CN117858411A - Cabinet door sealing structure of charging cabinet - Google Patents

Abstract

The application discloses cabinet door seal structure of cabinet charges relates to the field of cabinet charges, and it includes the cabinet body and cabinet door, the cabinet body is equipped with the holding tank, the cabinet door articulates in the cabinet body, the cabinet door is close to the one end of holding tank bottom and is equipped with sealing portion, sealing portion periphery is equipped with the face of leaning on, the face of leaning on extends towards the direction of keeping away from sealing portion center along the direction of keeping away from the cabinet body; through above-mentioned technical scheme, through setting up the face of leaning on, and the direction that leans on the face of leaning on along keeping away from the cabinet body extends towards the direction of keeping away from sealing center, when the direction towards holding tank bottom rotates the cabinet door, leans on the face to lean on tight holding tank notch, leans on the face because the slope sets up, takes place local deformation more easily when pressing, is convenient for the cabinet door is closed when playing sealed effect for cabinet door closure is more convenient.

Description

Cabinet door sealing structure of charging cabinet

Technical Field

The application relates to the field of charging cabinets, and more specifically relates to a cabinet door sealing structure of a charging cabinet.

Background

The charging cabinet refers to a device for intensively charging various types and numbers of digital electronic products.

The existing charging cabinet comprises a cabinet body with a containing groove and a cabinet door hinged on the cabinet body, wherein a water spraying opening can be formed in the groove wall of the containing groove and is connected with a water conveying pipe. The cabinet that charges can auto-induction hold the intracavity temperature and spray atomized cold water to holding the intracavity through the water jet to reach the purpose of cooling for holding the chamber. In order to guarantee the leakproofness between cabinet door and the cabinet body, the cabinet door can be provided with the sealing strip, and in order to promote the leakproofness, the sealing strip cun is great to support the tight power bigger when guaranteeing that it receives the extrusion.

When in actual use, if the force of pushing the cabinet door is small, the situation that the cabinet door is inconvenient to cover the cabinet body due to insufficient deformation of the sealing strip exists, and the improvement is needed.

Disclosure of Invention

In order to improve the inconvenient problem of cabinet door lid, this application provides a cabinet door seal structure of cabinet charges.

The application provides a cabinet door seal structure of cabinet charges adopts following technical scheme:

the utility model provides a cabinet door seal structure of cabinet charges, includes the cabinet body and cabinet door, the cabinet body is equipped with the holding tank, the cabinet door articulates in the cabinet body, the one end that the cabinet door is close to the holding tank bottom is equipped with sealing, sealing periphery is equipped with the face of leaning on, the face of leaning on extends towards the direction of keeping away from the sealing center along the direction of keeping away from the cabinet body.

Through above-mentioned technical scheme, through setting up the face of leaning on, and the direction that leans on the face of leaning on along keeping away from the cabinet body extends towards the direction of keeping away from sealing center, when the direction towards holding tank bottom rotates the cabinet door, leans on the face to lean on tight holding tank notch, leans on the face because the slope sets up, takes place local deformation more easily when pressing, is convenient for the cabinet door is closed when playing sealed effect for cabinet door closure is more convenient.

Further, one end of the sealing part, which is close to the bottom of the accommodating groove, is provided with a mounting plate, the lower end of the mounting plate is provided with a sliding groove, the bottom of the sliding groove is provided with a sliding spring, one end of the sliding spring, which is far away from the bottom of the sliding groove, is provided with a sliding plate, and the sliding plate is used for abutting against the inner wall of the accommodating groove; when the sliding spring is in a normal state, the height of one end of the sliding plate, which is far away from the bottom of the sliding groove, is lower than the height of the lower end of the sealing part.

Through the technical scheme, when the cabinet door needs to be rotated, the sliding plate is moved so that the height of one end of the sliding plate, which is far away from the bottom of the sliding groove, is higher than the height of the lower end of the sealing part, and then the cabinet door is rotated until the sliding spring rebounds so that the sliding plate abuts against the containing groove wall and the cabinet door is closed; through this kind of mode, the board that slides is used for supplementary sealedly, has reduced the circumstances that the liquid in the holding tank flows out, has promoted the sealed effect of cabinet door to the cabinet body.

Further, the sliding plate is provided with an inclined surface, the inclined surface is located at one end of the sliding plate, far away from the bottom of the sliding groove, and the sliding plate extends along the direction, far away from the bottom of the containing groove, of the sliding groove.

Through the technical scheme, the inclined plane is arranged, when the cabinet door is rotated to enable the inclined plane of the sliding plate to abut against the groove opening of the accommodating groove, the sliding plate receives a horizontal component force far away from the groove bottom of the accommodating groove and a vertical component force towards the groove bottom of the sliding groove, so that the sliding plate moves towards the direction close to the groove bottom of the sliding groove until the cabinet door is closed and one end of the sliding plate far away from the groove bottom of the sliding groove abuts against the groove wall of the accommodating groove, and the sliding plate plays a role in limiting liquid flow; through such a mode, need not to remove the sliding plate and be convenient for it gets into the holding tank when closing cabinet door for holistic use is more convenient.

Further, the sealing part comprises a gasket body and a sealing strip, the sealing strip is positioned at the periphery of the gasket body, and the abutting surface is arranged on the sealing strip; a sealing piece is arranged on one side of the sliding plate, which is far away from the bottom of the accommodating groove; when water passes through the gap between the sliding plate and the groove wall of the containing groove and moves in a direction away from the groove bottom of the containing groove, the sealing piece is contacted with the water and pushes the sealing strip to abut against the cabinet body.

Through above-mentioned technical scheme, in the in-service use, there is the condition that liquid passed between sliding plate and the holding tank cell wall, and sealing waterproof is carried out only through the sealing strip under such condition, and owing to the face of leaning on extends towards the direction of keeping away from sealing portion center along the direction of keeping away from the cabinet body. Therefore, the sealing effect of the propping surface is poor, the condition that liquid flows out further exists, and the sealing piece is arranged, so that the sealing strip is pushed to prop against the cabinet body when the sealing piece contacts with water, the overall sealing effect is improved, and the condition that liquid flows out is reduced.

Further, the sealing piece comprises a water heating block, a thermal expansion block, a control rack, a control gear and a collision part; the pad body is provided with a first mounting cavity, the abutting part is positioned in the first mounting cavity, the control gear is meshed with the abutting part, and the abutting part abuts against the sealing strip; the water-contacting heating block, the thermal expansion block and the control rack are positioned between the sliding plate and the cushion body, the thermal expansion block is connected with the water-contacting heating block, the thermal expansion block is positioned above the water-contacting heating block and between the water-contacting heating block and the control rack, and the control rack is meshed with the control gear; when the water-contacting heating block heats when contacting water, the thermal expansion block expands to enable the control rack to move upwards, the control rack moves upwards to drive the control gear to rotate and enable the abutting part to move downwards, and the sealing strip is pushed to abut against the cabinet body by the abutting part.

Through the technical scheme, when the liquid moves and contacts with the water heating block, the water heating block heats and causes the thermal expansion block to expand, the thermal expansion block expands to cause the control rack to move upwards, the control rack moves upwards to drive the control gear to rotate, the control gear rotates to enable the abutting part meshed with the control gear to move downwards, and the abutting part moves downwards to push the sealing strip to abut against the cabinet body, so that the integral sealing effect is improved, and the outflow of the liquid is reduced; and because the conflict moves down and promotes the sealing strip to prop tightly the cabinet body and take place after cabinet door closure, consequently less to cabinet door closed convenient degree influence.

Further, a first positioning groove is formed in the wall of the first mounting cavity, a second positioning groove is formed in the abutting portion, a positioning spring is arranged at the bottom of the second positioning groove, one end, away from the bottom of the positioning groove, of the positioning spring is connected with a positioning block, and the positioning block is used for being embedded into the first positioning groove; when the control rack moves upwards to drive the control gear to rotate and enable the abutting part to move downwards, the abutting part moves downwards to push the sealing strip to abut against the cabinet body, and the positioning block is embedded into the positioning groove I.

Through the technical scheme, in actual use, when the water heating block heats for a certain time when the water heating block heats water, then the thermal expansion block contracts to enable the control rack to move downwards, the control rack moves downwards to drive the control gear to rotate, the control gear rotates to enable the abutting part to move upwards to lose the abutting effect on the sealing strip, and the sealing effect of the sealing strip is reduced; therefore, the positioning block is arranged, when the abutting portion moves downwards to push the sealing strip to abut against the cabinet body, the positioning block is embedded into the first positioning groove, the situation that the abutting portion moves upwards again is reduced through the mode, and the sealing effect of the sealing strip is improved.

Further, one side of cabinet door keeping away from the holding tank bottom is equipped with the display tank, display tank intercommunication installation cavity one, the display tank is used for showing that the conflict portion removes.

Through above-mentioned technical scheme, set up the display tank, through the removal of display tank demonstration conflict portion, the user of facilitating the use observes the removal condition of conflict portion through the display tank and in order to judge whether there is liquid in the holding tank, the follow-up of the cabinet body of being convenient for opens and uses.

Further, one end of the mounting plate, which is close to the bottom of the accommodating groove, is provided with a limiting plate, one side, which is far away from the bottom of the accommodating groove, of the limiting plate is provided with a control piece, and the control piece pushes the limiting plate to move towards the direction, which is close to the bottom of the accommodating groove.

Through above-mentioned technical scheme, when actually opening the cabinet door, if there is liquid in the holding tank, along with opening of cabinet door, liquid flows out fast, easily causes inconvenience to the user, consequently sets up the control, promotes the limiting plate through the control and removes in order to restrict restriction liquid outflow towards the direction that is close to the holding tank bottom before the cabinet door is opened for user's use is more convenient.

Further, the holding tank cell wall is equipped with spacing groove one, the limiting plate lateral wall is equipped with spacing groove two, spacing groove two tank bottoms are equipped with spacing spring, spacing spring keeps away from the one end of spacing groove two tank bottoms and is connected with the stopper, the stopper is used for embedding spacing groove one.

Through the technical scheme, in actual use, the limiting plate is influenced by liquid thrust after the control piece pushes the limiting plate to move towards the direction close to the bottom of the accommodating groove, and the situation that the limiting plate overturns exists, so that the temporary limiting effect of the limiting plate on liquid is eliminated; therefore, the limiting block is arranged, the situation that the limiting plate is overturned is reduced through the limiting block embedded into the limiting groove, the situation that liquid flows out rapidly after the cabinet door is opened is reduced, and the whole use is more stable.

In summary, the present application includes at least one of the following beneficial technical effects:

(1) Through setting up the face of leaning on, and the face of leaning on extends towards the direction of keeping away from sealing center along the direction of keeping away from the cabinet body, when the cabinet door is rotated towards the direction of holding tank bottom, the face of leaning on supports tightly holding tank notch, and the face of leaning on is because slope setting, takes place local deformation more easily when the pressurized, is convenient for the cabinet door is closed when playing sealed effect for cabinet door closure is more convenient;

(2) By arranging the control piece, the limit plate is pushed to move towards the direction close to the bottom of the accommodating groove by the control piece before the cabinet door is opened so as to limit the liquid to flow out, so that the use of a user is more convenient;

(3) Through setting up the stopper, through stopper embedding spacing groove one reduce the condition that limiting plate overturned, reduced the condition that liquid flows out fast after the cabinet door was opened for holistic use is more stable.

Drawings

Fig. 1 is an overall schematic of an embodiment.

Fig. 2 is a schematic cross-sectional view of an embodiment.

Fig. 3 is an enlarged schematic view of a in fig. 2.

Fig. 4 is an enlarged schematic view of B in fig. 2.

Fig. 5 is a partial schematic view of a seal.

Fig. 6 is another perspective cross-sectional schematic view of an embodiment.

Fig. 7 is an enlarged schematic view of C in fig. 6.

Fig. 8 is a schematic cross-sectional view of an embodiment along the limiting plate.

Fig. 9 is a partial schematic view of an embodiment.

Reference numerals: 1. a cabinet body; 2. a cabinet door; 3. a receiving groove; 4. a mounting groove; 5. a sealing part; 51. a cushion body; 52. a sealing strip; 6. an abutment surface; 7. a mounting plate; 8. a slip groove; 9. a slip spring; 10. a slip plate; 11. an inclined surface; 12. installing a first cavity; 13. a second mounting cavity; 141. a water-contacting heating block; 142. a thermal expansion block; 143. controlling a rack; 144. a control gear; 145. a collision part; 15. a positioning groove I; 16. a positioning groove II; 17. a positioning spring; 18. a positioning block; 19. a limiting plate; 20. a control member; 201. a control lever; 202. a control spring; 21. a first control hole; 22. a control board; 23. a second control hole; 24. a relief hole; 25. a first limit groove; 26. a limiting groove II; 27. a limit spring; 28. a limiting block; 29. a display groove; 30. and a transparent plate.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses cabinet door sealing structure of cabinet charges.

Examples:

referring to fig. 1 and 2, a cabinet door 2 seal structure of cabinet charges, including cabinet body 1 and cabinet door 2, cabinet body 1 is equipped with holding tank 3, and cabinet door 2 articulates in cabinet body 1, and cabinet door 2 is equipped with mounting groove 4, and mounting groove 4 is located cabinet door 2 and is close to the one end of holding tank 3 tank bottom.

Referring to fig. 3 and 4, the bottom of the installation groove 4 is provided with a sealing part 5, the sealing part 5 comprises a gasket 51 and a sealing strip 52, and the sealing strip 52 is positioned at the periphery of the gasket 51. In actual use, the sealing strips 52 are arranged around the pad 51. The sealing strip 52 is provided with an abutment surface 6, the abutment surface 6 being located at an end of the sealing strip 52 remote from the pad 51, the abutment surface 6 extending in a direction away from the cabinet 1 towards a centre of the sealing portion 5.

The sealing part 5 is provided with a mounting plate 7, the mounting plate 7 is positioned at one end of the sealing part 5 close to the bottom of the accommodating groove 3, the mounting plate 7 is provided with a sliding groove 8, and the sliding groove 8 is positioned at the lower end face of the mounting plate 7. The bottom of the sliding groove 8 is provided with a sliding spring 9, one end of the sliding spring 9 away from the bottom of the sliding groove 8 is provided with a sliding plate 10, the sliding plate 10 is used for abutting against the inner wall of the accommodating groove 3, and the elastic force of the sliding spring 9 limits the sliding plate 10 to move towards the direction close to the bottom of the sliding groove 8. The sliding plate 10 is provided with an inclined surface 11, the inclined surface 11 is positioned at one end of the sliding plate 10 away from the bottom of the sliding groove 8, and the sliding plate 10 extends along the direction away from the bottom of the accommodating groove 3 and the direction away from the bottom of the sliding groove 8.

When the sliding spring 9 is in a normal state, the height of the end of the sliding plate 10 away from the bottom of the sliding groove 8 is lower than the height of the lower end of the sealing part 5. When the cabinet door 2 is closed, the sliding plate 10 abuts against the groove wall of the containing groove 3.

Referring to fig. 4 and 5, the mounting plate 7 is provided with a second mounting cavity 13, the second mounting cavity 13 is located on one side of the sliding plate 10 away from the bottom of the accommodating groove 3, and a sealing piece is further arranged on one side of the sliding plate 10 away from the bottom of the accommodating groove 3 and used for pushing the sealing strip 52 to abut against the cabinet body 1. In actual use, the seal includes a water-contacting heat block 141, a heat expansion block 142, a control rack 143, a control gear 144, and an interference portion 145. The water heating block 141, the thermal expansion block 142 and the control rack 143 are positioned in the second mounting cavity 13, the water heating block 141 is positioned at one end of the thermal expansion block 142 away from the control rack 143, and the lower end of the water heating block 141 is consistent with one end of the sliding plate 10 away from the bottom of the sliding groove 8 in height. One end of the thermal expansion block 142 is abutted against the water-contacting heat block 141, and the other end is abutted against the control rack 143. The cushion body 51 is provided with a first installation cavity 12, the first installation cavity 12 is communicated with a second installation cavity 13, the abutting portion 145 is located in the first installation cavity 12, the control gear 144 is located between the abutting portion 145 and the control rack 143, and the control gear 144 is meshed with the abutting portion 145 and the control rack 143. When the control rack 143 moves up, the control gear 144 rotates such that the interference portion 145 moves down.

The wall of the first installation cavity 12 is provided with a first positioning groove 15, the abutting part 145 is provided with a second positioning groove 16, the bottom of the second positioning groove 16 is provided with a positioning spring 17, one end of the positioning spring 17 away from the bottom of the positioning groove is connected with a positioning block 18, the positioning block 18 is used for being embedded into the first positioning groove 15, and the elastic force of the positioning spring 17 limits the positioning block 18 to move towards the direction close to the bottom of the positioning groove.

When the water heating block 141 heats up when water, the thermal expansion block 142 expands to move the control rack 143 upward, the control rack 143 moves upward to drive the control gear 144 to rotate and move the abutting portion 145 downward, and the abutting portion 145 moves downward to push the sealing strip 52 to abut against the cabinet 1. And in the process of downward movement of the abutting portion 145, the notch of the first positioning groove 15 corresponds to the notch of the second positioning groove 16, and the elastic force of the positioning spring 17 makes the positioning block 18 move towards the direction close to the bottom of the first positioning groove 15 and be embedded into the first positioning groove 15 to limit movement of the abutting portion 145. In actual use, one end of the positioning block 18 away from the bottom of the positioning groove II 16 can be provided with an arc surface, and the arrangement of the arc surface is convenient for the subsequent positioning block 18 to be separated from the bottom of the positioning groove I15, so that the water heating block 141 can be replaced and reused.

Referring to fig. 6 and 7, a limiting plate 19 is disposed at one end of the mounting plate 7 near the bottom of the accommodating groove 3, a control member 20 is disposed at one side of the limiting plate 19 away from the bottom of the accommodating groove 3, and the control member 20 is used for pushing the limiting plate 19 to move towards the direction near the bottom of the accommodating groove 3. In actual use, the control member 20 is a control lever 201 and a control spring 202, and the elastic force of the control spring 202 limits the control lever 201 to move in a direction approaching the bottom of the accommodating groove 3. The cabinet door 2 is provided with a first control hole 21, the first control hole 21 penetrates through the cabinet door 2, and the penetrating direction of the first control hole 21 is the horizontal direction. The control rod 201 slides in the first control hole 21, and the sliding direction of the control rod 201 is the penetrating direction of the first control hole 21.

The control rack 143 is provided with a control board 22, the control board 22 is positioned on the side wall of the control rack 143, the control board 22 is provided with a yielding hole 24, and the yielding hole 24 is used for embedding the control rod 201. When the water heating block 141 heats up when water, the thermal expansion block 142 expands to move the control rack 143 upwards, and the yielding hole 24 is communicated with the first control hole 21. The mounting plate 7 is provided with a second control hole 23, the second control hole 23 penetrates through the mounting plate 7, and the second control hole 23 is used for communicating with the yielding hole 24.

When the water-heating block 141 heats up with water, the thermal expansion block 142 expands to move the control rack 143 upwards, the abdication hole 24 is communicated with the first control hole 21, and when the abdication hole 24 is communicated with the second control hole 23, the user moves the control rod 201 to enable the control rod 201 to push the limiting plate 19 to move through the abdication hole 24 and the second control hole 23. In practical use, to reduce the exposed length of the control lever 201, a sliding lever may be provided to slide in the second control hole 23, and the user moves the control lever 201 to make the control lever 201 pass through the yielding hole 24 and extend into the second control hole 23 to push the sliding lever to abut against the limiting plate 19 to control the movement of the limiting plate 19.

Referring to fig. 8 and 9, the groove wall of the accommodating groove 3 is provided with a first limit groove 25, the side wall of the limit plate 19 is provided with a second limit groove 26, the groove bottom of the second limit groove 26 is provided with a limit spring 27, one end, away from the groove bottom of the second limit groove 26, of the limit spring 27 is connected with a limit block 28, the limit block 28 is used for being embedded into the first limit groove 25, and the elastic force of the limit spring 27 limits the limit block 28 to move towards the direction close to the groove bottom of the second limit groove 26. In practical use, in order to facilitate the subsequent removal of the limiting plate 19, one end of the limiting block 28 away from the bottom of the second limiting groove 26 may be configured as an arc surface.

One side of the cabinet door 2, which is far away from the bottom of the accommodating groove 3, is provided with a display groove 29, the display groove 29 is communicated with the first mounting cavity 12, and the display groove 29 is used for displaying movement of the abutting portion 145. In actual use, the notch of the display slot 29 is provided with a transparent plate 30, and the transparent plate 30 is used for covering the display slot 29.

The working principle of the embodiment is as follows:

in actual use, when the cabinet door 2 is closed, the cabinet body 1 automatically senses the temperature in the accommodating groove 3 and sprays atomized cold water into the accommodating groove 3, after a certain amount of liquid exists in the accommodating groove 3, the liquid moves in a direction away from the bottom of the accommodating groove 3 through the gap between the sliding plate 10 and the accommodating groove 3, the liquid contacts with the water heating block 141 and causes the water heating block 141 to generate heat, and the water heating block 141 generates heat to cause the thermal expansion block 142 to expand and the control rack 143 to move upwards.

The control rack 143 moves up to drive the control gear 144 to rotate and enable the abutting portion 145 to push the sealing strip 52 to abut against the cabinet body 1, when the abutting portion 145 moves, the notch of the first positioning groove 15 corresponds to the notch of the second positioning groove 16, and the elastic force of the positioning spring 17 enables the positioning block 18 to move towards the direction close to the bottom of the first positioning groove 15 and to be embedded into the first positioning groove 15 so as to limit the movement of the abutting portion 145.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. Cabinet door (2) seal structure of cabinet charges, including cabinet body (1) and cabinet door (2), its characterized in that: the cabinet body (1) is provided with the holding tank (3), cabinet door (2) articulates in the cabinet body (1), cabinet door (2) are close to the one end of holding tank (3) tank bottom and are equipped with sealing portion (5), sealing portion (5) periphery is equipped with and supports against face (6), support against face (6) along the direction of keeping away from cabinet body (1) towards the direction of keeping away from sealing portion (5) center and extend.

2. Cabinet door (2) sealing structure of a charging cabinet according to claim 1, characterized in that: one end of the sealing part (5) close to the bottom of the accommodating groove (3) is provided with a mounting plate (7), the lower end of the mounting plate (7) is provided with a sliding groove (8), the bottom of the sliding groove (8) is provided with a sliding spring (9), one end of the sliding spring (9) away from the bottom of the sliding groove (8) is provided with a sliding plate (10), and the sliding plate (10) is used for abutting against the inner wall of the accommodating groove (3);

when the sliding spring (9) is in a normal state, the height of one end of the sliding plate (10) away from the bottom of the sliding groove (8) is lower than the height of the lower end of the sealing part (5).

3. Cabinet door (2) sealing structure of a charging cabinet according to claim 2, characterized in that: the sliding plate (10) is provided with an inclined surface (11), the inclined surface (11) is located at one end of the sliding plate (10) away from the bottom of the sliding groove (8), and the sliding plate (10) extends along the direction away from the bottom of the accommodating groove (3) towards the direction away from the bottom of the sliding groove (8).

4. A cabinet door (2) sealing structure of a charging cabinet according to claim 3, characterized in that: the sealing part (5) comprises a gasket body (51) and a sealing strip (52), the sealing strip (52) is positioned at the periphery of the gasket body (51), and the abutting surface (6) is arranged on the sealing strip (52); a sealing piece is arranged on one side of the sliding plate (10) far away from the bottom of the accommodating groove (3);

when water passes through the gap between the sliding plate (10) and the groove wall of the containing groove (3) and moves in a direction away from the groove bottom of the containing groove (3), the sealing piece contacts with the water and pushes the sealing strip (52) to abut against the cabinet body (1).

5. The cabinet door (2) sealing structure of the charging cabinet according to claim 4, wherein: the sealing piece comprises a water heating block (141), a thermal expansion block (142), a control rack (143), a control gear (144) and a collision part (145); the cushion body (51) is provided with a first installation cavity (12), the abutting part (145) is positioned in the first installation cavity (12), the control gear (144) is meshed with the abutting part (145), and the abutting part (145) abuts against the sealing strip (52);

the water-contacting heating block (141), the thermal expansion block (142) and the control rack (143) are positioned between the sliding plate (10) and the cushion body (51), the thermal expansion block (142) is connected with the water-contacting heating block (141), the thermal expansion block (142) is positioned above the water-contacting heating block (141) and between the water-contacting heating block (141) and the control rack (143), and the control rack (143) is meshed with the control gear (144);

when the water heating block (141) heats when meeting water, the thermal expansion block (142) expands to enable the control rack (143) to move upwards, the control rack (143) moves upwards to drive the control gear (144) to rotate and enable the abutting portion (145) to move downwards, and the abutting portion (145) moves downwards to push the sealing strip (52) to abut against the cabinet body (1).

6. The cabinet door (2) sealing structure of the charging cabinet according to claim 5, wherein: the mounting cavity I (12) is provided with a positioning groove I (15), the abutting part (145) is provided with a positioning groove II (16), the bottom of the positioning groove II (16) is provided with a positioning spring (17), one end of the positioning spring (17) away from the bottom of the positioning groove is connected with a positioning block (18), and the positioning block (18) is used for being embedded into the positioning groove I (15);

when the control rack (143) moves upwards to drive the control gear (144) to rotate and enable the abutting portion (145) to move downwards, the abutting portion (145) moves downwards to push the sealing strip (52) to abut against the cabinet body (1), and the positioning block (18) is embedded into the positioning groove I (15).

7. The cabinet door (2) sealing structure of the charging cabinet according to claim 6, wherein: one side of the cabinet door (2) far away from the bottom of the accommodating groove (3) is provided with a display groove (29), the display groove (29) is communicated with the first mounting cavity (12), and the display groove (29) is used for displaying movement of the abutting part (145).

8. The cabinet door (2) sealing structure of the charging cabinet according to claim 5, wherein: one end of the mounting plate (7) close to the bottom of the accommodating groove (3) is provided with a limiting plate (19), one side of the limiting plate (19) away from the bottom of the accommodating groove (3) is provided with a control piece (20), and the control piece (20) pushes the limiting plate (19) to move towards the direction close to the bottom of the accommodating groove (3).

9. The cabinet door (2) sealing structure of the charging cabinet according to claim 8, wherein: the groove wall of the accommodating groove (3) is provided with a first limiting groove (25), the side wall of the limiting plate (19) is provided with a second limiting groove (26), the groove bottom of the second limiting groove (26) is provided with a limiting spring (27), one end, away from the groove bottom of the second limiting groove (26), of the limiting spring (27) is connected with a limiting block (28), and the limiting block (28) is used for being embedded into the first limiting groove (25).