CN219106872U - Switch cabinet with built-in diversion heat dissipation structure for electrical engineering - Google Patents

Abstract

The utility model discloses a switch cabinet with a built-in diversion heat dissipation structure for electrical engineering, which comprises a switch cabinet main body, a heat exchanger main body and a humidity sensor. The back wall of cubical switchboard main part runs through and installs the fan box, the internally mounted of fan box has the fan, the back side mounting of cubical switchboard main part has the loading board, the back side mounting of fan box has the honeycomb duct, the back wall of cubical switchboard main part runs through and is provided with the first heat dissipation groove that the equidistance was arranged from top to bottom. A humidity sensor is mounted on the inner wall of one side of the switch cabinet main body. According to the utility model, the fan is started by installing the heat exchanger main body, the bearing plate, the fan box, the flow guide pipe and the first heat dissipation groove, then the heat in the switch cabinet is extracted, and in the extraction process, part of the heat in the switch cabinet is converted by the heat exchanger and then extracted to the outside of the switch cabinet by the fan, so that the heat dissipation efficiency of the switch cabinet is ensured.

Description

Switch cabinet with built-in diversion heat dissipation structure for electrical engineering

Technical Field

The utility model relates to a heat dissipation technology of a switch cabinet, in particular to a switch cabinet with a built-in diversion heat dissipation structure for electrical engineering.

Background

The switch cabinet is an electrical device, the external line of the switch cabinet firstly enters the main control switch in the cabinet and then enters the sub-control switch, and each shunt is arranged according to the requirements of the switch cabinet, such as an instrument, an automatic control, a motor magnetic switch, various alternating current contactors and the like, but in the use process of the existing switch cabinet, the internal electrical heat damage condition is usually caused due to the fact that the internal heat of the existing switch cabinet is too high, so that the switch cabinet with the built-in diversion heat dissipation structure for electrical engineering is urgently needed.

The existing switch cabinet has the defects that: patent document CN209675799U discloses a cubical switchboard with movable cubical switchboard bracket device, comprising a base plate, the bottom of bottom plate is equipped with four damper, damper's bottom is equipped with moving mechanism, the intermediate position department of bottom plate is equipped with fixed establishment, the upper surface of bottom plate is equipped with the cubical switchboard main part, the side of cubical switchboard main part is equipped with the radiating groove, the radiating inslot is equipped with the heating panel, and this cubical switchboard with movable cubical switchboard bracket device is convenient for drive this cubical switchboard and removes, saves staff's physical power, and the flexibility is higher, is convenient for place this cubical switchboard stable, and stability is better, convenient to use, and is convenient for adjust this cubical switchboard holistic height, is convenient for improve this cubical switchboard's shock attenuation when removing, is convenient for improve the heat dissipation of this cubical switchboard, is convenient for prevent that the dust from getting into inside the cubical switchboard main part, is convenient for drive the bracket and reciprocates, and it is comparatively convenient to use. However, the switch cabinet disclosed in the above publication can only adjust the height of the switch cabinet at will, and the inside of the switch cabinet is not provided with a diversion heat dissipation device, so that the heat dissipation effect is poor, and the use of internal electrical equipment is easily affected.

In view of the foregoing, it is necessary to develop a switch cabinet with a diversion heat dissipation structure, so as to avoid the influence on the use of electrical equipment caused by heat accumulation, thereby being beneficial to improving the use safety of the electrical equipment.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides the switch cabinet with the built-in diversion heat dissipation structure for electrical engineering, and the heat dissipation efficiency of the switch cabinet is ensured.

The technical scheme of the utility model is realized as follows:

the switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering comprises a switch cabinet main body, a heat exchanger main body and a humidity sensor, and is characterized in that the heat exchanger main body is arranged on the bottom wall of the switch cabinet main body,

the back wall of cubical switchboard main part runs through and installs the fan box, the internally mounted of fan box has the fan, the back-mounted of cubical switchboard main part has the loading board, and the top of loading board is connected with the bottom of fan box, the back-mounted of fan box has the honeycomb duct, the back wall of cubical switchboard main part runs through and is provided with the first heat dissipation groove that the equidistance was arranged from top to bottom, and first heat dissipation groove is located the top and the below of fan box respectively, humidity transducer is installed to one side inner wall of cubical switchboard main part.

In the switch cabinet with the built-in diversion heat dissipation structure, the dehumidifier is arranged on the inner wall of the other side of the switch cabinet main body, the back surface of the dehumidifier penetrates through the inside of the switch cabinet main body, the water outlet pipe is arranged on the back surface of the dehumidifier, the object placing plate is arranged on the outer wall of one side of the switch cabinet main body and is concave, the water storage frame is slidably arranged at the top of the object placing plate, the water outlet pipe is positioned in the water storage frame, and the pull ring is arranged on the outer wall of one side of the water storage frame.

In the switch cabinet with the built-in diversion heat dissipation structure, the inner walls of the two sides of the switch cabinet main body are all provided with the second heat dissipation grooves in a penetrating mode, one group of the second heat dissipation grooves are located below the side of the humidity sensor, and the other group of the second heat dissipation grooves are located behind the storage plate.

In the switch cabinet with the built-in diversion heat dissipation structure, cabinet doors which are arranged up and down are arranged on the front face of a switch cabinet main body through hinges, iron blocks are arranged on the back faces of two groups of cabinet doors, three groups of storage holes which are arranged at equal intervals are arranged on the front face of the switch cabinet main body, electromagnets are embedded in the storage holes, and the iron blocks are located in the storage holes.

In the switch cabinet with the built-in diversion heat dissipation structure, the protective cover is arranged on the front face of the cabinet door below, the protective cover is concave, the controller is arranged on the front wall of the protective cover, sliding grooves are formed in the inner walls of the two sides of the protective cover, the cover plate is arranged in the sliding grooves in a sliding mode, and the cover plate is located in front of the controller.

In the switch cabinet with the built-in diversion heat dissipation structure, the front surface of the cabinet door below is provided with the up-and-down arranged observation windows in a penetrating way, and the two groups of observation windows are respectively positioned above and below the protective cover.

In the switch cabinet with the built-in diversion heat dissipation structure, the top wall of the switch cabinet main body is provided with the illuminating lamp, and the illuminating lamp is electrically connected with the controller.

The switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering has the following beneficial effects: according to the utility model, the heat exchanger main body, the bearing plate, the fan box, the guide pipe and the first radiating groove are arranged, in the use process, the fan in the fan box is started, then the heat in the switch cabinet is extracted, in the extraction process, part of the heat in the switch cabinet is converted through the heat exchanger and then is extracted to the outside of the switch cabinet through the fan, and the guide pipe is arranged, so that the heat can be intensively radiated, the probability that the exhausted hot air returns to the switch cabinet through the first radiating plate can be reduced to a certain extent, and the radiating efficiency of the switch cabinet is further ensured. Still through installing humidity transducer, dehumidifier, put thing board and water storage frame, after humidity transducer detects the interior moisture index of cubical switchboard and reaches certain threshold value, the dehumidifier starts to can be with outside the moisture passes through the dehumidifier and extract the cubical switchboard, at this in-process, can liquefy into the drop of water after the inside moisture of dehumidifier contacts with the outlet pipe, then drip in the water storage frame through the outlet pipe, thereby play the effect of dehumidification, and then can reduce the influence of moisture to the electrical in the cubical switchboard to a certain extent, and then improve the security that the cubical switchboard used.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

fig. 2 is a schematic diagram of an assembled structure of a switch cabinet body and a humidity sensor of the present utility model;

FIG. 3 is an overall side view of the present utility model;

FIG. 4 is a schematic diagram of an assembled structure of the protective cover of the present utility model;

FIG. 5 is a schematic view of an assembled structure of a heat exchanger body according to the present utility model;

the reference numerals are expressed as: 1 switch cabinet main body, 101 cabinet door, 102 iron block, 103 storage hole, 104 electro-magnet, 2 heat exchanger main body, 201 loading board, 202 fan box, 203 honeycomb duct, 204 first heat dissipation groove, 3 humidity transducer, 301 dehumidifier, 302 storage board, 303 water storage frame, 4 second heat dissipation groove, 5 observation window, 6 safety cover, 601 apron, 602 controller, 7 light.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 5, the switch cabinet with the built-in diversion heat dissipation structure for electrical engineering of the present utility model comprises a heat exchanger main body 2 and a second heat dissipation groove 4. The heat exchanger main part 2 is installed to the diapire of cubical switchboard main part 1, the back wall of cubical switchboard main part 1 runs through and installs fan box 202, the internally mounted of fan box 202 has the fan, the back side mounting of cubical switchboard main part 1 has loading board 201, and the top of loading board 201 is connected with the bottom of fan box 202, the back side mounting of fan box 202 has honeycomb duct 203, the back wall of cubical switchboard main part 1 runs through and is provided with the first heat dissipation groove 204 that the equidistance was arranged from top to bottom, and first heat dissipation groove 204 is located the top and the below of fan box 202 respectively, the both sides inner wall of cubical switchboard main part 1 all runs through and is provided with second heat dissipation groove 4, wherein a set of second heat dissipation groove 4 is located humidity transducer 3's side below, another set of second heat dissipation groove 4 is located the rear of putting the thing board 302. Specifically, firstly, the fan in the fan box 202 is started, then the hot air in the switch cabinet main body 1 is discharged through the flow guide pipe 203, after the extracted hot air contacts with the heat exchanger main body 2 in the process, part of heat in the hot air can be absorbed and converted by the heat exchanger main body 2, then the rest heat in the hot air can be extracted from the inside of the switch cabinet main body 1 by the fan, and the arrangement of the first heat dissipation groove 204 and the second heat dissipation groove 4 can increase the air flow flux, so that the heat dissipation effect can be improved to a certain extent.

In this embodiment, as shown in fig. 2, a switch cabinet with a built-in diversion heat dissipation structure for electrical engineering further includes a humidity sensor 3. The humidity sensor 3 is installed to one side inner wall of switch cabinet main part 1, dehumidifier 301 is installed to the opposite side inner wall of switch cabinet main part 1, the inside of switch cabinet main part 1 is run through to the back of dehumidifier 301, the outlet pipe is installed to the back of dehumidifier 301, put thing board 302 is installed to one side outer wall of switch cabinet main part 1, and put thing board 302 and be "concave" style of calligraphy, the top slidable mounting of putting thing board 302 has water storage frame 303, the outlet pipe is located the inside of water storage frame 303, the pull ring is installed to one side outer wall of water storage frame 303. Specifically, when the humidity sensor 3 in the switch cabinet main body 1 detects that the humidity index rises to a certain threshold value, the dehumidifier 301 is started, so that the humidity in the switch cabinet main body 1 can be extracted through the dehumidifier 301, the humidity in the dehumidifier 301 can be liquefied into small water drops after contacting with the water outlet pipe, and then the small water drops drop into the water storage frame 303 on the storage plate 302 along the water outlet pipe, and when the water in the water storage frame 303 is full, the pull ring is pulled outwards, so that the water storage frame 303 is no longer positioned on the storage plate 302. Further, the water in the water storage frame 303 can be treated, and the influence of moisture on the electric appliances inside the switch cabinet main body 1 can be reduced to a certain extent.

As shown in fig. 3 and fig. 4, a switch cabinet with built-in diversion and heat dissipation structure for electrical engineering comprises a switch cabinet main body 1, an observation window 5, a protection cover 6 and an illuminating lamp 7, wherein cabinet doors 101 which are arranged up and down are installed on the front surface of the switch cabinet main body 1 through hinges, iron blocks 102 are installed on the back surfaces of two groups of cabinet doors 101, three groups of storage holes 103 which are arranged at equal intervals are arranged on the front surface of the switch cabinet main body 1, electromagnets 104 are installed in the embedded mode of the storage holes 103, the iron blocks 102 are located in the storage holes 103, a protection cover 6 is installed on the front surface of the lower cabinet door 101, the protection cover 6 is in a concave shape, a controller 602 is installed on the front wall of the protection cover 6, sliding grooves are formed in the inner walls of two sides of the protection cover 6, cover plates 601 are located in front of the controller 602, the observation windows 5 which are arranged up and down are installed in a penetrating mode on the front surface of the lower cabinet door 101, the two groups of the observation windows 5 are located above and below the protection cover 6 respectively, the top wall of the switch cabinet main body 1 is provided with the illuminating lamp 7, and the electric connection between the illuminating lamp 7 and the controller 602 is achieved. Specifically, the electromagnet 104 is electrified, then the cabinet door 101 is pushed, the iron block 102 can be embedded with the object placing hole 103, and then can be attracted with the electromagnet 104, so that the cabinet door 101 is tightly closed, when the electricity in the switch cabinet main body 1 needs to be overhauled, the inside of the switch cabinet main body 1 can be observed through the observation window 5, the cover plate 601 can be pulled upwards, the cover plate 601 can not be embedded with the protective cover 6 any more, the controller 602 in the inside can be exposed, then the illuminating lamp 7 is started, the inside of the switch cabinet main body 1 can be clearly watched by a worker, and convenience is provided for overhauling of the worker to a certain extent.

Working principle: first, the cabinet door 101 is closed through a hinge, so that the iron block 102 can be positioned in the object placing hole 103, then the electromagnet 104 is electrified, and the iron block 102 can be attracted with the electromagnet 104, so that the cabinet door 101 is tightly closed. Heat generated in the switch cabinet body 1 can flow out through the first heat dissipation groove 204 and the second heat dissipation groove 4, a fan in the fan box 202 is started, then hot air in the switch cabinet body 1 can be extracted through the flow guide pipe 203 by the fan, in the process, the hot air can be firstly contacted with the heat exchanger body 2, then part of heat is extracted by the heat exchanger body 2 and then is discharged, and the heat exchange efficiency in the switch cabinet body 1 can be improved to a certain extent. When the humidity sensor 3 in the switch cabinet main body 1 detects that the humidity index rises to a certain threshold value, the dehumidifier 301 is started, so that the humidity in the switch cabinet main body 1 can be extracted, in the process, the humidity in the dehumidifier 301 contacts with the water outlet pipe to be liquefied into small water drops, and then the small water drops drop into the water storage frame 303 through the water outlet pipe, so that the collection effect is achieved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (7)

1. The switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering comprises a switch cabinet main body, a heat exchanger main body and a humidity sensor, and is characterized in that the heat exchanger main body is arranged on the bottom wall of the switch cabinet main body,

the back wall of cubical switchboard main part runs through and installs the fan box, the internally mounted of fan box has the fan, the back-mounted of cubical switchboard main part has the loading board, and the top of loading board is connected with the bottom of fan box, the back-mounted of fan box has the honeycomb duct, the back wall of cubical switchboard main part runs through and is provided with the first heat dissipation groove that the equidistance was arranged from top to bottom, and first heat dissipation groove is located the top and the below of fan box respectively, humidity transducer is installed to one side inner wall of cubical switchboard main part.

2. The switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering according to claim 1, wherein a dehumidifier is installed on the inner wall of the other side of the switch cabinet main body, the back of the dehumidifier penetrates through the inside of the switch cabinet main body, a water outlet pipe is installed on the back of the dehumidifier, a storage plate is installed on the outer wall of one side of the switch cabinet main body and is in a concave shape, a water storage frame is slidably installed on the top of the storage plate, the water outlet pipe is located inside the water storage frame, and a pull ring is installed on the outer wall of one side of the water storage frame.

3. The switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering according to claim 1, wherein second heat dissipation grooves are formed in the inner walls of the two sides of the switch cabinet body in a penetrating mode, one group of the second heat dissipation grooves are located below the side of the humidity sensor, and the other group of the second heat dissipation grooves are located behind the storage plate.

4. The switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering according to claim 1, wherein cabinet doors which are arranged up and down are arranged on the front surface of the switch cabinet main body through hinges, iron blocks are arranged on the back surfaces of two groups of cabinet doors, three groups of storage holes which are arranged at equal intervals are arranged on the front surface of the switch cabinet main body, electromagnets are embedded in the storage holes, and the iron blocks are positioned in the storage holes.

5. The switch cabinet with the built-in diversion heat dissipation structure for the electrical engineering according to claim 4, wherein the protective cover is installed on the front face of the cabinet door below and is concave, the controller is installed on the front wall of the protective cover, sliding grooves are formed in the inner walls of the two sides of the protective cover, the cover plate is installed in the sliding mode inside the sliding grooves, and the cover plate is located in front of the controller.

6. The switch cabinet with the built-in diversion heat dissipation structure for electrical engineering according to claim 4, wherein the front surface of the cabinet door below is provided with observation windows which are arranged up and down in a penetrating way, and the two groups of observation windows are respectively positioned above and below the protective cover.

7. The switch cabinet with the built-in diversion heat dissipation structure for electrical engineering according to claim 1, wherein the top wall of the switch cabinet body is provided with an illuminating lamp, and the illuminating lamp is electrically connected with the controller.

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