CN204031708U - A kind of heat conduction and heat radiation and electromagnetic wave eliminator - Google Patents

Abstract

The utility model is a kind of heat conduction and heat radiation and electromagnetic wave eliminator, comprise radiator, described radiator is provided with for eliminating electromagnetic conducting foam, described radiator comprises front radiator and reverse side radiator, described front radiator part surface is coated with insulating barrier, and the surface of the described front radiator do not covered by described insulating barrier is provided with the heat carrier of thermal conductivity higher than described radiator.Compared with prior art, the utility model heat conduction and heat radiation and electromagnetic wave eliminator, by being provided with the stronger heat carrier of thermal conductivity on radiator, while having good electromagnetic wave elimination performance, have good thermal conductivity.

Description

A kind of heat conduction and heat radiation and electromagnetic wave eliminator

[technical field]

The utility model relates to technical field of electronic products, particularly relates to a kind of heat conduction and heat radiation and electromagnetic wave eliminator.

[background technology]

Along with the progress of science and technology, the electronic products such as notebook computer, panel computer, smart mobile phone become the necessity in people's daily life, in the middle of these equipment, there are a lot of parts operationally can produce a large amount of heats and electromagnetic wave, if heat and electromagnetic wave derived not in time, the service behaviour that will affect parts even causes the damage of equipment.Heat conduction and heat radiation of the prior art and electromagnetic wave eliminator just install conducting foam additional on basic radiator, are derived by electromagnetic wave.But the heat dissipation problem of this device can not be well solved.

[summary of the invention]

The purpose of this utility model is to provide a kind of heat conduction and eliminates the good heat conduction and heat radiation of Electromagnetic performance and electromagnetic wave eliminator.

The utility model is achieved through the following technical solutions above-mentioned purpose: a kind of heat conduction and heat radiation and electromagnetic wave eliminator, comprise radiator, described radiator is provided with for eliminating electromagnetic conducting foam, described radiator comprises front radiator and reverse side radiator, described front radiator part surface is coated with insulating barrier, and the surface of the described front radiator do not covered by described insulating barrier is provided with the heat carrier of thermal conductivity higher than described radiator.

Compared with prior art, the beneficial effect of the utility model heat conduction and heat radiation and electromagnetic wave eliminator is: the utility model heat conduction and heat radiation and electromagnetic wave eliminator, by being provided with the stronger heat carrier of thermal conductivity on radiator, can be good at solving the bad problem of thermal diffusivity.

[accompanying drawing explanation]

Fig. 1 is the schematic front view of the utility model heat conduction and heat radiation and electromagnetic wave eliminator one better embodiment.

Fig. 2 is the rearview of Fig. 1.

In accompanying drawing, the mark of each parts is as follows: 1, radiator, 11, front radiator, 12, reverse side radiator, the 111, first radiating area, 112, the second radiating area, 2, insulating barrier, the 21, first insulating barrier, the 22, second insulating barrier, 3, heat carrier, 4, conducting foam, the 41, first conducting foam, the 42, second conducting foam.

[embodiment]

Refer to accompanying drawing, the utility model heat conduction and heat radiation and electromagnetic wave eliminator, comprise radiator 1, radiator described in present embodiment is Copper Foil or aluminium foil, the material with heat conductivility in other execution modes also can be used for replacing the Copper Foil in present embodiment or aluminium foil, described radiator is provided with for eliminating electromagnetic conducting foam 4, described radiator 1 comprises front radiator 11 and reverse side radiator 12, described front radiator 11 part surface is coated with insulating barrier 2, on the surface of the described front radiator 11 do not covered by described insulating barrier 2, thermal conductivity is higher than the heat carrier 3 of described radiator, heat carrier 3 in present embodiment is Graphene or fine globular graphite, the radiating mode of described fine globular graphite is that circular radiation multiaspect is to heat radiation, relative to Copper Foil or aluminium foil, its radiating effect is better, more effective heat can be derived, as long as heat carrier 3 thermal conductivity in other execution modes is higher than radiator 1, also can replace in the Graphene in present embodiment or fine globular graphite present embodiment, described insulating barrier is bonding with described front radiator 11, it is bonding that connected mode in other execution modes also can be used for replacing in present embodiment.

Insulating barrier 2 comprises the first insulating barrier 21 and the second insulating barrier 22, the surface of the described front radiator 11 do not covered by described first insulating barrier 21 and described second insulating barrier 22 comprises the first radiating area 111 and the second radiating area 112, described second radiating area 112 is between described first insulating barrier 21 and described second insulating barrier 22, and described second insulating barrier 22 is between described first radiating area 111 and described second radiating area 112.Described conducting foam 4 can be connected with the wire in the external world, by wire, electromagnetic wave is imported to the external world, thus elimination electromagnetic wave, described conducting foam 4 is positioned on front radiator 11, conducting foam 4 comprises the first conducting foam 41 and the second conducting foam 42, described first conducting foam 41 is positioned on described first radiating area 111, and described second conducting foam 42 is positioned on described second radiating area 112.Described heat carrier 3 is positioned on described first radiating area 111, and in present embodiment, described heat carrier 3 is bonding with described first radiating area 111, and it is bonding that the connected mode in other execution modes also can be used for replacing in present embodiment.

Above-described is only execution modes more of the present utility model.For the person of ordinary skill of the art, under the prerequisite not departing from the utility model creation design, can also make some distortion and improvement, these all belong to protection range of the present utility model.

Claims (6)

1. a heat conduction and heat radiation and electromagnetic wave eliminator, comprise radiator, described radiator is provided with for eliminating electromagnetic conducting foam, described radiator comprises front radiator and reverse side radiator, it is characterized in that: described front radiator part surface is coated with insulating barrier, the surface of the described front radiator do not covered by described insulating barrier is provided with the heat carrier of thermal conductivity higher than described radiator, described insulating barrier is bonding with described front radiator, described insulating barrier comprises the first insulating barrier and the second insulating barrier, do not comprised the first radiating area and the second radiating area by the surface of described front radiator that described first insulating barrier and described second insulating barrier cover, described second radiating area is between described first insulating barrier and described second insulating barrier, described second insulating barrier is between described first radiating area and described second radiating area.

2. heat conduction and heat radiation according to claim 1 and electromagnetic wave eliminator, it is characterized in that: described conducting foam is positioned on the radiator of front, described heat conduction foam comprises the first conducting foam and the second conducting foam, described first conducting foam is positioned on described first radiating area, and described second conducting foam is positioned on described second radiating area.

3. heat conduction and heat radiation according to claim 1 and electromagnetic wave eliminator, is characterized in that: described heat carrier is positioned on described first radiating area.

4. heat conduction and heat radiation according to claim 3 and electromagnetic wave eliminator, is characterized in that: described heat carrier is bonding with described first radiating area.

5. heat conduction and heat radiation according to claim 1 and electromagnetic wave eliminator, is characterized in that: described radiator is Copper Foil or aluminium foil.

6. heat conduction and heat radiation according to claim 1 and electromagnetic wave eliminator, is characterized in that: described heat carrier is Graphene or fine globular graphite.