage more easily.

Clearance subassembly 7 is including rotating the threaded rod 71 of connecting in the loading board 31 upper surface, loading board 31 below is provided with four 72 of complete gear with the coaxial fixed of threaded rod 71, outer ring gear 73 has been cup jointed on ring gear 51 surface, outer ring gear 73 and four 72 intermittent type nature meshing of complete gear, threaded rod 71 pass annular frame 6 and with annular frame 6 between threaded connection, loading board 31 upper surface vertical fixation has stopper rod 74, annular frame 6 is spacing sliding connection in stopper rod 74 from top to bottom.

In use, after the pressure container is placed on the circular plate 53, the annular frame 6 and the annular sponge 61 are sleeved on the surface of the pressure container, the annular sponge 61 is tightly attached to the outer wall of the pressure container, when the third full gear 54 is meshed with the inner gear 51, the outer gear 73 is meshed with the fourth full gear 72, the inner gear 51 can drive the outer gear 73 sleeved on the surface of the inner gear to rotate along with the inner gear, the outer gear 73 can drive the fourth full gear 72 meshed with the outer gear to rotate along with the inner gear, the fourth full gear 72 can drive the threaded rod 71 coaxially fixed with the fourth full gear to rotate along with the inner gear, the threaded rod 71 can drive the annular frame 6 in threaded connection with the surface of the outer gear to move along the vertical direction, and the annular frame 6 can drive the annular sponge 61 fixedly connected to the inner wall of the annular frame to move along the vertical direction, so that bubbles on the surface of the pressure container are removed.

The working principle is as follows: when the pressure container leakage detection device with high reliability is used, in an initial state, the bearing plate 31 and the placing table 32 are in the same horizontal position and are mutually attached, all pressure containers to be detected are placed on the placing table 32, one of the pressure containers to be detected is manually moved onto the bearing plate 31, the sliding plate 42 is in a state of being far away from the glass container 2, the L-shaped sliding rod 45 is positioned at one end of the U-shaped sliding groove 43, and a proper amount of external water source is injected into the glass container 2;

starting an external driving device motor to drive a non-complete gear 46 to rotate along with the non-complete gear 46, wherein the non-complete gear 46 can drive a complete gear 47 which is intermittently meshed with the non-complete gear to rotate for a half circle every time the non-complete gear 46 rotates for a circle, the complete gear 47 can drive a swing rod 48 which is coaxially fixed with the complete gear to rotate along with the complete gear, the swing rod 48 can drive an upright post 491 which is vertically fixed at one end of the upright post to rotate along with the complete gear, the upright post 491 is connected in a clip-shaped frame 49 in a sliding manner, and the clip-shaped frame 49 can only slide left and right along a base 1, so that the upright post 491 can drive the clip-shaped frame 49 to reciprocate in the horizontal direction, the clip-shaped frame 49 can drive a sliding plate 42 to reciprocate in the horizontal direction through a connecting rod 492, and the sliding plate 42 can reciprocate once every time the complete gear 47 rotates for a circle;

slide 42 moves toward being close to glass container 2 one side along the horizontal direction, because L shape slide bar 45 one end sliding connection is in U font spout 43 and V font spout 44, then slide 42 is when moving toward being close to glass container 2 one side along the horizontal direction, can drive L shape slide bar 45 and remove to other one end from the one end of U font spout 43, L shape slide bar 45 can drive and fix the loading board 31 at its lower extreme, and be located and wait to detect the pressure vessel who detects on loading board 31 and move to glass container 2 thereupon, so that follow-up detection work that detects.

In use, after the pressure container in the glass container 2 is detected, the sliding plate 42 is driven to move back along the horizontal direction, so that the sliding plate 42 drives the L-shaped sliding rod 45 to move back along the U-shaped sliding groove 43 to recover the original position, the L-shaped sliding rod 45 drives the bearing plate 31 fixed at the lower end of the L-shaped sliding rod 45 and the pressure container detected on the bearing plate 31 to recover the original position, and a worker takes out the detected pressure container from the bearing plate 31;

the incomplete gear 46 can drive the complete gear 47 which is intermittently meshed with the incomplete gear to rotate for a half circle every time when rotating for one circle, so that the complete gear 47 can be stationary for a moment every time when rotating for a half circle, and then the sliding plate 42 intermittently reciprocates, and when the sliding plate 42 moves from one side of the vertical plate 41 to the other side, the bearing plate 31 and the pressure container to be detected are driven to be stopped for a period of time after being immersed in water in the glass container 2, so that certain detection time is reserved; after the detection is completed, the sliding plate 42 moves back to return to the original position, so as to drive the bearing plate 31 and the detected pressure container to return to the original position, and stay for a period of time, so that the worker can replace the next pressure container to be detected;

when the operator moves the pressure vessel to be detected from the placing table 32 to the bearing plate 31 and makes the pressure vessel to be detected completely located on the circular plate 53, the third full gear 54 below the bearing plate 31 is meshed with the inner gear ring 51 in the glass container 2 when the bearing plate 31, the circular plate 53 and the pressure vessel to be detected are completely immersed in the water in the glass container 2;

meanwhile, the incomplete gear 46 is disengaged from the complete gear 47 in rotation, so that the bearing plate 31 and the pressure vessel are in a static state in the glass vessel 2;

then the incomplete gear 46 is meshed with the complete gear two 52 to drive the complete gear two 52 to rotate along with the incomplete gear, the incomplete gear 46 can drive the complete gear two 52 to rotate for one circle every circle, the complete gear two 52 can drive the inner gear ring 51 coaxially fixed with the complete gear two to rotate along with the complete gear ring, the inner gear ring 51 can drive the complete gear three 54 meshed with the complete gear two to rotate along with the complete gear three 54, the complete gear three 54 can drive the circular plate 53 coaxially fixed with the complete gear two to rotate along with the complete gear two, and the circular plate 53 can drive the pressure container on the upper surface of the pressure container to rotate along with the pressure container, so that a worker can stand at one side of the glass container 2 to observe whether the pressure container in the glass container 2 has a leakage problem or not;

after the pressure container is placed on the circular plate 53, the annular frame 6 and the annular sponge 61 are sleeved on the surface of the pressure container, the annular sponge 61 is tightly attached to the outer wall of the pressure container, when the third full gear 54 is meshed with the inner gear 51, the outer gear 73 is meshed with the fourth full gear 72, the inner gear 51 can drive the outer gear 73 sleeved on the surface of the inner gear to rotate along with the inner gear, the outer gear 73 can drive the fourth full gear 72 meshed with the outer gear to rotate along with the inner gear, the fourth full gear 72 can drive the threaded rod 71 coaxially fixed with the outer gear to rotate along with the inner gear, the threaded rod 71 can drive the annular frame 6 in threaded connection with the surface of the outer gear to move along the vertical direction, and the annular sponge 61 fixedly connected to the inner wall of the annular frame 6 can be driven to move along the vertical direction to remove air bubbles on the surface of the pressure container.

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 (8)

1. A pressure vessel leakage detection device with high reliability is characterized in that: including base (1) to and be located base (1) top and be used for flourishing glass container (2), base (1) top is provided with and is used for bearing board (31) and the platform (32) of placing that wait to detect pressure vessel, intermittent type nature laminating between bearing board (31) and the platform (32) of placing, base (1) top is provided with and is used for driving conveying assembly (4) that bearing board (31) removed to glass container (2) in.

2. The pressure vessel leak detection device with high reliability according to claim 1, wherein: bearing plate (31) top is provided with fixed plate (33), fixedly connected with spring (34) between fixed plate (33) and bearing plate (31), be provided with spacing telescopic link in spring (34), spacing telescopic link one end is fixed in bearing plate (31), and one end is fixed in fixed plate (33) in addition.

3. A highly reliable pressure vessel leak detection device according to claim 2, wherein: the conveying component (4) comprises a vertical plate (41) positioned above the base (1), an L-shaped connecting rod (13) is fixedly connected between the vertical plate (41) and the base (1), a sliding plate (42) is connected on the surface of the vertical plate (41) in a left-right limiting sliding way, a U-shaped sliding groove (43) is arranged on the surface of the vertical plate (41), the surface of the sliding plate (42) is provided with a V-shaped sliding groove (44), the V-shaped sliding groove (44) is connected with an L-shaped sliding rod (45) in a sliding way, one end of the L-shaped sliding rod (45) is rectangular and is connected in the U-shaped sliding groove (43) in a sliding way after penetrating through the V-shaped sliding groove (44), the bearing plate (31) is fixedly connected with the lower end of the L-shaped sliding rod (45), the glass container (2) is positioned under one end of the U-shaped sliding chute (43), an L-shaped long rod (11) is fixedly connected between the glass container (2) and the base (1).

4. A highly reliable pressure vessel leak detection device according to claim 3, wherein: the mechanism is characterized in that a non-complete gear (46) driven by an external driving device and a complete gear I (47) intermittently meshed with the non-complete gear (46) are rotatably connected to the upper side of the base (1), two L-shaped supporting rods (12) are vertically fixed to the upper surface of the base (1), the complete gear I (47) and the non-complete gear (46) are respectively rotatably connected to the two L-shaped supporting rods (12), a swing rod (48) coaxially fixed with the complete gear I (47) is arranged on the upper side of the base (1), a square-shaped frame (49) is connected to the left and right of the upper surface of the base (1) in a limiting sliding mode, an upright post (491) is fixedly connected to one end of the swing rod (48), the upright post (491) is slidably connected to the square-shaped frame (49), and a connecting rod (492) is fixed between the square-shaped frame (49) and the sliding plate (42).

5. The pressure vessel leakage detecting device with high reliability according to claim 4, wherein: and a driving assembly (5) for driving the pressure container to rotate is arranged in the glass container (2).

6. The pressure vessel leakage detecting device with high reliability according to claim 5, wherein: the glass container is characterized in that the driving assembly (5) comprises an inner gear ring (51) which is rotatably connected to the bottom surface of the inner wall of the glass container (2), a complete gear II (52) which is coaxially fixed with the inner gear ring (51) is arranged above the base (1), the complete gear II (52) and a non-complete gear (46) are intermittently meshed, circular holes are formed in the bearing plate (31) and the fixing plate (33), circular plates (53) are rotatably connected in the circular holes, a complete gear III (54) which is coaxially fixed with one of the circular plates (53) is arranged on the lower surface of the bearing plate (31), and the complete gear III (54) is intermittently meshed with the inner gear ring (51).

7. The pressure vessel leak detection device with high reliability according to claim 6, wherein: the cleaning device is characterized in that an annular frame (6) and a cleaning assembly (7) used for driving the annular frame (6) to reciprocate along the vertical direction are arranged on the bearing plate (31), and an annular sponge (61) is fixedly connected to the inner wall of the annular frame (6).

8. A highly reliable pressure vessel leak detection device according to claim 7, wherein: clearance subassembly (7) are including rotating threaded rod (71) of connecting in loading board (31) upper surface, loading board (31) below is provided with four (72) of complete gear with threaded rod (71) coaxial fixation, outer ring gear (73) have been cup jointed on ring gear (51) surface, outer ring gear (73) and four (72) intermittent type nature meshing of complete gear, threaded rod (71) pass annular frame (6) and with annular frame (6) between threaded connection, loading board (31) upper surface vertical fixation has stopper rod (74), annular frame (6) upper and lower spacing sliding connection is in stopper rod (74).

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