CN216356845U - From heat dissipation formula cell-phone protective housing - Google Patents

Abstract

The utility model discloses a self-radiating mobile phone protective shell which comprises a shell body, a radiating layer, a heat absorbing layer and a heat conducting layer, wherein the shell body is provided with a radiating part, and the inner wall of the radiating part is provided with an inwards-concave mounting groove; the heat dissipation layer is arranged at the heat dissipation part; the heat absorbing layer and the heat conducting layer are stacked from bottom to top and are arranged in the mounting groove. The heat conducting layer, the heat absorbing layer and the heat dissipation layer are combined, so that heat of the mobile phone is led out, absorbed and dissipated outwards, the heat dissipation problem of the mobile phone protection shell is effectively solved, and the service life of the mobile phone is prolonged.

Description

A self-cooling mobile phone protective case

technical field

The utility model relates to the field of packaging, in particular to a self-heat-dissipating mobile phone protective case.

Background technique

Smartphones are an extremely common tool. Due to the fact that they are prone to breakage and damage during use, based on this demand, various mobile phone protective cases have appeared on the market, which are used to cover the outside of the mobile phone for protection.

However, in the actual use process, the long-term use of the mobile phone with the protective case will cause heat to accumulate in the mobile phone case, and most mobile phone cases are ergonomic and generally made of plastic and silicone materials, which have poor heat dissipation and accumulate in the mobile phone. The heat in the protective case cannot be dissipated, which affects the service life of the mobile phone. Therefore, the heat dissipation problem of the case is solved on the basis of the traditional mobile phone protective case.

Utility model content

The technical problem to be solved by this utility model is to aim at the above-mentioned deficiencies of the prior art, and to provide a combination of a heat conduction layer, a heat absorption layer and a heat dissipation layer, which realizes the export, absorption and dissipation of the heat of the mobile phone, and effectively solves the problem. The heat dissipation problem of the mobile phone protective case is a self-cooling mobile phone protective case that improves the service life of the mobile phone.

The technical scheme adopted by the present invention is as follows: a self-radiating mobile phone protective case, comprising a casing, a heat dissipation layer, a heat absorption layer and a heat conduction layer, wherein a heat dissipation part is arranged on the above-mentioned casing, and an inner wall of the heat dissipation part is provided with a heat dissipation part. The installation groove is recessed inside; the heat dissipation layer is arranged at the heat dissipation part; the heat absorption layer and the heat conduction layer are stacked from bottom to top and installed in the installation groove.

Preferably, the heat dissipation layer is a metal material layer.

Preferably, the thermally conductive layer is a metal material layer.

Preferably, the heat absorbing layer is a graphene layer or a silica gel material layer.

Preferably, the heat-absorbing layer and the heat-conducting layer are bonded to each other.

The beneficial effects of the present utility model are:

Aiming at the defects and deficiencies of the prior art, the utility model independently develops and designs a combination of a heat conduction layer, a heat absorption layer and a heat dissipation layer, so as to realize the export, absorption and dissipation of the heat of the mobile phone, and effectively solve the problem of the protection of the mobile phone. A self-cooling mobile phone protective case that improves the service life of the mobile phone to solve the problem of heat dissipation.

The utility model improves and innovates the mobile phone protective case commonly used in daily life. A heat dissipation area is arranged on the back of the case. The heat dissipation area adopts a metal material layer body design, and at the same time, the heat dissipation area is correspondingly provided with a mounting groove recessed into the wall. , the heat dissipation of the casing is realized by inserting and installing the heat-absorbing layer and the heat-conducting layer which are bonded into one body into the installation groove. Specifically, the heat-absorbing layer is arranged close to the heat-dissipating layer, and the heat-conducting layer is arranged above the heat-absorbing layer. After the heat generated during the use of the mobile phone is transferred to the heat absorbing layer through the thermal conductive layer, the heat absorbing layer transfers the heat to the heat dissipation layer, and the heat dissipation layer dissipates the heat, thus realizing the heat export function in the protective shell and effectively reducing the use of During the process, the internal heat of the casing can reduce the situation that the service life of the mobile phone or its battery is shortened after the heat is fed back to the mobile phone under the premise of ensuring the comfort of the user.

Description of drawings

FIG. 1 is one of the schematic diagrams of the component disassembly structure of the present invention.

FIG. 2 is the second schematic diagram of the component disassembly structure of the present invention.

FIG. 3 is one of the three-dimensional schematic diagrams of the present invention.

FIG. 4 is the second schematic diagram of the three-dimensional structure of the present invention.

Detailed ways

The utility model will be further described below in conjunction with the accompanying drawings:

As shown in FIGS. 1 to 4 , the technical solutions adopted by the present invention are as follows: a self-radiating mobile phone protective case, comprising a casing 1 , a heat dissipation layer 3 , a heat absorbing layer 4 and a heat conducting layer 5 , wherein the above-mentioned casing 1 is provided with a heat-dissipating part, and the inner wall of the heat-dissipating part is provided with an inwardly recessed installation groove 2; the above-mentioned heat-dissipating layer 3 is arranged at the heat-dissipating part; the above-mentioned heat-absorbing layer 4 and heat-conducting layer 5 are stacked from bottom to top and are installed in installed in slot 2.

The heat dissipation layer 3 is a metal material layer.

The thermally conductive layer 5 is a metal material layer.

The heat absorption layer 4 is a graphene layer or a silica gel material layer.

The heat-absorbing layer 4 and the heat-conducting layer 5 are bonded to each other as a whole.

Further, the utility model designs a combination of a heat-conducting layer, a heat-absorbing layer and a heat-dissipating layer, so that the heat of the mobile phone can be exported, absorbed and dissipated to the outside, effectively solving the problem of heat dissipation of the protective shell of the mobile phone, and improving the service life of the mobile phone. self-cooling mobile phone case.

The utility model improves and innovates the mobile phone protective case commonly used in daily life. A heat dissipation area is arranged on the back of the case. The heat dissipation area adopts a metal material layer body design, and at the same time, the heat dissipation area is correspondingly provided with a mounting groove recessed into the wall. , the heat dissipation of the casing is realized by inserting and installing the heat-absorbing layer and the heat-conducting layer which are bonded into one body into the installation groove. Specifically, the heat-absorbing layer is arranged close to the heat-dissipating layer, and the heat-conducting layer is arranged above the heat-absorbing layer. The heat-absorbing layer is made of graphene or heat-dissipating silica gel material, which has a good heat-absorbing effect. , after the heat generated during the use of the mobile phone is transferred to the heat absorbing layer through the thermal conductive layer, the heat absorbing layer transfers the heat to the heat dissipation layer, and the heat dissipation layer dissipates the heat, thereby realizing the heat export function in the protective shell and effectively reducing the use of During the process, the internal heat of the casing can reduce the situation that the service life of the mobile phone or its battery is shortened after the heat is fed back to the mobile phone under the premise of ensuring the comfort of the user.

The utility model is also applicable to the protective shells of other electronic products that have heat dissipation requirements.

The embodiments of the present utility model only describe the specific implementations thereof, and are not intended to limit the protection scope thereof. Those skilled in the art can make some modifications under the inspiration of this embodiment, so all equivalent changes or modifications made in accordance with the scope of the patent of the present invention belong to the scope of the claims of the patent of the present invention.

Claims (5)

1. A self-radiating mobile phone protective case, characterized in that it comprises a casing (1), a heat dissipation layer (3), a heat absorbing layer (4) and a heat conducting layer (5), wherein the above-mentioned casing (1) is A heat-dissipating part is provided, and the inner wall of the heat-dissipating part is provided with an inwardly recessed installation groove (2); the above-mentioned heat-dissipating layer (3) is arranged at the heat-dissipating part; the above-mentioned heat-absorbing layer (4) and heat conducting layer (5) are from bottom to top Stacked and installed in the installation slot (2). 2 . The self-heat-dissipating mobile phone protective case according to claim 1 , wherein the heat-dissipating layer ( 3 ) is a metal material layer. 3 . 3 . The self-heating mobile phone protective case according to claim 1 , wherein the thermally conductive layer ( 5 ) is a metal material layer. 4 . 4 . The self-heat-dissipating mobile phone protective case according to claim 1 , wherein the heat-absorbing layer ( 4 ) is a thermally conductive graphene or thermally conductive silica gel material layer. 5 . 5 . The self-heating mobile phone protective case according to claim 1 , wherein the heat-absorbing layer ( 4 ) and the heat-conducting layer ( 5 ) are bonded together into one body. 6 .

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