CN210016101U - Heat dissipation regulator cubicle - Google Patents

Abstract

The utility model discloses a heat dissipation regulator cubicle, including the rectangular bodily form cabinet body, first water tank, second water tank, first standpipe, second standpipe and suction pump, first water tank install in cabinet body top, and its surface is equipped with the first fin of UNICOM's external environment, the second water tank install in cabinet body bottom, and its surface is equipped with the second fin of UNICOM's external environment, the suction pump will come from the refrigerant liquid warp of second water tank first standpipe carry extremely first water tank, refrigerant liquid warp in the first water tank the second standpipe carry extremely the second water tank, first standpipe the soaking connect install in on the lateral wall of the cabinet body. The heat-dissipation electrical cabinet has the characteristic of good heat-dissipation effect and has a wide application prospect.

Description

Heat dissipation regulator cubicle

Technical Field

The utility model relates to a cabinet technical field of consumer, concretely relates to heat dissipation regulator cubicle.

Background

The electrical cabinet is widely applied to a plurality of industries such as chemical industry, environmental protection, electric power, metallurgy, nuclear power industry, fire fighting, traffic and the like. At present, the temperature inside the electrical cabinet is mostly reduced through the heat dissipation fan blades. For example, chinese patent application CN106972376A discloses an intelligent heat dissipation electrical cabinet, which includes a cabinet body and a heat dissipation device. The heat dissipation device comprises a wind distribution pipe, a pair of fans and a swinging device. The air distributing pipe is arranged at the lower part of the cabinet body, the pair of fans are correspondingly arranged at the two air inlets of the air distributing pipe, and the swinging device is arranged in the air distributing pipe. The swinging plate of the swinging device swings to adjust the air quantity at the air outlet, thereby controlling the temperature in the cabinet body. By adopting the structure, the air flow velocity of different areas in the cabinet body can be adjusted, and heat dissipation is realized.

It should be noted that due to the technical limitation of the air cooling scheme, the heat reduction efficiency is low, and accidents such as spontaneous combustion and the like are easily caused under poor heat dissipation conditions, so that the air cooling scheme cannot be used in some electrical cabinets with large heat productivity.

SUMMERY OF THE UTILITY MODEL

The utility model discloses make the improvement to current technical problem, utility model's technical problem that will solve promptly provides a regulator cubicle with better radiating effect.

The utility model provides a technical scheme does:

the utility model provides a heat dissipation regulator cubicle, its characterized in that, includes the rectangular bodily form cabinet body, first water tank, second water tank, first standpipe, second standpipe and suction pump, first water tank install in cabinet body top, and its surface is equipped with the first fin of UNICOM external environment, the second water tank install in cabinet body bottom, and its surface is equipped with the second fin of UNICOM external environment, the suction pump will come from the refrigeration liquid warp of second water tank first standpipe carry extremely first water tank, the refrigeration liquid warp in the first water tank the second standpipe is carried extremely the second water tank, first standpipe the soaking of second standpipe connect install in on the lateral wall of the cabinet body.

Further, the second radiating fin is positioned at the bottom of the second water tank, and the second radiating fin is in sufficient thermal contact with the ground.

Further, the first water tank is composed of a pair of communicated cylinders with two crossed axes in a V shape with an upward opening, and the first radiating fins are arranged at the bottom of the cylinders.

Further, a fan driving motor is installed on the upper side of the cabinet body, and an output shaft of the fan driving motor is vertically upward and is connected with a first bevel gear. Each fan blade which is opposite to the first cooling fin for blowing is arranged near the first cooling fin, the fan blades are installed at one end of a rotating rod, the rotating rod is rotatably installed in a first sleeve, a second bevel gear meshed with the first bevel gear is installed at the other end of the rotating rod, and the first sleeve is installed on the upper side of the cabinet body.

Further, the lower part of the cabinet body is provided with a lower air inlet, the upper part of the cabinet body is provided with an upper air outlet, the lower part of the cabinet body is also provided with an air blower, and the installation height of the air blower is higher than that of the lower air inlet.

Furthermore, the left side and the right side of the air blower are respectively fixed on the side walls of the cabinet body through a cross rod, a second sleeve is sleeved on each cross rod, one end of the side wall of the cabinet body, close to the second sleeve, is connected with the side wall of the cabinet body through a spring sleeved on the cross rod, a vibrator is installed on each second sleeve, a vertical plate is fixedly connected to the bottom of each second sleeve, and a second filter screen which is right opposite to an air inlet of the air blower is clamped between the vertical plates at the bottoms of the two second sleeves.

Further, an active carbon adsorption layer is laid on the second filter screen.

Furthermore, the cabinet body is provided with a cabinet door, a plurality of transverse plates which are arranged from top to bottom are arranged in the cabinet body, and the upper surface of each transverse plate is provided with a sliding plate which can slide back and forth and is used for mounting electrical equipment.

Furthermore, the left side and the right side of the sliding plate are respectively provided with a dovetail block, and the upper surface of the transverse plate is provided with a dovetail groove which is matched with the dovetail block and extends forwards and backwards.

Further, the suction pump is installed on the second water tank.

Adopt the heat dissipation electric appliance cabinet of above-mentioned structure: refrigerant liquid circulation flow between upper and lower water tank, two water tanks simultaneously with heat transfer to external environment, whole rack adopts the mode of liquid cooling, has better radiating effect. In addition, the air blower is still installed to cabinet body lower part, combines air intake, the setting of last air outlet down, and at cabinet body inside through the some heat of forced air cooling transmission, further promoted the radiating effect.

Drawings

Fig. 1 is a front view of the heat-dissipating electrical cabinet provided by the present invention.

Fig. 2 is a sectional view taken along line a-a in fig. 1.

Fig. 3 is a partially enlarged view of a portion I in fig. 1.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

The first embodiment is as follows:

as shown in fig. 1 to fig. 3, the heat-dissipating electrical cabinet provided in this embodiment includes an electrical cabinet body 1, a first water tank 2, and a second water tank 17.

The cabinet body 1 is rectangular. A first water tank 2 for containing refrigerant liquid is mounted at the top of the cabinet body 1. The surface of the first water tank 2 is provided with a first radiating fin 3. The first heat sink 3 faces the outside environment for dissipating heat of the second water tank 2 to the outside environment.

The bottom of the electrical cabinet body 1 is provided with a second water tank 17 for containing refrigerant fluid and a water pump 20. The suction pump 20 is used to transfer the refrigerant fluid from the second tank 17 to the first tank 2 through the first standpipe 21. Meanwhile, the refrigerant fluid of the first tank 2 is returned to the second tank 2 through the second standpipe 22. The first vertical pipes 21 and the second vertical pipes 22 are arranged on the side walls of the cabinet 1 and are in sufficient thermal connection with the side walls of the cabinet 1.

Likewise, the second tank 17 can dissipate the heat of the refrigerant fluid to the outside environment. For example, a second heat radiation fin 18 is provided on the bottom surface thereof, and the second heat radiation fin 18 is in contact with the ground (or other heat sink) to radiate the heat of the second water tank 2 to the ground.

Example two:

in the embodiment, on the basis of the first embodiment, the structure and the heat dissipation manner of the first water tank 2 are optimized.

The first water tank 2 is composed of a pair of cylindrical bodies 2-1 and 2-2 which are crossed by two axes and are in a V shape with an upward opening, and the insides of the cylindrical body 2-1 at the left part and the cylindrical body 2-2 at the right part are communicated with each other. The first radiating fins 3 are arranged at the bottoms of the cylinder bodies 2-1 and 2-2, and the first radiating fins 3 are communicated with the external atmosphere to radiate the heat from the cylinder bodies 2-1 and 2-2 to the external atmosphere. Meanwhile, a fan driving motor 4 is installed on the top cover of the electrical cabinet body 1, an output shaft of the driving motor 4 is vertically upward, and meanwhile, a first bevel gear 5 is connected to the output shaft. And a pair of fan blades 9 which are opposite to the first radiating fins 3 are respectively arranged near the bottoms of the cylinder body 2-1 and the cylinder body 2-2 and used for blowing and radiating the cylinder bodies 2-1 and 2-2. Each fan blade 9 is mounted at one end of a rotating rod 8, and each rotating rod 8 is rotatably sleeved in a first sleeve 7. Limiting rings 11 are installed at two ends of the first sleeve 7 and used for limiting the rotating rod 8. Every first sleeve 7 all installs on 1 top cover of regulator cubicle cabinet body through montant 6. The other end of each rotating rod 8 is provided with a second bevel gear 10. The two second bevel gears 10 are simultaneously in meshed connection with the first bevel gear 5.

Example three:

on the basis of the first embodiment, the air cooling mechanism is additionally arranged inside the heat dissipation electrical cabinet.

The lower part of the cabinet body 1 of the electrical cabinet is provided with a lower air inlet (not shown in the figure), and the upper part thereof is provided with an upper air outlet. The upper air outlet is preferably positioned on two side walls of the cabinet body 1, and a first filter screen 12 is arranged on the upper air outlet. A blower 24 is installed at the lower part of the cabinet 1. The installation position of the blower 24 is higher than the height of the lower air inlet, and the left side and the right side of the blower 24 are respectively fixed on the side wall of the cabinet body 1 through a cross rod 23. Each cross bar 23 is sleeved with a second sleeve 25, and one end of the second sleeve 25 close to the side wall of the cabinet body 1 is connected with the side wall of the cabinet body 1 through a spring 30 sleeved on the cross bar 23. Each second sleeve 25 has an energizable vibrator 26 mounted thereon. A riser 27 is attached to the bottom of each second sleeve 25. A second filter screen 28 is clamped between the two vertical plates 27. An activated carbon adsorption layer 29 is laid on the second filter screen 28. The second filter 29 faces the air inlet of the blower 24. The first filter 12 and the second filter 29 are preferably made of alloy steel.

The air flow from the lower air inlet of the cabinet 1 is filtered by the second filter screen 28, then is conveyed upwards by the blower 24, and finally is discharged from the upper air outlet.

Example four:

in the embodiment, on the basis of the first embodiment, the mounting structure of the electrical equipment in the cabinet body is optimized.

The cabinet body 1 is provided with a cabinet door, and a plurality of transverse plates 13 arranged from top to bottom are arranged in the cabinet body 1. A plurality of sliding plates 14 are movably arranged on the upper surface of each transverse plate. The slide plate 14 is slidably mounted to the upper surface of the cross plate 13 in the front-rear direction. Specifically, dovetail blocks 15 are mounted on the left and right sides of the sliding plate 14, dovetail grooves 13-1 extending forward and backward corresponding to the size of the dovetail blocks 15 are formed in the upper surface of the transverse plate 13, and the dovetail blocks 15 are slidably fitted in the dovetail grooves 13-1. A handle 16 is mounted to the front of the sled 14. When the electric equipment is installed, the cabinet door of the cabinet body 1 is opened, and the sliding plate 14 is pulled out forward from the upper surface of the transverse plate 13 by pulling the handle 16 backward, so that various electric equipment can be installed on the sliding plate (for example, installation by bolts). After the electrical equipment is installed, the handle 16 is pushed to push the sliding plate 14 backwards, and the sliding plate 14 returns.

The heat dissipation regulator cubicle based on above-mentioned embodiment:

when the electrical equipment is operated, heat is continuously generated inside the cabinet 1. At this time, the water pump 20 conveys the cooling liquid in the second water tank 17 upwards through the first vertical pipe 21, the cabinet side wall fully thermally connected with the first vertical pipe 21 and the second vertical pipe 22 takes away the heat in the cabinet body, the cooling liquid taking away the heat enters the first water tank 2, and further the heat is conveyed to the first heat radiating fins 3. Meanwhile, the fan 9 blows air to the first heat sink 3, so that the temperature of the first heat sink and the cooling liquid in the first water tank is reduced. The cooled coolant then flows down through the second standpipe 22 into the second tank 17. The second water tank 17 radiates heat by contacting the outside (e.g., the ground) with the second radiation fins 18 of the bottom surface thereof. The cooled coolant is pumped out by the water pump 20. The circulation is carried out, so that the temperature inside the cabinet body is continuously reduced.

In addition, the blower 24 located at the lower part of the cabinet body is operated to blow air to the inside of the cabinet body, and the air flow takes away heat through the surface of the electrical equipment and flows out of the first filter screen 12, so that the temperature in the cabinet body is further reduced. When the blower 24 is in operation, the vibrator 26 vibrates to drive the sleeve 25 to vibrate transversely on the cross bar 23, and further drives the second filter 28 to vibrate, thereby effectively preventing external dust particles from adsorbing, adhering and blocking the surface of the second filter 28. The activated carbon adsorption layer 29 is mainly used for adsorbing moisture in the air, and the phenomenon that enough humid air is sucked to cause internal electrical short circuit is avoided.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a heat dissipation regulator cubicle, its characterized in that, includes the rectangular bodily form cabinet body, first water tank, second water tank, first standpipe, second standpipe and suction pump, first water tank install in cabinet body top, and its surface is equipped with the first fin of UNICOM external environment, the second water tank install in cabinet body bottom, and its surface is equipped with the second fin of UNICOM external environment, the suction pump will come from the refrigeration liquid warp of second water tank first standpipe carry extremely first water tank, the refrigeration liquid warp in the first water tank the second standpipe is carried extremely the second water tank, first standpipe the soaking of second standpipe connect install in on the lateral wall of the cabinet body.

2. The thermally dissipating electrical cabinet of claim 1, wherein the second heat sink is located at a bottom of the second tank, the second heat sink being in substantial thermal contact with a ground.

3. The heat-dissipating electrical cabinet according to claim 1 or 2, wherein the first water tank is composed of a pair of communicating cylinders which are crossed by two axes and have a V-shape with an upward opening, and the first heat sink is disposed at the bottom of the cylinders.

4. The heat-dissipating electrical cabinet according to claim 3, wherein a fan driving motor is installed on the upper side of the cabinet, an output shaft of the fan driving motor is vertically upward and connected with a first bevel gear,

each fan blade which is opposite to the first cooling fin for blowing is arranged near the first cooling fin, the fan blades are installed at one end of a rotating rod, the rotating rod is rotatably installed in a first sleeve, a second bevel gear meshed with the first bevel gear is installed at the other end of the rotating rod, and the first sleeve is installed on the upper side of the cabinet body.

5. The heat-dissipation electrical cabinet according to claim 1 or 2, wherein a lower air inlet is formed in the lower portion of the cabinet body, an upper air outlet is formed in the upper portion of the cabinet body, and a blower is further mounted on the lower portion of the cabinet body and is higher than the lower air inlet in mounting height.

6. The heat dissipation electrical cabinet according to claim 5, wherein the left side and the right side of the blower are respectively fixed to the side walls of the cabinet body through a cross rod, a second sleeve is sleeved on each cross rod, one end, close to the side wall of the cabinet body, of each second sleeve is connected to the side wall of the cabinet body through a spring sleeved on the cross rod, a vibrator is mounted on each second sleeve, a vertical plate is fixedly connected to the bottom of each second sleeve, and a second filter screen facing the air inlet of the blower is clamped between the vertical plates at the bottoms of the two second sleeves.

7. The thermally dissipating electrical cabinet according to claim 6, wherein an activated carbon adsorption layer is laid on the second filter screen.

8. The heat-dissipation electrical cabinet according to claim 1 or 2, wherein the cabinet body is provided with a cabinet door, a plurality of transverse plates are arranged in the cabinet body from top to bottom, and a sliding plate capable of sliding back and forth and used for mounting electrical equipment is arranged on the upper surface of each transverse plate.

9. The heat-dissipating electrical cabinet according to claim 8, wherein dovetail blocks are respectively mounted on the left side and the right side of the sliding plate, and dovetail grooves which are matched with the dovetail blocks and extend in the front-back direction are formed in the upper surface of the transverse plate.

10. The thermally dissipating electrical cabinet of claim 1, wherein the suction pump is mounted on the second tank.

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