CN201830604U - Flexible heat dissipation device - Google Patents

Abstract

The utility model relates to a flexible heat dissipation device comprising at least one first heat pipe, a second heat pipe and a flexible component, wherein the first heat pipe is provided with a first heat absorption part and a first heat dissipation part; the second heat pipe is provided with a second heat absorption part and a second heat dissipation part; the flexible component is provided with a first jointing part, a second jointing part and a flexibility area formed between the first jointing part and the second jointing part, wherein the first jointing part and the second jointing part are respectively combined with the first heat dissipation part of the first heat pipe and the second heat absorption part of the second heat pipe in a connecting way. In the utility model, as the flexible component is arranged, a heat dissipation module in the utility model has better elasticity and applicability in a narrow mechanism space.

Description

The pliability heat abstractor

Technical field

The utility model provides a kind of pliability radiating module, refers in particular to a kind of pliability radiating module that is made of heat pipe and deflection combination of components.

Background technology

Computer and the display unit of present PC industry such as desktop, notes type, AIO (ALL IN ONE), because its execution efficient requirement that increases severely day by day, cause its power increasing, strict more heat radiation requirement is just arranged comparatively speaking, the radiating mode that provides is at present added fan in order to solving described heat radiation problem for radiator nothing but, but effect is not obvious relatively; Therefore there is the people to utilize heat pipe to have the effect of taking away thermal source fast, is used in combination with radiator, for high-power heat dissipation problem; But use the radiating module of heat pipe at present, its heat pipe be subject to congenital architectural characteristic only can bending to a certain degree, if crooked excessive or wave is crooked, even directly the capillary structure that all might destroy heat pipe in such as doubling causes the heat efficiency to reduce, the severe patient even the damage of losing efficacy; So that the designer only can cooperate such condition to carry out the interior heat radiation planning and designing of electronic device mechanism, too huge can't the dwindling of overall structure of causing electronic installation.

But be now along with under the compact demand of technical development and function of use, product existing and that researching and developing has littler profile usually, but follow product to have narrow and small and complicated mechanism space, function corresponding is but more powerful, therefore the heat that produces but increases, and causes the appropriate mounting hardness of radiator structure to increase; For making equipment have more stable operational effect, property planned and heat dissipation that radiator structure is installed all propose requirements at the higher level, but prior radiating structure is difficult to meet really, therefore how can provide that a kind of to have bigger adaptability and flexible planning and heat dispersion all can satisfactory radiator structure be that industry is required and pay close attention to, and add research to seek solution.

In view of this, this case creator is at above-mentioned shortcomings and deficiencies, and process studies for a long period of time, and cooperates the utilization of scientific principle, creates a kind of utility model design that can solve above-mentioned deficiency and defective finally.

The utility model content

Main purpose of the present utility model is to provide a kind of pliability radiating module, described pliability radiating module utilizes the characteristic of flexure assembly, can provide and have higher installation adaptability and the property planned and for having product narrow and small and the complicated mechanical space with good heat dissipation, to realize the appropriate installation of radiator structure.

Another purpose of the present utility model is to provide a kind of pliability radiating module, and the collocation heat pipe uses, and the heat of heat-conductive assembly can be transmitted to radiating subassembly rapidly and effectively, so that stable radiating effect to be provided.

For realizing above-mentioned purpose, the utility model can be realized by the following technical programs: a kind of pliability radiating module comprises that at least one first heat pipe, second heat pipe and at least one deflection assembly constitute; Wherein said first heat pipe has one first endothermic section and one first radiating part; Described second heat pipe has one second endothermic section and one second radiating part; Deflection assembly with high thermal conductivity, described deflection assembly have one first junction surface, second junction surface and be formed at first junction surface and second junction surface between a flexible district; Wherein said first junction surface, second junction surface are connected with group with first radiating part of described first heat pipe and second endothermic section of second heat pipe respectively.

The design of the utility model deflection assembly makes described radiating module have good installation adaptability flexible planning and heat dissipation, makes it easy to adapt to various narrow and small and complicated mechanism spaces.

Description of drawings

Fig. 1 is a specific embodiment schematic diagram of the present utility model;

Fig. 2 is another specific embodiment schematic diagram of the utility model.

[primary clustering symbol description]

The 100-flexible is given birth to radiating module 21-heat generating component

22-radiating subassembly 23-first heat pipe

The 231-first endothermic section 232-first radiating part

The 24-second heat pipe 241-second endothermic section

The 242-second radiating part 25-deflection assembly

Embodiment

For ease of describing technological means of the present utility model and effect thereof in detail, existing conjunction with figs. is in conjunction with preferred embodiment of the present utility model, the utility model is described as follows in detail, and this specific embodiment is structure of the present utility model for convenience of description only, not in addition any restriction of the utility model.

See also Fig. 1, shown in 2, be a specific embodiment of pliability radiating module 100 of the present utility model, a kind of pliability radiating module 100 comprises at least one first heat pipe 23, second heat pipe 24, and at least one deflection assembly 25 constitutes; Wherein said first heat pipe 23 has one first endothermic section 231, first radiating part 232; Described second heat pipe 24 has one second endothermic section 241, second radiating part 242.

Described deflection assembly 25 is to be made by high heat conduction and the flexible composite of tool, have one first junction surface, second junction surface and be formed at first junction surface and second junction surface between a flexible district; Wherein said first junction surface then is that first radiating part 232 with described first heat pipe 23 is connected with group, and second junction surface then is connected with group with second endothermic section 241 of described second heat pipe 24; Surface, described flexible district can be the plane or be set as corrugated or concavo-convex.

When first endothermic section of described first heat pipe 23,231 contact heating assemblies 21, in order to thermal source that heat generating component 21 is produced via first endothermic section, 231 heat absorptions of described first heat pipe 23 and the guiding of first radiating part 232, heat is conducted to described deflection assembly 25, conduct to second endothermic section 241 and second radiating part 242 of second heat pipe 24 again, the radiating subassembly 22 that connects via second radiating part outwards dispels the heat again, therefore, the setting of deflection assembly of the present utility model makes described radiating module have bigger bending, effects such as distortion and recessed folding can provide excellent flexible planning in narrow and small mechanism space.

Simultaneously for reaching the purpose of this utility model, the number of heat pipe and deflection assembly, length, specification parameters such as shape are not the employing fixed mode, but all the situation of visual use is changed the application demand that gears to actual circumstances to reach.

For making the people who is familiar with this technology understand the enforcement creation purpose and the effect of the utility model spirit strictly according to the facts, for embodiment and accompanying drawing only be that the utility model is illustrated, not to the utility model any restriction in addition, the utility model also can have other variation execution mode, so all people who is familiar with this technology carry out other pattern and implement not breaking away under this case creation spirit, the equivalence that all should be considered as this case claim is implemented.

Claims (4)

1. a pliability radiating module is characterized in that, has at least one first heat pipe, second heat pipe and a deflection assembly and constitutes;

Described first heat pipe has one first endothermic section and one first radiating part;

Described second heat pipe has one second endothermic section and one second radiating part;

Described deflection assembly, have one first junction surface, second junction surface and be formed at first junction surface and second junction surface between a flexible district;

Described first junction surface, second junction surface are connected with first radiating part of described first heat pipe and second endothermic section of second heat pipe respectively.

2. pliability radiator structure as claimed in claim 1 is characterized in that, heat generating component of first endothermic section contact of described first heat pipe.

3. pliability radiator structure as claimed in claim 1 is characterized in that, second radiating part of described second heat pipe connects a radiating subassembly.

4. pliability radiator structure as claimed in claim 1 is characterized in that, the surface of deflection assembly can be plane, ripple or concavo-convex wherein any one.

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