CN220586699U - Liquid-gas split-flow type heat radiation module - Google Patents

Abstract

The utility model discloses a liquid-gas flow-dividing type heat radiation module which comprises a fixed frame, wherein sliding rails are arranged on the upper side and the lower side of the middle of the fixed frame, the sliding rails comprise fixed clamps, a grid plate is arranged in the middle of the fixed clamps, a heat radiation block is arranged in the middle of the grid plate, modules are arranged on the two sides of the grid plate, a frame is arranged on the right side of the module, a fan is arranged in the middle of the frame, the fixed block is pulled to drive the fixed block to move back and forth in a sliding groove III, the fixed block can be detached from the sliding groove III or fixedly installed, a heat radiation pipe is pulled to drive a fixing rod to move back and forth in the sliding groove I, the heat radiation pipe can be detached or fixedly installed, and the module is pulled to move back and forth in the sliding groove II, so that the module can be detached or fixedly installed, and the effect of convenient replacement and maintenance is achieved.

Description

Liquid-gas split-flow type heat radiation module

Technical Field

The utility model relates to a stamping tool in the technical field of electronic product heat dissipation, in particular to a liquid-gas flow-dividing type heat dissipation module.

Background

The utility model relates to a heat radiation module for radiating electronic products, which is characterized in that a side light heat radiation structure of a television on the market is formed by using 2.5-3mm aluminum materials, and the traditional heat radiation structure does not meet the heat radiation effect along with the gradual increase of the power of the television, so that the effect of the heat radiation module for radiating the electronic products with high efficiency is reflected.

According to the retrieval, the prior Chinese patent publication No. CN202021675105.4 is a liquid-gas split-type heat radiation module, which comprises a heat radiation plate, wherein a condensation area is arranged on the heat radiation plate, a heat radiation pipeline is arranged in the condensation area, the heat radiation pipeline can be completed by a stamping forming and brazing process or a hot rolling and inflation process, a hollow pipeline space is arranged on the heat radiation plate surface and is respectively set as the condensation area, a refrigerant is arranged in the condensation area, the condensation area is provided with at least one steam channel and at least one liquid reflux channel, the bottom surface of the heat radiation plate is provided with a heat radiation pipe in a bonding mode, and the heat radiation pipe and the steam channel and the heat radiation pipe and the liquid reflux channel are respectively communicated through connecting components to form a complete cycle. The product of the utility model has reasonable and ingenious structure, and the radiating pipe is arranged on the bottom surface of the radiating plate and is communicated with the condensing area of the radiating plate through the tee joint and the guide pipe. Compared with the prior art, the performance of the product is greatly improved, the weight of the product is light, and the manufacturing cost of the product is low.

Although the above-mentioned patent has realized improving the effect of electronic product heat dissipation rate and stability, but the above-mentioned patent is difficult to avoid appearing damaging in long-time use, and inconvenient dismantlement, therefore the problem that the maintenance was changed to the inconvenient change of above-mentioned heat dissipation module has.

Aiming at the problems, the novel design is carried out on the basis of the original heat radiation module.

Disclosure of Invention

The utility model aims to provide a liquid-gas flow-dividing type heat radiation module to solve the problem that the heat radiation module in the current market proposed by the background technology is inconvenient to replace and overhaul.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a liquid gas reposition of redundant personnel formula heat dissipation module, includes the mount, preferably, both sides are equipped with the slide rail about the mount is middle, and the slide rail is including the fixing clip, be equipped with the grid board in the middle of the fixing clip, and be equipped with the radiating block in the middle of the grid board, grid board both sides are equipped with the module, and the module right is equipped with the frame to be equipped with the fan in the middle of the frame.

Preferably, the fixing frame comprises a fixing frame I, a hole groove, a fixing frame II and a hole, the fixing frame I is connected with the fixing frame II in a jogged mode, the fixing frame I and the fixing frame II are respectively provided with the hole, the hole groove is formed in the middle of the right of the fixing frame I, the inner wall of the right of the fixing frame I is connected with the frame, the middle of the frame is connected with the fan, and the fan is opposite to the hole groove.

Preferably, the sliding rail comprises a rail rod and a sliding groove III, the sliding groove III is arranged in the middle of the rail rod, the rail rod is connected with the upper side and the lower side of the inner wall of the fixing frame, and the sliding groove III is connected with the fixing clip in a clamping manner.

Preferably, the fixing clamp comprises a fixing block, a first sliding groove and a second sliding groove, the first sliding groove and the second sliding groove are both arranged on the fixing block, the second sliding groove is arranged on two sides of the first sliding groove, the third sliding groove is connected with the fixing block in a clamping mode, the fixing block moves back and forth in the third sliding groove, the second sliding groove is connected with the module in a clamping mode, and the module moves back and forth in the second sliding groove.

Preferably, the radiating block comprises a fixing rod and a radiating pipe, wherein the upper side and the lower side of the radiating pipe are connected with the fixing rod, the fixing rod is clamped with the first sliding chute, and the fixing rod moves up and down in the first sliding chute.

Compared with the prior art, the utility model has the beneficial effects that: the effect of convenient replacement and maintenance of the heat radiation module;

1. the fixed block is provided with the first sliding groove, the middle clamping of the first sliding groove is connected with the fixed rod, the middle of the fixed rod is connected with the radiating pipe, the two sides of the radiating pipe are provided with the grid plates, the two sides of the grid plates are provided with the modules, the radiating pipe can rapidly and stably radiate the modules, the right side of the modules is provided with the fan, the fan drives hot air to be discharged from the hole groove, and the modules are radiated, so that the effect of improving the radiating rate and the stability is achieved.

2. The fixed block is pulled to drive the fixed block to move back and forth in the sliding groove III, the fixed block can be detached from the sliding groove III or fixedly installed, the radiating pipe is pulled to drive the fixed rod to move back and forth in the sliding groove I, the radiating pipe can be detached or fixedly installed, the module is pulled to move back and forth in the sliding groove II, and the module can be detached or fixedly installed, so that the effect of convenient replacement and maintenance is achieved.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is an enlarged schematic view of the fixing clip according to the present utility model;

FIG. 4 is an enlarged schematic view of the hole of the present utility model.

In the figure: 1. a fixing frame; 101. a first fixing frame; 102. a hole groove; 103. a second fixing frame; 104. a hole; 2. a frame; 3. a blower; 4. a fixing clip; 401. a fixed block; 402. a first chute; 403. a second chute; 5. a slide rail; 501. a track rod; 502. a chute III; 6. a heat dissipation block; 601. a fixed rod; 602. a heat radiating pipe; 7. a grid plate; 8. and (5) a module.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a liquid gas reposition of redundant personnel formula heat dissipation module, includes mount 1, both sides are equipped with slide rail 5 about the mount 1 middle, and slide rail 5 is including fixing clip 4, be equipped with grid plate 7 in the middle of the fixing clip 4, and be equipped with radiating block 6 in the middle of the grid plate 7, grid plate 7 both sides are equipped with module 8, and the module 8 right is equipped with frame 2 to be equipped with fan 3 in the middle of the frame 2.

The fixing frame 1 comprises a fixing frame I101, a hole groove 102, a fixing frame II 103 and a hole 104, wherein the fixing frame I101 is connected with the fixing frame II 103 in a jogged mode, the holes 104 are formed in the fixing frame I101 and the fixing frame II 103, the hole groove 102 is formed in the middle of the right side of the fixing frame I101, the inner wall of the right side of the fixing frame I101 is connected with a frame 2, the middle of the frame 2 is connected with a fan 3, the fan 3 faces the hole groove 102, and the fan 3 drives air to flow so as to cool the module 8.

The sliding rail 5 comprises a rail rod 501 and a sliding groove III 502, the sliding groove III 502 is arranged in the middle of the rail rod 501, the rail rod 501 is connected with the upper side and the lower side of the inner wall of the first fixing frame 101, the sliding groove III 502 is clamped and connected with the fixing clamp 4, and the sliding groove III 502 can fix the fixing clamp 4.

The fixing clamp 4 comprises a fixing block 401, a first chute 402 and a second chute 403, wherein the first chute 402 and the second chute 403 are respectively arranged on the fixing block 401, the second chute 403 is arranged on two sides of the first chute 402, the fixing block 401 is clamped and connected with a third chute 502, the fixing block 401 moves back and forth in the third chute 502, the second chute 403 is clamped and connected with the module 8, the module 8 moves back and forth in the second chute 403, and the second chute 403 can fix the module 8.

The heat dissipation block 6 comprises a fixing rod 601 and a heat dissipation pipe 602, wherein the fixing rod 601 is connected to the upper side and the lower side of the heat dissipation pipe 602, the fixing rod 601 is clamped with the first chute 402, the fixing rod 601 moves up and down in the first chute 402, and the heat dissipation pipe 602 can cool the module 8 efficiently.

Working principle: when the liquid-gas split type heat radiation module is used, the first chute 402 and the second chute 403 are arranged on the fixed block 401, the first chute 402 is clamped and connected with the fixed rod 601, the fixed rod 601 is connected with the heat radiation pipe 602, the second chute 403 is clamped and connected with the module 8, condensed water flows in the heat radiation pipe 602, the heat radiation of the module 8 can be efficiently carried out, the right side of the first chute 101 is provided with the hole groove 102, the right inner wall of the first chute 101 is connected with the frame 2, the fan 3 is connected in the middle of the frame 2, the fan 3 rotates to drive air flow near the module 8 to flow through the grid plate 7, hot air is discharged outwards through the hole groove 102 to carry out heat radiation on the module 8, the first chute 101 and the second chute 103 are separated, the fixed block 401 is pulled to move back and forth in the third chute 502, the fixed block 401 can be detached or fixedly installed from the third chute 502, the fixed rod 601 is pulled to move back and forth in the first chute 402, the heat radiation pipe 602 can be detached or fixedly installed from the first chute 402, the module 8 is pulled to move back and forth in the second chute 403, the module 8 can be detached from the second chute 403, the convenience in replacing and the module can be conveniently detached.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (5)

1. The utility model provides a liquid gas reposition of redundant personnel formula heat dissipation module, includes mount (1), its characterized in that: the utility model discloses a fan, including fixing frame (1), slide rail (5) are equipped with on both sides about in the middle of fixing frame (1), and slide rail (5) are including fixing clip (4), be equipped with grid board (7) in the middle of fixing clip (4), and be equipped with radiator block (6) in the middle of grid board (7), grid board (7) both sides are equipped with module (8), and are equipped with frame (2) on the right of module (8), and be equipped with fan (3) in the middle of frame (2).

2. The liquid-gas split heat dissipation module as defined in claim 1, wherein: the fixing frame (1) comprises a first fixing frame (101), a hole groove (102), a second fixing frame (103) and a hole (104), wherein the first fixing frame (101) is connected with the second fixing frame (103) in a jogged mode, the first fixing frame (101) and the second fixing frame (103) are respectively provided with the hole (104), the hole groove (102) is formed in the middle of the right of the first fixing frame (101), the right inner wall of the first fixing frame (101) is connected with the frame (2), the middle of the frame (2) is connected with the fan (3), and the fan (3) is opposite to the hole groove (102).

3. The liquid-gas split heat dissipation module as defined in claim 1, wherein: the sliding rail (5) comprises a rail rod (501) and a sliding groove III (502), the sliding groove III (502) is arranged in the middle of the rail rod (501), the rail rod (501) is connected with the upper side and the lower side of the inner wall of the first fixing frame (101), and the sliding groove III (502) is clamped and connected with the fixing clamp (4).

4. The liquid-gas split heat dissipation module as defined in claim 1, wherein: the fixing clamp (4) comprises a fixing block (401), a first sliding chute (402) and a second sliding chute (403), wherein the first sliding chute (402) and the second sliding chute (403) are arranged on the fixing block (401), the second sliding chute (403) is arranged on two sides of the first sliding chute (402), the third sliding chute (502) is connected by the fixing block (401) in a clamping mode, the fixing block (401) moves back and forth in the third sliding chute (502), the second sliding chute (403) is connected with the module (8) in a clamping mode, and the module (8) moves back and forth in the second sliding chute (403).

5. The liquid-gas split heat dissipation module as defined in claim 1, wherein: the heat dissipation block (6) comprises a fixing rod (601) and a heat dissipation pipe (602), wherein the fixing rod (601) is connected to the upper side and the lower side of the heat dissipation pipe (602), the fixing rod (601) is clamped and connected with the first chute (402), and the fixing rod (601) moves up and down in the first chute (402).