CN108832036A - A kind of center component and electronic equipment - Google Patents

Abstract

This application provides a kind of center component and electronic equipments, the center component includes center and the first heat pipe, center includes bottom wall and side wall, bottom wall is connect to form one for accommodating the battery compartment of battery modules with side wall, first heat pipe respectively with bottom wall and the thermally conductive connection of side wall, it is conducted at least partly heat that battery modules are resulted from bottom wall to side wall, also at least partly heat generated battery modules is conducted to side wall, improve the heat dissipation effect of battery modules, reduce the temperature of battery modules, and then improve safety and service life that battery modules use, and at least partly heat of bottom wall is conducted to side wall, prevent that the temperature of bottom wall is excessively high and leads to hot-spot, improve the gripping sense of user.

Description

A kind of center component and electronic equipment

Technical field

This application involves the technical field of electronic equipment, it is specifically related to a kind of center component and electronic equipment.

Background technique

Power supply of the battery as mobile phone can generate a large amount of heat in work and charging, so as to cause battery use Risk improve, service life decline, and the heat that battery generates will lead to that mobile phone local temperature is excessively high reduces holding of being used for Hold sense.

Summary of the invention

On the one hand the embodiment of the present application provides a kind of center component, the center component includes：Center, including bottom wall and Side wall, the bottom wall are connect to form one for accommodating the battery compartment of battery modules with the side wall；First heat pipe, respectively with institute Bottom wall and the thermally conductive connection of the side wall are stated, at least partly heat that the battery modules result from the bottom wall is conducted to institute State side wall.

On the other hand the embodiment of the present application also provides a kind of electronic equipment, the electronic equipment includes battery modules and center Component, wherein the center component includes：Center, including bottom wall and side wall, the bottom wall are connect with the side wall to form one Accommodate the battery compartment of the battery modules；First heat pipe, respectively with the bottom wall and the thermally conductive connection of the side wall, by the electricity At least partly heat that Chi Mo group results from the bottom wall is conducted to the side wall.

Center component provided by the embodiments of the present application includes center and the first heat pipe, and center includes bottom wall and side wall, bottom wall Connect with side wall to form one for accommodating the battery compartments of battery modules, the first heat pipe respectively with bottom wall and the thermally conductive connection of side wall, It is conducted at least partly heat that battery modules are resulted from bottom wall to side wall, is also generated battery modules at least partly hot Amount conduction improves the heat dissipation effect of battery modules, reduces the temperature of battery modules to side wall, and then improves what battery modules used Safety and service life, and at least partly heat of bottom wall is conducted to side wall, it prevents the temperature of bottom wall excessively high and leads to office Portion's overheat, improves the gripping sense of user.

Detailed description of the invention

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.

Fig. 1 is the structural schematic diagram of electronic equipment embodiment provided by the present application；

Fig. 2 is the schematic top plan view of battery modules in Fig. 1；

Fig. 3 is the schematic top plan view of center component first embodiment in Fig. 1；

Fig. 4 is the schematic cross-section of center in Fig. 3；

Fig. 5 is the schematic top plan view of battery modules and center assembly in Fig. 3 in Fig. 2；

Fig. 6 is the schematic top plan view of center in Fig. 3；

Fig. 7 is that condensation end is set to the schematic diagram on side wall in Fig. 3；

Fig. 8 is that condensation end is set to another schematic diagram on side wall in Fig. 3；

Fig. 9 is the schematic cross-section of the first heat pipe in Fig. 3；

Figure 10 is a schematic top plan view of the first heat pipe in Fig. 3；

Figure 11 is another schematic top plan view of the first heat pipe in Fig. 3；

Figure 12 is the another schematic top plan view of the first heat pipe in Fig. 3；

Figure 13 is another schematic top plan view of the first heat pipe in Fig. 3；

Figure 14 is the schematic top plan view of center component second embodiment in Fig. 1.

Specific embodiment

With reference to the accompanying drawings and examples, the application is described in further detail.It is emphasized that following implement Example is merely to illustrate the application, but is not defined to scope of the present application.Likewise, following embodiment is only the portion of the application Point embodiment and not all embodiments, institute obtained by those of ordinary skill in the art without making creative efforts There are other embodiments, shall fall in the protection scope of this application.

Term " first ", " second ", " third " in the application are used for description purposes only, and should not be understood as instruction or dark Show relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " second ", " are defined as a result, Three " feature can explicitly or implicitly include at least one of the features.In the description of the present application, the meaning of " plurality " is extremely It is two few, such as two, three etc., unless otherwise specifically defined.The directional instruction of institute is (all in the embodiment of the present application Such as up, down, left, right, before and after ...) it is only used for explaining in the phase under a certain particular pose (as shown in the picture) between each component To positional relationship, motion conditions etc., if the particular pose changes, directionality instruction also correspondingly changes therewith Become.In addition, term " includes " and " having " and their any deformations, it is intended that cover and non-exclusive include.Such as comprising The process, method, system, product or equipment of a series of steps or units are not limited to listed step or unit, and It is optionally further comprising the step of not listing or unit, or optionally further comprising for these process, methods, product or equipment Intrinsic other step or units.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments It is contained at least one embodiment of the application.Each position in the description occur the phrase might not each mean it is identical Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and Implicitly understand, embodiment described herein can be combined with other embodiments.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram of 10 embodiment of electronic equipment provided by the present application, the electricity of the present embodiment Sub- equipment 10 can be any equipment for having communication and store function, such as：Tablet computer, mobile phone, electronic reader, remote control Device, personal computer (Personal Computer, PC), laptop, mobile unit, Web TV, wearable device etc. Smart machine with network function, the electronic equipment 10 of the present embodiment include including battery modules 20 and center component 30.

Referring to Fig.2, Fig. 2 is the schematic top plan view of battery modules 20 in Fig. 1, battery modules 20 include that battery 21 and battery are protected Backplate 22.

Power supply of the battery 21 as electronic equipment 10, can generate a large amount of heat in work and charging process；Battery is protected Backplate 22 be one kind prevent battery 21 (especially lithium battery) from overcharging, the integrated circuit board of over-discharge and short circuit, also can at work Generate a large amount of heat.

With the continuous development of electronic technology, quick charge have become such as smart phone and plate apparatus such as computer must not The function that can lack is preset its main feature is that being charged the battery by high current when the voltage of battery 21 in charging process is higher than When upper limit value, or when the voltage of battery in discharge process is lower than preset lower limit value, or in the discharge process battery is positive and negative extremely short Lu Shi, MOS (Metal Oxide Semiconductor, metal oxide semiconductor) pipe in battery protecting plate 22 will be in Off state to disconnect the connection of battery and peripheral hardware to prevent battery 21 from overcharging, over-discharge and short circuit, during quick charge, Metal-oxide-semiconductor is in the conductive state, its resistance value is larger at this time, and the electric current of quick charge is also larger, according to power P=I²R is it is found that electricity Pond protection board 22 will generate a large amount of heat.

It should be understood that in other embodiments, battery modules 20 are also possible to battery 21, without including battery protecting plate 22。

Jointly refering to fig. 1 and Fig. 3, Fig. 3 be 30 first embodiment of center component in Fig. 1 schematic top plan view, center component 30 include center 31 and the first heat pipe 32.

Jointly refering to fig. 1 and Fig. 4, Fig. 4 be center 31 in Fig. 3 schematic cross-section, center 31 include bottom wall 311 and side wall 312, bottom wall 311 is connect to form one for accommodating the battery compartment 301 of battery modules 20 with side wall 312.

Optionally, the quantity of side wall 311 is at least two, and at least two side walls 311 are in be oppositely arranged.

It should be understood that battery modules 20 are carried on bottom wall 311, battery after battery compartment 301 accommodates battery modules 20 At least partly heat that mould group 20 generates can be transferred on bottom wall 311, and bottom wall 311 is caused to generate heat.

It is the schematic top plan view of the assembly of center 31 in battery modules 20 and Fig. 3 in Fig. 2, figure refering to Fig. 5 and Fig. 6, Fig. 5 jointly 6 be the schematic top plan view of center 31 in Fig. 3, and bottom wall 311 is equipped with groove 311, which extends to side wall from bottom wall 311 312.Optionally, the quantity of groove 3111 can be one or more, and multiple grooves 3111 can be in the extension perpendicular to groove 3111 Array setting or multiple grooves 3111 successively join end to end on the direction in direction, and adjacent two are in bending connection.

Optionally, groove 3111 is set on bottom wall 311 corresponding at least one in battery 21 and battery protecting plate 22 The position of position namely groove 3111 on bottom wall 311, at least one of battery 21 and battery protecting plate 22 in bottom wall Projection on 311 is at least partly overlapped.

Further regard to Fig. 3 and Fig. 5, the first heat pipe 32 respectively with bottom wall 311 and the thermally conductive connection of side wall 312, by battery At least partly heat that mould group 20 results from bottom wall 311 is conducted to side wall 312, also generates battery modules 20 at least partly Heat is conducted to side wall 312, improves the heat dissipation effect of battery modules 20, reduces the temperature of battery modules 20, and then improve battery The safety and service life that mould group 20 uses, and at least partly heat of bottom wall 311 is conducted to side wall 312, prevent bottom wall 311 temperature is excessively high and leads to hot-spot, improves the gripping sense of user.

Optionally, the first heat pipe 32 is set in groove 3111, so that the first heat pipe 32 is not take up the sky of battery compartment 301 Between, to not influence assembly of the battery modules 20 in battery compartment 301.

Optionally, the first heat pipe 32 is embedded at bottom wall 311 by groove 3111, in other embodiments, can also pass through Other modes are set in groove 3111, such as the mode pasted.

Further, the first heat pipe 32 includes evaporation ends 321 and condensation end 322, and the first inside heat pipe is in negative pressure state, And it is equipped with the working fluid of capillary materials and filling, when evaporation ends 321 are heated, working fluid gasifies to form steam, the steam Condensation end 322 is flowed under the action of thermal diffusion, and liquefies in condensation end 322 and discharges heat, and liquefied working fluid is in hair Evaporation ends 321 are flowed back under the capillarity of thin material, so recycles, completes the transmitting of heat.Therefore, in the present embodiment, The evaporation ends 321 of one heat pipe 32 are set on bottom wall 311, and condensation end 322 is set on side wall 312, and evaporation ends 321 are received It is conducted by condensation end 322 to side wall 312 in the heat of bottom wall 311.

It is jointly that condensation end 322 is set to the schematic diagram on side wall 312 in Fig. 3 refering to Fig. 7 and Fig. 8, Fig. 7, Fig. 8 is figure Condensation end 322 is set to another schematic diagram on side wall 312 in 3, and condensation end 322 is set to the mode on side wall 312 can be such as 7 figures Shown in be attached at side wall 312, can also be as shown in Figure 8 be inserted in side wall 312.

It is the schematic cross-section of the first heat pipe 32 in Fig. 3 refering to Fig. 9, Fig. 9, in evaporation ends 321 and condensation end 322 at least One on the direction of the end face of at least one, area of section is gradually increased towards in evaporation ends 321 and condensation end 322, namely Evaporation ends 321 are on the direction towards end face 3211 and/or condensation end 322 is on the direction towards end face 3221, area of section It is gradually increased, thus increase the area of at least one in the end face 3211 of evaporation ends 321 and the end face 3221 of condensation end 322, from And increases evaporation ends 321 and receive the efficiency of heat and/or the efficiency of the release heat of condensation end 322, and then increase by the first heat pipe 32 Heat transfer efficiency.

Optionally, the end face 3211 of evaporation ends 321 and the end face 3221 of condensation end 322 can be set to round, rectangle or more The shapes such as side shape, it is not limited here.

Fig. 3 and Fig. 5 is further regarded to, the first heat pipe 32 is used to produce at least one of battery 21 and battery protecting plate 22 At least partly heat for being born in bottom wall 311 is conducted to side wall 312.

Specifically, the first heat pipe 32 be set on bottom wall 311 it is corresponding at least one in battery 21 and battery protecting plate 22 Position on bottom wall 311 of position namely the first heat pipe 32, at least one of battery 21 and battery protecting plate 22 bottom of at Projection on wall 311 is at least partly overlapped, reduce the first heat pipe 32 and at least one in battery 21 and battery protecting plate 22 away from From, increase at least one in the first heat pipe 32 conduction battery 21 and battery protecting plate 22 and result from the efficiency of the heat of bottom wall 311, It is respectively arranged on bottom wall 311 in the present embodiment Fig. 3 with two the first heat pipes 32 corresponding with battery 21 and battery protecting plate 22 Position.

Optionally, the first heat pipe 32 is on the extending direction from 321 autocondensation end 322 of evaporation ends perpendicular to side wall 312.

0, Figure 10 is a schematic top plan view of the first heat pipe 32 in Fig. 3 refering to fig. 1, and the first heat pipe 32 is relative to side wall 311 It is inclined to set, to increase the thermally conductive pathways of the first heat pipe 32, prevents from needing to increase the thermally conductive pathways of the first heat pipe 32 The problem of bending the first heat pipe 32 and reducing heat transfer efficiency.

1 and Figure 12, Figure 11 are another schematic top plan views of the first heat pipe 32 in Fig. 3 refering to fig. 1 jointly, and Figure 12 is in Fig. 3 The another schematic top plan view of first heat pipe 32, the quantity of the first heat pipe 32 be it is multiple, multiple first heat pipes 32 can be as shown in figure 11 Successively join end to end, with increase the first heat pipe 32 quantity, to increase the radiating efficiency of bottom wall 311, and adjacent two It is arranged in bending, prevents first heat pipe 32 from needing the problem of bending and reducing heat transfer efficiency, or as shown in figure 12, it is multiple First heat pipe 32 array on the direction of the extending direction perpendicular to the first heat pipe 32 is arranged.

3, Figure 13 is another schematic top plan view of the first heat pipe 32 in Fig. 3 refering to fig. 1, and the first heat pipe 32 includes the first son heat Pipe 32a and second sub- heat pipe 32b, the evaporation ends 321a of the first sub- heat pipe 32a are set on bottom wall 311, the first sub- heat pipe 32a's Condensation end 321b is set on side wall 312, the evaporation ends of the evaporation ends 322a of the second sub- heat pipe 32b in the first sub- heat pipe 32a It is connect between 321a and condensation end 321b with the first sub- heat pipe 32a, the condensation end 322b of the second sub- heat pipe 32b is set to side wall On 312.

Further regarding to Fig. 1 and Fig. 4, bottom wall 312 is additionally provided with the first radiating piece 33 close to the side of battery compartment 301, and first At least partly even heat that radiating piece 33 is used to generate battery modules 20 diffuses to bottom wall 311, prevents 20 innings of battery modules Portion's overheat, and battery modules 20 is caused to be damaged.

Optionally, the first radiating piece 33 is attached at bottom wall 311.

Optionally, the first radiating piece 33 is also attached at the first heat pipe 32, so that the first heat pipe 32 can directly radiate with first Part 33 contacts, and directly receives the heat of the first radiating piece 33.

Optionally, the first radiating piece 33 is graphite or copper foil.

Optionally, bottom wall 312 is additionally provided with the second radiating piece 34 far from the side of battery compartment 301.

Optionally, the second radiating piece 34 is graphite or copper foil.

Center component provided in this embodiment includes center and the first heat pipe, and center includes bottom wall and side wall, bottom wall and side To form one for accommodating the battery compartment of battery modules, the first heat pipe, will respectively with bottom wall and the thermally conductive connection of side wall for wall connection At least partly heat that battery modules result from bottom wall is conducted to side wall, and at least partly heat for also generating battery modules passes It is directed at side wall, improves the heat dissipation effect of battery modules, reduces the temperature of battery modules, and then improves the safety that battery modules use Property and service life, and at least partly heat of bottom wall is conducted to side wall, it prevents the temperature of bottom wall excessively high and leads to local mistake Heat improves the gripping sense of user.

4, Figure 14 is the schematic top plan view of 30 second embodiment of center component in Fig. 1 refering to fig. 1, the center in the present embodiment Component 30 further comprises Kato bracket 35 and the second heat pipe 36, and the second heat pipe 36 is led with bottom wall 311 and Kato bracket 35 respectively It is thermally connected, at least partly heat that battery modules 20 result from bottom wall 311 is conducted to Kato bracket 35.

Wherein, the Kato bracket 35 is for carrying SIM Kato, it is possible to understand that, SIM card does not generate heat at work Or the heat generated is smaller, therefore, the temperature of Kato bracket 35 is lower, so that when the heat that battery modules 20 generate is more, the Two heat pipes 36 conduct at least partly heat that battery modules 20 result from bottom wall 311 to Kato bracket 35, prevent bottom wall 311 with The temperature of side wall 312 is higher, and further increases the radiating efficiency of battery modules 20.

The thermally conductive principle of second heat pipe 36 is identical as the first above-mentioned heat pipe 32, and details are not described herein.

Center component provided in this embodiment further comprises Kato bracket and the second heat pipe, the second heat pipe respectively with bottom wall And the thermally conductive connection of Kato bracket, at least partly heat that battery modules result from bottom wall, which is conducted to Kato bracket, prevents bottom wall It is higher with the temperature of side wall, and further increase the radiating efficiency of battery modules.

Fig. 1 and Fig. 4 is further regarded to, the electronic equipment 10 in the present embodiment further includes display screen component 40, display screen group Part 40 is set to side of the bottom wall 311 far from battery compartment 301.

It should be understood that display screen component 40 is carried on bottom wall 311, when display screen component 40 works, generation is extremely Minor heat can be also transferred on bottom wall 311, and therefore, the first heat pipe 32 in the present embodiment is further used for display screen group Part 40 results from at least partly heat transfer of bottom wall 311 to side wall 312, improves the heat dissipation effect of display screen component 40, reduces The temperature of display screen component 40, and then improve safety and service life that display screen component 40 uses.

Wherein, at least partly even heat that the second above-mentioned radiating piece 34 is used to generate display screen component 40 diffuses to Bottom wall 311 prevents 40 hot-spot of display screen component and is damaged.

The foregoing is merely the section Examples of the application, are not intended to limit the protection scope of the application, all utilizations Equivalent device made by present specification and accompanying drawing content or equivalent process transformation are applied directly or indirectly in other correlations Technical field, similarly include in the scope of patent protection of the application.

Claims (15)

1. a kind of center component, which is characterized in that the center component includes：

Center, including bottom wall and side wall, the bottom wall are connect to form one for accommodating the battery of battery modules with the side wall Storehouse；

The battery modules are resulted from the bottom wall respectively with the bottom wall and the thermally conductive connection of the side wall by the first heat pipe At least partly heat conduct to the side wall.

2. center component according to claim 1, which is characterized in that the bottom wall is equipped with groove, and the groove is from institute It states bottom wall and extends to the side wall, first heat pipe is arranged in the groove.

3. center component according to claim 1, which is characterized in that the battery modules include battery and battery protection Plate, first heat pipe are used at least one of the battery and the battery protecting plate resulting from the bottom wall at least Partial heat is conducted to the side wall.

4. center component according to claim 3, which is characterized in that first heat pipe is set on the bottom wall and institute State at least one corresponding position in battery and the battery protecting plate.

5. center component according to claim 1, which is characterized in that first heat pipe includes evaporation ends and condensation end, The evaporation ends are set on the bottom wall, and the condensation end is set on the side wall.

6. center component according to claim 5, which is characterized in that first heat pipe includes the first sub- heat pipe and second The evaporation ends of sub- heat pipe, the first sub- heat pipe are set on the bottom wall, and the condensation end of the first sub- heat pipe is set to institute It states on side wall, the evaporation ends of the second sub- heat pipe are warm with first son between the evaporation ends and condensation end of the first sub- heat pipe Pipe connection, the condensation end of the second sub- heat pipe are set on the side wall.

7. center component according to claim 5, which is characterized in that at least one in the evaporation ends and the condensation end On the direction of the end face of at least one, area of section is gradually increased towards in the evaporation ends and the condensation end.

8. center component according to claim 1, which is characterized in that first heat pipe is set relative to the sidewall slope It sets.

9. center component according to claim 1, which is characterized in that the quantity of first heat pipe be it is multiple, it is described more A first heat pipe array on the direction of the extending direction perpendicular to first heat pipe is arranged.

10. center component according to claim 1, which is characterized in that the quantity of first heat pipe be it is multiple, it is described more A first heat pipe successively joins end to end, and adjacent two are in bending setting.

11. center component according to claim 1, which is characterized in that the center component further comprises Kato bracket And second heat pipe, second heat pipe respectively with the bottom wall and the thermally conductive connection of Kato bracket, by the battery modules At least partly heat for resulting from the bottom wall is conducted to the Kato bracket.

12. center component according to claim 1, which is characterized in that the bottom wall is set close to the side of the battery compartment There is the first radiating piece, at least partly even heat that first radiating piece is used to generate the battery modules diffuses to described Bottom wall.

13. center component according to claim 1, which is characterized in that the bottom wall is set far from the side of the battery compartment There is the second radiating piece.

14. a kind of electronic equipment, which is characterized in that the electronic equipment includes battery modules and center component, wherein in described Frame component includes：

Center, including bottom wall and side wall, the bottom wall are connect to form the battery of the receiving battery modules with the side wall Storehouse；

The battery modules are resulted from the bottom wall respectively with the bottom wall and the thermally conductive connection of the side wall by the first heat pipe At least partly heat conduct to the side wall.

15. electronic equipment according to claim 14, which is characterized in that the electronic equipment further comprises display screen group Part, the display screen component are set to side of the bottom wall far from the battery compartment, first heat pipe be further used for by At least partly heat that the display screen component results from the bottom wall is conducted to the side wall.