CN207720621U - Stream the radiator of increasing heat radiation area - Google Patents

Abstract

The utility model discloses a kind of radiator streaming increasing heat radiation area, includes at least two cooling fins, and two adjacent cooling fins link together；The following table face interval of each cooling fin is formed with multiple downward opening first ventilation slots, and the upper table face interval of each cooling fin is formed with multiple the second opening up ventilation slots, and second ventilation slot is adjacent with the first ventilation slot interval；The first ventilation slot dislocation on two adjacent cooling fins is connected, and the second ventilation slot dislocation on two adjacent cooling fins is connected.By will at least two cooling fins link together, the first ventilation slot dislocation on two adjacent cooling fins is connected, the second ventilation slot dislocation on two adjacent cooling fins is connected, which increase streaming for hot wind, to increase heat dissipation area, and the outer surface of cooling fin is coated with graphene heat dissipating layer, makes its better heat-radiation effect.

Description

Stream the radiator of increasing heat radiation area

Technical field

The utility model is related to radiator field technologies, refer in particular to a kind of radiator streaming increasing heat radiation area.

Background technology

With the rapid development of electronic products, function is also stronger and stronger, necessarily will produce in the process of running Many heats, and heat dissipation indispensability device of the radiator as electronic product equipment, need rapid cooling just to can guarantee electronic product Normal work, therefore the heat dissipation performance for how improving radiator is that current radiators design and develop a key needed to be considered Problem.

Utility model content

In view of this, the utility model is in view of the existing deficiencies of the prior art, main purpose is to provide one kind and streaming increasing The radiator of big heat dissipation area, is connected by the way that the ventilation slot on each cooling fin misplaces, hot wind is made to be streamed in ventilation slot, Increase heat dissipation area.

To achieve the above object, the utility model is using following technical solution：

A kind of radiator streaming increasing heat radiation area, includes at least two cooling fins, and two adjacent cooling fins are connected to Together；The following table face interval of each cooling fin is formed with multiple downward opening first ventilation slots, the upper surface of each cooling fin Interval is formed with multiple the second opening up ventilation slots, and second ventilation slot is adjacent with the first ventilation slot interval；Adjacent two The first ventilation slot dislocation on cooling fin is connected, and the second ventilation slot dislocation on two adjacent cooling fins is connected, and radiates The outer surface of piece is coated with graphene heat dissipating layer.

As a preferred embodiment, multiple first ventilation slots and multiple second ventilation slots are integrally stamped and formed out.

As a preferred embodiment, the first ventilation slot and the second ventilation slot are rectangular.

As a preferred embodiment, cooling fin entirety undulate.

As a preferred embodiment, a mounting hole is offered on a cooling fin placed in the middle.

As a preferred embodiment, caulking groove is offered close to the both ends of the cooling fin in two outsides.

As a preferred embodiment, the outer surface of the cooling fin is coated with electroless nickel layer, above-mentioned graphene heat dissipating layer cladding In electroless nickel layer outer surface.

As a preferred embodiment, the graphene heat dissipating layer is coated on the outer surface of cooling fin by sputtering way.

The utility model has clear advantage and advantageous effect compared with prior art, specifically, by above-mentioned technology Known to scheme：

By will at least two cooling fins link together, the first ventilation slot dislocation on two adjacent cooling fins is connected, The second ventilation slot dislocation on two adjacent cooling fins is connected, and which increase streaming for hot wind, to increase heat dissipation area, And the outer surface of cooling fin is coated with graphene heat dissipating layer, makes its better heat-radiation effect.

More clearly to illustrate the structure feature and effect of the utility model, come below in conjunction with the accompanying drawings with specific embodiment pair The utility model is described in detail.

Description of the drawings

Fig. 1 is the perspective representation of the preferred embodiment of the utility model；

Fig. 2 is the vertical view of the preferred embodiment of the utility model；

Fig. 3 is the partial cross-sectional view of the preferred embodiment of the utility model.

Description of drawing identification：

10, cooling fin 101, the first ventilation slot

102, the second ventilation slot 103, mounting hole

104, caulking groove 20, graphene heat dissipating layer

30, electroless nickel layer.

Specific implementation mode

It please refers to shown in Fig. 1 to Fig. 3, that show the concrete structures of the preferred embodiment of the utility model, include At least two cooling fins 10.

The two adjacent cooling fins 10 link together；The following table face interval of each cooling fin 10 is formed with multiple opening courts Under the first ventilation slot 101, the upper table face interval of each cooling fin 10 is formed with multiple the second opening up ventilation slots 102, Second ventilation slot 102 is spaced the dislocation of the first ventilation slot 101 on two adjacent, adjacent cooling fins 10 with the first ventilation slot 101 It is connected, the second ventilation slot 102 dislocation on two adjacent cooling fins 10 is connected, and which increase streaming for hot wind, to increase Heat dissipation area is added, has made its better heat-radiation effect, in the present embodiment, the first ventilation slot 101 and the second ventilation slot 102 are in square Shape.

The outer surface of cooling fin 10 is coated with graphene heat dissipating layer 20, specifically, graphene heat dissipating layer 20 passes through sputter Mode is coated on the outer surface of cooling fin 10, and graphene heat dissipating layer 20 quickly distributes thermal energy, to make cooling fin dissipate Heat faster, better heat-radiation effect.

Multiple first ventilation slots 101 and multiple second ventilation slots 102 are integrally stamped and formed out, i.e., it is in wave that cooling fin 10 is whole Shape wave；The surface of cooling fin 10 is coated with an electroless nickel layer 30, and hardness is high, corrosion resistance is strong, plating layer porosity is low, wearability It is good, better than electrodeposited chromium, solderability is good, can be soaked by solder, capability of electromagnetic shielding is good；Above-mentioned graphene heat dissipating layer 20 coats In 30 outer surface of electroless nickel layer.

A mounting hole 103 is offered on a cooling fin 10 placed in the middle, radiator is mounted on by mounting hole 103 in equipment； Caulking groove 104 is offered close to the both ends of the cooling fin 10 in two outsides, caulking groove 104 is adapted installation with equipment.

The design focal point of the utility model is：

By will at least two cooling fins link together, the first ventilation slot dislocation on two adjacent cooling fins is connected, The second ventilation slot dislocation on two adjacent cooling fins is connected, and which increase streaming for hot wind, to increase heat dissipation area, And the outer surface of cooling fin is coated with graphene heat dissipating layer, makes its better heat-radiation effect.

The above descriptions are merely preferred embodiments of the present invention, not makees to the technical scope of the utility model Any restrictions, therefore any trickle amendment made by the above technical examples according to the technical essence of the present invention, equivalent change Change and modify, is still within the scope of the technical solutions of the present invention.

Claims (8)

1. a kind of radiator streaming increasing heat radiation area, it is characterised in that：Include at least two cooling fins, adjacent two heat dissipations Piece links together；The following table face interval of each cooling fin is formed with multiple downward opening first ventilation slots, each cooling fin Upper table face interval be formed with multiple the second opening up ventilation slots, second ventilation slot is adjacent with the first ventilation slot interval； The first ventilation slot dislocation on two adjacent cooling fins is connected, and the second ventilation slot dislocation on two adjacent cooling fins is connected It is logical, and the outer surface of cooling fin is coated with graphene heat dissipating layer.

2. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：Multiple first ventilation slots and Multiple second ventilation slots are integrally stamped and formed out.

3. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：First ventilation slot and second Ventilation slot is rectangular.

4. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：Cooling fin is in integrally wave Shape.

5. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：On a cooling fin placed in the middle Offer a mounting hole.

6. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：Heat dissipation close to two outsides The both ends of piece offer caulking groove.

7. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：The appearance of the cooling fin Face is coated with electroless nickel layer, and above-mentioned graphene heat dissipating layer is coated on electroless nickel layer outer surface.

8. the radiator according to claim 1 for streaming increasing heat radiation area, it is characterised in that：The graphene heat dissipating layer The outer surface of cooling fin is coated on by sputtering way.