Active heat dissipation device for 5G communication base station

A communication base station and heat dissipation device technology, applied in the direction of cooling/ventilation/heating transformation, sustainable communication technology, advanced technology, etc., can solve the problems of snow water freezing, start-up time increase, etc.

Active Publication Date: 2021-06-22
道赟有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Since the rotating mechanism of the active radiator for 5G communication base stations is open to the outside world, snow water can flow into the rotating shaft of the rotating mechanism along the blades of the radiator after melting. If the 5G communication base station stops operating at this time, it will cause The rotating shaft of the rotating mechanism stops rotating, causing the snow water between the rotating shaft and the outer tube to freeze, so that the start-up time of the rotating mechanism will increase significantly

Method used

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  • Active heat dissipation device for 5G communication base station
  • Active heat dissipation device for 5G communication base station
  • Active heat dissipation device for 5G communication base station

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] For example figure 1 -example Figure 5 Shown:

[0029] The present invention provides an active heat dissipation device for a 5G communication base station. The structure includes a heat dissipation mechanism 1, a base 2, and a fixed rod 3. The fixed rod 3 is riveted to the inside of the base 2. The bottom of the heat dissipation mechanism 1 is connected to the base The upper end flange of 2 is connected; the heat dissipation mechanism 1 includes an outer frame 11, blades 12, and a rotating mechanism 13. Internal center activity snaps together.

[0030] Wherein, the rotating mechanism 13 includes a rotating shaft a1, an ice-breaking mechanism a2, and a built-in ring a3. The ice-breaking mechanism a2 is embedded in the inner position of the built-in ring a3. a2 has a gear-like structure, and the ice layer between the ice-breaking mechanism a2 and the built-in ring a3 can be crushed when the rotating shaft a1 rotates through the ice-breaking mechanism a2.

[0031] Wh...

Embodiment 2

[0036] For example Image 6 -example Figure 8 Shown:

[0037] Wherein, the water-absorbing block b1 includes a clamping piece b11, a bottom connecting plate b12, and a contact-increasing groove b13. The bottom of the clamping piece b11 is embedded in the inner upper end of the bottom connecting plate b12. The connecting plate b12 is an integrated structure, and the clamping piece b11 is made of spring steel material with strong elasticity. The clamping piece b11 can clamp the crushed ice squeezed between the two clamping pieces b11, so that the crushed ice The ice does not appear to fall off outwards.

[0038] Wherein, the clamping piece b11 includes a gripping block c1, an connecting plate c2, a stabilizing rod c3, and an inner block c4. The inner position of the inner block c4, the built-in inner block c4 is embedded in the inner position of the connecting plate c2, there are eight gripping blocks c1, and two of them are evenly distributed in parallel inside the connecti...

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Abstract

The invention discloses an active heat dissipation device for a 5G communication base station, the active heat dissipation device structurally comprises a heat dissipation mechanism, a base and a fixed rod, the fixed rod is riveted with the interior of the base, the bottom of the heat dissipation mechanism is connected with a flange at the upper end of the base, and an ice layer between the inner wall of a built-in ring and a rotating shaft can be crushed through sawteeth on an ice breaking mechanism when the rotating shaft rotates; the crushed ice can be collected through a collecting groove in a rotating shaft, and finally, water generated by melting of the crushed ice can be absorbed through a water absorption block, so that the situation that when icing occurs between the rotating shaft and a built-in ring, the restarting time of a rotating mechanism is greatly prolonged is effectively avoided; the clamping pieces can clamp the crushed ice through extrusion generated between the two clamping pieces when the crushed ice falls into the water absorption block, then through cooperation of the stabilizing rods, the grabbing blocks can penetrate into the crushed ice, and therefore high grabbing force can be generated on the crushed ice.

Description

technical field [0001] The invention relates to the field of 5G communication base stations, in particular to an active cooling device for 5G communication base stations. Background technique [0002] The active radiator for 5G communication base station is mainly used to quickly dissipate heat from the 5G communication base station. The heat generated by the 5G communication base station can be continuously taken out by the rotation of the rotating mechanism on the active radiator for 5G communication base station. Based on the above description, the inventors found that an existing active cooling device for 5G communication base stations mainly has the following deficiencies, for example: [0003] Since the rotating mechanism of the active radiator for 5G communication base stations is open to the outside world, snow water can flow into the rotating shaft of the rotating mechanism along the blades of the radiator after melting. If the 5G communication base station stops op...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H05K7/20
CPCH05K7/20709Y02D30/70
Inventor 张凤芬
Owner 道赟有限公司
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