CN118705370B - Sealing structure for reducing glass fragmentation risk of cleaning machine - Google Patents

Abstract

The invention belongs to the technical field of cleaning machines, and discloses a sealing structure for reducing glass fragmentation risk of a cleaning machine, which comprises a sealing mechanism, wherein the sealing mechanism comprises a sealing air bag, clamping grooves are formed in two sides of the sealing air bag, a trapezoid groove is formed in the top of the sealing air bag, a plurality of grooves are formed in the inner wall of the trapezoid groove, a gas storage bin is fixedly connected to the bottom of each groove, and a sliding block is connected inside each groove in a sliding mode; according to the invention, the sealing property between the cleaning machine main body and the rotating door is improved by arranging the sealing air bags, the top blocks and other structures in a matching way, and the situation that the temperature inside the cleaning machine main body is unstable and the glass main body is thermally stressed due to frequent fluctuation of the temperature due to the fact that the external cold air is easy to invade in the cleaning process due to poor sealing property of the cleaning machine main body is avoided by improving the sealing property between the cleaning machine main body and the rotating door, so that the situation of cracking or chipping of the glass main body is caused.

Description

Sealing structure for reducing glass fragmentation risk of cleaning machine

Technical Field

The invention belongs to the technical field of cleaning machines, and particularly relates to a sealing structure for reducing glass breakage risk of a cleaning machine.

Background

In modern life and industrial production, the cleaning machine is used as a necessary tool for efficiently cleaning various articles, and is widely applied to families, catering industry, medical fields and precision industrial manufacturing. The door design of a washer typically includes a viewing window made of glass to facilitate the user's real-time monitoring of the washing process, however, the risk of chipping the glass on the door is significantly increased during operation of the washer, particularly when a high temperature, high pressure washing mode is performed, which not only affects the normal operation of the device, but may also constitute a safety hazard to the user.

Most of the existing cleaning machines are poor in sealing performance due to the fact that cold outside air is easy to invade, the temperature inside the cleaning machines is unstable, thermal stress is generated on a glass main body due to frequent fluctuation of the temperature, accordingly, cracks or breakage of glass are caused, meanwhile, high-pressure water flow or steam is suddenly stopped or changed in direction in the cleaning process, a water hammer effect is generated, impact is caused on the glass, mechanical vibration is caused when the cleaning machines are operated, the cracks or breakage of the glass is caused, and therefore the sealing structure for reducing the breakage risk of the glass of the cleaning machines has the effects of improving the sealing performance of the device and preventing the influence of the water hammer and vibration on the glass structure through a buffer structure.

Disclosure of Invention

In order to solve the problems that in the prior art, the sealing performance of a door of a cleaning machine is poor, external cold air is easy to invade, so that the temperature inside the cleaning machine is unstable, thermal stress is generated on a glass main body due to frequent fluctuation of the temperature, so that glass is cracked or broken, meanwhile, the high-pressure water flow or steam is suddenly stopped or changed in direction in the cleaning process, a water hammer effect is generated, impact is caused on the glass, mechanical vibration is caused when the cleaning machine is operated, and the glass is cracked or broken.

In order to achieve the above purpose, the present invention provides the following technical solutions: the sealing structure for reducing the glass breakage risk of the cleaning machine comprises a sealing mechanism, wherein a main body mechanism is arranged on the sealing mechanism, the sealing mechanism is positioned in the main body mechanism, and a buffer mechanism is arranged in the main body mechanism;

The sealing mechanism comprises a sealing air bag, clamping grooves are formed in two sides of the sealing air bag, a trapezoid groove is formed in the top of the sealing air bag, a plurality of grooves are formed in the inner wall of the trapezoid groove, a gas storage bin is fixedly connected to the bottom of each groove, a sliding block is connected to the inside of each groove in a sliding mode, a piston is fixedly connected to the bottom of each sliding block, and a vent hole is formed in the bottom of each gas storage bin;

the main body mechanism comprises a rotating door, the rotating door is rotationally connected with the main body of the cleaning machine through a hinge, the top of the rotating door is fixedly connected with a handle, the bottom of the rotating door is provided with a sealing groove, two sides of the inner wall of the sealing groove are fixedly connected with sealing strips, the top of the inner wall of the sealing groove is fixedly connected with a jacking block, a sliding groove is formed in the rotating door, two anti-collision pads are fixedly connected with the inner wall of the sliding groove, and four supporting rods are fixedly connected with the inner part of the sliding groove;

The bottom of the sealing air bag is fixedly connected with the top of the cleaning machine main body, the size of the top block is matched with the size of the trapezoid groove, the top block is connected with the trapezoid groove in a clamping mode, and the bottom of the top block abuts against the top of the sliding block.

Preferably, the piston penetrates through the bottom of the groove and extends to the inside of the gas storage bin, the size of the piston is matched with the size of the gas storage bin, the gas storage bin is communicated with the inside of the sealing airbag through the vent hole, the sealing airbag is U-shaped, one side of the trapezoid groove with a smaller section is located below one side with a larger section, and the size of the vent hole is smaller than that of the piston.

Preferably, the shape of the sealing groove is U-shaped, and the two anti-collision cushions are positioned above the supporting rods.

Preferably, the size of the sealing groove is matched with the size of the sealing air bag, the sealing air bag is clamped with the sealing groove, the size of the sealing strip is matched with the size of the clamping groove, and the sealing strip is clamped with the clamping groove.

Preferably, the buffer gear includes the buffer frame, the bottom fixedly connected with a plurality of damping pole of buffer frame, the first spring of bottom fixedly connected with of buffer frame, the bottom rotation of buffer frame is connected with a plurality of rotor plate, the one end that the buffer frame was kept away from to the rotor plate rotates and is connected with the sleeve, one side fixedly connected with second spring that the rotor plate was kept away from to the sleeve, the top of buffer frame is provided with glass main part, the bottom fixedly connected with baffle of buffer frame.

Preferably, the damping rods are uniformly distributed at the bottom of the buffer frame, the damping rods are located in the first springs, the second springs are located between the two sleeves, and the baffle is located between the damping rods.

Preferably, the support rod is located below the buffer frame, the bottom of the buffer frame is elastically connected with the inner wall of the chute through the first spring, the sleeve is in sliding sleeve connection with the support rod, and the support rod is located inside the second spring.

Preferably, the glass main body is in sliding connection with the inner wall of the sliding groove, the glass main body is positioned between the buffer frame and the anti-collision pad, the size of the baffle plate is smaller than that of the sliding groove, and the baffle plate penetrates through the inner wall of the sliding groove and extends to the lower side of the rotary door.

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

According to the invention, through the cooperation of structures such as the sealing air bags and the top blocks, the tightness between the main body of the cleaning machine and the rotating door is improved, when the rotating door is automatically put down, the rotating door can rotate downwards by taking the hinge as the center under the action of gravity, so that the sealing groove at the bottom of the rotating door is clamped with the sealing air bags at the top of the buffer frame, the clamping groove is clamped with the sealing strip, meanwhile, the top blocks in the sealing groove downwards extrude a plurality of sliding blocks in the trapezoid groove, so that the sliding blocks move into the grooves, the sliding blocks downwards drive the pistons to downwards move in the air storage bins, the air in all the air storage bins is extruded into the sealing air bags, the volume of the sealing air bags is expanded, the surface of the sealing air bags is completely attached to the inner wall of the sealing groove, the tightness between the main body of the cleaning machine and the rotating door is improved, no additional power is needed for compaction, the condition that the main body of the cleaning machine is poor in tightness in the cleaning process, the temperature in the main body of the cleaning machine is unstable, and the condition that thermal stress is generated on the main body of the glass due to frequent fluctuation of the temperature is caused, so that cracks or cracks of the main body are generated;

According to the invention, the damping rod and the second spring are arranged to be matched, so that the action force on the glass main body is buffered, vibration can be generated in the process of cleaning the main body of the cleaning machine, the vibration can be firstly buffered by the sealing air bag and then transmitted to the rotating door, the vibration on the glass main body above the buffering frame is reduced by the buffering of the damping rod, meanwhile, when high-pressure water flow or steam in the main body of the cleaning machine suddenly stops or changes direction, a water hammer effect is generated, namely, the sudden impact force of the water flow can generate acting force on the surface of the glass main body, the glass main body slides up and down in the chute, the sleeve is driven by the rotating plate to slide on the supporting rod, the second spring is extruded or stretched, the movement amplitude of the buffering frame and the glass main body is buffered by the first spring, the situation that the glass main body is cracked due to the water hammer effect is avoided, and the collision between the glass main body and the inner wall of the rotating door is avoided by arranging the anti-collision pad above the glass main body.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a swing door according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is a schematic view of the structural relationship between the sleeve and the support rod of the present invention;

FIG. 5 is a schematic view of the buffer mechanism of the present invention;

FIG. 6 is a schematic diagram of the structural relationship between the sealed airbag and the revolving door of the present invention.

In the figure: 1. a sealing mechanism; 101. sealing the air bag; 102. a clamping groove; 103. a trapezoid groove; 104. a slide block; 105. a piston; 106. a groove; 107. a gas storage bin; 108. a vent hole; 2. a main body mechanism; 201. a rotating door; 202. a handle; 203. a cleaner body; 204. sealing grooves; 205. a sealing strip; 206. a top block; 207. a chute; 208. a crash pad; 209. a support rod; 3. a buffer mechanism; 301. a buffer frame; 302. a damping rod; 303. a first spring; 304. a rotating plate; 305. a sleeve; 306. a second spring; 307. a glass body; 308. and a baffle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 2, 3 and 6, the invention provides a sealing structure for reducing glass breakage risk of a cleaning machine, which comprises a sealing mechanism 1, wherein a main body mechanism 2 is arranged on the sealing mechanism 1, the sealing mechanism 1 is positioned in the main body mechanism 2, and a buffer mechanism 3 is arranged in the main body mechanism 2;

Sealing mechanism 1 includes sealed gasbag 101, and draw-in groove 102 has all been seted up to sealed gasbag 101's both sides, and trapezoidal slot 103 has been seted up at sealed gasbag 101's top, and a plurality of recess 106 has been seted up to trapezoidal slot 103's inner wall, and the bottom fixedly connected with gas storage storehouse 107 of recess 106, the inside sliding connection of recess 106 has slider 104, and the bottom fixedly connected with piston 105 of slider 104, and air vent 108 has been seted up to the bottom of gas storage storehouse 107.

The piston 105 penetrates through the bottom of the groove 106 and extends to the inside of the gas storage bin 107, the size of the piston 105 is matched with the size of the gas storage bin 107, the gas storage bin 107 is communicated with the inside of the sealed airbag 101 through the vent hole 108, the appearance of the sealed airbag 101 is U-shaped, one side of the trapezoid-shaped groove 103 with a smaller section is positioned below one side with a larger section, and the size of the vent hole 108 is smaller than the size of the piston 105;

the main body mechanism 2 comprises a rotating door 201, the rotating door 201 is rotationally connected with a cleaning machine main body 203 through a hinge, a handle 202 is fixedly connected to the top of the rotating door 201, a sealing groove 204 is formed in the bottom of the rotating door 201, sealing strips 205 are fixedly connected to the two sides of the inner wall of the sealing groove 204, a top block 206 is fixedly connected to the top of the inner wall of the sealing groove 204, a sliding groove 207 is formed in the rotating door 201, two anti-collision pads 208 are fixedly connected to the inner wall of the sliding groove 207, and four supporting rods 209 are fixedly connected to the inner part of the sliding groove 207;

The bottom of the sealing airbag 101 is fixedly connected with the top of the cleaning machine main body 203, the size of the top block 206 is matched with the size of the trapezoid groove 103, the top block 206 is clamped with the trapezoid groove 103, and the bottom of the top block 206 abuts against the top of the sliding block 104.

The scheme is adopted: through setting up the cooperation of structures such as sealed gasbag 101 and kicking block 206, and then, the leakproofness between cleaning machine main part 203 and the revolving door 201 has been promoted, when will rolling door 201 put down voluntarily, revolving door 201 can use the hinge as the center downwards rotation, make the joint between sealed gasbag 101 at the sealing groove 204 of revolving door 201 bottom and buffer frame 301 top, and joint between draw-in groove 102 and the sealing strip 205, simultaneously the inside kicking block 206 of sealing groove 204 can downwardly extrusion trapezoidal tank 103 inside a plurality of slider 104, make a plurality of slider 104 remove to the inside of recess 106, slider 104 descends and can drive piston 105 at the inside downwardly moving of gas storage storehouse 107, with the inside gaseous extrusion of all gas storage storehouse 107 to the inside of sealed gasbag 101, make the volume expansion of sealed gasbag 101, make the surface of sealed gasbag 101 and the inner wall between sealed groove 204 laminate completely, improve the leakproofness between cleaning machine main part 203 and the revolving door 201, need not extra power to compress tightly, avoid cleaning machine main part 203 because of the leakproofness is relatively poor in the cleaning process, outside cold air easily invades, lead to the inside temperature unstable of cleaning machine main part 203, because of the inside temperature of main part 307 produces the frequent thermal fluctuation condition that produces on 307 on glass main part 307, thereby the crack condition occurs.

As shown in fig. 1 to 6, the shape of the sealing groove 204 is in a U shape, two crash pads 208 are located above the supporting rod 209, the size of the sealing groove 204 is matched with the size of the sealing airbag 101, the sealing airbag 101 is clamped with the sealing groove 204, the size of the sealing strip 205 is matched with the size of the clamping groove 102, the sealing strip 205 is clamped with the clamping groove 102, the bottom of the sealing airbag 101 is fixedly connected with the top of the cleaning machine main body 203, the sealing airbag 101 is located between the rotating door 201 and the cleaning machine main body 203, and the sealing airbag 101 is located above the covering groove of the rotating door 201 at the top of the cleaning machine main body 203.

The buffer mechanism 3 includes the buffer frame 301, the bottom fixedly connected with a plurality of damping pole 302 of buffer frame 301, the bottom fixedly connected with first spring 303 of a plurality of buffer frame 301, the bottom rotation of buffer frame 301 is connected with a plurality of rolling plate 304, the one end rotation that rolling plate 304 kept away from buffer frame 301 is connected with sleeve 305, one side fixedly connected with second spring 306 that rolling plate 304 was kept away from to sleeve 305, the top of buffer frame 301 is provided with glass main part 307, the bottom fixedly connected with baffle 308 of buffer frame 301.

The damping rods 302 are evenly distributed at the bottom of the buffer frame 301, the damping rods 302 are located in the first springs 303, the second springs 306 are located between the two sleeves 305, the baffle 308 is located between the damping rods 302, the supporting rods 209 are located below the buffer frame 301, the bottom of the buffer frame 301 is elastically connected with the inner wall of the sliding groove 207 through the first springs 303, the sleeves 305 are in sliding sleeve connection with the supporting rods 209, the supporting rods 209 are located in the second springs 306, the glass main body 307 is in sliding connection with the inner wall of the sliding groove 207, the glass main body 307 is located between the buffer frame 301 and the anti-collision pad 208, the size of the baffle 308 is smaller than that of the sliding groove 207, and the baffle 308 penetrates through the inner wall of the sliding groove 207 and extends to the lower portion of the rotary door 201.

The scheme is adopted: through setting up the cooperation of structures such as damping pole 302 and second spring 306, and then the effort that receives glass main part 307 is buffered, can produce the vibration at the in-process that cleaning machine main part 203 washd, the vibration can be firstly through the buffering of sealed gasbag 101 again on the revolving door 201, and reduce the vibration that glass main part 307 received above the buffer rack 301 through the buffering of damping pole 302, simultaneously when the inside high-pressure rivers or steam of cleaning machine main part 203 stop suddenly or change the direction, can produce the water hammer effect, namely the sudden impact force of rivers, can produce the effort to the surface of glass main part 307, make glass main part 307 slide from top to bottom in spout 207, drive sleeve 305 and slide on bracing piece 209 through rotating plate 304, and extrude or stretch second spring 306, the range of movement of buffer rack 301 and glass main part 307 is buffered, and support through first spring 303, avoid the water hammer effect to lead to the cracked condition emergence of glass main part 307 to the circumstances of cracked, and set up crashproof pad 208 between glass main part 307 and the inner wall of revolving door 201 can avoid glass main part 307 to take place because of the collision.

The working principle and the using flow of the invention are as follows: when the rotary door 201 is automatically put down, the rotary door 201 rotates downwards by taking a hinge as a center under the action of gravity, so that a sealing groove 204 at the bottom of the rotary door 201 is clamped with a sealing airbag 101 at the top of a buffer frame 301, a clamping groove 102 is clamped with a sealing strip 205, meanwhile, a plurality of sliding blocks 104 in the trapezoid groove 103 are extruded downwards by a top block 206 in the sealing groove 204, the sliding blocks 104 are moved into a groove 106, a piston 105 is driven to move downwards in a gas storage bin 107 by the descending of the sliding blocks 104, all gas in the gas storage bin 107 is extruded into the sealing airbag 101, the volume of the sealing airbag 101 is expanded, the surface of the sealing airbag 101 is completely attached to the inner wall of the sealing groove 204, the tightness between a cleaning machine main body 203 and the rotary door 201 is improved, and additional power is not needed for compression;

And vibration is generated in the cleaning process of the cleaning machine main body 203, the vibration is firstly buffered by the sealing air bag 101 and then transmitted to the rotating door 201, the vibration borne by the glass main body 307 above the buffer frame 301 is reduced by the buffer of the damping rod 302, meanwhile, when the high-pressure water flow or steam in the cleaning machine main body 203 suddenly stops or changes direction, a water hammer effect is generated, namely, the sudden impact force of the water flow can generate an acting force on the surface of the glass main body 307, so that the glass main body 307 slides up and down in the chute 207, the sleeve 305 is driven by the rotating plate 304 to slide on the supporting rod 209, the second spring 306 is extruded or stretched, the movement amplitude of the buffer frame 301 and the glass main body 307 is buffered, and the situation that the glass main body 307 is cracked due to the water hammer effect is avoided by supporting the buffer frame 301 through the first spring 303.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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. Sealing structure for reducing glass breakage risk of cleaning machine, comprising a sealing mechanism (1), characterized in that: the sealing mechanism (1) is provided with a main body mechanism (2), the sealing mechanism (1) is positioned in the main body mechanism (2), and a buffer mechanism (3) is arranged in the main body mechanism (2);

The sealing mechanism (1) comprises a sealing air bag (101), clamping grooves (102) are formed in two sides of the sealing air bag (101), a trapezoid groove (103) is formed in the top of the sealing air bag (101), a plurality of grooves (106) are formed in the inner wall of the trapezoid groove (103), a gas storage bin (107) is fixedly connected to the bottom of each groove (106), a sliding block (104) is slidably connected to the inside of each groove (106), a piston (105) is fixedly connected to the bottom of each sliding block (104), and vent holes (108) are formed in the bottom of each gas storage bin (107);

The main body mechanism (2) comprises a rotating door (201), the rotating door (201) is rotationally connected with a cleaning machine main body (203) through a hinge, a handle (202) is fixedly connected to the top of the rotating door (201), a sealing groove (204) is formed in the bottom of the rotating door (201), sealing strips (205) are fixedly connected to the two sides of the inner wall of the sealing groove (204), a top block (206) is fixedly connected to the top of the inner wall of the sealing groove (204), a sliding groove (207) is formed in the rotating door (201), two anti-collision cushions (208) are fixedly connected to the inner wall of the sliding groove (207), and four supporting rods (209) are fixedly connected to the inner part of the sliding groove (207).

The bottom of sealed gasbag (101) is fixed connection between the top of cleaning machine main part (203), the size of kicking block (206) and the size looks adaptation of dovetail groove (103), joint between kicking block (206) and dovetail groove (103), offset between the bottom of kicking block (206) and the top of slider (104).

2. The sealing structure for reducing the risk of glass breakage of a washer according to claim 1, wherein: the piston (105) runs through the bottom of recess (106) and extends to the inside of gas storage storehouse (107), the size of piston (105) and the size looks adaptation of gas storage storehouse (107), gas storage storehouse (107) communicate with each other with the inside of sealed gasbag (101) through air vent (108), the appearance of sealed gasbag (101) presents "U" style of calligraphy, the little one side in trapezoid groove (103) cross-section is located the below of the big one side in cross-section, the size of air vent (108) is less than the size of piston (105).

3. The sealing structure for reducing the risk of glass breakage of a washer according to claim 1, wherein: the shape of the sealing groove (204) is U-shaped, and the two anti-collision cushions (208) are positioned above the supporting rods (209).

4. A sealing structure for reducing the risk of glass breakage of a washer according to claim 3, wherein: the size of seal groove (204) and the size looks adaptation of sealed gasbag (101), joint between sealed gasbag (101) and seal groove (204), the size of sealing strip (205) and the size looks adaptation of draw-in groove (102), joint between sealing strip (205) and draw-in groove (102).

5. The sealing structure for reducing the risk of glass breakage of a washer according to claim 1, wherein: the buffering mechanism (3) comprises a buffering frame (301), a plurality of damping rods (302) are fixedly connected to the bottom of the buffering frame (301), a plurality of first springs (303) are fixedly connected to the bottom of the buffering frame (301), a plurality of rotating plates (304) are rotatably connected to the bottom of the buffering frame (301), a sleeve (305) is rotatably connected to one end, far away from the buffering frame (301), of each rotating plate (304), a second spring (306) is fixedly connected to one side, far away from the rotating plates (304), of each sleeve (305), a glass main body (307) is arranged at the top of the buffering frame (301), and a baffle (308) is fixedly connected to the bottom of the buffering frame (301).

6. The sealing structure for reducing the risk of glass breakage of a washer according to claim 5, wherein: the damping rods (302) are uniformly distributed at the bottom of the buffer frame (301), the damping rods (302) are located in the first springs (303), the second springs (306) are located between the two sleeves (305), and the baffle plates (308) are located between the damping rods (302).

7. The sealing structure for reducing the risk of glass breakage of a washer according to claim 5, wherein: the supporting rod (209) is located below the buffer frame (301), the bottom of the buffer frame (301) is elastically connected with the inner wall of the chute (207) through a first spring (303), the sleeve (305) is in sliding sleeve connection with the supporting rod (209), and the supporting rod (209) is located inside a second spring (306).

8. The sealing structure for reducing the risk of glass breakage of a washer according to claim 5, wherein: the glass main body (307) is in sliding connection with the inner wall of the sliding groove (207), the glass main body (307) is located between the buffer frame (301) and the anti-collision pad (208), the size of the baffle plate (308) is smaller than that of the sliding groove (207), and the baffle plate (308) penetrates through the inner wall of the sliding groove (207) and extends to the lower portion of the rotary door (201).