CN115733079A - Intelligent heat dissipation device of switch cabinet - Google Patents

Abstract

The invention belongs to the technical field of switch cabinet equipment, and discloses an intelligent heat dissipation device for a switch cabinet, which is technically characterized in that: the intelligent heat dissipation cabinet comprises a cabinet body, the inside heat dissipation chamber of seting up respectively of the relative both sides wall of cabinet body, the louvre with heat dissipation chamber intercommunication is seted up respectively to the both sides wall that the cabinet body is carried on the back mutually, the lateral wall surface that the cabinet position is between two sets of heat dissipation chambers is provided with evenly distributed's ventilation hole, the internal heat dissipation mechanism that is provided with of cabinet, heat dissipation mechanism is including air-cooled subassembly and water-cooling subassembly, the internal roof of cabinet is provided with the intelligent control subassembly, the water-cooling subassembly is including control block, cleaning portion and evaporation zone, mutually supports with the air-cooled subassembly through setting up the water-cooling subassembly that comprises control block, cleaning portion, evaporation zone, can carry out efficient quick heat dissipation to the cabinet body, mutually supports through setting up intelligent control subassembly and air-cooled subassembly, water-cooled subassembly, can carry out automatic control to internal temperature of cabinet.

Description

Intelligent heat dissipation device of switch cabinet

Technical Field

The invention relates to the technical field of switch cabinet equipment, in particular to an intelligent heat dissipation device for a switch cabinet.

Background

The switch cabinet is used for opening, closing, controlling and protecting electric equipment in the process of generating, transmitting electricity, distributing electricity and converting electric energy of an electric power system, and is mainly suitable for various occasions such as power plants, transformer substations, petrochemical industry, metallurgical steel rolling, light industrial textiles, factory and mining enterprises, residential quarters, high-rise buildings and the like.

The electronic module unit in the switch cabinet can generate a large amount of heat during working and must be dissipated in time, otherwise, the temperature in the switch cabinet can be raised, and the normal work of the electronic module unit is influenced.

The existing switch cabinet mainly utilizes natural convection of air to dissipate heat by arranging heat dissipation holes on the side wall of the cabinet body, but the existing heat dissipation mode of the heat dissipation holes is single in heat dissipation mode, limited in heat dissipation effect and incapable of performing rapid cooling and heat dissipation treatment on the interior of the cabinet body.

Disclosure of Invention

The invention aims to provide an intelligent heat dissipation device of a switch cabinet, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

cubical switchboard intelligence heat abstractor, the intelligent heat abstractor comprises a cabinet body, the heat dissipation chamber that the inside wall of the relative both sides of cabinet body was seted up respectively, the heat dissipation chamber is the platykurtic structure, the louvre with heat dissipation chamber intercommunication is seted up respectively to the wall of the cabinet body back of the body both sides that back to the back mutually, the lateral wall surface that the cabinet body lies in between two sets of heat dissipation chambers is provided with evenly distributed's ventilation hole, the internal heat dissipation mechanism that is provided with of cabinet, heat dissipation mechanism is including air-cooled subassembly and water-cooled subassembly, the internal roof of cabinet is provided with intelligent control subassembly, intelligent control subassembly is connected with water-cooled subassembly, air-cooled subassembly is located internal chamber of cabinet respectively, air-cooled subassembly is used for accelerating the internal and external air convection velocity of cabinet, water-cooled subassembly is located the heat dissipation intracavity, water-cooled subassembly is including control block, wiping portion and evaporation portion, the control block is located heat dissipation chamber middle part and along vertical direction and heat dissipation chamber lateral wall sliding connection, wiping portion do not is located the control block both sides and is connected with the control block, wiping portion is used for humidifying the heat dissipation chamber lateral wall, evaporation portion is used for the air flow speed in the heat dissipation chamber lateral wall with higher speed and then heat dissipation chamber lateral wall moisture evaporation with higher speed.

As a further scheme of the invention: the air cooling subassembly rotates the vertical rotary rod that upwards distributes side by side of multiunit of installation including the cabinet body inner bottom wall, the rotary rod surface is provided with multiunit evenly distributed's first flabellum, the rotary rod top is connected with the intelligent control subassembly.

As a further scheme of the invention: the cleaning part comprises a threaded rod rotatably installed between the top wall and the bottom wall of the heat dissipation cavity, the threaded rod is in threaded connection with the control block, two side walls of the control block, which are back to back, are respectively and fixedly provided with a fixed plate, two side walls of the fixed plate, which are back to back, are respectively and fixedly provided with a cleaning sponge attached to the side wall of the heat dissipation cavity, and the threaded rod is connected with the intelligent control assembly.

As a further scheme of the invention: the one end fixed connection's of control block first guard plate is kept away from including the fixed plate to the evaporation department, rotate between first guard plate and the control block and install the dwang, the dwang surface is provided with multiunit evenly distributed's second flabellum, the dwang extends first guard plate and the rotatory fluted disc of fixedly connected with, fixed mounting has the rack of being connected with the meshing of rotatory fluted disc between heat dissipation chamber roof and the diapire.

As a further scheme of the invention: the intelligent control subassembly is including the seal box of the internal roof fixed mounting of cabinet, fixed mounting has the biax motor in the seal box, the both sides output shaft of biax motor is fixed mounting respectively has the axis of rotation, screw rod top fixed mounting has first driven oblique fluted disc, the axis of rotation extends to the heat dissipation intracavity and fixed mounting has the first initiative oblique fluted disc of being connected with the meshing of first driven oblique fluted disc, screw rod top fixed mounting has the driven oblique fluted disc of second, axis of rotation fixed surface installs the second initiative oblique fluted disc of being connected with the meshing of the driven oblique fluted disc of second, seal box diapire fixed mounting has the controller, controller and biax motor electric connection, the controller surface is provided with temperature sensor.

As a further scheme of the invention: the side wall of the cabinet body is inwards provided with a limiting hole communicated with the heat dissipation cavity.

As a further scheme of the invention: the louvre is by the external slope of the cabinet body in the heat dissipation intracavity distribution downwards, the ventilation hole is by the external slope of the cabinet body upwards distribution to the internal slope of cabinet.

As a still further scheme of the invention: and a second protection plate which is rotationally connected with the rotary rod is fixedly arranged between the inner walls of the cabinet body.

Compared with the prior art, the invention has the beneficial effects that: through setting up by the control block, clean the portion, the water cooling component that evaporation portion constitutes mutually supports with the air-cooled subassembly, can carry out efficient quick heat dissipation to the cabinet body, through setting up intelligent control subassembly and mutually supporting with air-cooled subassembly, water cooling component, can carry out automatic control to the internal temperature of cabinet, it is single to have solved its radiating mode of current louvre radiating mode, and the radiating effect is limited, can't carry out the problem of rapid cooling heat dissipation processing to the internal.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent heat dissipation apparatus for a switch cabinet according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a control block in the intelligent heat dissipation device of the switch cabinet and a connection structure thereof according to an embodiment of the present invention.

Fig. 3 is an enlarged structural schematic diagram of a in fig. 1.

Fig. 4 is an external schematic view of a fixing plate and a connection structure thereof in the intelligent heat dissipation device of the switch cabinet according to the embodiment of the present invention.

Wherein: the cabinet body 1, the heat dissipation cavity 2, the heat dissipation holes 3, the ventilation holes 4, the heat dissipation mechanism 5, the air cooling assembly 51, the rotating rod 511, the first fan blade 512, the water cooling assembly 52, the control block 521, the wiping portion 522, the threaded rod 5221, the fixing plate 5222, the wiping sponge 5223, the evaporation portion 523, the rotating rod 5231, the rotating fluted disc 5232, the rack 5233, the first protection plate 5234, the second fan blade 5235, the intelligent control assembly 6, the dual-axis motor 61, the rotating shaft 62, the first driven inclined fluted disc 63, the first driving inclined fluted disc 64, the second driven inclined fluted disc 65, the second driving inclined fluted disc 66, the controller 67, the temperature sensor 68, the limiting hole 7 and the second protection plate 8.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a structure diagram of an intelligent heat dissipation apparatus for a switch cabinet provided by an embodiment of the present invention includes a cabinet 1, heat dissipation cavities 2 respectively formed in two opposite side walls of the cabinet 1, the heat dissipation cavities 2 are of a flat structure, the side walls of the cabinet 1 are made of a heat conductive material, heat dissipation holes 3 communicated with the heat dissipation cavities 2 are respectively formed in two opposite side walls of the cabinet 1, ventilation holes 4 uniformly distributed are formed in a surface of a side wall of the cabinet 1 located between two sets of heat dissipation cavities 2, a heat dissipation mechanism 5 is disposed in the cabinet 1, the heat dissipation mechanism 5 includes an air cooling component 51 and a water cooling component 52, an intelligent control component 6 is disposed on an inner top wall of the cabinet 1, the intelligent control component 6 is respectively connected with the water cooling component 52 and the air cooling component 51, the air cooling component 51 is located in an inner cavity of the cabinet 1, the air cooling component 61 is used for accelerating air convection speed inside and outside the cabinet 1, the water cooling component 52 is located in the heat dissipation cavity 2, the water cooling component 52 includes a cleaning portion 521, a cleaning portion 522 and an evaporation control block 523, the control block 521 is located in the middle of the heat dissipation cavity 2 and is connected with the heat dissipation cavity 2 in a sliding manner for accelerating evaporation speed of the heat dissipation control block 522, and the evaporation control block 521, and the evaporation control block is located on two sides of the side walls of the heat dissipation cavity 2.

When raining, rainwater can flow to the heat dissipation chamber 2 through the louvre 3 and store, and when the rainwater is not enough, can supply through the manual work, and cabinet body 1 when the operation reaches after the internal temperature of cabinet body 1 risees to a certain extent, intelligent control subassembly 6 automatic start is and control forced air cooling subassembly 51 and water cooling subassembly 52, air cooling subassembly 51 operation and ventilation hole 4 mutually support can effectively accelerate the inside and outside air convection velocity of cabinet body 1 and then accelerate the radiating effect, intelligent control subassembly 6 drives control block 521 reciprocating motion from top to bottom in heat dissipation chamber 2, control block 521 and wiping portion 522 mutually support and carry out abundant humidification and wipe the processing to heat dissipation chamber 2 lateral wall, when wiping portion 522 carries out humidification processing, the air flow speed of evaporation portion 523 synchronous acceleration in the heat dissipation chamber 2 and then promote the evaporation rate of heat dissipation chamber 2 lateral wall adhesion moisture, can further improve the radiating effect to cabinet body 1 through the evaporation of moisture heat absorption, when the internal temperature of cabinet body 1 drops to standard temperature after, intelligent control subassembly 6 control forced air cooling subassembly 51 and water cooling subassembly 52 stop the operation.

As shown in fig. 2, as a preferred embodiment of the present invention, the air cooling assembly 51 includes a plurality of sets of rotating rods 511 which are vertically and upwardly arranged in parallel and rotatably installed on the inner bottom wall of the cabinet 1, a plurality of sets of first fan blades 512 which are uniformly distributed are disposed on the surface of the rotating rods 511, and the top ends of the rotating rods 511 are connected to the intelligent control assembly 6.

When using, intelligent control subassembly 6 control rotary rod 511 rotates and then drives first flabellum 512 at the internal rotation of cabinet 1, the air flow speed and then the improvement to the radiating effect of the internal chamber of cabinet 1 that can be convenient for the cabinet body 1 with higher speed of first flabellum 512.

As shown in fig. 2, as a preferred embodiment of the present invention, the wiping portion 522 includes a threaded rod 5221 rotatably installed between the top wall and the bottom wall of the heat dissipation chamber 2, the threaded rod 5221 is in threaded connection with the control block 521, two opposite side walls of the control block 521 are respectively and fixedly installed with a fixing plate 5222, two opposite side walls of the fixing plate 5222 are respectively and fixedly installed with a wiping sponge 5223 attached to the side wall of the heat dissipation chamber 2, and the threaded rod 5221 is connected to the intelligent control component 6.

When using, intelligent control assembly 6 control threaded rod 5221 is rotatory and then drive control block 521 along threaded rod 5221 direction reciprocating motion from top to bottom in heat dissipation chamber 2, control block 521 and fixed plate 5222 mutually support and drive and clean sponge 5223 and remove in heat dissipation chamber 2, when cleaning sponge 5223 downstream to heat dissipation chamber 2 bottom, clean sponge 5223 can adsorb appropriate amount of water automatically, clean sponge 5223 can carry out the automatic humidification of cleaning to heat dissipation chamber 2 lateral wall when the rebound.

As shown in fig. 2, as a preferred embodiment of the present invention, the evaporation portion 523 includes a first protection plate 5234 fixedly connected to one end of the fixing plate 5222 away from the control block 521, a rotating rod 5231 is rotatably installed between the first protection plate 5234 and the control block 521, a plurality of groups of second fan blades 5235 are uniformly distributed on the surface of the rotating rod 5231, the rotating rod 5231 extends out of the first protection plate 5234 and is fixedly connected to a rotating toothed disc 5232, and a rack 5233 engaged with the rotating toothed disc 5232 is fixedly installed between the top wall and the bottom wall of the heat dissipation cavity 2.

When using, control block 521 drives dwang 5231 and reciprocates in the heat dissipation chamber 521 in step when reciprocating in heat dissipation chamber 2, dwang 5231 drives rotatory fluted disc 5232 and rolls along rack 5233 surface, rotatory fluted disc 5232 drives dwang 5231 and carries out the rotation and then drive second flabellum 5235 at the 2 internal rotations of heat dissipation chamber when reciprocating, the evaporation rate of the 2 lateral walls adhering to moisture of heat dissipation chamber is further improved to the air flow speed in second flabellum 5235 acceleration heat dissipation chamber 2, effectively improves cooling radiating effect.

As shown in fig. 2, as a preferred embodiment of the present invention, the intelligent control assembly 6 includes a sealed box fixedly mounted on an inner top wall of the cabinet 1, a dual-shaft motor 61 is fixedly mounted in the sealed box, output shafts at two sides of the dual-shaft motor 61 are respectively and fixedly mounted with a rotating shaft 62, a first driven inclined toothed disc 63 is fixedly mounted at a top end of the threaded rod 5221, the rotating shaft 62 extends into the heat dissipation cavity 2 and is fixedly mounted with a first driving inclined toothed disc 64 engaged with the first driven inclined toothed disc 63, a second driven inclined toothed disc 65 is fixedly mounted at a top end of the rotating rod 511, a second driving inclined toothed disc 66 engaged with the second driven inclined toothed disc 65 is fixedly mounted on a surface of the rotating shaft 62, a controller 67 is fixedly mounted on a bottom wall of the sealed box, the controller 67 is electrically connected with the dual-shaft motor 61, and a temperature sensor 68 is disposed on a surface of the controller 67.

Temperature sensor 68 carries out real-time supervision to the temperature in the cabinet body 1, when the internal high temperature of cabinet, temperature sensor 68 and controller 67 control double-shaft motor 61 start of mutually supporting, double-shaft motor 61 drives the rotation axis 62 rotation and then drives the oblique fluted disc 64 of first initiative and the oblique fluted disc 66 rotation of second initiative, the oblique fluted disc 64 of first initiative and the meshing transmission of first driven oblique fluted disc 63 drive threaded rod 523 at the 2 internal rotations of heat dissipation chamber, the oblique fluted disc 66 of second initiative and the driven oblique fluted disc 65 meshing transmission drive rotary rod 511 at the internal rotation of cabinet body 1.

As shown in fig. 2, as a preferred embodiment of the present invention, the side wall of the cabinet body 1 is inwardly provided with a limiting hole 7 communicated with the heat dissipation chamber 2. Spacing hole 7 can be controlled the volume of storing water in the heat dissipation chamber 2, effectively avoids storing water too much in the heat dissipation chamber 2.

As shown in fig. 2, as a preferred embodiment of the present invention, a second protection plate 8 rotatably connected to the rotating rod 511 is fixedly installed between the inner walls of the cabinet 1. The second prevention plate 8 may effectively improve the stability of the rotation lever 511.

As shown in fig. 2, as a preferred embodiment of the present invention, the heat dissipation holes 3 are distributed from the outside of the cabinet 1 to the inside of the heat dissipation chamber 2 in an inclined downward manner, and the ventilation holes 4 are distributed from the outside of the cabinet 1 to the inside of the cabinet 1 in an inclined upward manner. The louvre 3 can be convenient for outside rainwater is automatic arranges to the heat dissipation chamber 2 in, the ventilation hole 4 can effectively avoid outside dust impurity to fall to the cabinet body 1 inner chamber.

The working principle of the invention is as follows: during raining, the rainwater can flow to the interior storage of heat dissipation chamber 2 through louvre 3, and when the rainwater was not enough, can supply through the manual work, temperature sensor 68 carries out real-time supervision to the temperature of the internal 1 of cabinet, and when the internal temperature of cabinet was too high, temperature sensor 68 and controller 67 control double-shaft motor 61 that mutually supports start, double-shaft motor 61 drives the rotation of axis of rotation 62 and then drives first initiative inclined fluted disc 64 and the rotation of second initiative inclined fluted disc 66, first initiative inclined fluted disc 64 and the meshing transmission of first driven inclined fluted disc 63 drive threaded rod 523 are at the internal rotation of heat dissipation chamber 2, second initiative inclined fluted disc 66 and the meshing transmission of second driven inclined fluted disc 65 drive rotary rod 511 are at the internal rotation of cabinet 1, and rotary rod 511 rotates and drives first flabellum 512 at the internal rotation of cabinet 1, the air flow speed and then the radiating effect to the internal chamber of cabinet 1 of cabinet with higher speed that first flabellum 512 can be convenient. Threaded rod 5221 is rotatory to drive control piece 521 along threaded rod 5221 direction reciprocating motion from top to bottom in heat dissipation chamber 2, control piece 521 and fixed plate 5222 mutually support the drive and clean sponge 5223 and remove in heat dissipation chamber 2, clean sponge 5223 when downshifting to heat dissipation chamber 2 bottom, it can adsorb appropriate amount of water automatically to clean sponge 5223, it can carry out the humidification of automatic cleaning to heat dissipation chamber 2 lateral wall when the upstroke to clean sponge 5223, control piece 521 drives dwang 5231 and reciprocates in heat dissipation chamber 521 in step when reciprocating in heat dissipation chamber 2, dwang 5231 drives rotatory fluted disc 5232 and rolls along rack 5233 surface, rotatory fluted disc 5232 drives dwang 5231 and carries out the rotation and then drive second flabellum 5235 at heat dissipation chamber 2 internal rotation when reciprocating, second flabellum 5235 further improves the evaporation rate of heat dissipation chamber 2 lateral wall attached moisture with higher speed of the air flow in the heat dissipation chamber 2, effectively improves cooling radiating effect.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (8)

1. Cubical switchboard intelligence heat abstractor, including the cabinet body, its characterized in that, the heat dissipation chamber that the inside wall of the relative both sides of cabinet body was seted up respectively, the heat dissipation chamber is the platykurtic structure, the louvre with heat dissipation chamber intercommunication is seted up respectively to the wall of the opposite both sides of the cabinet body back of the body, the lateral wall surface that the cabinet position is between two sets of heat dissipation chambers is provided with evenly distributed's ventilation hole, the internal heat dissipation mechanism that is provided with of cabinet, heat dissipation mechanism is including air-cooled subassembly and water-cooled subassembly, the internal roof of cabinet is provided with the intelligent control subassembly, the intelligent control subassembly is connected with water-cooled subassembly, air-cooled subassembly is located internal chamber of cabinet respectively, the air-cooled subassembly is used for accelerating the internal and external air convection velocity of cabinet, water-cooled subassembly is located the heat dissipation intracavity, water-cooled subassembly is including control block, wiping portion and evaporation portion, the control block is located heat dissipation chamber middle part and along vertical direction and heat dissipation chamber lateral wall sliding connection, wiping portion is located the control block both sides respectively and is connected with the control block, wiping portion is used for humidifying the heat dissipation chamber lateral wall, the evaporation portion is used for the air flow speed in the heat dissipation chamber lateral wall with higher speed and then with higher speed.

2. The intelligent heat dissipation device for switch cabinets according to claim 1, wherein the air cooling assembly comprises a plurality of groups of vertically upward parallel rotating rods rotatably mounted on the inner bottom wall of the cabinet body, a plurality of groups of first fan blades uniformly distributed are arranged on the surfaces of the rotating rods, and the top ends of the rotating rods are connected with the intelligent control assembly.

3. The intelligent heat dissipation device of switch cabinet according to claim 2, wherein the wiping portion comprises a threaded rod rotatably mounted between the top wall and the bottom wall of the heat dissipation chamber, the threaded rod is in threaded connection with the control block, two opposite side walls of the control block are respectively and fixedly provided with a fixing plate, two opposite side walls of the fixing plate are respectively and fixedly provided with a wiping sponge attached to the side walls of the heat dissipation chamber, and the threaded rod is connected with the intelligent control component.

4. The intelligent heat dissipation device for the switch cabinet according to claim 3, wherein the evaporation portion comprises a first protection plate fixedly connected to one end of a fixing plate far away from the control block, a rotating rod is rotatably installed between the first protection plate and the control block, a plurality of groups of second fan blades uniformly distributed are arranged on the surface of the rotating rod, the rotating rod extends out of the first protection plate and is fixedly connected with a rotating fluted disc, and a rack meshed with the rotating fluted disc is fixedly installed between the top wall and the bottom wall of the heat dissipation cavity.

5. The intelligent heat dissipation device for the switch cabinet according to claim 3, wherein the intelligent control assembly comprises a sealed box fixedly mounted on an inner top wall of the cabinet body, a double-shaft motor is fixedly mounted in the sealed box, output shafts on two sides of the double-shaft motor are respectively and fixedly mounted with a rotating shaft, a first driven inclined fluted disc is fixedly mounted on a top end of the threaded rod, the rotating shaft extends into the heat dissipation cavity and is fixedly mounted with a first driving inclined fluted disc meshed with the first driven inclined fluted disc, a second driven inclined fluted disc is fixedly mounted on a top end of the rotating rod, a second driving inclined fluted disc meshed with the second driven inclined fluted disc is fixedly mounted on a surface of the rotating shaft, a controller is fixedly mounted on a bottom wall of the sealed box, the controller is electrically connected with the double-shaft motor, and a temperature sensor is arranged on a surface of the controller.

6. The intelligent heat dissipation device of switch cabinet according to claim 1, wherein the side wall of the cabinet body is provided with a limiting hole inwardly communicated with the heat dissipation cavity.

7. The intelligent heat dissipation device for the switch cabinet as claimed in claim 2, wherein a second protection plate rotatably connected with the rotating rod is fixedly installed between the inner walls of the cabinet body.

8. The intelligent heat dissipation device for switch cabinets according to claim 1, wherein the heat dissipation holes are distributed from the outside of the cabinet to the inside of the heat dissipation chamber, and the ventilation holes are distributed from the outside of the cabinet to the inside of the cabinet.

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