CN105912083B - Radiator cooling fin - Google Patents

Abstract

The invention belongs to dissipation from electronic devices apparatus fields, and in particular to radiator cooling fin, the production method of the radiator cooling fin and the radiator using the radiator cooling fin.Radiator cooling fin of the invention includes cooling fin, and cooling fin includes piece main body；Piece main body generally rectangular plate-like, piece main body are provided with the location hole through piece main body, and the radiating groove of transverse and longitudinal array arrangement is provided in piece main body, and radiating groove runs through piece main body.Radiator of the invention cooling fin uniform specification, structure is simple, convenient for continuous production to which cost is relatively low.

Description

Radiator cooling fin

Technical field

The invention belongs to dissipation from electronic devices apparatus fields, and in particular to radiator cooling fin, radiator heat dissipation The production method of piece and the radiator for using the radiator cooling fin.

Background technique

The electronic devices such as CPU, GPU are one piece of ultra-large integrated circuits, play indispensable work in a computer With, for example CPU is the arithmetic core and control core of computer, GPU is Computer display arithmetic core.Not with computer Disconnected development, the electronic devices such as CPU, GPU are also with continuous renewal, and the number of transistors in the electronic devices such as CPU, GPU is continuous Increase；The calorific value of the electronic devices such as CPU, GPU is consequently increased.In order to guarantee the good operational efficiency of computer, this is just needed Radiator is used to radiate the electronic devices such as CPU, GPU.

Radiator used in the electronic devices such as CPU, GPU generally can all use cooling fin at present, and it is desirable that pass through increase Cooling fin external surface area improves heat dissipation capacity.Cooling fin meeting is more complicated in this way, and the production difficulty of cooling fin can increase, thus Lead to radiator higher cost used in the electronic devices such as CPU, GPU.

Summary of the invention

To solve the above problems, the purpose of the present invention is to provide a kind of radiator cooling fin, uniform specification, structure letter It is single, it is convenient for continuous production.

To achieve the above object, the technical scheme adopted by the invention is as follows: radiator cooling fin, including cooling fin, it is described Cooling fin includes piece main body；Piece main body generally rectangular plate-like, piece main body are provided with the location hole through described main body, piece master It is provided with the radiating groove of transverse and longitudinal array arrangement in vivo, the radiating groove runs through piece main body.

Further, protrusion is further fixedly arranged in the radiating groove.The surface area in each radiating groove 13 can be increased, From the surface area for increasing cooling fin 1, and then improve heat dissipation effect.

Further, the quantity of the protrusion is one and is fixed on the center line of radiating groove.

Further, the generally square plate of described main body, there are four in described main body for the setting of piece main body The equally distributed location hole of the heart.Cooling fin is around the center rotated ninety degrees of piece main body or 180 degree or 270 degree Afterwards, cooling fin is still through can be with location hole, so that it is more convenient to install cooling fin.

Further, the radiating groove is integrally square.

Further, the cooling fin is made of aluminium alloy or copper alloy.

Compared with prior art, the invention has the following beneficial effects: uniform specifications, and structure is simple, are convenient for continuous production To which cost is relatively low.

Detailed description of the invention

Fig. 1 is the schematic top plan view of radiator cooling fin in the present invention.

Fig. 2 is the flow diagram of the production method of radiator cooling fin in the present invention.

Fig. 3 is the schematic diagram of the production method of radiator cooling fin in the present invention.

Fig. 4 is the stereoscopic schematic diagram of radiator in the present invention.

Fig. 5 is the stereoscopic schematic diagram at another visual angle of radiator in the present invention.

Fig. 6 is the perspective exploded view of radiator in the present invention.

Fig. 7 is the decomposition diagram of the vertical view of radiator in the present invention.

Cooling fin 1；Piece main body 11；Location hole 12；Radiating groove 13；Protrusion 14；Pedestal 2；Mounting post 21；Pedestal casting lug thereon 22；Fan 3；Mounting hole 31.

Specific embodiment

Embodiment one.

The present embodiment is radiator cooling fin.

Referring to Fig. 1, radiator cooling fin comprising cooling fin 1, cooling fin 1 include piece main body 11；Piece main body 11 is whole Body is rectangular plate-like (i.e. the vertical view of piece main body 11 is rectangle), and piece main body 11 is provided with the location hole 12 through piece main body 11, piece master The radiating groove 13 of transverse and longitudinal array arrangement (i.e. square matrix arrangement) is provided in body 11, radiating groove 13 runs through piece main body 11.

Protrusion 14 can also be fixedly installed in radiating groove 13.By protrusion 14, can increase in each radiating groove 13 Surface area from the surface area for increasing cooling fin 1, and then improves heat dissipation effect.

The quantity of protrusion 14 can be one and be fixed on the center line of radiating groove 13.

Piece main body 11 can generally square plate (i.e. the vertical view of piece main body 11 is square), piece main body 11 is provided with four A center (i.e. piece main body 11 overlooks the square center being square) equally distributed location hole 12 around piece main body 11.In this way When installing cooling fin 1 by location hole 12, around the center of piece main body 11, (i.e. the vertical view of piece main body 11 is square just cooling fin 1 Square central) after rotated ninety degrees or 180 degree or 270 degree, cooling fin 1 is still through can be with location hole 12, so that it is more convenient to install cooling fin 1.

Radiating groove 13 can integrally be square (i.e. the vertical view of radiating groove 13 is square).

Cooling fin 1 can be made of aluminium alloy or copper alloy.

From the above, it is seen that radiator of the invention cooling fin uniform specification, structure is simple, convenient for continuous production from And cost is relatively low.

Embodiment two.

The present embodiment is the production method of the radiator cooling fin of embodiment one.

Please refer to Fig. 2, Fig. 3, got ready in attached drawing 2 filling part indicate not through (be not punched or jet-bedding and pass through Wear) part.

The production method of radiator cooling fin, comprising the following steps:

Step 1: coiled continuous plate is unfolded and is clapped by S1, plate of having been clapped；Here, continuous plate is system Make the plate of aluminum alloy material used in radiator cooling fin or the plate of Copper alloy material；

Step 2: S2 forms location hole 12 to two edge punchings of plate of having clapped, obtains punching plate；

Step 3: S3 carries out jet-bedding to punching plate and forms radiating groove 13, obtains jet-bedding plate；

Step 4: jet-bedding plate is cut off, obtains cooling fin 1 by S4.

Above-mentioned steps one to step 4 can be completed by a continuous punching apparatus.Here, above-mentioned continuous punching apparatus It can be similar to the striking machine disclosed in CN103259022B for battery continous way grid punching molding.In this way, cooling fin 1 It is produced as continuous production, production efficiency is greatly improved, and production cost also will be greatly reduced.

Above-mentioned steps three can with the following steps are included:

S31 carries out jet-bedding to the first matrix position of punching plate, forms the radiating groove 13 of the first matrix position, obtains the One matrix position plate；

S32 carries out jet-bedding to the second matrix position of the first matrix position plate, forms the radiating groove 13 of the second matrix position, obtain To the second matrix position plate；

S33 carries out jet-bedding to the third matrix position of the second matrix position plate, forms the radiating groove 13 of third matrix position, obtain To third matrix position plate；

S34 carries out jet-bedding to the 4th matrix position of third matrix position plate, forms the radiating groove 13 of the 4th matrix position, obtain To jet-bedding plate.

By S31-S34, four steps are divided into the process that punching plate carries out jet-bedding formation radiating groove 13 and are completed； In this way, the spacing between jet-bedding tooth used in jet-bedding is enlarged and (can be put into larger-size tool between spacing), jet-bedding The processing of tooth is more easier, jet-bedding tooth precision be also easily worked it is higher, so as to improve the machining accuracy of radiating groove 13.

Above-mentioned steps four can with the following steps are included:

Cooling fin 1 is clapped.The cooling fin 1 that can make is more smooth.

Embodiment three.

The present embodiment is radiator.

Please refer to Fig. 4-Fig. 7, radiator comprising cooling fin 1, pedestal 2 and fan 3.

Cooling fin 1 includes piece main body 11；The generally square plate (i.e. the vertical view of piece main body 11 is square) of piece main body 11, There are four uniformly divide around the center of piece main body 11 (i.e. piece main body 11 overlooks the square center being square) for the setting of piece main body 11 The location hole 12 of cloth, the radiating groove 13 of transverse and longitudinal array arrangement (i.e. square matrix arrangement) is provided in piece main body 11, and radiating groove 13 runs through Piece main body 11；Protrusion 14 is further fixedly arranged in radiating groove 13, the quantity of protrusion 14 is one and is fixed at radiating groove 13 Center line on；Radiating groove 13 is whole to be square (i.e. the vertical view of radiating groove 13 is square).

The generally square plate (i.e. the vertical view of pedestal 2 is square) of pedestal 2, there are four mounting posts for the fixed setting of pedestal 2 21, mounting post 21 is corresponding with location hole 12.

For the setting of fan 3 there are four mounting hole 31, mounting hole 31 is corresponding with location hole 12.

Pedestal 2, at least a piece of cooling fin 1 and fan 3 are set gradually from lower to upper；Mounting post 21 passes through location hole 12 And mounting hole 31.

Pedestal 2 is contacted with electronic devices such as CPU, GPU absorbs heat, and transfers heat to cooling fin by mounting post 21 1；The air-flow that the blowing of fan 3 is formed is flowed through from the outer surface of cooling fin 1 takes away heat, to realize the electronics such as cooling CPU, GPU Device.

The quantity of cooling fin 1 can also be one group or more.Wherein, four cooling fins 1 are rotated rotating around the center of cooling fin 1 90 degree, 180 degree, 270 degree, 360 deg and be bonded to each other one group of cooling fin 1.The blowing of fan 3 shape in this way When successively passing through the radiating groove 13 of one group of cooling fin 1 at air-flow, air-flow (distinguishes rotated ninety degrees, 108 by different angle Ten degree, 270 degree, 360 deg) protrusion 14 guide, formed helical airflow, to improve heat dissipation effect.

Pedestal 2 and closest to being also provided with washer (being not drawn into attached drawing) between the cooling fin 1 of pedestal 2；Washer set In mounting post 21.In this way, pedestal 2 and closest to foring gap between the cooling fin 1 of pedestal 2, the air-flow that the blowing of fan 3 is formed It after cooling fin 1, can outwardly be discharged, improve from pedestal 2 and closest to the gap formed between the cooling fin 1 of pedestal 2 Ventilation effect is so as to heat dissipation effect.

The another side (i.e. there are four the another sides of 21 one side of mounting post for the fixed setting of pedestal 2) of pedestal 2 is also provided with Pedestal casting lug thereon 22.By pedestal casting lug thereon 22, radiator can be made even closer and more stepped up with electronic devices such as CPU, GPU Close fitting dissipates effect to improve.

Have above-mentioned as can be seen that radiator of the invention, structure is simple, is easy assembling, and heat dissipation effect is preferable.

It is to be appreciated that term " center ", " longitudinal direction ", " transverse direction ", "front", "rear", "left", "right", "vertical", " water It is flat ", "top", "bottom", "inner", the instructions such as "outside" orientation or positional relationship be to be based on the orientation or positional relationship shown in the drawings, It is only the present invention and simplified description for ease of description, rather than indicating or imply signified device or element must have specifically Orientation is constructed and is operated for specific orientation, thus should not be understood as the limitation to present invention protection content.

Above specific embodiment is only the preferred embodiment of this creation, all in this wound not to limit this creation Any modification, equivalent substitution, improvement and etc. done within the spirit and principle of work, should be included in this creation protection scope it It is interior.

Claims (5)

1. radiator cooling fin, including cooling fin, it is characterised in that: the cooling fin includes piece main body；Piece main body is generally Rectangular plate-like, piece main body are provided with the location hole through described main body, and the heat dissipation of transverse and longitudinal array arrangement is provided in piece main body Slot, the radiating groove run through piece main body；Protrusion, the surface of the protrusion and described master are further fixedly arranged in the radiating groove The surface of body flushes；The protrusion is prolonged from a side of the radiating groove to the other side of the opposite same radiating groove is straight It stretches；Four cooling fins rotating around cooling fin center rotated ninety degrees, 180 degree, 270 degree, 360 deg simultaneously It is bonded to each other.

2. radiator cooling fin as described in claim 1, it is characterised in that: the quantity of the protrusion is one and fixes It is arranged on the center line of radiating groove.

3. radiator cooling fin as described in claim 1, it is characterised in that: the generally square plate of described main body, There are four around the equally distributed location hole in the center of described main body for the setting of piece main body.

4. radiator cooling fin as described in claim 1, it is characterised in that: the radiating groove is integrally square.

5. the radiator cooling fin as described in claim 1-4 is any, it is characterised in that: the cooling fin be aluminium alloy or Copper alloy is made.