CN212086720U - Take shock-absorbing function's sealed cabinet - Google Patents

Abstract

The utility model discloses a take shock-absorbing function's sealed cabinet, including the cabinet body and cabinet door, articulated cabinet door on the cabinet body is equipped with the observation window on the cabinet door, and the below of observation window is equipped with a plurality of glove holes, is equipped with the lid on the glove hole, and the dismantlement formula is equipped with gloves on the glove hole, and cabinet door closes the department and is equipped with the lead sealing, and cabinet body bottom is equipped with the guide rail, and the slip is equipped with on the guide rail bears the base, bears and be equipped with damper on the base, and the internal clamping mechanism that is. The cabinet body of the utility model has good sealing performance, and can prevent dust and the like from polluting equipment; the indirect contact observation operation and maintenance of the built-in equipment can be realized; the equipment is convenient to place and take; the risk that the parts of the equipment are easy to fall off due to shaking and vibration of the equipment is greatly reduced, and the safety of the equipment is improved; can hold the equipment clamp of equidimension not and press from both sides tightly fixed, can dispel the equipment heat, avoid equipment heat gathering to cause equipment trouble, compact structure, the practicality is stronger, is fit for the vigorous popularization.

Description

Take shock-absorbing function's sealed cabinet

Technical Field

The utility model relates to a sealed cabinet, concretely relates to take shock-absorbing function's sealed cabinet.

Background

Nuclear power plant and other nuclear facilities are implementing the maintenance in-process, need implement the maintenance work in control area inside, conventional equipment is because need dispel the heat and use radiator fan to supply air the cooling at case shell trompil, can lead to the surface and the inside radioactive contamination of equipment to pollute because of polishing dust or the inside radioactive contamination of factory building in the course of the work, but not trompil heat dissipation leads to the heat gathering that equipment during operation produced easily to cause equipment trouble, lead to equipment unable work, influence work efficiency.

The existing conventional decontamination mode is a chemical decontamination-mechanical decontamination mode, a chemical reagent or a mechanical wiping polishing mode is needed in the decontamination process, due to the fact that electronic equipment and a circuit board are arranged inside the equipment, the equipment is sensitive to liquid and the chemical reagent, decontamination can only be achieved in the wiping mode, if radioactive pollutants are contaminated by the equipment, the equipment is easily damaged due to untimely cleaning, direct contact equipment is easily polluted by the radioactive pollutants in the cleaning process of workers, and the workers cannot be taken out of a nuclear island factory building to be subjected to external inspection due to the existence of the radioactive pollutants.

SUMMERY OF THE UTILITY MODEL

The utility model aims at prior art not enough and provide a take shock-absorbing function's sealed cabinet, can observe operation, indirect contact operation to placing the equipment at the internal of cabinet and overhaul, prevent that radioactive contaminant from staiing equipment, greatly reduced equipment rocks, vibrations lead to the risk that the equipment part drops easily, improve equipment's security, and the equipment that can hold not equidimension presss from both sides tight fixedly, has solved the problem that equipment heat gathering caused equipment trouble.

The technical scheme of the utility model is realized like this:

a sealing cabinet with a damping function comprises a cabinet body and a cabinet door, wherein the cabinet door is hinged to the cabinet body, an observation window is arranged on the cabinet door, a plurality of glove holes are formed below the observation window, covers are arranged on the glove holes, gloves facing the interior of the cabinet body are detachably arranged on the glove holes, lead seals are arranged at the closing positions of the cabinet door, a guide rail is arranged at the bottom of the cabinet body, a bearing base is arranged on the guide rail in a sliding mode and comprises an upper bearing plate and a lower bearing plate;

the bearing base is provided with a damping mechanism, the damping mechanism comprises corrugated pipes, a reset spring and a hose, one end of each corrugated pipe is fixedly connected with the upper bearing plate, the other end of each corrugated pipe is fixedly connected with the lower bearing plate, a plurality of rows are arranged at intervals, each row of corrugated pipes is provided with a plurality of intervals, the reset spring is fixed in each corrugated pipe and is respectively connected with two ends of each corrugated pipe, the adjacent corrugated pipes in each row are connected through the hose, each row of the first corrugated pipe and the last corrugated pipe are provided with an air inlet pipe, the air inlet pipe is provided with a first one-way valve, the hose between the two adjacent corrugated pipes in each row is provided with an air outlet pipe, the air outlet pipe is provided with a second one-way valve, and the upper;

the cabinet body is internally provided with a clamping mechanism, the clamping mechanism comprises guide plates, the guide plates are respectively installed on two sides in the cabinet body, the top of each guide plate is provided with a sliding groove, each sliding groove is provided with a bolt capable of axially sliding on the corresponding sliding groove, the bottom of each sliding groove is provided with a plurality of bolt holes at equal intervals, the side surface of each guide plate is provided with a guide groove communicated with the corresponding sliding groove, two telescopic rods capable of axially sliding in the corresponding guide grooves are arranged in the corresponding guide grooves, the telescopic rods are fixedly connected with the corresponding bolt holes through the bolts, the other ends of the telescopic rods are provided with L-shaped fixed blocks, and the fixed blocks on the four telescopic rods are used for mutually matching to clamp built-in;

the cabinet body is provided with a heat dissipation unit for dissipating heat of the equipment.

The further technical scheme is that the heat dissipation unit comprises an aluminum fin radiator, a cooling fan and a water-cooling radiator, the inner side wall of the cabinet body is provided with the aluminum fin radiator, the water-cooling radiator is arranged on the outer side wall of the cabinet body, the aluminum fin radiator and the side face of the water-cooling radiator are respectively provided with the cooling fan, and the aluminum fin radiator and the water-cooling radiator are connected through a pipeline.

The technical scheme is that the heat dissipation unit comprises an aluminum fin radiator, a water-cooling radiator, a cooling fan, a semiconductor refrigeration piece, a water-cooling head and a circulating water pump, the water-cooling head is installed on the inner side wall of the cabinet body, the side surface of the water-cooling head is connected with the hot end of the semiconductor refrigeration piece, the cold end is connected with the aluminum fin radiator, the water-cooling radiator is installed on the outer side wall of the cabinet body, the cooling fan is installed on the side surface of the water-cooling radiator respectively, the circulating water pump is installed in the cabinet body, and the aluminum fin radiator, the water-cooling head and the circulating water pump are.

The technical scheme is that the heat dissipation unit comprises an aluminum fin radiator, a copper pipe radiator, semiconductor refrigeration pieces and cooling fans, the semiconductor refrigeration pieces are embedded in the inner side wall of the cabinet body, the cold ends of the semiconductor refrigeration pieces face the interior of the cabinet body and are connected with the aluminum fin radiator, the hot ends of the semiconductor refrigeration pieces face the exterior of the cabinet body and are correspondingly provided with the copper pipe radiator, the cooling fans are respectively installed on the side faces of the aluminum fin radiator and the side faces of the copper pipe radiator, and the aluminum fin radiator and the copper pipe radiator are connected through pipelines.

The technical scheme is that the heat dissipation unit comprises an aluminum fin radiator, a vortex tube refrigerator and a cooling fan, the aluminum fin radiator is installed on the inner side wall of the cabinet body, the cooling fan is installed on the side face of the aluminum fin radiator, the vortex tube refrigerator is installed on the side wall outside the cabinet body, a conveying pipe is arranged on the vortex tube refrigerator, a cold air outlet one-way valve is arranged on the conveying pipe, a compressed air source pipe is arranged on the vortex tube refrigerator, a compressed air electromagnetic valve is arranged on the compressed air source pipe, a one-way exhaust pipeline is arranged on the cabinet body, a one-way exhaust valve is arranged on the one-way exhaust pipeline, and the aluminum fin radiator and the vortex tube refrigerator are connected through a pipeline.

The further technical scheme is that heat insulation cotton is arranged between the side wall of the outer part of the cabinet body and the heat dissipation unit.

The further technical scheme is that a plurality of rollers are arranged at the bottom of the cabinet body.

The further technical scheme is that a wiring extension joint extending to the outside of the cabinet body is arranged in the cabinet body.

The technical scheme is that a power supply unit is arranged inside the cabinet body.

The technical scheme is that a drying agent box is arranged in the cabinet body, and a drying agent is arranged in the drying agent box.

The beneficial effects of the utility model reside in that:

1. the operation maintenance can be observed in the indirect contact of equipment of putting into the cabinet body through the cooperation of observation window, gloves and glove hole, because cabinet body leakproofness is good, the built-in equipment of putting into the cabinet body after finishing clean is difficult to take place secondary pollution, prevents radioactive dust pollution equipment, can also avoid the staff contact to receive the equipment of pollution simultaneously, effectively protects staff's healthy.

2. The guide rail that sets up with bear the weight of the internal equipment of base convenient taking and laying cabinet, improve the practicality.

3. In transportation process or equipment course of operation, because equipment self can produce vibrations when during operation or transportation, pressure transmits for last loading board, goes up the loading board and receives decurrent pressure, compresses the bellows to make the outlet duct of bellows blow off gas, the gas that blows off sees through the through-hole and blows for equipment cooling from last loading board bottom. Simultaneously, because the bellows embeds reset spring, a plurality of bellows plays the supporting role to last carrier plate jointly, make the bellows again in the reset process from the intake pipe inspiration gas, and then do the continuous reciprocating motion extrusion bellows, the first check valve of setting guarantees that the intake pipe can only admit air, the second check valve of setting guarantees that the outlet duct can only give vent to anger, greatly reduced equipment is because of long-time rocking, the risk that vibrations lead to the part on the equipment to drop easily, the security and the reliability of equipment have been ensured.

4. Set up clamping mechanism through bearing the base, utilize the cooperation of telescopic link, deflector and fixed block, the built-in equipment that adapts to equidimension not presss from both sides tightly fixedly, and the function is various, and simple structure can also prevent simultaneously that the built-in equipment of the cabinet body from rocking in the transportation, avoids built-in equipment striking to damage.

5. The heat of the equipment in the cabinet body can be dissipated through the heat dissipation unit, and equipment failure caused by heat accumulation generated during the operation of the equipment is avoided.

Drawings

Fig. 1 is a schematic perspective view of embodiments 1, 2, and 3 of the present invention;

FIG. 2 is an enlarged view at A of FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 1;

fig. 5 is a schematic view of the internal structure of the bellows of the present invention;

fig. 6 is a schematic top view of the load base of the present invention;

fig. 7 is a schematic top view of the inner structure of the load base of the present invention;

fig. 8 is a schematic front view of the present invention;

fig. 9 is a schematic view of the internal structure of embodiment 1 of the present invention;

FIG. 10 is an enlarged view at D of FIG. 9;

fig. 11 is an internal structure diagram of embodiment 2 of the present invention;

fig. 12 is a schematic view of the internal structure of embodiment 3 of the present invention;

fig. 13 is an internal structural schematic diagram of embodiment 4 of the present invention.

In the figure, 1 cabinet door, 2 guide rail, 3 bearing base, 4 rollers, 5 cabinets, 6 desiccant box, 7 observation window, 8 gloves, 9 wiring extension joint, 10 cooling fan, 11 water cooling radiator, 12 heat insulation cotton, 13 glove holes, 14 aluminum fin radiator, 15 circulating water pump, 16 power supply unit, 17 water cooling head, 18 semiconductor refrigeration sheet, 19 copper pipe radiator, 20 vortex tube refrigerator, 21 compressed air electromagnetic valve, 22 compressed air source tube, 23 delivery tube, 24 cold air outlet one-way valve, 25 one-way exhaust pipeline, 26 one-way exhaust valve, 27 telescopic rod, 28 fixed block, 29 bolt hole, 30 guide groove, 31 bolt, 32 sliding groove, 33 guide plate, 34 hose, 35 lower bearing plate, 36 corrugated tube, 37 first one-way valve, 38 air inlet tube, 39 second one-way valve, 40 air outlet tube, 41 through hole, 42 upper bearing plate, 43 reset spring.

Detailed Description

In order to better understand the technical content of the present invention and to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly introduced below, it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive laboriousness, and the embodiments are provided below and further described with reference to the drawings.

Example 1

Referring to the structures shown in fig. 1 to 10, the sealed cabinet with the damping function provided by the present invention comprises a cabinet body 5 and a cabinet door 1, wherein the cabinet body 5 is used for placing devices with various specifications, and the size of the cabinet body 5 is designed into various specifications according to actual needs to adapt to built-in devices with different specifications; preferably, the surface of the cabinet body 5 is sprayed with a self-cleaning coating layer, so that wiping decontamination or chemical decontamination is convenient in the decontamination process, and contamination can be prevented. The cabinet body 5 is hinged with the cabinet door 1, the cabinet door 1 is conveniently opened or closed in a hinged mode, the cabinet door 1 is provided with the observation window 7, a plurality of glove holes 13 are formed in the lower portion of the observation window 7, the glove holes 13 are provided with the covers 44, the covers 44 cover the gloves in normal use, the possibility that dust and pollutants enter the inner sides of the gloves 8 is reduced, and the possibility that the hands of operators are stained is reduced. When internal equipment adjustment is required, the cover 44 is removed and adjustment is made by the glove 8. The cover 44 can be sleeved by a soft rubber cover or in a magnetic adsorption mode, and the cover 44 is connected with the cabinet door 1 through a stainless steel thin chain to prevent the cover 44 from falling on the ground. The glove hole 13 is detachably provided with a glove 8 facing the inside of the cabinet body 5, and the glove hole 13 and the glove 8 are preferably arranged in two numbers, so that a worker can conveniently operate the glove 8 with two hands simultaneously extending into the glove hole 13; gloves 8's length design should be greater than the ancon of people's arm, and the convenience is nimble to be operated in cabinet 5, gloves 8 and glove hole 13 sealing connection, prevents that radioactive contamination from getting into from glove hole 13, and the while can also avoid staff's hand to stain equipment easily, and the dismantlement formula is connected and is convenient for change and clean gloves 8, realizes observation operation, indirect contact maintenance operation to built-in equipment. The cabinet door 1 closes the department and is equipped with the lead seal, and the lead seal belongs to sealed material, and sealed material can avoid dust or liquid to get into cabinet body 5 inside after cabinet door 1 closes, satisfies anti-staining and clear needs. The cabinet body 5 bottom is equipped with guide rail 2, slide on the guide rail 2 and be provided with and bear base 3, be convenient for lay and take built-in equipment, improve the convenience. The bearing base 3 comprises an upper bearing plate 42 and a lower bearing plate 35;

the bearing base 3 is provided with a damping mechanism, the damping mechanism comprises a corrugated pipe 36, a return spring 43 and a hose 34, one end of the corrugated pipe 36 is fixedly connected with the upper bearing plate 42, the other end of the corrugated pipe is fixedly connected with the lower bearing plate 35, and the corrugated pipe 36 is connected with the upper bearing plate 42 and the lower bearing plate 35 to play a supporting role. And a plurality of rows are arranged at intervals, preferably six rows, each row of the corrugated pipe 36 is provided with a plurality of intervals, preferably five rows, the return spring 43 is fixed in the corrugated pipe 36 and is respectively connected with two ends of the corrugated pipe 36, and the return spring 43 is arranged in the corrugated pipe 36 to promote the corrugated pipe 36 to do continuous reciprocating motion. The adjacent corrugated pipes 36 in each row are connected through the hoses 34, and the adjacent corrugated pipes 36 are connected through the hoses 34, so that the connection is convenient and is not easy to damage. The first bellows 36 and the last bellows 36 in each row are provided with air inlet pipes 38, and air is respectively absorbed into each bellows 36 in each row from the air inlet pipes 38 on the bellows 36 at the head and tail ends, so that each bellows 36 in each row is filled with air. The air inlet pipe 38 is provided with a first one-way valve 37, and the first one-way valve 37 is adopted to ensure that the air inlet pipe 38 can only admit air and can not discharge air, so that the air inlet pipe 38 can only absorb air. The hose 34 between each adjacent two corrugated pipes 36 in each row is provided with an air outlet pipe 40, the air outlet pipe 40 is provided with a second one-way valve 39, the second one-way valve 39 is adopted to ensure that the air outlet pipe 40 can only discharge air and can not enter air, and the air outlet pipe 40 can only discharge air. The upper bearing plate 42 is provided with a plurality of through holes 41 corresponding to the positions of the air outlet pipes 40, and air blown out of the air outlet pipes 40 on the corrugated pipes 36 is blown to the bottom of equipment placed on the upper bearing plate 42 through the through holes 41, so that the equipment is cooled, and the safety and reliability of the equipment are improved;

the cabinet body 5 is internally provided with a clamping mechanism, the clamping mechanism comprises guide plates 33, the guide plates 33 are respectively installed at two sides in the cabinet body 5, the top of each guide plate 33 is provided with a sliding groove 32, each sliding groove 32 is provided with a bolt 31 capable of axially sliding on the corresponding sliding groove 32, the bottom of each sliding groove 32 is provided with a plurality of bolt holes 29 at equal intervals, the side surface of each guide plate 33 is provided with a guide groove 30 communicated with the corresponding sliding groove 32, two telescopic rods 27 capable of axially sliding in the corresponding guide grooves 30 are arranged in the corresponding guide grooves 30, the telescopic rods 27 are fixedly connected with the corresponding bolt holes 29 through the bolts 31, the other end of each telescopic rod 27 is provided with an L-shaped fixed block 28, the fixed blocks 28 on the four telescopic rods 27 are used for mutually matching to clamp built-in equipment, and the telescopic characteristics of the telescopic rods 27 and the axial sliding matching on the guide plates 33 are utilized to clamp, then the bolt 31 is used for connecting the telescopic rod 27, and simultaneously the telescopic rod 27 can be fixed on the guide plate 33 to prevent the telescopic rod from shaking;

the cabinet body 5 is provided with a heat dissipation unit for dissipating heat of the equipment.

Specifically, the radiating unit includes aluminium fin radiator 14, cooling fan 10 and water-cooling radiator 11, install the internal side wall of cabinet 5 aluminium fin radiator 14, water-cooling radiator 11 is installed to the external side wall of cabinet 5, aluminium fin radiator 14 with cooling fan 10 is installed respectively to water-cooling radiator 11's side, and the air flow and the heat transfer of the internal portion of cabinet 5 are strengthened to aluminium fin radiator 14, and the air flow of the external portion of the cabinet 5 is strengthened to water-cooling radiator 11 side-mounting's cooling fan 10. The aluminum fin radiator 14 and the water-cooled radiator 11 are connected through a pipeline, preferably, the pipeline contains a cooling working medium, and the cooling working medium is demineralized water to prevent the pipeline from being blocked.

Specifically, the cabinet body 5 outside lateral wall with be provided with thermal-insulated cotton 12 between the radiating element, thermal-insulated cotton 12 adopts thermal-insulated material to make, prevents that the heat in the cabinet body 5 outside from spreading into cabinet body 5 internal plant through cabinet body 5 surface.

Specifically, the bottom of the cabinet body 5 is provided with a plurality of rollers 4, the rollers 4 adopt the rollers 4 with brake, the cabinet body 5 is prevented from unnecessarily moving, and the rollers 4 are convenient to move and transport the built-in equipment.

Specifically, set up in the cabinet body 5 and extend to the outside wiring extension joint 9 of the cabinet body 5, wiring extension joint 9 is used for connecting the equipment of placing in the cabinet body 5, gives inside equipment external power supply through wiring extension joint 9.

Specifically, the inside power supply unit 16 that is provided with of cabinet body 5, power supply unit 16 is used for the heat dissipation unit power supply, and power supply unit 16 is preferred to be the power of battery form, conveniently changes and uses.

Specifically, be equipped with drier case 6 in the cabinet body 5, be equipped with the drier in the drier case 6, use the drier can avoid the inside humid air of the cabinet body 5 to exert an influence, prevent that the condensation from causing the iron rust or the short circuit of electronic product.

Example 2

The difference between the embodiment 2 and the embodiment 1 is that, referring to the structure shown in fig. 11, the heat dissipation unit includes an aluminum fin radiator 14, a water-cooling radiator 11, a cooling fan 10, a semiconductor refrigeration sheet 18, a water-cooling head 17 and a circulating water pump 15, the water-cooling head 17 is installed on the inner side wall of the cabinet 5, the side surface of the water-cooling head 17 is connected with the hot end of the semiconductor refrigeration sheet 18, and the water-cooling head 17 is used for absorbing heat generated in the working process of the semiconductor refrigeration sheet 18. The cold junction is connected with aluminium fin radiator 14, water-cooling radiator 11 is installed to the 5 lateral walls of the cabinet body, aluminium fin radiator 14 cooling fan 10 is installed respectively to water-cooling radiator 11's side, circulating water pump 15 installs in cabinet body 5, and circulating water pump 15 makes the heat of absorbing in the cabinet body 5 flow to the outside water-cooling radiator 11 of the cabinet body 5 and cools down through circulating water pump 15's drive. The aluminum fin radiator 14, the water-cooling radiator 11, the water-cooling head 17 and the circulating water pump 15 are connected through pipelines.

Example 3

The difference between this embodiment 3 and embodiment 1 is that, referring to the structure shown in fig. 12, the heat dissipation unit includes an aluminum fin radiator 14, a copper pipe radiator 19, a semiconductor refrigeration sheet 18 and a cooling fan 10, the semiconductor refrigeration sheet 18 is embedded in the inner side wall of the cabinet 5, the cold end of the semiconductor refrigeration faces the cabinet 5 and is connected to the aluminum fin radiator 14, the hot end of the semiconductor refrigeration sheet 18 faces the outside of the cabinet 5 and is correspondingly provided with the copper pipe radiator 19, the cooling fan 10 is respectively installed on the side surfaces of the aluminum fin radiator 14 and the copper pipe radiator 19, the aluminum fin radiator 14 and the copper pipe radiator 19 are connected through a pipeline, and the heat of the aluminum fin radiator 14 is transferred to the copper pipe radiator 19 through the semiconductor refrigeration sheet 18 for heat dissipation.

Example 4

The present embodiment 4 differs from embodiment 1 in that, referring to the structure shown in fig. 13, the heat radiating unit includes an aluminum fin radiator 14, a vortex tube refrigerator 20 and a cooling fan 10, the aluminum fin radiator 14 is installed on the inner side wall of the cabinet body 5, the cooling fan 10 is installed on the side surface of the aluminum fin radiator 14, the side wall of the outer part of the cabinet body 5 is provided with the vortex tube refrigerator 20, the vortex tube refrigerator 20 is provided with a delivery pipe 23, a cold air outlet one-way valve 24 is arranged on the delivery pipe 23, a compressed air source pipe 22 is arranged on the vortex tube refrigerator 20, a compressed air electromagnetic valve 21 is arranged on the compressed air source pipe 22, a one-way exhaust pipeline 25 is arranged on the cabinet body 5, the one-way exhaust pipeline 25 is provided with a one-way exhaust valve 26, and the aluminum fin radiator 14 is connected with the vortex tube refrigerator 20 through a pipeline.

The utility model discloses the principle:

when the transportation equipment or the equipment works, because the transportation equipment or the equipment can generate vibration in the working process, the vibration force generated by the equipment is transmitted to the upper bearing plate 42, the pressure is transmitted to the corrugated pipe 36 by the upper bearing plate 42, the corrugated pipe 36 is extruded, the corrugated pipe 36 sprays gas from the gas outlet pipe 40 on the hose 34 in the downward extrusion process, and the gas is blown to the bottom of the equipment through the through hole 41 to cool the equipment; because the return spring 43 is arranged in the corrugated pipe 36, the return spring 43 makes the corrugated pipe 36 return, the air inlet pipes 38 on the head corrugated pipe 36 and the tail corrugated pipe 36 in each row absorb air into the corrugated pipe 36 in the process of returning the corrugated pipe 36, and moreover, the corrugated pipes 36 in each row are communicated by the hose 34, so that the absorbed air enters each corrugated pipe 36 in each row to be stored, and the absorbed air continuously reciprocates; can effectually cushion vibrations to equipment, reduce the noise that vibrations produced, prevent that vibrations from easily leading to the spare part of equipment to drop, improve equipment's work efficiency can also cool down equipment, has good security, reliability and practicality.

The equipment is placed on the bearing base 3, the bearing base 3 which is arranged in a sliding mode is convenient for placing and taking the equipment, and the equipment can be powered by the power supply unit 16; according to the length of the equipment, the telescopic rod 27 on the guide plate 33 is moved, an appropriate position is selected, the fixed blocks 28 on the telescopic rod 27 are abutted to the built-in equipment, the appropriate length of the telescopic rod 27 is selected according to the width of the equipment, the four fixed blocks 28 are respectively abutted to four corners of the equipment, the equipment is clamped tightly, the situation that the equipment in the cabinet body 5 is easy to roll and is damaged due to impact in the moving and transporting process is prevented, the equipment with different sizes can be adapted according to actual requirements, and the multifunctional telescopic cabinet is multifunctional and simple in structure; when the built-in equipment needs to be operated, the built-in equipment can be operated through the cooperation of the observation window 7, the gloves 8 and the glove holes 13, and water vapor generated in the cabinet can be removed by the drying agent in the drying agent box 6, so that the corrosion or short circuit of the built-in equipment is avoided.

In embodiment 1, the aluminum fin radiator 14 absorbs heat inside the cabinet 5, and the cooling medium in the pipeline passes through the circulating water pump 15, the aluminum fin radiator 14, and the water-cooled radiator 11 to transmit heat from inside of the cabinet 5 to outside of the cabinet 5.

In embodiment 2, the aluminum fin radiator 14 absorbs heat inside the cabinet 5, the absorbed heat is transferred to the cold end of the semiconductor refrigeration sheet 18, when the power is turned on, the semiconductor refrigeration sheet 18 transfers the heat to the hot end, the water cooling head 17 is installed on the side surface of the hot end, the cooling working medium flowing inside the water cooling head 17 transfers the heat to the circulating water pump 15, the circulating water pump 15 transfers the heat to the water cooling radiator 11 outside the cabinet 5, and then the cooling fan 10 installed on the side surface of the water cooling radiator 11 transfers the heat to the air outside the cabinet 5.

In embodiment 3, the aluminum fin heat sink 14 absorbs heat inside the cabinet 5, the cooling fan 10 mounted on the side of the aluminum fin heat sink 14 reduces heat generated by the aluminum fin heat sink 14 during operation, meanwhile, the cold end of the semiconductor refrigeration sheet 18 faces the inside of the cabinet 5 and reduces the temperature inside the cabinet 5, the hot end of the semiconductor refrigeration sheet 18 transfers heat to the copper pipe heat sink 19, and the cooling fan 10 mounted on the side of the copper pipe heat sink 19 reduces heat generated by the copper pipe heat sink 19 during operation.

In embodiment 4, the aluminum fin heat sink 14 absorbs heat generated in the cabinet 5, the compressed air source tube 22 delivers compressed air to the vortex tube refrigerator 20 outside the cabinet 5 to operate the vortex tube refrigerator, and cold air generated by the vortex tube refrigerator 20 during operation is delivered into the cabinet 5 through the delivery tube 23, so as to reduce heat generated by the aluminum fin heat sink 14, and when the vortex tube refrigerator 20 operates, the one-way exhaust valve 26 on the one-way exhaust duct 25 is opened to exhaust air, so as to reduce pressure inside the cabinet 5, thereby avoiding pressure increase inside the cabinet 5 caused by the fact that the vortex tube refrigerator 20 delivers cold air all the time, and the cabinet 5 is easy to expand and damage.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a take shock-absorbing function's sealed cabinet, includes the cabinet body and cabinet door, it has to articulate on the cabinet body the cabinet door, its characterized in that: the cabinet door is provided with an observation window, a plurality of glove holes are formed below the observation window, covers are arranged on the glove holes, gloves facing the inside of the cabinet body are detachably arranged on the glove holes, a lead seal is arranged at the closing position of the cabinet door, a guide rail is arranged at the bottom of the cabinet body, a bearing base is arranged on the guide rail in a sliding mode and comprises an upper bearing plate and a lower bearing plate;

the bearing base is provided with a damping mechanism, the damping mechanism comprises corrugated pipes, a reset spring and a hose, one end of each corrugated pipe is fixedly connected with the upper bearing plate, the other end of each corrugated pipe is fixedly connected with the lower bearing plate, a plurality of rows are arranged at intervals, each row of corrugated pipes is provided with a plurality of intervals, the reset spring is fixed in each corrugated pipe and is respectively connected with two ends of each corrugated pipe, the adjacent corrugated pipes in each row are connected through the hose, each row of the first corrugated pipe and the last corrugated pipe are provided with an air inlet pipe, the air inlet pipe is provided with a first one-way valve, the hose between the two adjacent corrugated pipes in each row is provided with an air outlet pipe, the air outlet pipe is provided with a second one-way valve, and the upper;

the cabinet body is internally provided with a clamping mechanism, the clamping mechanism comprises guide plates, the guide plates are respectively installed on two sides in the cabinet body, the top of each guide plate is provided with a sliding groove, each sliding groove is provided with a bolt capable of axially sliding on the corresponding sliding groove, the bottom of each sliding groove is provided with a plurality of bolt holes at equal intervals, the side surface of each guide plate is provided with a guide groove communicated with the corresponding sliding groove, two telescopic rods capable of axially sliding in the corresponding guide grooves are arranged in the corresponding guide grooves, the telescopic rods are fixedly connected with the corresponding bolt holes through the bolts, the other ends of the telescopic rods are provided with L-shaped fixed blocks, and the fixed blocks on the four telescopic rods are used for mutually matching to clamp built-in;

the cabinet body is provided with a heat dissipation unit for dissipating heat of the equipment.

2. The sealed cabinet with the damping function according to claim 1, wherein: the heat dissipation unit includes aluminium fin radiator, cooling fan and water-cooling radiator, the internal lateral wall of cabinet is installed aluminium fin radiator, water-cooling radiator is installed to external lateral wall of cabinet, aluminium fin radiator with cooling fan is installed respectively to water-cooling radiator's side, aluminium fin radiator with water-cooling radiator passes through the pipe connection.

3. The sealed cabinet with the damping function according to claim 1, wherein: the heat dissipation unit comprises an aluminum fin radiator, a water-cooling radiator, a cooling fan, semiconductor refrigeration sheets, a water-cooling head and a circulating water pump, wherein the inner side wall of the cabinet body is provided with the water-cooling head, the side surface of the water-cooling head is connected with the hot end of each semiconductor refrigeration sheet, the cold end of each semiconductor refrigeration sheet is connected with the aluminum fin radiator, the water-cooling radiator is arranged on the outer side wall of the cabinet body, the cooling fan is respectively arranged on the side surface of the aluminum fin radiator, the circulating water pump is arranged in the cabinet body, and the aluminum fin radiator is connected with the water-cooling radiator through a pipeline.

4. The sealed cabinet with the damping function according to claim 1, wherein: the heat dissipation unit comprises an aluminum fin radiator, a copper pipe radiator, semiconductor refrigeration pieces and cooling fans, the inner side wall of the cabinet body is inlaid with the semiconductor refrigeration pieces, the cold ends of the semiconductor refrigeration pieces face the cabinet body and are connected with the aluminum fin radiator, the hot ends of the semiconductor refrigeration pieces face the cabinet body and are correspondingly provided with the copper pipe radiator, the aluminum fin radiator and the side faces of the copper pipe radiator are respectively provided with the cooling fans, and the aluminum fin radiator and the copper pipe radiator are connected through pipelines.

5. The sealed cabinet with the damping function according to claim 1, wherein: the heat dissipation unit comprises an aluminum fin radiator, a vortex tube refrigerator and a cooling fan, wherein the inner side wall of the cabinet body is provided with the aluminum fin radiator, the side surface of the aluminum fin radiator is provided with the cooling fan, the side wall of the outer portion of the cabinet body is provided with the vortex tube refrigerator, the vortex tube refrigerator is provided with a conveying pipe, the conveying pipe is provided with a cold air outlet one-way valve, the vortex tube refrigerator is provided with a compressed air source pipe, the compressed air source pipe is provided with a compressed air electromagnetic valve, the cabinet body is provided with a one-way exhaust pipeline, the one-way exhaust pipeline is provided with a one-way exhaust valve, and the aluminum fin radiator and the vortex tube refrigerator.

6. The sealed cabinet with the damping function according to any one of claims 2 to 5, wherein: and heat insulation cotton is arranged between the side wall outside the cabinet body and the heat dissipation unit.

7. The sealed cabinet with the damping function according to claim 1, wherein: the bottom of the cabinet body is provided with a plurality of rollers.

8. The sealed cabinet with the damping function according to claim 1, wherein: the internal wiring extension joint that extends to the external portion of cabinet that sets up of cabinet.

9. The sealed cabinet with the damping function according to claim 1, wherein: the cabinet body is internally provided with a power supply unit.

10. The sealed cabinet with the damping function according to claim 1, wherein: the drying agent box is arranged in the cabinet body, and a drying agent is arranged in the drying agent box.

Images