CN206260196U - Radiator gum - Google Patents

Abstract

The utility model is related to a kind of radiator gum, and it includes radiator body, and radiator body is provided with mounting surface, and the mounting surface is provided with sprayed metal coating, and metal spraying layer surface forms frosting, and metal spraying layer surface is provided with high heat conduction creamy material layer.Being born on the mounting surface of such radiator gum has high heat conduction creamy material layer（Gum layer）, directly can be fitted installation with electronic component, and element is directly installed on high heat conduction creamy material layer, you can realize good heat conductive with radiator；And, the materials of high heat conduction creamy material layer are set in production, and the control of its consumption is preferable, waste smaller, and the connection effect for playing is also by calculating, in best state.

Description

Radiator gum

Technical field

The utility model is related to a kind of radiator, particularly a kind of radiator gum.

Background technology

Existing radiator is generally alumiaum article, and its surface is provided with polylith radiating fin, and cooling fin surfaces are provided with tooth again Line, so as to increase its surface area so that radiator has larger area and air contact, forms the heat exchange of heat transfer formula.It is this to change The effect of heat is poor, and, the volume of radiator is also relatively large.In addition, this radiator is installed to when on electronic component, it is Ensure its tight ness rating contacted with electronic component, generally require and apply heat-conducting silicone grease in radiator and electronic component contact position, Increase the workload for installing user, and, the amount for applying heat-conducting silicone grease is more casual, too small, causes the presence in gap, influence to be led Thermal effect；Excessively, then cause to waste.

Utility model content

The purpose of this utility model is to provide a kind of simple and reasonable for structure, easy for installation to contact effect with heat generating member Radiator gum that is good, improving its radiating effect, to overcome the deficiencies in the prior art.

What the purpose of this utility model was realized in：

A kind of radiator gum, including radiator body, radiator body are provided with mounting surface, it is characterised in that：The peace Dress face is provided with sprayed metal coating, and metal spraying layer surface forms frosting, and metal spraying layer surface is provided with high heat conduction paste material The bed of material.

The purpose of this utility model can also be solved using following technical measures：

Used as more specifically scheme, the sprayed metal coating is copper sprayed coating.

The high heat conduction creamy material layer outer surface is also covered with aluminium foil.

Thermal-radiating material layer is coated with surface beyond the radiator body correspondence mounting surface, increases its heat radiation effect Really.

The radiator body is provided with multiple louvres, and louvre is parallel with the mounting surface.

The louvre inwall is additionally provided with radiating convex tendon, to increase radiating surface, further improves radiating effect.

Polylith micropore conducting strip, micropore conducting strip are fixed with surface beyond the radiator body correspondence mounting surface Multiple micro through holes extended along its axis direction are provided with, each micro through hole is parallel to each other.

The radiator body is made of aluminum, and micropore conducting strip first passes through high thermal conductivity coefficient tack coat and glues with radiator body Knot, then, micropore conducting strip is fixed by aluminium-plated metal level again with radiator body, it is ensured that its heat transfer uniformity, heat conduction is faster.

The micropore conducting strip is parallel with the mounting surface or perpendicular or tilts.

The micro through hole of the micropore conducting strip is parallel with the mounting surface；Or, the micro through hole of the micropore conducting strip Point to radiator body and be separated by a distance with radiator body, to form jet orifice.The holding of 4-6 meters of jet orifice position It is unimpeded, be conducive to improving heat loss through convection effect.

The beneficial effects of the utility model are as follows：

（1）Being born on the mounting surface of such radiator gum has high heat conduction creamy material layer（Gum layer）, can directly with Electronic component laminating is installed, and element is directly installed on high heat conduction creamy material layer, you can realize good heat conductive with radiator；And And, the materials of high heat conduction creamy material layer are set in production, and the control of its consumption is preferable, waste smaller, and the company played It is also by calculating, in best state to connect effect；

（2）Such radiator gum can be outer plus aluminium foil in high heat conduction creamy material layer, to high heat conduction creamy material layer There is certain protective effect, also, because element can be contacted directly with aluminium foil surface, because aluminium foil can follow high heat conduction cream Shape material layer deforms, therefore, also can realize good contact with element；

（3）The sprayed metal coating of such radiator gum is copper sprayed coating, and copper sprayed coating can increase radiator integrally leads Hot and thermal uniformity.

Brief description of the drawings

Fig. 1 is the utility model first embodiment stereopsis structural representation.

Fig. 2 is the main structure schematic diagram of Fig. 1.

Fig. 3 is mplifying structure schematic diagram at A in Fig. 2.

Fig. 4 is the utility model second embodiment dimensional structure diagram.

Fig. 5 is the backsight structural representation of Fig. 4.

Fig. 6 is the utility model 3rd embodiment dimensional structure diagram.

Fig. 7 is the utility model fourth embodiment dimensional structure diagram.

Fig. 8 is the backsight structural representation of Fig. 7.

Fig. 9 is the embodiment dimensional structure diagram of the utility model the 5th.

Specific embodiment

Below in conjunction with the accompanying drawings and embodiment is further described to the utility model.

Embodiment one, referring to shown in Fig. 1 to Fig. 3, a kind of radiator gum, including radiator body 1, radiator body 1 Mounting surface is provided with, the mounting surface is provided with sprayed metal coating 19, and the surface of sprayed metal coating 19 forms frosting, sprayed metal coating 19 surfaces are provided with high heat conduction creamy material layer 18.The sprayed metal coating 19 is copper sprayed coating.

18 outer surface of high heat conduction creamy material layer are also covered with aluminium foil 17.

As more preferably scheme, thermal-radiating material is coated with the surface beyond the correspondence mounting surface of the radiator body 1 Layer.

The radiator body 1 is provided with multiple louvres 16, and louvre 16 is parallel with the mounting surface.

The inwall of the louvre 16 is additionally provided with radiating convex tendon 24.

Embodiment two, the difference with embodiment one is：Referring to shown in Fig. 4 and Fig. 5, the correspondence of the radiator body 1 is pacified Polylith micropore conducting strip 5 is fixed with surface beyond dress face, micropore conducting strip 5 is provided with multiple along the extension of its axis direction Micro through hole 4, each micro through hole 4 is parallel to each other.

The radiator body 1 is made of aluminum, and micropore conducting strip 5 first passes through high thermal conductivity coefficient bonding with radiator body 1 Layer is bonded, and then, micropore conducting strip 5 is fixed by aluminium-plated metal level again with radiator body 1.

The micropore conducting strip 5 is parallel with the mounting surface.The micro through hole 4 of the micropore conducting strip 5 and the installation Face is parallel.

The surface of the radiator body 1 can be without louvre.

Embodiment three, the difference with embodiment two is：Shown in Figure 6, the surface of the radiator body 1 is not provided with Aluminium foil.

Example IV, the difference with embodiment two is：Referring to shown in Fig. 7 and Fig. 8, the micropore conducting strip 5 with it is described Mounting surface is tilted.The micro through hole 4 of the micropore conducting strip 5 points to radiator body 1 and separates necessarily with radiator body 1 Distance, to form jet orifice.The lower end of micropore conducting strip 5 is provided with support flange 15, and support flange 15 is with radiator body 1 first Bonded by high thermal conductivity coefficient tack coat, then, support flange 15 is fixed by aluminium-plated metal level again with radiator body 1.

The surface of the radiator body 1 is not provided with aluminium foil.The surface of the radiator body 1 is provided with louvre 16, but dissipates Without radiating convex tendon in hot hole 16.

Embodiment five, the difference with embodiment one is：It is shown in Figure 9, the micropore conducting strip 5 and the mounting surface It is perpendicular.The micro through hole 4 of the micropore conducting strip 5 points to radiator body 1 and is separated by a distance with radiator body 1, To form jet orifice.The lower end of the top surface of radiator body 1 correspondence micropore conducting strip 5 is provided with locating slot 23, locating slot 23 and is provided with convex Muscle 25, the lower end of micropore conducting strip 5 is padded by its by convex tendon 25 so that formed between the lower end of micropore conducting strip 5 and locating slot 23 Jet orifice.The surface of the radiator body 1 is also provided with louvre 16 along its axis direction, and the inwall of louvre 16 is provided with radiating convex tendon 24。

Claims (10)

1. a kind of radiator gum, including radiator body（1）, radiator body（1）It is provided with mounting surface, it is characterised in that：Institute State mounting surface and be provided with sprayed metal coating（19）, sprayed metal coating（19）Surface forms frosting, sprayed metal coating（19）Surface It is provided with high heat conduction creamy material layer（18）, or, high heat conduction creamy material layer is directly provided with mounting surface（18）.

2. radiator gum according to claim 1, it is characterised in that：The sprayed metal coating（19）It is copper sprayed coating.

3. radiator gum according to claim 1, it is characterised in that：The high heat conduction creamy material layer（18）Outer surface is also It is coated with aluminium foil（17）.

4. radiator gum according to claim 1, it is characterised in that：The radiator body（1）Beyond correspondence mounting surface Surface on be coated with thermal-radiating material layer.

5. radiator gum according to claim 1, it is characterised in that：The radiator body（1）It is provided with multiple louvres （16）, louvre（16）It is parallel with the mounting surface.

6. radiator gum according to claim 5, it is characterised in that：The louvre（16）Inwall is additionally provided with radiating convex tendon （24）.

7. radiator gum according to claim 1, it is characterised in that：The radiator body（1）Beyond correspondence mounting surface Surface on be fixed with polylith micropore conducting strip（5）, micropore conducting strip（5）It is provided with multiple along the micro- of its axis direction extension Through hole（4）, each micro through hole（4）It is parallel to each other.

8. radiator gum according to claim 7, it is characterised in that：The radiator body（1）Made of aluminum, micropore is led Backing（5）With radiator body（1）First pass through high thermal conductivity coefficient tack coat bonding, then, micropore conducting strip（5）With radiator sheet Body（1）Fixed by aluminium-plated metal level again.

9. radiator gum according to claim 7, it is characterised in that：The micropore conducting strip（5）With the mounting surface phase It is parallel or perpendicular or tilt.

10. radiator gum according to claim 7, it is characterised in that：The micropore conducting strip（5）Micro through hole（4）With The mounting surface is parallel；Or, the micropore conducting strip（5）Micro through hole（4）Point to radiator body（1）And with radiating Device body（1）It is separated by a distance, to form jet orifice.