CN219454736U - Composite radiator with aluminum alloy radiating fins - Google Patents

Abstract

The utility model relates to the technical field of radiators, and discloses a composite radiator with aluminum alloy radiating fins, which comprises a plurality of radiating fins, wherein radiating pipes are inserted in the radiating fins, opposite ends of the radiating pipes connected with each other are communicated with a communicating pipe through a connecting mechanism, the left sides of the radiating fins are provided with water tanks, the left ends of the radiating pipes positioned above the left sides are fixedly communicated with the upper side walls of the water tanks, the lower side walls of the water tanks are fixedly connected with water pumps, and the water inlet ends of the water pumps are fixedly communicated with the lower side walls of the water tanks. According to the utility model, when the radiator is used for radiating the equipment, the plurality of radiating fins are contacted with the irregular outer wall of the equipment, so that the contact area of the radiator and the equipment is greatly increased, the utilization rate of the radiator is increased, the cooling speed of the equipment is also increased, the temperature of the refrigerating fluid in the water tank can be rapidly reduced, and the radiating performance of the radiator is ensured.

Description

Composite radiator with aluminum alloy radiating fins

Technical Field

The utility model relates to the technical field of radiators, in particular to a composite radiator with aluminum alloy radiating fins.

Background

The radiator is a main mechanism for radiating equipment, and the radiator is made of the same material, the higher the heat transfer coefficient is, the better the thermal performance is, and the thermal performance of the radiator can be improved by adopting measures such as increasing the radiating area of the outer wall (with wings (ribs), improving the flow speed of air around the radiator (such as covering the steel serial radiator), strengthening the radiation intensity of the outer surface of the radiator (such as coating with high radiation coefficient on the outer surface), reducing the contact thermal resistance among all parts of the radiator (such as steel pipes and serial fins of the steel serial radiator), and the like.

When the existing radiator is used, the radiator is required to be contacted with the heating position of equipment, and because some equipment is bent in appearance, the traditional radiator can only have a small number of surfaces which are contacted with the equipment, and a large number of surfaces which are contacted with air, so that the utilization rate of the radiator is generally low, and the temperature of the equipment is reduced slowly.

Disclosure of Invention

The utility model aims to solve the problems that in the prior art, when a radiator is used, the radiator is required to be contacted with a heating position of equipment, and because some equipment is bent in appearance, the traditional radiator can only have a small number of surfaces which are contacted with the equipment and most of the surfaces are contacted with air, so that the utilization rate of the radiator is low, and the temperature reduction speed of the equipment is low.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a compound radiator with aluminum alloy fin, includes a plurality of radiator fin, a plurality of all peg graft in the radiator fin has the cooling tube, link to each other two the relative one end of cooling tube has communicating pipe through coupling mechanism intercommunication, a plurality of radiator fin's left side is equipped with the water tank, is located left side top the left end of cooling tube and the last lateral wall fixed connection of water tank, the lower lateral wall fixedly connected with water pump of water tank, the lower lateral wall fixed connection of water inlet end and the water tank of water pump, the water outlet end and the left side below of water pump the left end fixed connection of cooling tube, the last lateral wall fixedly connected with semiconductor refrigeration board of water tank, the last lateral wall of semiconductor refrigeration board passes through bolted connection heat conduction board, the last lateral wall fixedly connected with a plurality of fin of heat conduction board.

Preferably, the coupling mechanism includes that fixed cover establishes the installation cover outside communicating pipe and cooling tube, adjacent two all overlap outward the installation cover is equipped with the holding ring, two the holding ring overcoat is equipped with the clamp, the lateral wall fixedly connected with cardboard and the card section of thick bamboo of clamp, the inner wall of card section of thick bamboo passes through spring fixedly connected with sliding block, the last lateral wall of sliding block passes through link fixedly connected with card frame, the lower lateral wall mutual contact of card frame and cardboard.

Preferably, the upper side wall of the heat conducting plate is fixedly connected with a fan.

Preferably, the heat sink is made of aluminum alloy.

Preferably, the ends of the radiating pipe and the communicating pipe are fixedly connected with rubber rings.

Preferably, two guide pins are fixedly connected to the outer mounting sleeve of the radiating pipe, and two guide grooves are formed in the side wall of the outer mounting sleeve of the communicating pipe.

Compared with the prior art, the utility model provides a composite radiator with aluminum alloy radiating fins, which has the following beneficial effects:

1. according to the composite radiator with the aluminum alloy radiating fins, the radiating pipes, the communicating pipe, the water tank, the water pump, the semiconductor refrigerating plate, the heat conducting plate and the radiating fins are arranged, so that when the radiator is utilized to radiate heat, the radiating fins are contacted with the irregular outer wall of the equipment, the contact area of the radiator and the equipment is greatly increased, the utilization rate of the radiator is increased, and the cooling speed of the equipment is also increased.

2. According to the composite radiator with the aluminum alloy radiating fins, the temperature of refrigerating fluid in the water tank can be quickly reduced through the arranged semiconductor refrigerating plate, the heat conducting plate and the radiating fins, so that the radiating performance of the radiator is guaranteed.

And the device has no parts which are the same as or can be realized by adopting the prior art, and when the radiator is used for radiating the equipment, the plurality of radiating fins are contacted with the irregular outer wall of the equipment, so that the contact area of the radiator and the equipment is greatly increased, the utilization rate of the radiator is increased, the cooling speed of the equipment is also increased, the temperature of the refrigerating fluid in the water tank can be quickly reduced, and the radiating performance of the radiator is ensured.

Drawings

Fig. 1 is a schematic structural diagram of a composite radiator with aluminum alloy fins according to the present utility model;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic view showing a clip fixing manner in a composite heat sink with aluminum alloy fins according to the present utility model;

fig. 4 is an enlarged schematic view of a portion B in fig. 3.

In the figure: 1. a heat radiation fin; 2. a heat radiating pipe; 3. a communicating pipe; 4. a water tank; 5. a water pump; 6. a semiconductor refrigeration plate; 7. a heat conductive plate; 8. a heat sink; 9. a mounting sleeve; 10. a support ring; 11. a clamp; 12. a clamping plate; 13. a clamping cylinder; 14. a sliding block; 15. a clamping frame; 16. a blower; 17. a rubber ring; 18. a guide pin; 19. a guide groove.

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.

Referring to fig. 1-3, a composite radiator with aluminum alloy radiating fins 8 comprises a plurality of radiating fins 1, radiating pipes 2 are inserted in the radiating fins 1, two opposite ends of the radiating pipes 2 are connected with a communicating pipe 3 through a connecting mechanism, a water tank 4 is arranged on the left side of the radiating fins 1, the left end of the radiating pipe 2 located above the left side is fixedly communicated with the upper side wall of the water tank 4, a water pump 5 is fixedly connected to the lower side wall of the water tank 4, the water inlet end of the water pump 5 is fixedly communicated with the lower side wall of the water tank 4, the water outlet end of the water pump 5 is fixedly communicated with the left end of the radiating pipe 2 below the left side, a semiconductor refrigerating plate 6 is fixedly connected to the upper side wall of the water tank 4, a heat conducting plate 7 is connected to the upper side wall of the semiconductor refrigerating plate 6 through bolts, and the upper side wall of the heat conducting plate 7 is fixedly connected with a plurality of radiating fins 8.

The coupling mechanism includes that fixed cover establishes the installation cover 9 outside communicating pipe 3 and cooling tube 2, and two adjacent installation covers 9 all overlap outward and are equipped with holding ring 10, and two holding ring 10 overcoat are equipped with clamp 11, and clamp 11's lateral wall fixedly connected with cardboard 12 and a card section of thick bamboo 13, the inner wall of a card section of thick bamboo 13 pass through spring fixedly connected with sliding block 14, and sliding block 14's upper lateral wall passes through link fixedly connected with card frame 15, and card frame 15 and cardboard 12's lower lateral wall contact each other, convenient connection communicating pipe 3 and cooling tube 2.

The fan 16 is fixedly connected to the upper side wall of the heat conducting plate 7, so that the heat dissipation efficiency of the heat conducting plate 7 is improved.

The material of the radiating fin 8 is aluminum alloy, so that the radiating performance of the radiating fin 8 is ensured.

The ends of the radiating pipe 2 and the communicating pipe 3 are fixedly connected with rubber rings 17, so that the tightness between the radiating pipe 2 and the communicating pipe 3 is ensured.

Two guide pins 18 are fixedly connected to the outer mounting sleeve 9 of the radiating pipe 2, and two guide grooves 19 are formed in the side wall of the outer mounting sleeve 9 of the communicating pipe 3, so that the stability of placing the radiating pipe 2 and the communicating pipe 3 can be improved.

In the utility model, when in use, the plurality of radiating fins 1 are placed on the outer wall of the equipment, so that the radiating fins 1 and the bent outer wall of the equipment are communicated with the plurality of radiating pipes 2 through the communicating pipe 3, the water pump 5 is started, the water pump 5 conveys the refrigerating fluid in the water tank 4 into the radiating pipes 2, heat generated by the equipment can be absorbed by the radiating fins 1, then the radiating fins are brought into the water tank 4 through the radiating pipes 2 to cool, after the temperature in the water tank 4 is overhigh, the semiconductor refrigerating plate 6 is started to work to cool the refrigerant in the water tank 4, the contact area of the radiator and the equipment is greatly improved, thereby improving the utilization rate of the radiator, accelerating the cooling speed of the equipment and rapidly reducing the temperature of the refrigerating fluid in the water tank, thereby ensuring the heat dissipation performance of the radiator.

Claims (6)

1. The utility model provides a compound radiator with aluminum alloy fin (8), includes a plurality of fin (1), its characterized in that, a plurality of all peg graft in fin (1) have cooling tube (2), link to each other two cooling tube (2) relative one end is equipped with communicating pipe (3) through coupling mechanism intercommunication, a plurality of the left side of fin (1) is equipped with water tank (4), is located left side top the left end of cooling tube (2) and the last lateral wall fixed intercommunication of water tank (4), the lower lateral wall fixed connection of water tank (4) has water pump (5), the lower lateral wall fixed intercommunication of the water inlet end of water pump (5) and water tank (4), the play water end of water pump (5) and left side below the left end fixed intercommunication of cooling tube (2), the last lateral wall fixed connection of water tank (4) has semiconductor refrigeration board (6), the last lateral wall of semiconductor refrigeration board (6) is through bolted connection there is a plurality of heat-conducting plates (8) on the last lateral wall fixed connection of semiconductor refrigeration board (7).

2. The composite radiator with the aluminum alloy radiating fins (8) according to claim 1, characterized in that the connecting mechanism comprises a mounting sleeve (9) fixedly sleeved outside a communicating pipe (3) and a radiating pipe (2), two adjacent mounting sleeves (9) are sleeved with supporting rings (10) respectively, two supporting rings (10) are sleeved with a clamp (11), side walls of the clamp (11) are fixedly connected with a clamping plate (12) and a clamping cylinder (13), the inner wall of the clamping cylinder (13) is fixedly connected with a sliding block (14) through a spring, the upper side wall of the sliding block (14) is fixedly connected with a clamping frame (15) through a connecting frame, and the lower side walls of the clamping frame (15) and the clamping plate (12) are in contact with each other.

3. A composite radiator with aluminium alloy fins (8) according to claim 1, characterized in that the upper side wall of the heat-conducting plate (7) is fixedly connected with a fan (16).

4. A composite radiator with aluminium alloy fins (8) according to claim 1, characterized in that the material of the fins (8) is aluminium alloy.

5. The composite radiator with the aluminum alloy radiating fins (8) according to claim 1, wherein the ends of the radiating tube (2) and the communicating tube (3) are fixedly connected with rubber rings (17).

6. A composite radiator with aluminium alloy cooling fins (8) according to claim 2, characterized in that two guide pins (18) are fixedly connected to the outer mounting sleeve (9) of the cooling tube (2), and two guide grooves (19) are formed in the side wall of the outer mounting sleeve (9) of the communicating tube (3).