CN116014593A - Feeder cabinet with movable heat dissipation device - Google Patents

Abstract

The invention relates to the technical field of feeder cabinets and discloses a feeder cabinet with a movable heat dissipation device, which comprises a cabinet body, a cabinet door and a cooling mechanism, wherein the cooling mechanism is used for generating cold air to cool and dissipate heat in the cabinet body; the suction device is used for sucking hot air in the cabinet body; the heat dissipation mechanism is used for performing air cooling heat dissipation on the cabinet body; the heat radiation mechanism comprises a heat radiation fan, an air duct opening adjusting device and an air direction adjusting device. This feeder cabinet with remove heat abstractor can adjust the position of radiator fan air outlet through the wind channel mouth adjusting device who sets up, can adjust the position of air outlet according to electrical equipment's position to the radiator fan that makes the radiator fan produce can directly carry out the forced air cooling to the electrical apparatus of different mounting heights and dispel the heat, the improvement radiating efficiency of maximize, and need not to install a plurality of fans, and whole wind flow is to electrical apparatus heat dissipation from the side, compare in traditional from the ground heat dissipation of blowing, its radiating efficiency also can further improve.

Description

Feeder cabinet with movable heat dissipation device

Technical Field

The invention relates to the technical field of feeder cabinets, in particular to a feeder cabinet with a movable heat dissipation device.

Background

The feeder cabinets, i.e. the distribution cabinets, have the main function of distributing and providing power to the external equipment. The feeder cabinet is used as an electric power distribution device for feeding electric energy to different loads through the cabinet, is widely applied in the fields of chemical industry, energy sources, electric power, traffic and fire protection, is one of indispensable equipment in the electric power industry, and has been developed rapidly and technology is mature for many years.

And because the feeder cabinet is internally required to be provided with a plurality of devices such as a closing bus, a control bus, a circuit breaker, a current transformer … and the like, a large amount of heat can be generated in the operation process of internal devices, and the accelerated aging of the devices and wires can be caused by excessive heat, so that the operation of the internal devices is greatly hindered, even the situation that the wires are not timely triggered by heat dissipation is likely to occur, most of the prior art adopts fans for air-cooling heat dissipation, the mode is too monotonous, the air-cooling heat dissipation effect is intended to be improved, the number of the fans can only be increased, the number of the fans is increased, the whole device installation and use space is limited, the volume is increased, the consumed electric energy is increased, and the cost is gradually increased. And the fan position of some equipment is fixed, but the inside heating point of feeder cabinet is different, can't be timely effectual to a plurality of heating points effectively cool down, because traditional fan is installed in cabinet body bottom, but the cabinet body has the mounting panel, when the wind direction upwards dispels the heat from the bottom, the mounting panel has very big blocking to the wind flow, leads to the equipment wind flow at the top can't carry out high-efficient heat dissipation to it, finally leads to whole feeder cabinet inside radiating efficiency to reduce, the uneven problem of heat dissipation, so put forward a feeder cabinet with remove heat abstractor and solve above-mentioned problem that proposes.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a feeder cabinet with a mobile heat dissipation device, which solves the problems that in the prior art, the position of a fan is fixed, the air cooling area of the fan cannot be controlled according to the position of a heating point, so that the cooling efficiency is low, and the cooling and the heat dissipation are uneven.

Two technical schemes

In order to achieve the above purpose, the present invention provides the following technical solutions:

the feeder cabinet with the movable heat dissipation device comprises a cabinet body, a cabinet door and a cooling mechanism, wherein the cooling mechanism is used for generating cold air to cool and dissipate heat in the cabinet body; the suction device is used for sucking hot air in the cabinet body; the heat dissipation mechanism is used for performing air cooling heat dissipation on the cabinet body; the heat dissipation mechanism comprises a heat dissipation fan, an air duct opening adjusting device and an air direction adjusting device, wherein the air duct opening adjusting device is used for adjusting the position of an air outlet, and the air direction adjusting device is used for controlling the angle of the heat dissipation fan to fan out air.

Preferably, the cooling mechanism comprises a box body, the box body is arranged at the bottom of the cabinet body, a containing cavity is formed in the box body, a semiconductor refrigerator is installed in the containing cavity, an exhaust pipe is communicated with the box body, one end of the exhaust pipe is connected with an air suction frame, the air suction frame is connected with the cabinet body, a filter screen is arranged in the air suction frame, and air inlet pipes are communicated with two sides of the box body.

Preferably, the inside of the box body is provided with an intercommunication groove, and the inside of the box body is fixedly connected with a baffle plate.

Preferably, the filter screen includes preceding filter screen and back filter screen, is provided with the sponge piece that absorbs moisture between preceding filter screen and the back filter screen, preceding filter screen fixed connection on the frame of breathing in.

Preferably, the water pump is placed in the cavity, the water pump is connected with the back flow, the back flow is fixedly installed in the cabinet, the heat dissipation groove and the back flow groove are formed in the cabinet, and the back flow groove is communicated with the cavity.

Preferably, the air duct opening adjusting device comprises a plurality of partition boards frames, and the partition boards are provided with channel pipes;

the baffle frame comprises a positioning plate, the positioning plate is connected with a pull plate in a sliding manner, the pull plate is connected with a channel pipe, a baffle is fixedly connected to the channel pipe, a clamping device is arranged on the baffle and connected with a frame, and the frame is fixedly arranged in the cabinet body;

the clamping device comprises two telescopic slide bars, a connecting spring is arranged between the two telescopic slide bars, and clamping holes matched with the two telescopic slide bars are formed in the frame.

Preferably, the wind direction adjusting device comprises a movable frame, a meshing toothed plate is connected to the movable frame, a fixed gear is meshed to the meshing toothed plate, a rotating shaft is fixedly connected to the fixed gear, a base is fixedly connected to the rotating shaft, the base is connected with a cooling fan, rubber balls are arranged on the movable frame, helium is injected into the rubber balls, and a telescopic spring is arranged between the movable frame and the frame.

Preferably, the inner wall fixedly connected with right angle grid of the cabinet body, radiator fan are located the inside of right angle grid, install the closing plate on the right angle grid, and the closing plate is connected with the baffle frame.

Preferably, the suction device comprises a runner box, the runner box is fixedly arranged at the top of the cabinet body, a drainage groove is formed in the top of the cabinet body and located in the runner box, a fan is arranged on the runner box, and a heat dissipation opening is formed in one end of the runner box.

Preferably, the mounting plate is fixedly arranged in the cabinet body, and the cabinet door is provided with a control key.

Three beneficial effects

Compared with the prior art, the invention provides the feeder cabinet with the mobile heat dissipation device, which has the following beneficial effects:

1. this feeder cabinet with remove heat abstractor, can adjust the position of radiator fan air outlet through the wind channel mouth adjusting device who sets up, so after installer at cabinet body internally mounted electrical equipment, can adjust the position of air outlet according to electrical equipment's position, thereby make the radiating wind that radiator fan produced, can directly carry out the forced air cooling to the electrical equipment of different mounting heights and dispel the heat, the improvement radiating efficiency of maximize, and need not to install a plurality of fans, and whole wind current is to electrical equipment heat dissipation from the side, compare in traditional follow the ground heat dissipation of blowing, its radiating efficiency also can further improve, simultaneously to floating the heat flow at cabinet body top by suction device pumps, take out from the cabinet body with heat maximize.

2. This feeder cabinet with remove heat abstractor through the wind direction adjusting device who sets up, can be according to the internal heat of cabinet automatic regulation fan's angle of blowing, conveniently the angle of blowing of heat under the different degree is adjusted to improve the radiating effect.

3. This feeder cabinet with remove heat abstractor can produce cold air in cabinet body bottom through the cooling body who sets up to in the whole space of the cabinet body is transmitted cold air to by the back flow, thereby guarantee the internal cooling effect of cabinet, and keep the thermostability in the cabinet body, solve the cabinet body because the heat level of uneven heat that leads to is different the condition. And the cooling air in the cooling mechanism is sucked out by the cooling fan and blown into the cabinet body, so that the cooling efficiency and the cooling balance are further improved.

Drawings

Fig. 1 is a schematic diagram of an overall closed structure of a feeder cabinet with a mobile heat dissipation device according to the present invention;

FIG. 2 is a schematic diagram showing an overall open state of a feeder cabinet with a mobile heat sink according to the present invention;

FIG. 3 is a schematic view of a heat dissipation mechanism of a feeder cabinet with a mobile heat dissipation device according to the present invention;

FIG. 4 is a schematic diagram of a structure of a partition frame of a feeder cabinet with a mobile heat sink according to the present invention;

FIG. 5 is a schematic diagram showing the connection between a frame of a feeder cabinet with a mobile heat sink and a heat dissipation mechanism according to the present invention;

fig. 6 is a schematic diagram of a clamping device of a feeder cabinet with a mobile heat dissipation device according to the present invention;

FIG. 7 is a schematic view of a wind direction adjusting device of a feeder cabinet with a movable heat dissipating device according to the present invention;

FIG. 8 is a schematic diagram of a cooling mechanism of a feeder cabinet with a mobile heat sink according to the present invention;

FIG. 9 is a schematic diagram of a filter screen structure of a feeder cabinet with a mobile heat sink according to the present invention;

FIG. 10 is a schematic diagram of a return line connection of a feeder cabinet with a mobile heat sink according to the present invention;

fig. 11 is a schematic diagram of a suction device of a feeder cabinet with a mobile heat sink according to the present invention.

In the figure: 1. a cabinet body; 2. a cabinet door; 3. a cooling mechanism; 301. a case; 302. a partition plate; 303. an air suction frame; 304. an exhaust pipe; 305. a filter screen; 3051. a front filter screen; 3052. a sponge sheet; 3053. a rear filter screen; 306. a cavity; 307. a semiconductor refrigerator; 308. an air inlet pipe; 309. an intercommunication groove; 312. a return pipe; 313. a heat dissipation groove; 314. a reflux groove; 315. a water pump; 4. a suction device; 41. drainage grooves; 42. a flow channel box; 43. a blower; 44. a heat dissipation port; 5. a heat dissipation mechanism; 501. a right angle grid; 502. a heat radiation fan; 503. a base; 504. a rotation shaft; 505. a sealing plate; 506. partition board frame; 5061. a positioning plate; 5062. pulling a plate; 507. a channel tube; 508. a baffle; 509. a clamping device; 5091. a telescopic slide bar; 5092. a connecting spring; 510. a fixed gear; 511. engaging the toothed plate; 512. a movable frame; 513. rubber balls; 514. a telescopic spring; 6. a control key; 7. a mounting plate; 8. and a frame.

Detailed Description

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

Referring to fig. 1-11, a feeder cabinet with a movable heat dissipation device comprises a cabinet body 1 and a cabinet door 2, wherein a mounting plate 7 is fixedly arranged in the cabinet body 1, and a control key 6 is arranged on the cabinet door 2.

Referring to fig. 8-10, a cooling mechanism 3 is used for generating cold air to cool and dissipate heat in the cabinet 1;

the cooling mechanism 3 comprises a box 301, the box 301 is arranged at the bottom of the cabinet 1, a containing cavity 306 is arranged in the box 301, a semiconductor refrigerator 307 is arranged in the containing cavity 306, and the semiconductor refrigerator 307 is a device for preparing cold energy by utilizing the thermoelectric effect of a semiconductor, and is also called a thermoelectric refrigerator. Two different metals are connected by a conductor, and when direct current is conducted, the temperature at one junction is reduced, and the temperature at the other junction is increased. Utilize the low temperature end to carry out the chronogenesis cooling to the cooling water, the intercommunication has the exhaust tube 304 on the box 301, and the one end of exhaust tube 304 is connected with the frame 303 of breathing in, and the frame 303 of breathing in is connected with cabinet 1, and the inside of frame 303 of breathing in is provided with filter screen 305, and the both sides intercommunication of box 301 has intake pipe 308. The cold air is pumped into the cabinet 1 from the inside by the channel of the air pumping pipe 304, and the air flow will contain the cold air at this time, so as to improve the heat dissipation effect, and the outside air enters the interior of the cabinet 301 from the air inlet pipe 308 during the pumping process, so as to realize air circulation. The interior of the tank 301 is provided with an intercommunication groove 309, and the design of the intercommunication groove 309 is to keep the cooling water at the bottom of the tank 301 at a low temperature synchronous state and to realize the effect of bidirectional synchronous cooling and air extraction. A partition plate 302 is fixedly connected to the inside of the case 301. And a plurality of baffles 302 of setting, in order to guarantee to get into the inside air of box 301 and cool down, so the return type passageway of setting can make the air circulation time that gets into box 301 improve, avoids appearing that external suction enters into the air cooling of box 301 untimely, and radiator fan 502 still inhales the hot air and cools down to cabinet body 1 inside, leads to the condition that the cooling effect is low. The filter screen 305 includes a front filter screen 3051 and a rear filter screen 3053, a sponge sheet 3052 for absorbing moisture is disposed between the front filter screen 3051 and the rear filter screen 3053, and the front filter screen 3051 is fixedly connected to the suction frame 303. The sponge sheet 3052 is provided to effectively absorb moisture in the cold air, so as to prevent the moisture in the cold air from affecting the electric operation inside the cabinet body 1 along with the air circulation.

A water pump 315 is arranged in the cavity 306, a return pipe 312 is connected to the water pump 315, the return pipe 312 is fixedly arranged in the cabinet body 1, a heat dissipation groove 313 and a return groove 314 are formed in the cabinet body 1, and the return groove 314 is communicated with the cavity 306. Because the water pump 315 is provided to generate a backflow of the cooling water in the cavity 306 from the interior of the backflow pipe 312 in consideration of the constant temperature and uniform heat dissipation in the cabinet 1, the surface of the backflow pipe 312 generates low-temperature air, and the low-temperature air is radiated from the position of the heat dissipation groove 313 to the interior of the cabinet 1, thereby ensuring the constant temperature in the cabinet and further improving the cooling effect.

Referring to fig. 11, a suction device 4 is used for sucking hot air inside the cabinet 1; the suction device 4 comprises a runner box 42, the runner box 42 is fixedly arranged at the top of the cabinet body 1, a drainage groove 41 is arranged at the top of the cabinet body 1 and positioned in the runner box 42, a fan 43 is arranged on the runner box 42, and a heat dissipation port 44 is arranged at one end of the runner box 42

Referring to fig. 3-7, a heat dissipation mechanism 5 is used for performing air cooling heat dissipation on the cabinet body 1;

the heat dissipation mechanism 5 comprises a heat dissipation fan 502, an air duct opening adjusting device and an air direction adjusting device, wherein the air duct opening adjusting device is used for adjusting the position of an air outlet, and the air direction adjusting device is used for controlling the air outlet angle of the heat dissipation fan 502. The inner wall fixedly connected with right angle grid 501 of cabinet body 1 protects radiator fan 502 through the right angle grid 501 that sets up to some heat dissipation wind energy that produces is blown out from the inslot, to cabinet body 1, realizes forced air cooling, and radiator fan 502 is located the inside of right angle grid 501, installs closing plate 505 on the right angle grid 501, and closing plate 505 is connected with baffle frame 506. The sealing plate 505 divides the air flow generated by the cooling fan 502 and blows out a part of the air flow from the positions of the plurality of channel pipes 507, thereby realizing multi-stage and multi-layer air cooling. The electric appliances at each layer of height can be directly cooled by air to remove heat, and the normal operation of the internal electric appliances is ensured.

The air duct opening adjusting device comprises a plurality of partition boards 506, and channel pipes 507 are arranged on the partition boards 506; the partition plate frame 506 comprises a positioning plate 5061, the positioning plate 5061 is connected with a pulling plate 5062 in a sliding manner, the pulling plate 5062 is connected with a channel pipe 507, a baffle 508 is fixedly connected to the channel pipe 507, a clamping device 509 is arranged on the baffle 508, the clamping device 509 is connected with a frame 8, and the frame 8 is fixedly arranged in the cabinet body 1; the clamping device 509 comprises two telescopic sliding rods 5091, a connecting spring 5092 is arranged between the two telescopic sliding rods 5091, and a clamping hole matched with the two telescopic sliding rods 5091 is formed in the frame 8. Because the position where the actual electrical equipment is installed is considered to be not corresponding to the heat dissipation air port, the air port adjusting device can adjust and control the vertical position of the generated air port, an operator is required to pull the channel pipe 507 up and down, the pull plate 5062 can slide on the positioning plate 5061 at the moment, and through a plurality of clamping holes arranged on the side face of the frame 8, after the position of the channel pipe 507 is determined, the connecting spring 5092 controls the two telescopic sliding rods 5091 to be clamped on the clamping holes with different heights, so that fixation is realized. And a plurality of channel pipes 507 are provided, so that the position adjustment of a plurality of air duct ports can be performed simultaneously by using the same principle.

The wind direction adjusting device comprises a movable frame 512, a meshing toothed plate 511 is connected to the movable frame 512, a fixed gear 510 is meshed to the meshing toothed plate 511, a rotating shaft 504 is fixedly connected to the fixed gear 510, a base 503 is fixedly connected to the rotating shaft 504, the base 503 is connected with a cooling fan 502, a rubber ball 513 is arranged on the movable frame 512, helium is injected into the rubber ball 513, and a telescopic spring 514 is arranged between the movable frame 512 and the frame 8. Because the heat emitted by the electricity of the actual layer is higher, and the air volume of the air duct opening is relatively smaller, the orientation angle of the cooling fan 502 is automatically adjusted according to the high temperature, when the heat is accumulated at the top of the cabinet body 1, the rubber ball 513 is subjected to expansion and contraction, because helium exists in the rubber ball 513, the temperature of the helium rises from 0 ℃ to 35 ℃, namely from 273k to 308k, 308/273=1.128, the volume of the helium expands by 12.8%, when the temperature is gradually increased, the rubber ball 513 expands, so that the pressure is generated to control the movable frame 512 to move downwards, the meshing toothed plate 511 is driven to move downwards, the rotating shaft 504 is driven to rotate, the cooling fan 502 is finally driven to rotate in an angle, the cooling fan 502 is finally converted into a flat angle, the rotating speed of the cooling fan 502 is increased, larger air flow is generated, the helium is blown into a channel formed by the plurality of pull plates 5062, and the air flow generated from the side surface is enabled to flow out by the plurality of channel pipes 507, so that the cooling efficiency of the cooling is improved, and the cooling efficiency of the cooling is improved maximally.

The electrical components are all connected with an external main controller and 220V mains supply, and the main controller can be conventional known equipment for controlling a computer and the like.

The working principle is that firstly, two inclined cooling fans 502 arranged at the bottom of the cabinet body 1 generate cooling air to cool and dissipate heat through the center of the cabinet body 1, and a part of air flows out from a plurality of channel pipes 507 to the positions of electric appliances from the positions of the sealing plate 505, so that the electric appliances are directly blown to dissipate heat, and the height of blowing is adjusted by arranging an air channel port adjusting device because uncertainty exists in the heights of the installation positions of different electric appliances is considered, so that the blowing can be aligned to the electric appliances for heat dissipation, an operator is required to pull the channel pipes 507 up and down, a pulling plate 5062 slides on a positioning plate 5061 at the moment, and two telescopic sliding rods 5091 are controlled to be clamped on clamping holes of different heights by a connecting spring 5092 after the positions of the channel pipes 507 are determined at the moment, so that fixation is realized. And a plurality of channel pipes 507 are provided, so that the position adjustment of a plurality of air duct ports can be performed simultaneously by using the same principle. When a large amount of heat is generated by running all electric appliances in the cabinet body 1 for a long time, when the wind force generated by the cooling fan 502 at a normal angle on the channel opening is insufficient, and at the moment, when the heat is accumulated at the top of the cabinet body 1, the rubber ball 513 is expanded with heat and contracted with cold, because helium exists in the rubber ball 513, the temperature of the helium rises from 0 ℃ to 35 ℃, namely from 273k to 308k, 308/273=1.128, so that the volume is expanded by 12.8%, when the temperature is gradually increased, the rubber ball 513 is expanded, so that the pressure is generated to control the movable frame 512 to move downwards, the meshing toothed plate 511 is driven to move downwards, the rotating shaft 504 is driven to rotate through meshing transmission of the gear and the toothed plate, finally, the cooling fan 502 is driven to rotate at an angle, the cooling fan 502 is finally converted into a flat angle, the rotating speed of the cooling fan 502 is increased, larger wind flow is generated, the cooling fan is blown into the channel formed by the plurality of pull plates 5062, and the wind flow generated from the side surface is increased, so that the wind flow generated from the side surface is increased, and the cooling efficiency is improved. And the heat accumulated at the top of the cabinet body 1 is pumped out to the cabinet body 1 by utilizing the high-speed rotation of the fan 43, so that the heat dissipation is realized. And set up cooling mechanism 3 simultaneously, the cooling water has been placed in the inside appearance chamber 306 of box 301, and the cooling water to inside by semiconductor refrigerator 307 is continuously cooled down, the cold air of low temperature this moment, the cold air that produces, store in the inside of box 301, and radiator fan 502 is rotatory will produce suction, utilize the passageway of exhaust tube 304, will cold air from inside suction to cabinet 1 in, will contain the cold air in the windage this moment, in order to improve the radiating effect, and the suction in-process, external air gets into the inside of box 301 from intake pipe 308, realize the circulation of air, and a plurality of baffles 302 of setting, in order to guarantee the air that gets into the inside of box 301 and cool down, so the return channel of setting, can make the air circulation time that gets into box 301 improves, avoid appearing external suction to get into the inside of box 301 and cool down, still inhale hot air and cool down to the inside of cabinet 1, the circumstances that leads to the cooling effect low, the water pump that sets up simultaneously, can be in the inside the constant temperature cabinet 312 is produced from the inside cooling water of appearance chamber 306 and the inside back flow, and the low temperature of back pipe 312 is also produced from the inside of back flow pipe, can be further cooled down, the radiating effect 313 can be further improved from the inside of the back pipe position of back pipe, thereby cooling effect is further cooled down in the inside of the temperature-down portion of the cabinet is guaranteed.

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

Claims (10)

1. Feeder cabinet with remove heat abstractor, its characterized in that: comprises a cabinet body 1 and a cabinet door 2,

the cooling mechanism 3 is used for generating cold air to cool and dissipate heat in the cabinet body 1; the method comprises the steps of carrying out a first treatment on the surface of the

A suction device 4 for sucking out the hot air inside the cabinet 1;

the heat dissipation mechanism 5 is used for performing air cooling heat dissipation on the cabinet body 1;

the heat dissipation mechanism 5 comprises a heat dissipation fan 502, an air duct opening adjusting device and an air direction adjusting device, wherein the air duct opening adjusting device is used for adjusting the position of an air outlet, and the air direction adjusting device is used for controlling the air outlet angle of the heat dissipation fan 502.

2. A feeder cabinet with mobile heat sink according to claim 1, characterized in that: the cooling mechanism 3 comprises a box 301, the box 301 is arranged at the bottom of the cabinet 1, a containing cavity 306 is arranged in the box 301, a semiconductor refrigerator 307 is arranged in the containing cavity 306, an exhaust pipe 304 is communicated with the box 301, one end of the exhaust pipe 304 is connected with an air suction frame 303, the air suction frame 303 is connected with the cabinet 1, a filter screen 305 is arranged in the air suction frame 303, and air inlet pipes 308 are communicated with two sides of the box 301.

3. A feeder cabinet with mobile heat sink according to claim 2, characterized in that: the inside of the box 301 is provided with an intercommunication groove 309, and the inside of the box 301 is fixedly connected with a baffle 302.

4. A feeder cabinet with mobile heat sink according to claim 2, characterized in that: the filter screen 305 includes a front filter screen 3051 and a rear filter screen 3053, a sponge sheet 3052 for absorbing moisture is disposed between the front filter screen 3051 and the rear filter screen 3053, and the front filter screen 3051 is fixedly connected to the suction frame 303.

5. A feeder cabinet with mobile heat sink according to claim 2, characterized in that: a water pump 315 is arranged in the cavity 306, a return pipe 312 is connected to the water pump 315, the return pipe 312 is fixedly arranged in the cabinet body 1, a heat dissipation groove 313 and a return groove 314 are formed in the cabinet body 1, and the return groove 314 is communicated with the cavity 306.

6. A feeder cabinet with mobile heat sink according to claim 1, characterized in that: the air duct opening adjusting device comprises a plurality of partition boards 506, and channel pipes 507 are arranged on the partition boards 506;

the partition plate frame 506 comprises a positioning plate 5061, the positioning plate 5061 is connected with a pulling plate 5062 in a sliding manner, the pulling plate 5062 is connected with a channel pipe 507, a baffle 508 is fixedly connected to the channel pipe 507, a clamping device 509 is arranged on the baffle 508, the clamping device 509 is connected with a frame 8, and the frame 8 is fixedly arranged in the cabinet body 1;

the clamping device 509 comprises two telescopic sliding rods 5091, a connecting spring 5092 is arranged between the two telescopic sliding rods 5091, and a clamping hole matched with the two telescopic sliding rods 5091 is formed in the frame 8.

7. A feeder cabinet with mobile heat sink according to claim 1, characterized in that: the wind direction adjusting device comprises a movable frame 512, a meshing toothed plate 511 is connected to the movable frame 512, a fixed gear 510 is meshed to the meshing toothed plate 511, a rotating shaft 504 is fixedly connected to the fixed gear 510, a base 503 is fixedly connected to the rotating shaft 504, the base 503 is connected with a cooling fan 502, a rubber ball 513 is arranged on the movable frame 512, helium is injected into the rubber ball 513, and a telescopic spring 514 is arranged between the movable frame 512 and the frame 8.

8. A feeder cabinet with mobile heat sink according to claim 1, characterized in that: the inner wall fixedly connected with right angle grid 501 of cabinet body 1, radiator fan 502 is located the inside of right angle grid 501, installs closing plate 505 on the right angle grid 501, and closing plate 505 is connected with baffle frame 506.

9. A feeder cabinet with mobile heat sink according to claim 1, characterized in that: the suction device 4 comprises a runner box 42, the runner box 42 is fixedly arranged at the top of the cabinet body 1, a drainage groove 41 is arranged at the top of the cabinet body 1 and positioned in the runner box 42, a fan 43 is arranged on the runner box 42, and a heat dissipation port 44 is formed in one end of the runner box 42.

10. A feeder cabinet with mobile heat sink according to claim 1, characterized in that: the inside fixed mounting of cabinet body 1 has mounting panel 7, is provided with control key 6 on cabinet door 2.

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