CN113099314A - Heat radiator for communication base station - Google Patents

Abstract

The invention belongs to the technical field of base station heat dissipation, and particularly relates to a heat dissipation device for a communication base station, which comprises a base station body; the base station body comprises two horizontal supports, a side baffle, a support column and a sealing module; the four corner positions of the two horizontal brackets are connected through supporting columns; according to the base station body, the first sliding plate and the second sliding plate are arranged and are rotationally connected, so that the position of the second sliding plate can be adjusted to be positioned on the front side of the horizontal support or opposite to the side baffle, the adjustable heat dissipation treatment can be further carried out on the interior of the base station body as required, the cold water led in the spiral coil pipe is used for cooling the sucked air, the size of the outer diameter of the spiral coil pipe can be adjusted, the cold water led in the spiral coil pipe can be fully contacted with the air sucked by the air pump or the cooling fan, the cooling efficiency of the air is improved, and the heat dissipation efficiency of the base station body is further improved.

Description

Heat radiator for communication base station

Technical Field

The invention relates to the technical field of communication base stations, in particular to a heat dissipation device for a communication base station.

Background

The communication base station is the most critical infrastructure in a mobile communication network. Some current mobile communication basic stations all include signal transceiver, monitoring device, extinguishing device, power supply unit and heat abstractor, carry out the heat dissipation operation through heat abstractor to the inside of basic station to can guarantee that the inside temperature of basic station is stable, with the normal operating of guaranteeing signal transceiver, monitoring device, extinguishing device, power supply unit, guarantee the normal use of basic station.

However, in the use process of the existing base station, the adopted heat dissipation device is operated in a mode of an air conditioner or an exhaust fan, when the air conditioner is not convenient to transport in some mountain areas, the heat dissipation device is cooled in a mode of a simple exhaust fan, so that the heat dissipation efficiency is low easily, and when the operation degree of the base station is deepened, the heat dissipation efficiency cannot be improved as required, so that the normal operation of the base station cannot be guaranteed.

Disclosure of Invention

In order to overcome the technical problems, an object of the present invention is to provide a heat dissipation device for a communication base station, in which a first sliding plate and a second sliding plate are provided, and the two sliding plates are rotatably connected, so that the position of the second sliding plate can be adjusted to be located at the front side of a horizontal support or to be opposite to a side baffle, and then the interior of the base station body can be subjected to adjustable heat dissipation treatment as required, and after the air pumped in is cooled by cold water introduced into a spiral coil, the size of the outer diameter of the spiral coil can be adjusted, so that the cold water introduced into the spiral coil can be fully contacted with the air pumped in by an air pump or a heat dissipation fan, thereby improving the cooling efficiency of the air, and further improving the heat dissipation efficiency of the base station body.

The purpose of the invention can be realized by the following technical scheme:

a heat sink for communication base station includes a base station body; the base station body comprises two horizontal supports, a side baffle, a support column and a sealing module; the four corner positions of the two horizontal supports are connected through support columns, side baffles are fixedly connected between two ends of the two horizontal supports, rear baffles are clamped on the rear sides of the two horizontal supports, an isolation column is fixedly connected at the middle position of the front sides of the two horizontal supports, two sealing modules are slidably connected to the front sides of the two horizontal supports at two sides of the isolation column, and isolation nets are slidably connected to the front sides of the two horizontal supports corresponding to the positions of the two sealing modules; fixing frames are embedded and connected in the wall thickness of the top and the bottom of each side baffle, the inner sides of the two fixing frames are rotatably connected with radiating fans, and shields are spirally fixed at positions, corresponding to the radiating fans, of the sides of the two side baffles, which are far away from the side baffles; wherein the content of the first and second substances,

the closure module comprises a first sliding panel and a second sliding panel; one side of the first sliding plate is rotatably connected with one side of the second sliding plate through a hinge unit, the inner side of the first sliding plate is fixedly connected with an air pump, one side of the inner side of the first sliding plate, which is positioned on the air pump, is fixedly connected with a vertically arranged air supply plate, and the air supply plate is communicated with the air pump through a guide pipe; the top and the bottom of the inner side of the second sliding plate are both rotatably connected with adjusting frames, spiral coil pipes are clamped on the inner side of the second sliding plate at positions corresponding to the two adjusting frames, one ends of the two spiral coil pipes are communicated, a plurality of heat dissipation holes are formed in the second sliding plate at equal distances at positions corresponding to the spiral coil pipes, sealing plates are spirally fixed on the inner side of the second sliding plate at positions corresponding to the two spiral coil pipes, and one side of the second sliding plate penetrates through the inner part of an adjacent supporting column; one side of the air pump is communicated with a gap between the sealing plate and the second sliding plate through a connecting pipe; the other ends of the two spiral coil pipes penetrate through the wall thickness of the second sliding plate and extend to the outer side of the second sliding plate; when the base station is used, the external water pump is communicated with the cold water tank, one end of the external water pump is communicated with one end of one spiral coil pipe, one end of the other spiral coil pipe is communicated with the cold water tank, cold water in the cold water tank can circulate in the two spiral coil pipes through the water pump, external air is pumped into a gap between the second sliding plate and the sealing plate through the radiating holes in the second sliding plate through the air pump, the pumped air is cooled by the cold water in the spiral coil pipes, the cooled air is guided into the inner side of the base station body through the air supply plate to be subjected to heat dissipation treatment, when the temperature of the inner side of the base station body is high, the air pump is closed, the two second sliding plates are pulled to be separated from each other, then the spiral coil pipes are taken down from the sealing plate, the adjusting frames are taken down, the outer diameters of the two spiral coil pipes are reduced, and then, the protective cover is taken down, the two second sliding plates are rotated by 90 degrees, so that the two second sliding plates are respectively contacted with the adjacent side baffle plates, the two spiral coil pipes with the reduced outer diameters are just positioned at the positions of the two radiating fans, at the moment, the radiating fans rotate to guide cooled air into the inner side of the base station body, the speed of air cooling can be accelerated by utilizing the contracted spiral coil pipes, the separation net can safely protect the gap between the two first sliding plates, cold air discharged by the radiating fans can be conveniently discharged after heat exchange, the radiating efficiency is further improved, the air guided by the radiating fans is ensured to be low temperature, the radiating efficiency can be further improved, when the air pump and the spiral coil pipes need to be maintained, the second sliding plates can be firstly separated from each other, then the first sliding plates are rotated, a plurality of working personnel can conveniently maintain the radiating mechanisms on the first sliding plates and the second sliding plates on both sides, the efficiency of maintenance is improved.

Further, the method comprises the following steps: the hinge unit comprises a first limiting rod, a connecting frame and a second limiting rod; one end of the second limiting rod is fixedly connected with one end of the top of the first sliding plate and extends to the inner side of the first sliding plate, and the other end of the first limiting rod is in sliding clamping connection with a through groove formed in the position corresponding to the horizontal support; one end of the connecting rod is fixedly connected with one end of the limiting rod II, which is positioned on the inner side of the first sliding plate, the other end of the connecting rod is provided with a strip-shaped through hole, and the other end of the connecting rod is positioned on the inner side of the second sliding plate; one end of the first limiting rod penetrates through the wall thickness of the top of the second sliding plate and is clamped with the strip-shaped through hole, and the other end of the first limiting rod is clamped with the through groove in a sliding mode; when scribing the second sliding plate, gag lever post one all slides in the logical groove of horizontal stand with the top of gag lever post two, when the second sliding plate slides to suitable position department, with the reverse pulling suitable distance of first sliding plate and keep second sliding plate position not change this moment, gag lever post two slides in the bar through-hole of connecting rod, rotate first sliding plate again and make two sliding plates be certain angle, be convenient for overhaul the inside of basic station body, and be convenient for adjust the spiral coil pipe on the second sliding plate, improve the heat dissipation and the maintenance efficiency of basic station body.

Further, the method comprises the following steps: the adjusting frame comprises a limiting plate and an adjusting rod; the adjusting rod is connected with the inner side of the limiting plate in a sliding manner; one end of the limiting plate is screwed and connected with a fastening bolt; the fastening bolt is used for fixing the positions of the limiting rod and the adjusting plate; when needs dispel the heat through radiator fan to the base station body, can take off the gag lever post, reduce the back with spiral coil's external diameter, utilize fastening bolt all to fix the limiting plate with the regulation pole, and adjust the pole and can slide in the inboard of limiting plate, utilize the limiting plate and adjust the pole and can carry out two-way location to spiral coil, avoid spiral coil to loose in a jumble, improve the cooling efficiency to radiator fan suction air.

Further, the method comprises the following steps: a plurality of clamping grooves are formed in one side, adjacent to the inner side wall of the second sliding plate, of the adjusting rod at equal intervals, and the inner side wall of each clamping groove is in contact with the outer side wall of the spiral coil pipe; when adjusting the pole and sliding, can make a plurality of draw-in grooves all with spiral coil's outside looks joint, and then can make spiral coil evenly swing cloth for clearance evenly distributed between the spiral coil further improves the cooling efficiency to radiator fan suction air.

Further, the method comprises the following steps: when the spiral coil is in the working position, the outer diameter of the spiral coil is the same as that of the radiating fan, and when the spiral coil is in the initial position, the outer diameter of the spiral coil is 2 times of that of the radiating fan; when the second sliding plate is in the initial position, the air after the air pump cools off spiral coil takes out to the inside heat dissipation that dispels of base station body, when the radiating efficiency of air pump does not satisfy base station body's heat dissipation requirement, open simultaneously through a plurality of radiator fan with on two side shields, increase the radiating efficiency to the inside of base station body, at this moment, the air flow of suction increases, reduce spiral coil's external diameter, can guarantee that the air that the louvre got into all cools off through spiral coil's clearance on the second sliding plate, then the inside of leading-in base station body dispels the heat again, improve spiral coil's work efficiency.

Further, the method comprises the following steps: the width of the separation net is larger than the sum of the widths of the two second sliding plates; the middle position of one side surface of each of the two second sliding plates, which is deviated from the corresponding second sliding plate, is fixedly connected with a handle, and the included angle between each second sliding plate and the corresponding adjacent first sliding plate ranges from 90 degrees to 270 degrees; when separating two second sliding plates, two second sliding plates and two horizontal brackets separation, at this moment, separate the net and can carry out safety protection to the region between two first sliding plates, can be provided with connecting bolt between separating net and two horizontal brackets, connecting bolt can be fixed the position that separates the net, and when connecting bolt takes off, can take off separating the net, second sliding plate and side shield just to or be used for the horizontal brackets separation time, can rotate first sliding plate along the direction of keeping away from the horizontal brackets, thereby can make the front side of basic station body be in open state, be convenient for overhaul the basic station body, improve the efficiency of maintenance.

The invention has the beneficial effects that:

1. the first sliding plate and the second sliding plate are arranged and are rotationally connected, so that the position of the second sliding plate can be adjusted to be positioned on the front side of the horizontal support or just opposite to the side baffle, the adjustable heat dissipation treatment can be further carried out on the interior of the base station body as required, the cold water led in the spiral coil pipe is utilized to cool the sucked air, the size of the outer diameter of the spiral coil pipe can be adjusted, the cold water led in the spiral coil pipe can be fully contacted with the air pumped by the air pump or the cooling fan, the cooling efficiency of the air is improved, and the heat dissipation efficiency of the base station body is improved; the adjacent first sliding plates are rotatably connected with the second sliding plates, and the included angle between the two sliding plates is adjusted, so that the two sliding plates are arranged in a crossed manner, a plurality of working personnel can overhaul the heat dissipation mechanisms on the first sliding plates and the second sliding plates on two sides, and the overhauling efficiency is improved.

2. The limiting plate is fixed on the second sliding plate through the fastening bolt, the adjusting rod is connected to the inner side of the limiting plate in a sliding mode, the spiral coil pipe can be limited and fixed through the adjusting rod and the limiting plate, the limiting plate and the adjusting rod are fixed through the fastening bolt after the outer diameter of the spiral coil pipe is reduced, the adjusting rod can slide on the inner side of the limiting plate, the spiral coil pipe can be positioned in a two-way mode through the limiting plate and the adjusting rod, the spiral coil pipe is prevented from being loosened in a mess, and the cooling efficiency of air sucked into the cooling fan is improved; through being provided with a plurality of draw-in grooves on adjusting the pole, utilize a plurality of draw-in grooves all with spiral coil's outside looks joint, and then can make spiral coil evenly put cloth for clearance evenly distributed between the spiral coil further improves the cooling efficiency to radiator fan suction air.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of a closure module of the present invention;

FIG. 3 is a schematic view of the state of the closure module of the present invention in operation;

FIG. 4 is a schematic diagram of the construction of the spiral coil of the present invention;

FIG. 5 is a schematic view of the present invention in a contracted state;

FIG. 6 is a schematic view of the structure of the adjusting unit of the present invention;

FIG. 7 is a schematic view of the structure of the adjusting bracket of the present invention;

fig. 8 is a schematic view of the structure of the side dams of the present invention.

In the figure: 100. a base station body; 110. a horizontal support; 120. a support pillar; 130. an isolation column; 200. a side dam; 210. a shield; 220. a fixed mount; 230. a heat radiation fan; 300. a sealing module; 310. a first sliding plate; 311. an air pump; 312. a blast plate; 313. a first limiting rod; 320. a second sliding plate; 321. an adjusting bracket; 3211. a limiting plate; 3212. adjusting a rod; 3213. fastening a bolt; 322. a helical coil; 323. a second limiting rod; 324. a connecting rod; 330. a sealing plate; 400. and (4) isolating nets.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, a heat dissipation device for a communication base station includes a base station body 100; the base station body 100 includes two horizontal supports 110, a side guard 200, a support column 120, and a closing module 300; the four corner positions of the two horizontal supports 110 are connected through the support columns 120, the two ends of the two horizontal supports 110 are fixedly connected with the side baffle 200, the rear sides of the two horizontal supports 110 are clamped with the rear baffle, the middle position of the front sides of the two horizontal supports 110 is fixedly connected with the isolation column 130, the two sides of the isolation column 130 at the front sides of the two horizontal supports 110 are respectively connected with two sealing modules 300 in a sliding mode, and the positions, corresponding to the two sealing modules 300, of the front sides of the two horizontal supports 110 are connected with the isolation net 400 in a sliding mode; the wall thicknesses of the top and the bottom of the two side baffles 200 are embedded with the fixing frames 220, the inner sides of the two fixing frames 220 are rotatably connected with the cooling fans 230, and the positions of the sides of the two side baffles 200, which are far away from each other, corresponding to the cooling fans 230 are spirally fixed with the protective covers 210; wherein the content of the first and second substances,

the closure module 300 includes a first sliding plate 310 and a second sliding plate 320; one side of the first sliding plate 310 is rotatably connected with one side of the second sliding plate 320 through a hinge unit, the inner side of the first sliding plate 310 is fixedly connected with an air pump 311, one side of the inner side of the first sliding plate 310, which is positioned at the air pump 311, is fixedly connected with a vertically arranged air supply plate 312, and the air supply plate 312 is communicated with the air pump 311 through a guide pipe; the top and the bottom of the inner side of the second sliding plate 320 are both rotatably connected with adjusting frames 321, the positions of the inner side of the second sliding plate 320 corresponding to the two adjusting frames 321 are both clamped with spiral coils 322, one ends of the two spiral coils 322 are communicated, a plurality of heat dissipation holes are arranged on the second sliding plate 320 at equal distances corresponding to the positions of the spiral coils 322, a sealing plate 330 is spirally fixed at the position of the inner side of the second sliding plate 320 corresponding to the two spiral coils 322, and one side of the second sliding plate 320 penetrates through the inside of the adjacent supporting column 120; one side of the air pump 311 is communicated with the gap between the sealing plate 330 and the second sliding plate 320 through a connecting pipe; the other ends of both helical coils 322 extend through the wall thickness of the second sliding plate 320 to the outside of the second sliding plate 320; when the base station is used, the external water pump is communicated with the cold water tank, one end of the external water pump is communicated with one end of one spiral coil 322, one end of the other spiral coil 322 is communicated with the cold water tank, cold water in the cold water tank can circulate in the two spiral coils 322 through the water pump, external air is pumped into a gap between the second sliding plate 320 and the sealing plate 330 through the air pump 311 through the heat dissipation holes on the second sliding plate 320, the pumped air is cooled by the cold water in the spiral coils 322, the cooled air is guided into the inner side of the base station body 100 through the air supply plate 312 through the air pump 311 for heat dissipation treatment, when the temperature of the inner side of the base station body 100 is high, the air pump 311 is closed, the two second sliding plates 320 are pulled to be separated from each other, then the spiral coils 322 are taken down from the sealing plate 330, the adjusting frame 321 is taken down, and the outer diameters of the two spiral coils 322, then, the adjusting frame 321 is used for fixing, the shield 210 is removed, and the two second sliding plates 320 are rotated 90 degrees, so that the two second sliding plates 320 are respectively contacted with the adjacent side baffle 200, at this time, the two spiral coils 322 with the reduced outer diameter are just positioned at the positions of the two cooling fans 230, at this time, the cooling fans 230 rotate, the cooled air is introduced into the inner side of the base station body 100, the rate of air cooling can be increased by using the contracted spiral coils 322, the separation net 400 can safely protect the gap between the two first sliding plates 310, and the cold air discharged by the cooling fans 230 is conveniently discharged after heat exchange, so that the cooling efficiency is further improved, the air introduced by the cooling fans 230 is ensured to be at a low temperature, and the cooling efficiency can be increased, and when the air pump 311 and the spiral coils 322 need to be maintained, the second sliding plates 320 can be separated from each other first, then, the first sliding plate 310 is rotated, so that a plurality of workers can overhaul the heat dissipation mechanisms on the first sliding plate 310 and the second sliding plate 320 at two sides at the same time, and the overhaul efficiency is improved.

The hinge unit comprises a first limiting rod 313, a connecting rod 324 and a second limiting rod 323; one end of the second limiting rod 323 is fixedly connected with one end of the top of the first sliding plate 310 and extends to the inner side of the first sliding plate 310, and the other end of the first limiting rod 313 is in sliding clamping connection with a through groove arranged at the corresponding position of the horizontal bracket 110; one end of the connecting rod 324 is fixedly connected with one end of the second limiting rod 323 positioned on the inner side of the first sliding plate 310, the other end of the connecting rod 324 is provided with a strip-shaped through hole, and the other end of the connecting rod 324 is positioned on the inner side of the second sliding plate 320; one end of the first limiting rod 313 penetrates through the wall thickness of the top of the second sliding plate 320 and is clamped with the strip-shaped through hole, and the other end of the first limiting rod 313 is slidably clamped with the through groove; when the second sliding plate 320 is scribed, the top ends of the first limiting rod 313 and the second limiting rod 323 slide in the through groove of the horizontal bracket 110, when the second sliding plate 320 slides to a proper position, the first sliding plate 310 is pulled reversely for a proper distance and the position of the second sliding plate 320 is kept unchanged, the second limiting rod 323 slides in the strip-shaped through hole of the connecting rod 324, the first sliding plate 310 is rotated to enable the two sliding plates to form a certain angle, the inside of the base station body 100 is convenient to overhaul, the spiral coil 322 on the second sliding plate 320 is convenient to adjust, and the heat dissipation and overhaul efficiency of the base station body 100 is improved.

The adjusting bracket 321 comprises a limiting plate 3211 and an adjusting rod 3212; the adjusting rod 3212 is slidably connected with the inner side of the limiting plate 3211; one end of the limiting plate 3211 is screwed with a fastening bolt 3213; the fastening bolt 3213 is used for fixing the positions of the limiting rod and the adjusting plate; when the base station body 100 needs to be cooled by the cooling fan 230, the limiting rod can be taken down, after the outer diameter of the spiral coil 322 is reduced, the limiting plate 3211 and the adjusting rod 3212 are both fixed by the fastening bolt 3213, the adjusting rod 3212 can slide on the inner side of the limiting plate 3211, the limiting plate 3211 and the adjusting rod 3212 can be used for bidirectionally positioning the spiral coil 322, and the spiral coil 322 is prevented from being disorderly and loose; a plurality of clamping grooves are formed in one side of the adjusting rod 3212 adjacent to the inner side wall of the second sliding plate 320 at equal intervals, and the inner side wall of each clamping groove is in contact with the outer side wall of the spiral coil 322; when the adjusting rod 3212 slides, the plurality of slots can be clamped with the outer side wall of the spiral coil 322, so that the spiral coil 322 can be uniformly laid, and gaps between the spiral coils 322 are uniformly distributed; when the spiral coil 322 is at the working position, the outer diameter of the spiral coil 322 is the same as the outer diameter of the cooling fan 230, and when the spiral coil 322 is at the initial position, the outer diameter of the spiral coil 322 is 2 times of the outer diameter of the cooling fan 230; when the second sliding plate 320 is at the initial position, the air pump 311 pumps the air after the cooling of the spiral coil 322 to the inside of the base station body 100 for heat dissipation, when the heat dissipation efficiency of the air pump 311 does not meet the heat dissipation requirement of the base station body 100, the plurality of heat dissipation fans 230 on the two side baffles 200 are simultaneously opened, the heat dissipation efficiency of the inside of the base station body 100 is increased, at this time, the air flow drawn in is increased, the outer diameter of the spiral coil 322 is reduced, it can be ensured that the air entering through the heat dissipation holes in the second sliding plate 320 is cooled through the gaps of the spiral coil 322, then the inside of the base station body 100 is led in for heat dissipation, and the work efficiency of the spiral coil 322 is.

The width of the separation net 400 is greater than the sum of the widths of the two second sliding plates 320; the middle position of one side surface of each of the two second sliding plates 320 which is away from each other is fixedly connected with a handle, and the included angle between each second sliding plate 320 and the adjacent first sliding plate 310 ranges from 90 degrees to 270 degrees; when the two second sliding plates 320 are separated, the two second sliding plates 320 are separated from the two horizontal brackets 110, at this time, the partition net 400 can safely protect the area between the two first sliding plates 310, a connecting bolt can be arranged between the partition net 400 and the two horizontal brackets 110, the connecting bolt can fix the position of the partition net 400, and when the connecting bolt is removed, the partition net 400 can be removed, and when the second sliding plates 320 are directly opposite to the side baffle 200 or used for separating the horizontal brackets 110, the first sliding plates 310 can be rotated in the direction away from the horizontal brackets 110, so that the front side of the base station body 100 can be in an open state, the base station body 100 can be conveniently overhauled, and the maintenance efficiency is improved.

The working principle is as follows: when the base station is used, the external water pump is communicated with the cold water tank, one end of the external water pump is communicated with one end of one spiral coil 322, one end of the other spiral coil 322 is communicated with the cold water tank, cold water in the cold water tank can circulate in the two spiral coils 322 through the water pump, external air is pumped into a gap between the second sliding plate 320 and the sealing plate 330 through the air pump 311 through the heat dissipation holes on the second sliding plate 320, the pumped air is cooled by the cold water in the spiral coils 322, the cooled air is guided into the inner side of the base station body 100 through the air supply plate 312 through the air pump 311 for heat dissipation treatment, when the temperature of the inner side of the base station body 100 is high, the air pump 311 is closed, the two second sliding plates 320 are pulled to be separated from each other, then the spiral coils 322 are taken down from the sealing plate 330, the adjusting frame 321 is taken down, and the outer diameters of the two spiral coils 322, then, the adjusting frame 321 is used for fixing, the shield 210 is removed, and the two second sliding plates 320 are rotated 90 degrees, so that the two second sliding plates 320 are respectively contacted with the adjacent side baffle 200, at this time, the two spiral coils 322 with the reduced outer diameter are just positioned at the positions of the two cooling fans 230, at this time, the cooling fans 230 rotate, the cooled air is introduced into the inner side of the base station body 100, the rate of air cooling can be increased by using the contracted spiral coils 322, the separation net 400 can safely protect the gap between the two first sliding plates 310, and the cold air discharged by the cooling fans 230 is conveniently discharged after heat exchange, so that the cooling efficiency is further improved, the air introduced by the cooling fans 230 is ensured to be at a low temperature, and the cooling efficiency can be increased, and when the air pump 311 and the spiral coils 322 need to be maintained, the second sliding plates 320 can be separated from each other first, and then the first sliding plate 310 is rotated, so that a plurality of workers can repair the heat dissipation mechanisms on the first sliding plate 310 and the second sliding plate 320 at two sides at the same time.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (6)

1. A heat sink for a communication base station comprises a base station body (100); the base station body (100) comprises two horizontal supports (110), a side baffle (200), a support column (120) and a closing module (300); four corner positions of the two horizontal supports (110) are connected through supporting columns (120), side baffles (200) are fixedly connected between two ends of the two horizontal supports (110), rear baffles are clamped on the rear sides of the two horizontal supports (110), an isolation column (130) is fixedly connected at the middle position of the front sides of the two horizontal supports (110), two sealing modules (300) are slidably connected to two sides, located on the isolation column (130), of the front sides of the two horizontal supports (110), and partition nets (400) are slidably connected to the positions, corresponding to the two sealing modules (300), of the front sides of the two horizontal supports (110); fixing frames (220) are embedded and connected to the wall thickness of the tops and the bottoms of the two side baffles (200), the inner sides of the two fixing frames (220) are rotatably connected with radiating fans (230), and the positions, corresponding to the radiating fans (230), of the sides, which are far away from the side baffles (200), of the two side baffles (200) are spirally fixed with shields (210); wherein the content of the first and second substances,

the closure module (300) comprises a first sliding plate (310) and a second sliding plate (320); one side of the first sliding plate (310) is rotatably connected with one side of the second sliding plate (320) through a hinge unit, the inner side of the first sliding plate (310) is fixedly connected with an air pump (311), one side, located on the air pump (311), of the inner side of the first sliding plate (310) is fixedly connected with a vertically arranged air supply plate (312), and the air supply plate (312) is communicated with the air pump (311) through a guide pipe; the top and the bottom of the inner side of the second sliding plate (320) are respectively and rotatably connected with an adjusting frame (321), the positions of the inner side of the second sliding plate (320) corresponding to the two adjusting frames (321) are respectively and fixedly connected with a spiral coil (322), one ends of the two spiral coils (322) are communicated, a plurality of heat dissipation holes are formed in the position of the second sliding plate (320) corresponding to the spiral coils (322) at equal intervals, a sealing plate (330) is spirally fixed at the position of the inner side of the second sliding plate (320) corresponding to the two spiral coils (322), and one side of the second sliding plate (320) penetrates through the inner part of the adjacent supporting column (120); one side of the air pump (311) is communicated with a gap between the sealing plate (330) and the second sliding plate (320) through a connecting pipe; the other ends of the two spiral coils (322) extend to the outer side of the second sliding plate (320) through the wall thickness of the second sliding plate (320).

2. The heat dissipation device of claim 1, wherein the hinge unit comprises a first limiting rod (313), a connecting rod (324), and a second limiting rod (323); one end of the second limiting rod (323) is fixedly connected with one end of the top of the first sliding plate (310) and extends to the inner side of the first sliding plate (310), and the other end of the first limiting rod (313) is in sliding clamping connection with a through groove formed in the corresponding position of the horizontal support (110); one end of the connecting rod (324) is fixedly connected with one end, located on the inner side of the first sliding plate (310), of the second limiting rod (323), the other end of the connecting rod (324) is provided with a strip-shaped through hole, and the other end of the connecting rod (324) is located on the inner side of the second sliding plate (320); one end of the first limiting rod (313) penetrates through the wall thickness of the top of the second sliding plate (320) and is clamped with the strip-shaped through hole, and the other end of the first limiting rod (313) is clamped with the through groove in a sliding mode.

3. The heat sink for the communication base station as claimed in claim 1, wherein the adjusting bracket (321) comprises a limiting plate (3211) and an adjusting rod (3212); the adjusting rod (3212) is in sliding connection with the inner side of the limiting plate (3211); one end of the limiting plate (3211) is screwed and connected with a fastening bolt (3213); the fastening bolt (3213) is used for fixing the positions of the limiting rod and the adjusting plate.

4. The heat sink for communication base station as claimed in claim 3, wherein the adjusting rod (3212) has a plurality of slots equidistantly formed on a side adjacent to the inner sidewall of the second sliding plate (320), and the inner sidewall of the slots contacts with the outer sidewall of the spiral coil (322).

5. The heat dissipation device of claim 4, wherein when the spiral coil (322) is in the working position, the outer diameter of the spiral coil (322) is the same as the outer diameter of the heat dissipation fan (230), and when the spiral coil (322) is in the initial position, the outer diameter of the spiral coil (322) is 2 times the outer diameter of the heat dissipation fan (230).

6. The heat sink for communication base station as claimed in claim 1, wherein the width of the spacer net (400) is larger than the sum of the widths of the two second sliding plates (320); the middle position of one side surface of each second sliding plate (320) which is far away from each other is fixedly connected with a handle, and the included angle between each second sliding plate (320) and the adjacent first sliding plate (310) ranges from 90 degrees to 270 degrees.

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