CN210274986U - Electronic equipment heat dissipation paster - Google Patents

Abstract

The utility model discloses an electronic equipment heat dissipation paster, it includes: lining; the middle part of the graphite flake is provided with a window, and the graphite flake is fixedly attached to the upper end surface of the lining cloth; the first heat-conducting double-sided adhesive tape is matched with the shape of the window, fixedly attached to the upper end face of the lining and placed in the window; the second heat-conducting double-sided adhesive tape is fixedly attached to the graphite flake and the upper end face of the first heat-conducting double-sided adhesive tape; and the microfiber piece is fixedly attached to the upper end face of the second heat-conducting double-sided adhesive tape. When the electronic equipment runs, a large amount of heat generated by the electronic equipment is absorbed by the second heat-conducting double-sided adhesive tape, is conducted to the graphite sheet and is dissipated by the graphite sheet, so that the high-efficiency heat-conducting and heat-dissipating effect is achieved; the utility model is a sheet product, which has thinner thickness, so that the utility model is suitable for thinner electronic equipment; the wireless charger sees through the window of graphite flake and carries out wireless charging to electronic equipment, and this graphite flake can not exert an influence to wireless charging, guarantees the wireless normal clear that charges.

Description

Electronic equipment heat dissipation paster

The technical field is as follows:

the utility model relates to an electronic equipment heat dissipation technical field refers in particular to an electronic equipment heat dissipation paster.

Background art:

in order to facilitate life, modern microelectronic technology is developing at a high speed, and various electronic devices such as computers, mobile phones, tablet computers and the like are continuously developed. The electronic device generates a large amount of heat energy during operation, and the heat energy affects the operation speed of the electronic device or causes the electronic device to overheat and crash.

Therefore, the electronic device may be provided with a heat sink in cooperation with a fan to dissipate heat, but the thickness of the electronic device may be increased, which is not suitable for thinner electronic devices, such as mobile phones and tablet computers.

Therefore, a material which is efficient in heat conduction, light and thin in thickness is urgently needed to rapidly transfer heat out, and normal operation of electronic equipment is guaranteed.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide an electronic equipment heat dissipation paster.

In order to solve the technical problem, the utility model discloses a following technical scheme: this electronic equipment heat dissipation paster includes: the graphite sheet is fixedly attached to the upper end face of the lining cloth; the shape of the first heat-conducting double-sided adhesive tape is matched with that of the window, and the first heat-conducting double-sided adhesive tape is fixedly attached to the upper end face of the lining cloth and is arranged in the window; the second heat-conducting double-sided adhesive tape is fixedly attached to the upper end surfaces of the graphite flake and the first heat-conducting double-sided adhesive tape; and the microfiber piece is fixedly attached to the upper end face of the second heat-conducting double-sided adhesive tape.

Further, in the above technical scheme, a first notch and a second notch are formed at two ends of the graphite sheet respectively, a third heat-conducting double-sided tape and a fourth heat-conducting double-sided tape are fixedly attached to two ends of the lining cloth respectively, the first notch and the second notch are filled with the third heat-conducting double-sided tape and the fourth heat-conducting double-sided tape respectively, and the thicknesses of the third heat-conducting double-sided tape and the fourth heat-conducting double-sided tape are the same as the thickness of the graphite sheet.

Further, in the above technical solution, the window is cross-shaped, and the first thermally conductive double-sided adhesive tape is cross-shaped; or, the window is rectangular, and the first heat-conducting double-sided adhesive tape is rectangular; or, the window is circular, and the first heat-conducting double-sided adhesive tape is circular.

Further, in the above technical solution, the thickness of the first double-sided thermal adhesive tape is the same as the thickness of the graphite sheet.

Furthermore, in the above technical solution, the upper end face of the microfiber is provided with a second double-sided adhesive, a second release paper is pasted on the upper surface of the second double-sided adhesive, and after the second release paper is torn off, the second double-sided adhesive is pasted on the electronic device.

Furthermore, in the above technical solution, the lower end of the lining cloth is provided with a first double-sided adhesive, the outer surface of the first double-sided adhesive is pasted with a first release paper, after the first release paper is torn off, the first double-sided adhesive is pasted in the protective sleeve of the electronic device, and the microfiber piece is pasted in contact with the electronic device loaded in the protective sleeve.

Furthermore, in the above technical solution, the protective cover has a containing groove for containing the electronic device, and the lining cloth is fixedly attached to the bottom of the containing groove through the first double-sided adhesive tape.

Furthermore, in the above technical solution, the back of the protective cover is provided with a plurality of heat dissipation holes penetrating through the accommodating groove.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses a fixed laminating of super fine piece and electronic equipment can reach the efficiency of preventing scraping, and when electronic equipment operation produced a large amount of heats, this second heat conduction double faced adhesive tape can adsorb a large amount of heats to the graphite flake is sent in the conduction, so that gives off the heat by this graphite flake, so as to reach radiating effect, and this graphite flake has extremely strong heat conduction radiating effect, the order the utility model discloses have fabulous radiating effect, furthermore, the utility model discloses a slice product, its thickness is thinner, so that can be applicable to thinner electronic equipment (like cell-phone, panel computer), and can carry out high-efficient heat conduction to thin electronic equipment, guarantee electronic equipment normal operating, the order the utility model discloses extremely strong market competition has. Additionally, the utility model discloses be provided with the window in the graphite flake middle part, when adopting wireless charger to carry out wireless charging to electronic equipment (like the cell-phone), wireless charger sees through this window and directly carries out wireless charging to electronic equipment (like the cell-phone), and this graphite flake can not exert an influence to wireless charging, guarantees the normal clear of wireless charging, and it is very convenient to use, and this window intussuseption is filled with first heat conduction double faced adhesive tape, and this first heat conduction double faced adhesive tape still can further improve the radiating efficiency.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a cross-sectional view of the present invention;

fig. 3 is an exploded perspective view of the present invention;

FIG. 4 is a perspective view of the present invention assembled to a protective sheath;

fig. 5 is a perspective view of the present invention from another perspective after being assembled to a protective cover.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1-3, a heat dissipation patch for electronic equipment is characterized in that: it includes: lining 1; a graphite sheet 2, wherein a window 21 is arranged in the middle of the graphite sheet 2, and the graphite sheet 2 is fixedly attached to the upper end face of the lining cloth 1; the first heat-conducting double-sided adhesive tape 3 is matched with the window 21 in shape, and the first heat-conducting double-sided adhesive tape 3 is fixedly attached to the upper end face of the lining cloth 1 and is arranged in the window 21; a second heat-conducting double-sided adhesive tape 4, wherein the second heat-conducting double-sided adhesive tape 4 is fixedly attached to the upper end surfaces of the graphite sheet 2 and the first heat-conducting double-sided adhesive tape 3; and the microfiber piece 5 is fixedly attached to the upper end surface of the second double-sided thermal conductive adhesive tape 4. The utility model discloses a fixed laminating of super fine piece 5 and electronic equipment can reach the efficiency of preventing scraping, and when electronic equipment operation produced a large amount of heats, this second heat conduction double faced adhesive tape 4 can adsorb a large amount of heats to the graphite flake is sent in the conduction, so that gives off the heat by this graphite flake, so as to reach radiating effect, and this graphite flake has extremely strong heat conduction radiating effect, makes the utility model discloses have fabulous radiating effect, furthermore, the utility model discloses a slice product, its thickness is thin, so that can be applicable to thinner electronic equipment (like cell-phone, panel computer), and can carry out high-efficient heat conduction to thin electronic equipment, guarantee electronic equipment normal operating, the order the utility model discloses extremely strong market competition has. Additionally, the utility model discloses be provided with window 21 in 2 middle parts of graphite flake, when adopting wireless charger to carry out wireless charging to electronic equipment (like the cell-phone), wireless charger sees through this window 21 and directly carries out wireless charging to electronic equipment (like the cell-phone), and this graphite flake 3 can not exert an influence to wireless charging, guarantees wireless normal clear of charging, and it is very convenient to use, and this window 21 intussuseption is filled with first heat conduction double faced adhesive tape 3, and this first heat conduction double faced adhesive tape 3 still can further improve the heat dissipation efficiency. The lining cloth 1 is located at the bottom layer of the heat dissipation patch of the electronic equipment, covers the lower end faces of the graphite flake 2 and the first heat conduction double-sided adhesive tape 3, covers the gap between the graphite flake 2 and the first heat conduction double-sided adhesive tape 3, and guarantees the attractiveness of the appearance.

The graphite flake is a brand new heat-conducting and heat-dissipating material, has unique crystal grain orientation, conducts heat uniformly along two directions, and the lamellar structure can be well adapted to any surface, shield heat sources and components and simultaneously improve the performance of consumer electronic products. The novel natural graphite solution has high heat dissipation efficiency, small occupied space and light weight, conducts heat uniformly along two directions, eliminates a 'hot spot' area, shields a heat source and components and improves the performance of consumer electronic products.

The two ends of the graphite sheet 2 are respectively provided with a first notch and a second notch, the two ends of the lining cloth 1 are respectively fixedly attached with a third heat-conducting double-sided adhesive tape 6 and a fourth heat-conducting double-sided adhesive tape 7, the third heat-conducting double-sided adhesive tape 6 and the fourth heat-conducting double-sided adhesive tape 7 respectively fill the first notch and the second notch, and the thickness of the third heat-conducting double-sided adhesive tape 6 and the thickness of the fourth heat-conducting double-sided adhesive tape 7 are the same as the thickness of the graphite sheet 2. The thickness of the first heat-conducting double-sided adhesive tape 3 is the same as that of the graphite sheet 2.

The window 21 is in a cross shape, and the first heat-conducting double-sided adhesive tape 3 is in a cross shape; alternatively, the window 21 is rectangular, and the first bond ply 3 is rectangular; alternatively, the window 21 is circular, and the first bond ply 3 is circular. In this embodiment, the window 21 is cross-shaped, and the first bond tape 3 is cross-shaped.

The upper end face of the microfiber piece 5 is provided with second double-sided adhesive, the second release paper is pasted on the upper surface of the second double-sided adhesive, and after the second release paper is torn off, the second double-sided adhesive is pasted on the electronic equipment. Or, as shown in fig. 4 and 5, the lower end of the lining cloth 1 is provided with a first double-sided adhesive, the outer surface of the first double-sided adhesive is pasted with a first release paper, after the first release paper is torn off, the first double-sided adhesive is pasted in the protective sleeve 8 of the electronic device, and the microfiber piece 5 is pasted and contacted with the electronic device in the protective sleeve 8.

In combination with 4 and 5, the protective cover 8 has a containing groove 81 for containing the electronic device, and the lining 1 is fixedly attached to the bottom of the containing groove 81 through a first double-sided adhesive tape. The back of the protective sheath 8 is provided with the plural number and link up hold the louvre 82 of groove 81 to this can further improve the heat dissipation efficiency, makes the electronic equipment of dress in protective sheath 8 can dispel the heat fast, guarantees that the electronic equipment operation is smooth and easy, and can not die, and it is very convenient to use, has solved the difficult problem that present protective sheath can not dispel the heat, makes the utility model discloses extremely strong market competition has.

To sum up, the utility model discloses a fixed laminating of super fine piece 5 and electronic equipment can reach the efficiency of preventing scraping, and when electronic equipment moves and produces a large amount of heats, this second heat conduction double faced adhesive tape 4 can adsorb a large amount of heats to the graphite flake is sent in the conduction, so as to give off the heat by this graphite flake, in order to reach radiating effect, and this graphite flake has extremely strong heat conduction radiating effect, makes the utility model discloses have fabulous radiating effect, moreover, the utility model discloses a slice product, its thickness is thinner, so that can be applicable to thinner electronic equipment (like cell-phone, panel computer), and can carry out high-efficient heat conduction to thin electronic equipment, guarantee electronic equipment normal operating, the order the utility model discloses extremely strong market competition has. Additionally, the utility model discloses be provided with window 21 in 2 middle parts of graphite flake, when adopting wireless charger to carry out wireless charging to electronic equipment (like the cell-phone), wireless charger sees through this window 21 and directly carries out wireless charging to electronic equipment (like the cell-phone), and this graphite flake 3 can not exert an influence to wireless charging, guarantees wireless normal clear of charging, and it is very convenient to use, and this window 21 intussuseption is filled with first heat conduction double faced adhesive tape 3, and this first heat conduction double faced adhesive tape 3 still can further improve the heat dissipation efficiency.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. The utility model provides an electronic equipment heat dissipation paster which characterized in that: it includes:

a lining (1);

the graphite sheet (2), the middle part of the graphite sheet (2) is provided with a window (21), and the graphite sheet (2) is fixedly attached to the upper end surface of the lining cloth (1);

the shape of the first heat-conducting double-sided adhesive tape (3) is matched with that of the window (21), and the first heat-conducting double-sided adhesive tape (3) is fixedly attached to the upper end face of the lining cloth (1) and is arranged in the window (21);

the second heat-conducting double-sided adhesive tape (4) is fixedly attached to the upper end surfaces of the graphite sheet (2) and the first heat-conducting double-sided adhesive tape (3);

and the microfiber piece (5) is fixedly attached to the upper end face of the second heat-conducting double-sided adhesive tape (4).

2. The electronic device heat sink patch of claim 1, wherein: graphite flake (2) both ends are formed with first breach and second breach respectively, cloth (1) both ends are fixed the laminating respectively in the lining have third heat conduction double faced adhesive tape (6) and fourth heat conduction double faced adhesive tape (7), and this first breach and second breach are filled respectively to this third heat conduction double faced adhesive tape (6) and fourth heat conduction double faced adhesive tape (7), and the thickness of this third heat conduction double faced adhesive tape (6) and fourth heat conduction double faced adhesive tape (7) all is the same with the thickness of graphite flake (2).

3. The electronic device heat sink patch of claim 1, wherein: the window (21) is in a cross shape, and the first heat-conducting double-sided adhesive tape (3) is in a cross shape; or, the window (21) is rectangular, and the first heat-conducting double-sided adhesive tape (3) is rectangular; or the window (21) is circular, and the first heat-conducting double-sided adhesive tape (3) is circular.

4. The electronic device heat sink patch of claim 1, wherein: the thickness of the first heat-conducting double-sided adhesive tape (3) is the same as that of the graphite sheet (2).

5. The electronic device heat sink patch of any one of claims 1-4, wherein: the upper end face of the microfiber piece (5) is provided with second double-sided adhesive, the second release paper is pasted on the upper surface of the second double-sided adhesive, and after the second release paper is torn off, the second double-sided adhesive is pasted on the electronic equipment.

6. The electronic device heat sink patch of any one of claims 1-4, wherein: cloth (1) lower extreme is provided with first double faced adhesive tape in, and this first double faced adhesive tape surface pastes first from type paper, tears first from type paper after, laminates first double faced adhesive tape in electronic equipment's protective sheath (8), and this super fine piece (5) and the electronic equipment laminating contact of packing into in protective sheath (8).

7. The electronic device heat sink patch of claim 6, wherein: the protective sleeve (8) is provided with a containing groove (81) for containing the electronic equipment, and the lining cloth (1) is fixedly attached to the bottom of the containing groove (81) through a first double-sided adhesive tape.

8. The electronic device heat sink patch of claim 7, wherein: the back of the protective sleeve (8) is provided with a plurality of heat dissipation holes (82) which penetrate through the containing groove (81).

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