CN204244627U - Wearable electronic apparatus heat radiation construction - Google Patents

Abstract

The utility model provides a kind of Wearable electronic apparatus heat radiation construction; comprise a wearing main body and and connect the wearing belt body dressing main body; this wearing main body comprises one and is installed with space, a circuit board and plural number and is located at electronic component on circuit board; these electronic components have at least one pyrotoxin; this wearing belt body is provided with the protection portion outside a heat-conducting part and this heat-conducting part coated; one of this heat-conducting part partial denudation to be installed with in space in this and to touch mutually with the pyrotoxin of corresponding circuits plate on it, uses the heat dissipation significantly increasing and dress electronic installation.

Description

Wearable electronic apparatus heat radiation construction

[technical field]

The utility model has about a kind of Wearable electronic installation, espespecially a kind ofly carries out antipyretic Wearable electronic apparatus heat radiation construction to Wearable electronic installation.

[background technology]

Existing running gear except mobile phone, dull and stereotyped except also extend to also to become to wrist-watch, necklace, thimble there is multi-functional intelligent wearing electronic installation, and also add touch screen, central processing unit (Central Processor Unit along with function day by day increases, CPU), graphic process unit (Graphic Processing Unit, all multicomponents such as GPU and satellite fix wafer, and intelligent wrist-watch is except can using through bluetooth or networking line with other running gears, also can inserts SIN card and carry out 3G or 4G networking and use and the function such as call.

And the major calculations process wafer of intelligent wrist-watch known at present (or claiming Wearable wrist-watch) its inside is (as central processing unit (Central Processor Unit, CPU), graphic process unit (Graphic Processing Unit, heat can be produced when GPU)) carrying out operating or performing, but this heat also cannot be rapidly to outer heat radiation, make the heat of this intelligent wrist-watch inside can continue to hoard (or accumulated heat) in central processing unit or graphic process unit originally and periphery place with it, and cause this intelligent wrist-watch generation Operating Ratio or severe patient even work as the problem of machine, and user when dressing intelligent wrist-watch because the pass of inner local accumulated heat can be subject to, and cause user's wrist position to produce the problem of discomfort, therefore how device is moved to the type of this intelligent wrist-watch and every Wearable and carry out the antipyretic problem for existing override solution.

[utility model content]

For effectively solving above-mentioned problem, the main purpose of the utility model is at the Wearable electronic apparatus heat radiation construction providing a kind of effective solution Wearable electronic installation inner product heat problem.

Another object of the utility model provide a kind of have allow user dress can to reach the Wearable electronic apparatus heat radiation construction of better comfort.

For reaching above-mentioned purpose, the utility model provides a kind of Wearable electronic apparatus heat radiation construction, comprise: one dresses main body, it comprises one and is installed with space, a circuit board and plural electronic component, these electronic components are located on this circuit board, and be installed with this circuit board and be installed with in space at this, and these electronic components have at least one pyrotoxin; And one dresses belt body; connect this wearing main body relatively; it is provided with a heat-conducting part and a protection portion; this protection portion is coated on the outside of this heat-conducting part; and one of this heat-conducting part partial denudation is installed with in space not coated by this protection portion in this, and the exposed part of this heat-conducting part with to touching mutually by pyrotoxin.

This heat-conducting part is provided with one first heat-conducting layer, one second heat-conducting layer and one the 3rd heat-conducting layer, this second heat-conducting layer is folded between this first heat-conducting layer and the 3rd heat-conducting layer, and is sticked mutually with this pyrotoxin relative outside this first heat-conducting layer that this is installed with space exposed part of this heat-conducting part in it.

This first and third heat-conducting layer is formed by metal forming, and this second heat-conducting layer is formed by graphite material, and this protection portion is formed by flexible plastic material.

This heat-conducting part is the heat pipe of a flexible metal material formation; and this heat-conducting part has a chamber and a capillary structure; a working fluid is filled with in this chamber; this capillary structure is formed on this chamber inner wall; and be sticked mutually in the side that this is installed with space exposed part of this heat-conducting part in it with this pyrotoxin relative, and this protection portion is formed by flexible plastic material or hard plastic cement material.

This heat-conducting part is the heat pipe of a hard metal material formation; and this heat-conducting part has a chamber and a capillary structure; a working fluid is filled with in this chamber; this capillary structure is formed on this chamber inner wall; and be sticked mutually in the side that this is installed with space exposed part of this heat-conducting part in it with this pyrotoxin relative, and this protection portion is formed by hard plastic cement material.

This heat-conducting part is provided with one first heat carrier and one second heat carrier; this protection portion is provided with one first protective and one second protective; this first and second protective is coated to should the outside of first and second heat carrier respectively; one of this first and second heat carrier partial denudation is installed with in space not coated by this first and second protective respectively in this; and the exposed part of this first and second heat carrier corresponds to each other, and this battery part be installed with in space is positioned at the below place of the exposed part of this first and second heat carrier.

This wearing main body more comprises a conducting part, this conducting part is located in this and is installed with in space, and be positioned at above this first and second heat carrier, and on the side of this conducting part the surface on limit, adjacent two opposite sides respectively with to should the side of exposed part of first ,-two heat carriers touch mutually, the opposite side and this circuit board relative of this conducting part pyrotoxin on it is sticked mutually.

This first and second heat carrier is respectively equipped with one first heat-conducting layer, one second heat-conducting layer and one the 3rd heat-conducting layer, second heat-conducting layer of this first heat carrier is folded between first and third heat-conducting layer of this first heat carrier, and the second heat-conducting layer of this second heat carrier is folded between first and third heat-conducting layer of this second heat carrier.

First and third heat-conducting layer of first and second heat carrier aforementioned is formed by metal forming, and second heat-conducting layer of this first and second heat carrier is formed by graphite material, and this first and second protective is formed by flexible plastic material.

This conducting part is a temperature-uniforming plate, this conducting part is provided with a chamber, a capillary structure and plural support column, a working fluid is filled with in this chamber, this capillary structure is formed on this chamber inner wall, these support columns are located in this chamber, and its top and bottom are respectively to the upper wall established in this chamber relative and lower wall.

This first and second heat carrier is the heat pipe of a flexible metal material formation; this first and second heat carrier respectively has a chamber and a capillary structure; a working fluid is filled with in the chamber of this first and second heat carrier; the capillary structure of this first and second heat carrier is formed in respectively on this chamber inner wall, and this first and second protective is formed by flexible plastic material or hard plastic cement material.

This first and second heat carrier is the heat pipe of a hard metal material formation; this first and second heat carrier respectively has a chamber and a capillary structure; a working fluid is filled with in the chamber of this first and second heat carrier; the capillary structure of this first and second heat carrier is formed in respectively on this chamber inner wall, and this first and second protective is formed by hard plastic cement material.

This wearing main body has a touch-control display module, one battery part, one upper frame body and a lower frame body, this upper frame body is covered on this lower frame body relative, and it has been installed with this touch-control display module, this touch-control display module has a touch-control display surface and a bottom surface, this bottom surface is this circuit board relatively, and this lower frame body is provided with and is aforementionedly installed with space and plural recess, this is installed with in the recessed centre being formed in the side of this lower frame body in space, these recesses are then recessed to be formed on the limit, two opposite sides, side of this lower frame body, and be communicated with adjacent this and be installed with space, the exposed part of this heat-conducting part is installed with space by a recess of this lower frame body extends to relatively in another recess across this, and this battery part is installed with and is installed with on the bottom in space at this.

This heat-conducting part is graphite, metal forming or its combination are formed.

This heat-conducting part is provided with one first heat carrier and one second heat carrier; this protection portion is provided with one first protective and one second protective; this first and second protective is coated to should the outside of first and second heat carrier respectively; one of this first and second heat carrier partial denudation is installed with in space not coated by this first and second protective respectively in this, and the side in the exposed portion of this first and second heat carrier is sticked mutually with this pyrotoxin relative.

This wearing main body has a touch-control display module, one battery part, one upper frame body and a lower frame body, this upper frame body is covered on this lower frame body relative, and its content is provided with this touch-control display module, this touch-control display module has a touch-control display surface and a bottom surface, this bottom surface is this circuit board relatively, and this lower frame body is provided with and is aforementionedly installed with space and plural recess, this is installed with in the recessed centre being formed in the side of this lower frame body in space, these recesses are then recessed to be formed on the limit, two opposite sides, side of this lower frame body, and be communicated with adjacent this and be installed with space, the exposed part of this heat-conducting part is installed with space by a recess of this lower frame body extends to relatively in another recess across this, and this battery part is installed with and is installed with on the bottom in space at this.

This wearing main body has a touch-control display module, one battery part, one upper frame body and a lower frame body, this upper frame body is covered on this lower frame body relative, and its content is provided with this touch-control display module, this touch-control display module has a touch-control display surface and a bottom surface, this bottom surface is this circuit board relatively, and this lower frame body is provided with and is aforementionedly installed with space and plural recess, this is installed with in the recessed centre being formed in the side of this lower frame body in space, these recesses are then recessed to be formed on the limit, two opposite sides, side of this lower frame body, and be communicated with adjacent this and be installed with space, this is first years old, the exposed part of two heat carriers to be installed with respectively in these recesses and to be installed with cardiac prominence among space to stretch formation towards this, and this battery part is installed with and is installed with on the bottom in space at this.

Through the design of this structure of the utility model, obtain the heat dissipation effectively significantly increasing Wearable electronic installation, effectively to solve the problem of known Wearable electronic installation inside meeting accumulated heat, and then when also effectively allowing user dress, reach the effect person of preferably comfort.

[accompanying drawing explanation]

Fig. 1 is the exploded perspective schematic diagram of first embodiment of the utility model;

Fig. 2 is the combination schematic perspective view of first embodiment of the utility model;

Fig. 3 is the combination generalized section of first embodiment of the utility model;

Fig. 4 is the combination generalized section of second embodiment of the utility model;

Fig. 5 is the decomposing schematic representation of the 3rd embodiment of the utility model;

Fig. 6 is the combination schematic diagram of the 3rd embodiment of the utility model;

Fig. 7 is the exploded perspective schematic diagram of the 4th embodiment of the utility model;

Fig. 8 is the combination schematic perspective view of the 4th embodiment of the utility model;

Fig. 9 is the combination generalized section of the 4th embodiment of the utility model;

Figure 10 is the combination generalized section of the 5th embodiment of the utility model;

Figure 11 is the exploded perspective schematic diagram of the 6th embodiment of the utility model;

Figure 12 is the combination schematic perspective view of the 6th embodiment of the utility model;

Figure 13 is the exploded perspective schematic diagram of the 7th embodiment of the utility model;

Figure 14 is the combination broken isometric schematic diagram of the 7th embodiment of the utility model;

Figure 15 is another exploded perspective schematic diagram of the 7th embodiment of the utility model;

Figure 16 is another combination broken isometric schematic diagram of the 7th embodiment of the utility model;

Figure 17 is the combination broken isometric schematic diagram of the 8th embodiment of the utility model;

Figure 18 is another combination broken isometric schematic diagram of the 8th embodiment of the utility model;

Figure 19 is the exploded perspective schematic diagram of the 9th embodiment of the utility model;

Figure 20 is another exploded perspective schematic diagram of the 9th embodiment of the utility model.

The component name that in figure, each Reference numeral is corresponding is:

Wearable electronic apparatus heat radiation construction ... 1

Dress main body ... 10

Touch-control display module ... 101

Touch-control display surface ... 1011

Bottom surface ... 1012

Battery part ... 102

Upper frame body ... 103

Lower frame body ... 104

Recess ... 1041

Be installed with space ... 1042

Circuit board ... 105

Electronic component ... 1051

Pyrotoxin ... 10511

Dress belt body ... 20

Heat-conducting part ... 201

First heat carrier ... 202

Second heat carrier ... 203

First heat-conducting layer ... 2011,2021,2031

Second heat-conducting layer ... 2012,2022,2032

3rd heat-conducting layer ... 2013,2023,2033

Chamber ... 2014,2024,2034

Capillary structure ... 2015,2025,2035

Working fluid ... 2016,2026,2036

Protection portion ... 205

First protective ... 2051

Second protective ... 2052

Conducting part ... 207

Chamber ... 2071

Capillary structure ... 2072

Support column ... 2073

Working fluid ... 2074

Running-on ... 208

[embodiment]

Characteristic on the above-mentioned purpose of the utility model and structure and fuction thereof, will be explained according to the embodiment of institute's accompanying drawings.

The utility model provides a kind of Wearable electronic apparatus heat radiation construction, as shown in Figure 1, 2, 3, is Decomposition and composition and the cross-section illustration of first embodiment of the utility model, this Wearable electronic apparatus heat radiation construction 1 explains in this embodiment with Wearable wrist-watch (i.e. intelligent wrist-watch), but is not limited to this, this Wearable electronic installation comprises a wearing main body 10 and and dresses belt body 20, this wearing main body 10 comprises one and is installed with space 1042, one circuit board 105, plural number electronic component 1051, one touch-control display module 101, one battery part 102, one upper frame body 103 and a lower frame body 104, aforementioned upper frame body 103 its be installed with this touch-control display module 101, this touch-control display module 101 has touch-control display surface 1011 and a bottom surface 1012, this touch-control display surface 1011 with for user on this touch-control display surface 1011 touch control operation with watch the information that shows, this bottom surface 1012 this circuit board 105 relative, and in time specifically implementing, user can pass through plural screw (not shown) and is locked by circuit board 105 on this bottom surface 1012 relative.

And aforementioned lower frame body 104 with to establishing by upper frame body 103 phase lid, and it is provided with and is aforementionedly installed with space 1042 and plural recess 1041, this is installed with in the recessed centre being formed in the side of this lower frame body 104 in space 1042, it is with for being installed with this circuit board 105 and these electronic components 1051 and battery part 102 (as lithium battery), these recesses 1041 are recessed to be formed on the limit, two opposite sides, side of this lower frame body 104, and be communicated with adjacent this and be installed with space 1042, and this battery part 102 is positioned on this bottom being installed with space 1042.

Aforementioned circuit plate 105 explains in this embodiment with printed circuit board (PCB) 105 (printed circuit board, PCB), but does not regard it as and be limited; This circuit board 105 is provided with these electronic components 1051, described plural electronic component 1051 has at least one pyrotoxin 10511, pyrotoxin 10511 in this embodiment mainly explains with 2 pyrotoxins 10511, one of them is central processing unit (Central Processor Unit, CPU), another is graphic process unit (Graphic Processing Unit, and all the other electronic components 1051 are memory body (as fast flash memory bank) and other elements (as elements such as electric capacity, resistance, electric crystal or IC wafers) GPU); But when the utility model actual enforcement, aforementioned pyrotoxin 10511 is not limited to above-mentioned 2 pyrotoxins 10511, user can also can be used as pyrotoxin 10511 according to all the other electronic components 1051 of electronic component 1051 adjusted design want heat radiation, as IC wafer or battery etc., closes first Chen Ming.

As Fig. 1, shown in 3, dress belt body 20 (namely soft watchband) in this embodiment with pliability for aforementioned wearing belt body 20 to explain, and this wearing belt body 20 connects this wearing main body 10 relatively, and it is provided with heat-conducting part 201 and a protection portion 205, this protection portion 205 is formed by flexible plastic material, the outside of its coated (coating) this heat-conducting part 201, and one of this heat-conducting part 201 partial denudation is installed with in space 1042 not coated by this protection portion 205 in this, that is another part of described heat-conducting part 201 is by this protection portion 205 integral coating, dress with for user outside the both sides that this part is positioned at this wearing main body 10, being installed with space 1042 by a recess 1041 of this lower frame body 104 across this in this exposed part (i.e. a part for heat-conducting part 201) being installed with this heat-conducting part 201 in space 1042 extends in another recess 1041 relative, and the side of the exposed part of this heat-conducting part 201 in order to touching mutually (or being sticked) by pyrotoxin 10511 (i.e. central processing unit and graphic process unit), the another part heat that the pyrotoxin 10511 absorbed produces being transmitted to rapidly this heat-conducting part 201 through the exposed part of this heat-conducting part 201 outwards reaches the effect of heat radiation.Wherein, this embodiment is located above the exposed part of this heat-conducting part 201 with circuit board 105, place below the exposed part of this heat-conducting part 201, this battery part 102 positions explains, but in time specifically implementing, circuit board 105 is not limited to above-mentioned arrangement position with the arrangement position of battery part 102, also circuit board can be changed design position at the below place of heat-conducting part 201, and this battery part 102 adjacent, this circuit board same on it pyrotoxin 10511 be still and be sticked mutually with the exposed part of this heat-conducting part 201 relative, close first Chen Ming.

In addition, wearing belt body 20 in this better enforcement explains for integral type elongated watchband, its interlude (i.e. the exposed part of heat-conducting part 201) is installed with and is installed with at this heat will absorbed in space 1042, be transmitted to fast the wearing belt body 20 outside this at least one side of wearing main body 10 leading portion and or Hou section on, by the outside heat extraction of heat that the heat-conducting part 201 be wrapped by this front end and Hou section will receive, the problem causing accumulated heat in inside can be hoarded to have the solution central processing unit of this wearing main body 10 and the heat of graphic process unit, central processing unit and graphic process unit can be operated stable and quick, and then also effectively reach the effect obtaining preferably comfort when allowing user dress.

And aforementioned heat-conducting part 201 be graphite, metal forming or its combination formed, and explained with the heat-conducting layer of 3 layers in this heat-conducting part 201 of this embodiment, but be not limited thereto; When the utility model actual enforcement, user can according to demands such as heat transfer efficiency or integral thickness outward appearances, and heat-conducting part described in adjusted design only has 1 layer of heat-conducting layer (as graphite or metal forming), 2 layers of heat-conducting layer or 4 layers of heat-conducting layer, and the rest may be inferred.And this heat-conducting part 201 is provided with one first heat-conducting layer 2011, one second heat-conducting layer 2012 and one the 3rd heat-conducting layer 2013, this is first years old, three heat-conducting layers 2011, 2013 are formed by metal forming, in this embodiment first, three heat-conducting layers 2011, 2013 are formed by Copper Foil, and this second heat-conducting layer 2012 is explained by graphite material forms, but do not regard it as and be limited, in time specifically implementing, this is first years old, two, three heat-conducting layers 2011, 2012, 2013 may be selected to be graphite, metal forming (goldleaf, silver foil, Copper Foil or aluminium foil) or graphite and metal forming combine and formed, as first, two heat-conducting layers 2011, 2012 is graphite, 3rd heat-conducting layer 2013 is Copper Foil, first heat-conducting layer 2011 is Copper Foil, second, three heat-conducting layers 2012, 2013 is graphite, the rest may be inferred.

And this second heat-conducting layer 2012 is folded between this first heat-conducting layer 2011 and the 3rd heat-conducting layer 2013, the opposite side (namely outside the 3rd heat-conducting layer 2013) of the exposed part of this heat-conducting part 201 is sticked mutually with this battery part 102 relative, and first of another part of this protection portion 205 this heat-conducting part 201 coated, three heat-conducting layers 2011, the outside of 2013 (namely dressing the heat-conducting part 201 be wrapped by the leading portion of belt body 20 and Hou section), and (namely dressing the heat-conducting part 201 that the interlude of belt body 20 is exposed) is sticked mutually with this pyrotoxin 10511 (i.e. central processing unit and graphic process unit) relative outside the first heat-conducting layer 2011 that this is installed with the exposed part of the heat-conducting part 201 of space 1042 in it, make the heat that this first heat-conducting layer 202 can will absorb central processing unit and graphic process unit and produces, rapid conduction is to second, three heat-conducting layers 2012, on 2013, and the heat simultaneously aforementioned heat and the 3rd heat-conducting layer 2013 being absorbed battery part 102 be delivered to this heat-conducting part 201 in the lump another part (leading portion of the wearing belt body 20 namely outside this wearing main body 10 both sides and Hou section) on outwards dispel the heat, use and effect antipyretic is fast reached to wearing main body 10.

Therefore, heat-conducting part 201 is coated with through in the wearing belt body 20 of the utility model, a part for this heat-conducting part 201 is made to be the structural design that the exposed pyrotoxin 10511 with dressing main body 10 is sticked mutually, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in Figure 4, be the generalized section of second embodiment of the utility model, and be aided with and consult Fig. 1,2, the structure of this present embodiment and linking close and effect roughly identical with aforementioned first embodiment, therefore again do not repeat at this, the heat-conducting part 201 of aforementioned first embodiment mainly changes and is designed to flexible heat tube by this embodiment, that is described heat-conducting part 201 is the flexible heat tube that a flexible metal material forms (as copper material), flexible metal material (as copper material or aluminium material) the pliability thin type heat pipe that forms, or pliability non-metallic material is (as plastic cement, rubber or polyethylene terephthalate (polyethylene terephthalate, PET) the pliability thin type heat pipe) formed, and this protection portion 205 may be selected to be flexible plastic material or hard plastic cement material formed, to be formed with flexible plastic material in the protection portion 205 of this embodiment and explained.

And explain in the heat-conducting part 201 of this embodiment with flexible heat tube (i.e. heat-conducting part 201), and this heat-conducting part 201 has chamber 2014 and a capillary structure 2015, in this chamber 2014, be filled with a working fluid 2016 (as pure water, pure water, inorganic compound, alcohols, ketone, liquid metal, cold coal or organic compound).

Aforementioned capillary structure 2015 is formed on this chamber 2014 inwall, and be sticked mutually in this opposite side being installed with space 1042 exposed part of this heat-conducting part 201 in it with this battery part 102 relative, the side (i.e. the side of flexible heat tube) of the exposed part of this heat-conducting part 201 is sticked mutually with this pyrotoxin 10511 (i.e. central processing unit and graphic process unit) relative, the heat produced by pyrotoxin 10511 through the exposed part of this heat-conducting part 201 and the heat of battery part 102 are transmitted in the lump in internal chamber 2014 and carry out heat exchange, and make the working fluid 2016 of this chamber 2014 inside evaporate Hou spreading in this chamber 2014, make the working fluid of this evaporation (or being called steam state working fluid) can flow toward its inner cavity chamber 2014 (leading portion of the wearing belt body 20 namely outside this wearing main body 10 both sides and its inner cavity chamber of Hou section) direction of another part of described heat-conducting part 201, the working fluid of order evaporation is in its inner cavity chamber 2014 condensation Hou of another part of this heat-conducting part 201, be back in the part of this heat-conducting part 201 (namely dressing the heat-conducting part 201 that the interlude of belt body 20 is exposed) by the capillary structure 2016 in its chamber 2014 of another part of this heat-conducting part 201 and continue to carry out steam-condensate circulating, effectively to reach, effect antipyretic is fast reached to the pyrotoxin 10511 of this wearing main body 10.

So through being coated with heat-conducting part 201 in the wearing belt body 20 of the utility model for flexible heat tube, a part for this heat-conducting part 201 is made to be the structural design that the exposed pyrotoxin 10511 with dressing main body 10 is sticked mutually, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in Figure 5,6, be the Decomposition and composition schematic diagram of the 3rd embodiment of the utility model, and be aided with and consult Fig. 4; The structure of this present embodiment and linking close and effect roughly identical with aforementioned second embodiment; therefore again do not repeat at this; difference both it be in: aforementioned heat-conducting part 201 is the heat pipe of a hard metal material formation; and this protection portion 205 is formed by hard plastic cement material; so the leading portion of this wearing belt body 20 and Hou section (being namely coated with another part of the heat-conducting part 201 of protection portion 205) bend fixing formation one running-on 208 respectively in the center position of this lower frame body 104, this running-on 208 is inserted in directly dressing for user.

So through being coated with heat-conducting part 201 in the wearing belt body 20 of the utility model for heat pipe, a part for this heat-conducting part 201 is made to be the structural design that the exposed pyrotoxin 10511 with dressing main body 10 is sticked mutually, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in Fig. 7,8,9, be Decomposition and composition and the generalized section of the 4th embodiment of the utility model, structure and the link of this present embodiment are closed roughly identical with aforementioned first embodiment with its effect, therefore again do not repeat at this, aforementioned wearing belt body 20 is mainly integral type elongated watchband by this embodiment, change design and become two-part long watchband and the pyrotoxin 10511 that is not sticked by the exposed part of the heat-conducting part 201 dressing belt body 20, but the conducting part 207 of the pyrotoxin 10511 that is sticked by the exposed part of heat-conducting part 201 and is sticked mutually, but when the utility model actual enforcement, can according to user to the number of pyrotoxin 10511 quantity or radiating requirements adjusted design by the exposed part of heat-conducting part 201 except being sticked mutually with the conducting part 207 of the pyrotoxin 10511 that is sticked, can also be sticked mutually with relative pyrotoxin 10511.

Aforementioned heat-conducting part 201 is provided with one first heat carrier 202 and one second heat carrier 203, this protection portion 205 is provided with one first protective 2051 and one second protective 2052, this is first years old, two protectives 2051, 2052 is coated to should first respectively, two heat carriers 202, the outside of 203, and this first, two heat carriers 202, one of 203 partial denudation in this to be installed with in space 1042 not respectively by this first, two protectives 2051, 2052 is coated, that is described first, two heat carriers 202, another part of 203 be respectively by this first, two protectives 2051, 2052 integral coating, dress with for user outside the both sides that this part is positioned at this wearing main body 10.

In addition, wearing belt body 20 in this better enforcement is explained by two-part long watchband forms, its Hou section (namely first, two heat carriers 202, the exposed part of 203) be installed with and be installed with in space 1042 at this heat indirectly absorbed (namely will be received heat through conducting part 207 and passes to first, two heat carriers 202, the exposed part of 203), on the leading portion being transmitted to the wearing belt body 20 outside this wearing main body 10 both sides fast and interlude, by be wrapped by this front end and stage casing first, two heat carriers 202, the 203 outside heat extractions of heat that will receive, the problem causing accumulated heat in inside can be hoarded to have the solution central processing unit of this wearing main body 10 and the heat of graphic process unit, central processing unit and graphic process unit can be operated stable and quick, and then also effectively reach the effect obtaining preferably comfort when allowing user dress.

And the exposed part of first and second heat carrier 202,203 of aforementioned heat-conducting part 201 be installed with respectively in these recesses 1041 and towards this, be installed with space 1042 among cardiac prominence stretch formation, and the exposed part of first and second heat carrier 202,203 in these recesses 1041 corresponds to each other, and described battery part 102 is positioned at the below place of the exposed part of this first and second heat carrier 202,203.And aforementioned first, two heat carriers 202, 203 are respectively equipped with one first heat-conducting layer 2021, 2031, one second heat-conducting layer 2022, 2032 and one the 3rd heat-conducting layer 2023, 2033, aforementioned first, two heat carriers 202, 203 first, three heat-conducting layers 2021, 2031, 2023, 2033 is that metal forming is (as goldleaf, silver foil, Copper Foil or aluminium foil) formed, in this embodiment first, two heat carriers 202, 203 first, three heat-conducting layers 2021, 2031, 2023, 2033 explain with Copper Foil, this is first years old, two heat carriers 202, second heat-conducting layer 2022 of 203, 2032 are formed by graphite material, and this first, two protectives 2051, 2052 are formed by flexible plastic material.

And the second heat-conducting layer 2022 of described first heat carrier 202 is folded between first and third heat-conducting layer 2021,2023 of this first heat carrier 202; second heat-conducting layer 2032 of this second heat carrier 203 is folded between first and third heat-conducting layer 2031,2033 of this second heat carrier 203, and this first and second protective 2051,2052 is coated on the outside (namely dressing the heat-conducting part 201 be wrapped by the leading portion of belt body 20 and interlude) of first and third heat-conducting layer 2021,2031,2023,2033 of another part of relatively this first and second heat carrier 202,203 respectively.Aforementioned wearing main body 10 more comprises a conducting part 207, this conducting part 207 is located in this and is installed with in space 1042, and be positioned at place immediately below this circuit board 105, this first and second heat carrier 202,203 is positioned at the below (namely conducting part 207 is located at above this first and second heat carrier 202,203) of this conducting part 207, and explain in the conducting part 207 of this embodiment for temperature-uniforming plate, but be not limited thereto, in time specifically implementing, also may be selected to be heat pipe or other conductible elements; And this temperature-uniforming plate (i.e. conducting part 207) is provided with chamber 2071, capillary structure 2072 and a plural support column 2073, a working fluid 2074 (as pure water, pure water, inorganic compound, alcohols, ketone, liquid metal, cold coal or organic compound) is filled with in this chamber 2071, this capillary structure 2072 is formed on this chamber 2071 inwall, these support columns 2073 are located in this chamber 2071, and its top and bottom are respectively to the upper wall established in this chamber 2071 relative and lower wall.

On the side of aforementioned conducting part 207 surface on limit, adjacent two opposite sides respectively with to should first,-two heat carriers 202, the side of the exposed part of 203 touches mutually, on the side of this conducting part 207, the surface of remainder is then sticked mutually with this battery part 102 relative, and the opposite side of this conducting part 207 and circuit board 105 pyrotoxin 10511 (i.e. central processing unit and graphic process unit) on it is sticked mutually, and the bottom surface 1012 of the corresponding described touch-control display module 101 of the opposite side of this conducting part 207, so conduct absorbing the heat that this pyrotoxin 10511 and battery part 102 produce respectively to first through this conducting part 207, two heat carriers 202, first heat-conducting layer 2021 of the exposed part of 203, on outside 2031, make this first, two heat carriers 202, first heat-conducting layer 2021 of the exposed part of 203, 2031 can conduct to respective second rapidly, three heat-conducting layers 2022, 2023, 2032, on 2033, and aforementioned heat is delivered to simultaneously this first, two heat carriers 202, another part (leading portion of the wearing belt body 20 namely outside this wearing main body 10 both sides and interlude) of 203 outwards dispels the heat, uses and effect antipyretic is fast reached to wearing main body 10.

Therefore, through being coated with first and second heat carrier 202,203 in the wearing belt body 20 of the utility model, make a part for this first and second heat carrier 202,203 for exposed be with to being sticked mutually by conducting part 207, the structural design that this conducting part 207 is sticked mutually with the relative pyrotoxin 10511 dressing main body 10, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in Figure 10, be the generalized section of the 5th embodiment of the utility model, and be aided with and consult Fig. 7,8, the structure of this present embodiment and linking close and effect roughly identical with aforementioned 4th embodiment, therefore again do not repeat at this, the heat-conducting part 201 of aforementioned 4th embodiment mainly changes and is designed to flexible heat tube by this embodiment, that is aforementioned first, two heat carriers 202, 203 is that a flexible metal material forms the heat pipe of (as copper material), and this first, two heat carriers 202, 203 respectively have a chamber 2024, 2034 and a capillary structure 2025, 2035, this this first, two heat carriers 202, the chamber 2024 of 203, a working fluid 2026 is filled with in 2034, 2036 (as pure water, pure water, inorganic compound, alcohols, ketone, liquid metal, cold coal or organic compound), and aforementioned this first, two heat carriers 202, the capillary structure 2025 of 203, 2035 are formed in respectively this chamber 2024, on 2034 inwalls, and this first, two protectives 2051, 2052 are formed by flexible plastic material or hard plastic cement material, in this comparatively embodiment first, two protectives 2051, 2052 to be formed with flexible plastic material and are explained.

So be flexible heat tube through being coated with first and second heat carrier 202,203 in the wearing belt body 20 of the utility model, make a part for this first and second heat carrier 202,203 for exposed be with to being sticked mutually by conducting part 207, the structural design that this conducting part 207 is sticked mutually with the relative pyrotoxin 10511 dressing main body 10, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in Figure 11,12, be the schematic diagram of the 6th embodiment of the utility model, and be aided with and consult Figure 10, the structure of this present embodiment and linking close and effect roughly identical with aforementioned 5th embodiment, therefore again do not repeat at this, difference both it be in: aforementioned first, two heat carriers 202, 203 is the heat pipe of a hard metal material formation, and this first, two protectives 2051, 2052 are formed by hard plastic cement material, (another part being namely coated with the first heat carrier 202 of the first protective 2051 with the second heat carrier 203 being coated with the second protective 2052 another part) is bending fixing formation one running-on 208 in the center position of this lower frame body 104 respectively so the leading portion of this wearing belt body 20 and interlude, this running-on 208 is inserted in directly dressing for user, and this first, two protectives 2051, 2052 are formed by hard plastic cement material.

So be heat pipe through being coated with first and second heat carrier 202,203 in the wearing belt body 20 of the utility model, make a part for this first and second heat carrier 202,203 for exposed be with to being sticked mutually by conducting part 207, the structural design that this conducting part 207 is sticked mutually with the relative pyrotoxin 10511 dressing main body 10, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in Figure 13,14, it is the Decomposition and composition schematic diagram of the 7th embodiment of the utility model, the structure of this embodiment and linking close and effect roughly identical with aforementioned first embodiment, therefore again do not repeat at this, aforementioned wearing belt body 20 is mainly integral type elongated watchband by this embodiment, change design to become two-part long watchband and the exposed part of the heat-conducting part 201 dressing belt body 20 is sticked on corresponding pyrotoxin, that is aforementioned heat-conducting part 201 is provided with one first heat carrier 202 and one second heat carrier 203, this protection portion 205 is provided with one first protective 2051 and one second protective 2052, and this is first years old, two protectives 2051, 2052 is coated to should first respectively, two heat carriers 202, the outside of 203, and this first, two heat carriers 202, one of 203 partial denudation in this to be installed with in space 1042 not respectively by this first, two protectives 2051, 2052 is coated, that is described first, two heat carriers 202, another part of 203 be respectively by this first, two protections overall 2051, 2052 is coated, and dress with for user outside the both sides that this part is positioned at this wearing main body 10, this is first years old, two heat carriers 202, the side of the exposed part of 203 (namely first, two heat carriers 202, a part of 203) in being installed with in order to touch mutually (or being sticked) with corresponding aforementioned pyrotoxin 10511 (i.e. central processing unit and graphic process unit) respectively in space 1042, through this first, two heat carriers 202, the exposed part of 203 heat that the pyrotoxin 10511 absorbed produces is transmitted to rapidly this first, two heat carriers 202, another part of 203 outwards reaches the effect of heat radiation.

In time specifically implementing, user can in advance according to circuit board 105 on it pyrotoxin 10511 furnish the demand of position, a wherein elongated watchband of adjusted design two-part long watchband is provided with heat carrier, another part elongated watchband then do not have heat carrier, it is exactly a part of contact heating source 10511 of this first heat carrier 202 or the second heat carrier 203, coated aforementioned first heat carrier 202 or the second heat carrier 203 is not then had in first protective 2051 in non-contact heating source 10511 or the second protective 2052, as Figure 15, shown in 16, this the first heat carrier 202 is not provided with in described first protective 2051, its one end is installed with in relative recess 1041, the second heat carrier 202 be wrapped by then is provided with in this second protective, and touch mutually (or being sticked) in the side of the exposed part being installed with aforementioned second heat carrier 203 in space 1042 with corresponding aforementioned pyrotoxin 10511 (i.e. central processing unit and graphic process unit), the opposite side of the exposed part of this second heat carrier 203 is sticked mutually with this battery part 102 relative.

In addition, wearing belt body 20 in this better enforcement is explained by two-part long watchband forms, its Hou section (namely first, two heat carriers 202, the exposed part of 203) be installed with and be installed with the direct heat that will absorb in space 1042 at this, on the leading portion being transmitted to the wearing belt body 20 outside this wearing main body 10 both sides fast and interlude, by be wrapped by this front end and stage casing first, two heat carriers 202, the 203 outside heat extractions of heat that will receive, the problem causing accumulated heat in inside can be hoarded to have the solution central processing unit of this wearing main body 10 and the heat of graphic process unit, central processing unit and graphic process unit can be operated stable and quick, and then also effectively reach the effect obtaining preferably comfort when allowing user dress.

As Figure 13, shown in 14, first of aforementioned heat-conducting part 201, two heat carriers 202, among the exposed part of 203 is installed with respectively and is installed with space 1042 in these recesses 1041 and towards this, cardiac prominence stretches formation, and aforementioned first, two heat carriers 202, 203 are respectively equipped with one first heat-conducting layer 2021, 2031, one second heat-conducting layer 2022, 2032 and one the 3rd heat-conducting layer 2023, 2033, aforementioned first, two heat carriers 202, 203 first, three heat-conducting layers 2021, 2031, 2023, 2033 is metal forming (goldleaf, silver foil, Copper Foil or aluminium foil) formed, in this embodiment first, two heat carriers 202, 203 first, three heat-conducting layers 2021, 2031, 2023, 2033 explain with Copper Foil, this is first years old, two heat carriers 202, second heat-conducting layer 2022 of 203, 2032 are formed by graphite material, and this first, two protectives 2051, 2052 are formed by flexible plastic material.

And the second heat-conducting layer 2022 of described first heat carrier 202 is folded between first and third heat-conducting layer 2021,2023 of this first heat carrier 202; second heat-conducting layer 2032 of this second heat carrier 203 is folded between first and third heat-conducting layer 2031,2033 of this second heat carrier 203, and this first and second protective 2051,2052 is coated on the outside (namely dressing the heat-conducting part 201 be wrapped by the leading portion of belt body 20 and interlude) of first and third heat-conducting layer 2021,2031,2023,2033 of another part of relatively this first and second heat carrier 202,203 respectively.And be installed with space 1,042 first in it in this, two heat carriers 202, first heat-conducting layer 2021 of the exposed part of 203, (namely dress the heat-conducting part 201 that the Hou section of belt body 20 is exposed) outside 2031 to be sticked mutually with this pyrotoxin 10511 (i.e. central processing unit and graphic process unit) relative, and first, two heat carriers 202, 3rd heat-conducting layer 2023 of the exposed part of 203, be sticked outside 2033 relatively this battery part 102, thus make this first, two heat carriers 202, first heat-conducting layer 2021 of 203, 203 heats that can will absorb central processing unit and graphic process unit and produces, conduct to respective first rapidly, two heat carriers 202, 203 second, three heat-conducting layers 2022, 2023, 2032, on 2033, and simultaneously by aforementioned heat and the 3rd heat-conducting layer 2023, 2033 heats absorbing battery part 102 be delivered in the lump separately this first, two heat carriers 202, another part (leading portion of the wearing belt body 20 namely outside this wearing main body 10 both sides and interlude) of 203 outwards dispels the heat, uses and effect antipyretic is fast reached to wearing main body 10.

Therefore, through being coated with first and second heat carrier 202,203 in the wearing belt body 20 of the utility model, a part for this first and second heat carrier 202,203 is made to be the structural design that the pyrotoxin 10511 of exposed and relative wearing main body 10 is sticked mutually, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in figure 17, be the generalized section of the 8th embodiment of the utility model, and be aided with and consult Figure 13, the structure of this present embodiment and linking close and effect roughly identical with aforementioned 7th embodiment, therefore again do not repeat at this, the heat-conducting part 201 of aforementioned 4th embodiment mainly changes and is designed to flexible heat tube by this embodiment, that is aforementioned first, two heat carriers 202, 203 is that a flexible metal material forms the flexible heat tube of (as copper material), and this first, two heat carriers 202, 203 respectively have a chamber 2024, 2034 and a capillary structure 2025, 2035, this this first, two heat carriers 202, the chamber 2024 of 203, a working fluid 2026 is filled with in 2034, 2036 (as pure water, pure water, inorganic compound, alcohols, ketone, liquid metal, cold coal or organic compound), and aforementioned this first, two heat carriers 202, the capillary structure 2025 of 203, 2035 are formed in respectively this chamber 2024, on 2034 inwalls, and in this be installed with space 1042 in it this first, two heat carriers 202, the relative battery part 102 of opposite side of the exposed part of 203 is sticked mutually, and this is first years old, two heat carriers 202, the side (i.e. the side of flexible heat tube) of the exposed part of 203 is sticked mutually with this pyrotoxin 10511 (i.e. central processing unit and graphic process unit) relative, and this first, two protectives 2051, 2052 are formed by flexible plastic material or hard plastic cement material, in this comparatively embodiment first, two protectives 2051, 2052 to be formed with flexible plastic material and are explained.

In time specifically implementing, user can in advance according to circuit board 105 on it pyrotoxin 10511 furnish the demand of position, a wherein elongated watchband of adjusted design two-part long watchband is provided with heat carrier, another part elongated watchband then do not have heat carrier, be exactly this first heat carrier 202 (i.e. the first flexible heat tube) or the second heat carrier 203 (i.e. the second flexible heat tube)) a part of contact heating source 10511, coated aforementioned first heat carrier 202 or the second heat carrier 203 is not then had in first protective 2051 in non-contact heating source 10511 or the second protective 2052, as shown in figure 18, and be aided with and consult Figure 15, the first heat carrier 202 (i.e. the first flexible heat tube) is not provided with in described first protective 2051, its one end is installed with in relative recess 1041, the second heat carrier 202 (i.e. the second flexible heat tube) be wrapped by then is provided with in this second protective, and touch mutually (or being sticked) in the side of the exposed part being installed with aforementioned second heat carrier 203 in space 1042 with corresponding aforementioned pyrotoxin 10511 (i.e. central processing unit and graphic process unit), the opposite side of the exposed part of this second heat carrier 203 is sticked this battery part 102 relatively.

So be flexible heat tube through being coated with first and second heat carrier 202,203 in the wearing belt body 20 of the utility model, a part for this first and second heat carrier 202,203 is made to be the structural design that the exposed pyrotoxin 10511 with dressing main body 10 is sticked mutually, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

As shown in figure 19, be the decomposing schematic representation of the 9th embodiment of the utility model, and be aided with and consult Figure 17, the structure of this present embodiment and linking close and effect roughly identical with aforementioned 7th embodiment, therefore again do not repeat at this, difference both it be in: aforementioned first, two heat carriers 202, 203 is the heat pipe of a hard metal material formation, and this first, two protectives 2051, 2052 are formed by hard plastic cement material, (another part being namely coated with the first heat carrier 202 of the first protective 2051 with the second heat carrier 203 being coated with the second protective 2052 another part) is bending fixing formation one running-on 208 in the center position of this lower frame body 104 respectively so the leading portion of this wearing belt body 20 and interlude, this running-on 208 is inserted in directly dressing for user, and this first, two protectives 2051, 2052 are formed by hard plastic cement material.

In time specifically implementing, user can in advance according to circuit board 105 on it pyrotoxin 10511 furnish the demand of position, a wherein elongated watchband of adjusted design two-part long watchband is provided with heat carrier, another part elongated watchband then do not have heat carrier, be exactly this first heat carrier 202 (i.e. the first heat pipe) or the second heat carrier 203 (i.e. the second heat pipe)) a part of contact heating source 10511, coated aforementioned first heat carrier 202 or the second heat carrier 203 is not then had in first protective 2051 in non-contact heating source 10511 or the second protective 2052, as shown in figure 20, and be aided with and consult Figure 18, the first heat carrier 202 (i.e. the first heat pipe) is not provided with in described first protective 2051, its one end is installed with in relative recess 1041, the second heat carrier 202 (i.e. the second heat pipe) be wrapped by then is provided with in this second protective, and touch mutually (or being sticked) in the side of the exposed part being installed with aforementioned second heat carrier 203 in space 1042 with corresponding aforementioned pyrotoxin 10511 (i.e. central processing unit and graphic process unit), the opposite side of the exposed part of this second heat carrier 203 is sticked relative battery part 102.

So be heat pipe through being coated with first and second heat carrier 202,203 in the wearing belt body 20 of the utility model, a part for this first and second heat carrier 202,203 is made to be the structural design that the exposed pyrotoxin 10511 with dressing main body 10 is sticked mutually, obtain the heat dissipation effectively significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body 10, and then the effect of preferably comfort when also effectively allowing user dress, can be obtained.

The above, the utility model has following advantage compared to known:

1. there is the heat dissipation significantly increasing and dress electronic installation, to avoid dressing the problem producing accumulated heat in main body;

2. the effect of preferably comfort when allowing user dress, can be obtained.

As described above, the only better feasible embodiment of the utility model, such as utilizes the above-mentioned method of the utility model, shape, structure, device to change for it, all should be contained in the interest field of this case.

Claims (17)

1. a Wearable electronic apparatus heat radiation construction, is characterized in that: comprising:

One dresses main body, and it comprises one and is installed with space, a circuit board and plural electronic component, and these electronic components are located on this circuit board, and is installed with this circuit board and is installed with in space at this, and these electronic components have at least one pyrotoxin; And

One dresses belt body; connect this wearing main body relatively; it is provided with a heat-conducting part and a protection portion; this protection portion is coated on the outside of this heat-conducting part; and one of this heat-conducting part partial denudation is installed with in space not coated by this protection portion in this, and the exposed part of this heat-conducting part with to touching mutually by pyrotoxin.

2. Wearable electronic apparatus heat radiation construction according to claim 1, it is characterized in that, described heat-conducting part is provided with one first heat-conducting layer, one second heat-conducting layer and one the 3rd heat-conducting layer, this second heat-conducting layer is folded between this first heat-conducting layer and the 3rd heat-conducting layer, and is sticked mutually with this pyrotoxin relative outside this first heat-conducting layer that this is installed with space exposed part of this heat-conducting part in it.

3. Wearable electronic apparatus heat radiation construction according to claim 2, is characterized in that, described first and third heat-conducting layer is formed by metal forming, and this second heat-conducting layer is formed by graphite material, and this protection portion is formed by flexible plastic material.

4. Wearable electronic apparatus heat radiation construction according to claim 1; it is characterized in that; described heat-conducting part is the heat pipe of a flexible metal material formation; and this heat-conducting part has a chamber and a capillary structure; a working fluid is filled with in this chamber; this capillary structure is formed on this chamber inner wall, and is sticked mutually in the side that this is installed with space exposed part of this heat-conducting part in it with this pyrotoxin relative, and this protection portion is formed by flexible plastic material or hard plastic cement material.

5. Wearable electronic apparatus heat radiation construction according to claim 1; it is characterized in that; described heat-conducting part is the heat pipe of a hard metal material formation; and this heat-conducting part has a chamber and a capillary structure; a working fluid is filled with in this chamber; this capillary structure is formed on this chamber inner wall, and is sticked mutually in the side that this is installed with space exposed part of this heat-conducting part in it with this pyrotoxin relative, and this protection portion is formed by hard plastic cement material.

6. Wearable electronic apparatus heat radiation construction according to claim 1, it is characterized in that, described heat-conducting part is provided with one first heat carrier and one second heat carrier, this protection portion is provided with one first protective and one second protective, this is first years old, two protectives are coated to should first respectively, the outside of two heat carriers, this is first years old, one of two heat carriers partial denudation in this to be installed with in space not respectively by this first, two protectives are coated, and this first, the exposed part of two heat carriers corresponds to each other, and this battery part be installed with in space be positioned at this first, the below place of the exposed part of two heat carriers.

7. Wearable electronic apparatus heat radiation construction according to claim 6, it is characterized in that, described wearing main body more comprises a conducting part, this conducting part is located in this and is installed with in space, and be positioned at above this first and second heat carrier, and on the side of this conducting part the surface on limit, adjacent two opposite sides respectively with to should the side of exposed part of first ,-two heat carriers touch mutually, the opposite side and this circuit board relative of this conducting part pyrotoxin on it is sticked mutually.

8. Wearable electronic apparatus heat radiation construction according to claim 7, it is characterized in that, first and second heat carrier described is respectively equipped with one first heat-conducting layer, one second heat-conducting layer and one the 3rd heat-conducting layer, second heat-conducting layer of this first heat carrier is folded between first and third heat-conducting layer of this first heat carrier, and the second heat-conducting layer of this second heat carrier is folded between first and third heat-conducting layer of this second heat carrier.

9. Wearable electronic apparatus heat radiation construction according to claim 8; wherein first and third heat-conducting layer of first and second heat carrier aforementioned is formed by metal forming; second heat-conducting layer of this first and second heat carrier is formed by graphite material, and this first and second protective is formed by flexible plastic material.

10. Wearable electronic apparatus heat radiation construction according to claim 7, it is characterized in that, described conducting part is a temperature-uniforming plate, this conducting part is provided with a chamber, a capillary structure and plural support column, a working fluid is filled with in this chamber, this capillary structure is formed on this chamber inner wall, and these support columns are located in this chamber, and its top and bottom are respectively to the upper wall established in this chamber relative and lower wall.

11. Wearable electronic apparatus heat radiation constructions according to claim 7; it is characterized in that; first and second heat carrier described is the heat pipe of a flexible metal material formation; this first and second heat carrier respectively has a chamber and a capillary structure; a working fluid is filled with in the chamber of this first and second heat carrier; the capillary structure of this first and second heat carrier is formed in respectively on this chamber inner wall, and this first and second protective is formed by flexible plastic material or hard plastic cement material.

12. Wearable electronic apparatus heat radiation constructions according to claim 7; it is characterized in that; first and second heat carrier described is the heat pipe of a hard metal material formation; this first and second heat carrier respectively has a chamber and a capillary structure; a working fluid is filled with in the chamber of this first and second heat carrier; the capillary structure of this first and second heat carrier is formed in respectively on this chamber inner wall, and this first and second protective is formed by hard plastic cement material.

13. Wearable electronic apparatus heat radiation constructions according to claim 2, it is characterized in that, described wearing main body has a touch-control display module, one battery part, one upper frame body and a lower frame body, this upper frame body is covered on this lower frame body relative, and it has been installed with this touch-control display module, this touch-control display module has a touch-control display surface and a bottom surface, this bottom surface is this circuit board relatively, and this lower frame body is provided with and is aforementionedly installed with space and plural recess, this is installed with in the recessed centre being formed in the side of this lower frame body in space, these recesses are then recessed to be formed on the limit, two opposite sides, side of this lower frame body, and be communicated with adjacent this and be installed with space, the exposed part of this heat-conducting part is installed with space by a recess of this lower frame body extends to relatively in another recess across this, and this battery part is installed with and is installed with on the bottom in space at this.

14. Wearable electronic apparatus heat radiation constructions according to claim 1, is characterized in that, described heat-conducting part is graphite, metal forming or its combination formed.

15. Wearable electronic apparatus heat radiation constructions according to claim 1; it is characterized in that; described heat-conducting part is provided with one first heat carrier and one second heat carrier; this protection portion is provided with one first protective and one second protective; this first and second protective is coated to should the outside of first and second heat carrier respectively; one of this first and second heat carrier partial denudation is installed with in space not coated by this first and second protective respectively in this, and the side in the exposed portion of this first and second heat carrier is sticked mutually with this pyrotoxin relative.

16. Wearable electronic apparatus heat radiation constructions according to claim 4 or 5, it is characterized in that, described wearing main body has a touch-control display module, one battery part, one upper frame body and a lower frame body, this upper frame body is covered on this lower frame body relative, and its content is provided with this touch-control display module, this touch-control display module has a touch-control display surface and a bottom surface, this bottom surface is this circuit board relatively, and this lower frame body is provided with and is aforementionedly installed with space and plural recess, this is installed with in the recessed centre being formed in the side of this lower frame body in space, these recesses are then recessed to be formed on the limit, two opposite sides, side of this lower frame body, and be communicated with adjacent this and be installed with space, the exposed part of this heat-conducting part is installed with space by a recess of this lower frame body extends to relatively in another recess across this, and this battery part is installed with and is installed with on the bottom in space at this.

17. Wearable electronic apparatus heat radiation constructions according to claim 7 or 15, it is characterized in that, described wearing main body has a touch-control display module, one battery part, one upper frame body and a lower frame body, this upper frame body is covered on this lower frame body relative, and its content is provided with this touch-control display module, this touch-control display module has a touch-control display surface and a bottom surface, this bottom surface is this circuit board relatively, and this lower frame body is provided with and is aforementionedly installed with space and plural recess, this is installed with in the recessed centre being formed in the side of this lower frame body in space, these recesses are then recessed to be formed on the limit, two opposite sides, side of this lower frame body, and be communicated with adjacent this and be installed with space, this is first years old, the exposed part of two heat carriers to be installed with respectively in these recesses and to be installed with cardiac prominence among space to stretch formation towards this, and this battery part is installed with and is installed with on the bottom in space at this.