CN208016187U - Efficient and light weight Aluminium Radiator - Google Patents

Abstract

The utility model is related to hardware fields, more particularly to efficient and light weight Aluminium Radiator, including heat-radiating substrate, it is set to the X-type holder of heat-radiating substrate upper surface, several the longitudinal radiating fins being arranged in parallel between being open on X-type holder, several the left lateral heat dissipation fins being arranged in parallel between the left opening of X-type holder, several the right lateral heat dissipation fins being arranged in parallel between the right opening of X-type holder；One cube structure of periphery formation of heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin；X-type holder offers a through-hole close to the side center of heat-radiating substrate；Heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin are hollow structure.The utility model total quality is light, consumptive material is few, at low cost, energy carries out heat exchange, good heat dissipation effect with the air of all directions simultaneously.

Description

Efficient and light weight Aluminium Radiator

Technical field

The utility model is related to hardware fields, and in particular to efficient and light weight Aluminium Radiator.

Background technology

In the electronic product course of work, a part of electric energy is converted into thermal energy discharge, if these heats transfer out not in time It goes, electronic product temperature is caused to increase, so that electronic product aging, influences the stability and service life of its operation.

Therefore, installation radiator is all needed in electronic product by heat derives, to reduce electronic product temperature in time.Existing skill The radiator of art has active heat removal and passive heat dissipation two ways, passive heat dissipation generally to carry out heat by cooling fin and air It exchanges to radiate.

For passively radiating, generally by setting cooling fin, the heat of electronic product is transmitted in external environment, But this design, has the following deficiencies.

On the one hand, cooling fin is typically provided the tabular radiating fin of substrate and entity, and quality is larger, leads to electronic product Total quality is big, and consumptive material is more, and production cost is high.Second aspect, radiating fin are arranged in parallel in one direction, can only be with a side To air carry out heat exchange, heat exchanger effectiveness is low, and heat dissipation effect is poor.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide that a kind of total quality is light, consumptive material is few, cost It is low, can be carried out simultaneously with the air of all directions heat exchange, good heat dissipation effect efficient and light weight Aluminium Radiator.

Technical solution used by the utility model is：Efficient and light weight Aluminium Radiator, including heat-radiating substrate are set to scattered The X-type holder of hot substrate upper surface, several the longitudinal radiating fins being arranged in parallel between being open on X-type holder are parallel to set Several the left lateral heat dissipation fins being placed between the left opening of X-type holder are arranged in parallel in several between the right opening of X-type holder A right lateral heat dissipation fin；The heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation The periphery of fin forms a cube structure；The X-type holder offers a through-hole close to the side center of heat-radiating substrate；It is described Heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin are hollow structure；It is described Longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin including aluminum lamella and are coated on aluminum sheet surfaces To the heat conversion layer by converting heat for infrared ray.

To being further improved as surface deposition of the heat-radiating substrate away from X-type holder side has for above-mentioned technical proposal High heat conduction diamond-like coating.

To being further improved as the heat-radiating substrate both sides offer heat emission hole for above-mentioned technical proposal.

To being further improved as the heat-radiating substrate, X-type holder, longitudinal radiating fin, left transverse direction for above-mentioned technical proposal Radiating fin, right lateral heat dissipation fin are integrally formed.

The beneficial effects of the utility model are：

1, on the one hand, longitudinal radiating fin, left lateral heat dissipation fin and right lateral heat dissipation fin are installed on X-type holder, Relative to the structure for being directly arranged in parallel in several radiating fins on heat-radiating substrate surface, the utility model can be arranged more Radiating fin, heat dissipation area increase, good heat dissipation effect, and longitudinal radiating fin, left lateral heat dissipation fin and right lateral heat dissipation fin Piece is not a whole sheet so that radiator total quality reduces, and consumptive material is few, and production cost is low.Second aspect, radiate base One cube structure of periphery formation of plate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin, Radiator monnolithic case rule, is easily installed, and occupy little space, in the case where heat-dissipating space is certain, good heat dissipation effect.The Three aspects, heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin are hollow knot Structure further reduced the quality of radiator entirety relative to solid construction, reduces consumptive material and uses, to reduce cost, and by Then hollow-core construction, then longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin have outer surface and inner surface, Outer surface and inner surface can carry out heat exchange with outside air, heat dissipation area be considerably increased, so as to improve heat dissipation effect. Fourth aspect, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin including aluminum lamella and are coated on aluminum Sheet surfaces to by converting heat be infrared ray heat conversion layer, when heat by heat-radiating substrate and X-type holder conduct to When aluminum lamella, through heat conversion layer by converting heat be infrared radiation to surrounding, further improve the heat dissipation of radiator Effect, for identical radiating efficiency, the utility model can be designed more small and exquisite, consequently facilitating installation.5th aspect, X-type Holder offers a through-hole close to the side center of heat-radiating substrate, further reduced the overall volume of radiator, meanwhile, increase Heat dissipation area, further improves heat dissipation effect.6th aspect, at the same equipped with longitudinal radiating fin, left lateral heat dissipation fin, Right lateral heat dissipation fin can carry out heat exchange with the air of multiple directions, further improve heat dissipation effect.

2, surface deposition of the heat-radiating substrate away from X-type holder side has high heat conduction diamond-like coating, high heat conduction diamond-like Stone coating thermal coefficient is high, heat-transfer rate is fast, since the high heat conduction diamond-like coating of heat-radiating substrate directly connects with electronic product It touches, can quickly conduct the heat of electronic product to radiator, to reduce electronic product temperature, good heat dissipation effect.

3, heat-radiating substrate both sides offer heat emission hole, further reduced the overall volume of radiator, meanwhile, it increases scattered Hot area, further improves heat dissipation effect.

4, heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin one at Type, simple production process, convenient for large-scale production.

5, diameter of the through-hole close to heat-radiating substrate side is more than the diameter close to longitudinal radiating fin side, is dissipated close to longitudinal Hot fin side, through-hole diameter is small, and rigidity is small, easy to process so that radiator overall structure is stablized.

Description of the drawings

Fig. 1 is the stereogram of the utility model；

Fig. 2 is the stereogram at another visual angle of the utility model；

Fig. 3 is the cross-sectional view of longitudinal radiating fin of the utility model.

Specific implementation mode

The utility model is further described below in conjunction with attached drawing.

As shown in Figs. 1-2, the respectively stereogram of the utility model different visual angles.

Efficient and light weight Aluminium Radiator 100, including heat-radiating substrate 110 are set to the X-type branch of 110 upper surface of heat-radiating substrate Frame 120, several the longitudinal radiating fins 130 being arranged in parallel between being open on X-type holder 120, is arranged in parallel in X-type holder Several left lateral heat dissipation fins 140 between 120 left openings, are arranged in parallel in several between 120 right opening of X-type holder Right lateral heat dissipation fin 150；The heat-radiating substrate 110, X-type holder 120, longitudinal radiating fin 130, left lateral heat dissipation fin 140, the periphery of right lateral heat dissipation fin 150 forms a cube structure；The X-type holder 120 is close to heat-radiating substrate 110 Side center offers a through-hole 121；The heat-radiating substrate 110, X-type holder 120, longitudinal radiating fin 130, left lateral heat dissipation Fin 140, right lateral heat dissipation fin 150 are hollow structure.

Surface deposition of the heat-radiating substrate 110 away from 120 side of X-type holder has high heat conduction diamond-like coating 111, high heat conduction 111 thermal coefficient of diamond-like coating is high, heat-transfer rate is fast, since the high heat conduction diamond-like coating 111 of heat-radiating substrate 110 is straight It connects and is contacted with electronic product, can quickly be conducted the heat of electronic product to radiator 100, to reduce electronic product temperature, Good heat dissipation effect.

110 both sides of heat-radiating substrate offer heat emission hole 112, further reduced the overall volume of radiator 100, meanwhile, Heat dissipation area is increased, heat dissipation effect is further improved.

Heat-radiating substrate 110, X-type holder 120, longitudinal radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin Piece 150 is integrally formed, simple production process, convenient for large-scale production.

Diameter of the through-hole 121 close to 110 side of heat-radiating substrate is more than the diameter close to 130 side of longitudinal radiating fin, leans on Nearly longitudinal direction 130 side of radiating fin, 121 diameter of through-hole is small, and rigidity is small, easy to process so that 100 overall structure of radiator is steady It is fixed.

As shown in figure 3, the cross-sectional view of longitudinal radiating fin for the utility model.

The longitudinal direction radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150 include aluminum lamella 131 and coated on 131 surface of aluminum lamella to by converting heat be infrared ray heat conversion layer 132.

On the one hand, longitudinal radiating fin 130, left lateral heat dissipation fin 140 and right lateral heat dissipation fin 150 are installed on X-type On holder 120, relative to the structure for being directly arranged in parallel in several radiating fins on 110 surface of heat-radiating substrate, this practicality is new More radiating fins can be arranged in type, and heat dissipation area increases, good heat dissipation effect, and longitudinal radiating fin 130, left lateral heat dissipation fin Piece 140 and right lateral heat dissipation fin 150 are not a whole sheet so that 100 total quality of radiator reduces, and consumptive material is few, raw It produces at low cost.Second aspect, heat-radiating substrate 110, X-type holder 120, longitudinal radiating fin 130, left lateral heat dissipation fin 140, the right side The periphery of lateral heat dissipation fin 150 forms a cube structure, and radiator 100 monnolithic case rule is easily installed, and occupies empty Between it is small, in the case where heat-dissipating space is certain, good heat dissipation effect.The third aspect, heat-radiating substrate 110, X-type holder 120, longitudinal direction Radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150 are hollow structure, relative to solid construction, The whole quality of radiator 100 is further reduced, consumptive material is reduced and uses, to reduce cost, and due to being hollow-core construction, then Longitudinal radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150 have outer surface and inner surface, outer surface Heat exchange can be carried out with outside air with inner surface, heat dissipation area be considerably increased, so as to improve heat dissipation effect.Four directions Face, longitudinal radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150 include aluminum lamella 131 and coating In 131 surface of aluminum lamella to the heat conversion layer 132 by converting heat for infrared ray, when heat passes through heat-radiating substrate 110 By converting heat it is infrared radiation to surrounding through heat conversion layer 132 when conducting to aluminum lamella 131 with X-type holder 120, The heat dissipation effect for further improving radiator 100, for identical radiating efficiency, the utility model can be designed more small Ingeniously, consequently facilitating installation.5th aspect, X-type holder 120 offer a through-hole 121 close to the side center of heat-radiating substrate 110, The overall volume of radiator 100 is further reduced, meanwhile, heat dissipation area is increased, heat dissipation effect is further improved.6th Aspect, while being equipped with longitudinal radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150, energy and multiple directions Air carry out heat exchange, further improve heat dissipation effect.

The operation principle of the utility model is：

Electronic product is directly contacted with heat-radiating substrate 110 away from the surface of 120 side of X-type holder, high heat conduction diamond-like Coating 111 quickly conducts the heat on electronic product surface to heat-radiating substrate 110, then passes through the conduction of heat-radiating substrate 110 to X-type branch Frame 120, then through the conduction of X-type holder 120 to longitudinal radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150, hot friendship is carried out by longitudinal radiating fin 130, left lateral heat dissipation fin 140, right lateral heat dissipation fin 150 and surrounding air It changes, conducts heat in external environment, good heat dissipation effect.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it should not be understood as limiting the scope of the patent of the utility model.It should be pointed out that for the common of this field For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be with appended claims.

Claims (5)

1. efficient and light weight Aluminium Radiator, it is characterised in that：Including heat-radiating substrate, it is set to the X-type branch of heat-radiating substrate upper surface Frame, several the longitudinal radiating fins being arranged in parallel between being open on X-type holder, is arranged in parallel in the left opening of X-type holder Between several left lateral heat dissipation fins, several the right lateral heat dissipation fins being arranged in parallel between the right opening of X-type holder；Institute State one cube of the periphery formation of heat-radiating substrate, X-type holder, longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin Body structure；The X-type holder offers a through-hole close to the side center of heat-radiating substrate；The heat-radiating substrate, is indulged X-type holder It is hollow structure to radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin；The longitudinal direction radiating fin, left transverse direction Radiating fin, right lateral heat dissipation fin include aluminum lamella and are coated on aluminum sheet surfaces to be infrared by converting heat The heat conversion layer of line.

2. efficient and light weight Aluminium Radiator according to claim 1, it is characterised in that：The heat-radiating substrate deviates from X-type branch The surface deposition of frame side has high heat conduction diamond-like coating.

3. efficient and light weight Aluminium Radiator according to claim 2, it is characterised in that：The heat-radiating substrate both sides offer Heat emission hole.

4. efficient and light weight Aluminium Radiator according to claim 2, it is characterised in that：The heat-radiating substrate, X-type holder, Longitudinal radiating fin, left lateral heat dissipation fin, right lateral heat dissipation fin are integrally formed.

5. efficient and light weight Aluminium Radiator according to claim 2, it is characterised in that：The through-hole is close to heat-radiating substrate one The diameter of side is more than the diameter close to longitudinal radiating fin side.