CN208338176U - A kind of wearable smart machine and its bandage - Google Patents

Abstract

The utility model discloses a kind of bandages of wearable smart machine for belonging to technical field of intelligent equipment, including band body and highly heat-conductive material part.It wherein, is the main structure of bandage with body, it is external that at least one end of highly heat-conductive material part extend out to band, and then can exchange heat with the heat source of wearable smart machine, and highly heat-conductive material part extends along the length direction with body.The invention also discloses a kind of wearable smart machine with the bandage.Using the wearable smart machine and bandage, band body plays support fixed function, and wearable smart machine can be worn on to the corresponding position of user.Highly heat-conductive material part can exchange heat with heat source, and by the heat absorption of heat source to highly heat-conductive material part, heat conducts on band body extending direction along highly heat-conductive material part, to function of environment heat emission while conduction.Namely the bandage can also play the role of heat dissipation, increase the heat dissipation area of wearable device, improve heat dissipating state, improve radiating efficiency.

Description

A kind of wearable smart machine and its bandage

Technical field

The utility model relates to technical field of intelligent equipment also to relate to more specifically to a kind of wearable smart machine And a kind of bandage of wearable smart machine.

Background technique

At present in the wearable smart machine product such as wearable virtual reality, augmented reality, the lightweight of product is small-sized Change, the requirements such as appearance limitation cause the limitation of internal heat dissipating scheme big, and heat dissipation design difficulty is high.

Conventional wearable smart machine relies primarily on metal shell in the prior art or plastic shell radiates.So And since the apparent size of product is small, heat dissipation area is smaller, causes heat dissipation difficulty larger.And since shell size is limited by production Product miniaturization, lightweight limitation, it is difficult to by increasing shell sizes also increasing heat radiation area.Radiating efficiency is difficult to improve.

It is current this field skill in conclusion how to efficiently solve the problems such as wearable smart machine radiating efficiency is low Art personnel's problem to be solved.

Utility model content

In view of this, first of the utility model is designed to provide a kind of bandage of wearable smart machine, this is tied up The structure design of band can efficiently solve the low problem of wearable smart machine radiating efficiency, second mesh of the utility model Be to provide a kind of wearable smart machine including above-mentioned bandage.

In order to reach above-mentioned first purpose, the utility model is provided the following technical solutions:

A kind of bandage of wearable smart machine, including band body；Further include along it is described with body extend highly heat-conductive material part, At least one end of the highly heat-conductive material part extend out to that the band is external, to exchange heat with the heat source of the wearable smart machine.

Preferably, in above-mentioned bandage, the highly heat-conductive material part includes multiple heat sink strips, multiple heat sink strips with it is described Band body braiding is an integral structure.

Preferably, in above-mentioned bandage, the band body includes inner layer and outer layer, and the highly heat-conductive material part is in described Highly heat-conductive material layer between layer and the outer layer.

Preferably, in above-mentioned bandage, the outer layer and the inner layer are plastic cement, and the highly heat-conductive material layer is sealed It is packaged in inside.

Preferably, in above-mentioned bandage, open up fluted on the band body, the highly heat-conductive material part is placed in the groove It is interior, it is provided with protector on the notch of the groove, has heat release hole on the protector.

Preferably, in above-mentioned bandage, the highly heat-conductive material part is attached to the outside with body.

Preferably, in above-mentioned bandage, one end end that the highly heat-conductive material part is used to exchange heat with the heat source is integrated The integration slice of formula, the integration slice, which includes width, is less than the connection with the interconnecting piece and width consistent with body width Portion simultaneously extends to the external head of the band outside.

Preferably, in above-mentioned bandage, described with body includes enhancing fixing piece positioned at end, and the enhancing fixing piece includes Inside and outside two layers, and two interlayers are fixedly connected so that the integration slice is pressed in inside.

Preferably, in above-mentioned bandage, offered respectively on inside and outside two layers of enhancing fixing piece for it is described wearable The positioning column cooperation of smart machine is corresponded to the location hole on the integration slice and is provided with the location hole that the bandage is fixed Through-hole or notch.

Preferably, in above-mentioned bandage, the two sides of the bandage extending direction weave or are pasted with respectively strengthening material materials and parts.

Preferably, in above-mentioned bandage, the highly heat-conductive material part is graphene part, carbon fiber part or graphite flake.

The bandage of wearable smart machine provided by the utility model includes band body and highly heat-conductive material part.Wherein, band body For the main structure of bandage, at least one end of highly heat-conductive material part extend out to band in vitro, and then can be with wearable smart machine Heat source heat exchange, and highly heat-conductive material part extends along the length direction with body.

Using the bandage of wearable smart machine provided by the utility model, band body plays support fixed function, can Wearing smart machine is worn on the corresponding position of user.At least one end of highly heat-conductive material part extend out to band in vitro, and then can It exchanges heat with the heat source of wearable smart machine, by the heat absorption of heat source to highly heat-conductive material part, heat is along highly heat-conductive material part It is conducted on band body extending direction, to function of environment heat emission while conduction.Namely the bandage due to be provided with highly heat-conductive material, Also it can play the role of heat dissipation, increase the heat dissipation area of wearable device, improve heat dissipating state, improve radiating efficiency.

In one preferred embodiment, highly heat-conductive material part is graphene part, carbon fiber part or graphite flake.Due to stone Black alkene, carbon fiber and graphite flake all have high tenacity, and lateral transport thermal coefficient is high, and lateral transport thermal coefficient K about exists 800-1600W/ (m*K) has preferable thermally conductive advantage compared with metal.And there is low density loss of weight advantage.In addition above-mentioned material has There is preferable bending, fatigue durability has preferable durability, physical strength and the service life for extending bandage.

In order to reach above-mentioned second purpose, the utility model additionally provides a kind of wearable smart machine, this is wearable Smart machine includes any of the above-described kind of bandage.It is wearable with the bandage since above-mentioned bandage has above-mentioned technique effect Smart machine should also have corresponding technical effect.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the bandage external structure schematic diagram of one specific embodiment of the utility model；

Fig. 2 is the half section structure diagram of Fig. 1；

Fig. 3 is the configuration schematic diagram of Fig. 1；

Fig. 4 is the strap configurations schematic diagram of another specific embodiment of the utility model；

Fig. 5 is the configuration schematic diagram of Fig. 4；

Fig. 6 is the configuration schematic diagram of the bandage of another specific embodiment of the utility model；

Fig. 7 is a kind of structural schematic diagram of highly heat-conductive material part；

Fig. 8 is another structural schematic diagram of highly heat-conductive material part；

Fig. 9 is the structural schematic diagram that enhancing fixing piece is arranged with body end portion；

Figure 10 is the structural schematic diagram that strengthening material materials and parts are arranged in bandage two sides.

It is marked in attached drawing as follows:

Band body 1, inner layer 11, outer layer 12, groove 13, protector 14, heat release hole 15 enhance fixing piece 16, and location hole 17 increases Strong material pieces 18, highly heat-conductive material part 2, heat sink strip 21, integration slice 22, head 221, interconnecting piece 222, heat source 3, connector 4；Figure Arrow in 7- Fig. 8 indicates direction of heat flow.

Specific embodiment

The utility model embodiment discloses a kind of wearable smart machine and its bandage, to improve wearable smart machine Radiating efficiency.

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The bandage of wearable smart machine provided by the utility model includes band body 1 and highly heat-conductive material part 2.

It wherein, is the main structure of bandage with body 1, the main support fixed function that rises is wearable smart machine to be worn on The corresponding position of user.Concrete shape with body 1 can be configured as needed, be not especially limited herein, such as can be adopted With structures such as linear type or Y shapes, in order to user's wearing.With generally having on body 1 for connecting with wearable smart machine Bandage is fixed on wearable smart machine by fixed part, and specific structure can refer to the prior art, is not limited specifically herein It is fixed.Material with body 1 is see also the prior art, such as using plastic cement, fiber conventional material in the prior art.

Highly heat-conductive material part 2 is specifically fitted on band body 1, is structure as a whole or is clipped in band body 1 with the braiding of body 1 Between.At least one end of highly heat-conductive material part 2 is extend out to outside band body 1, and then can be exchanged heat with the heat source 3 of wearable smart machine, It can also can specifically be exchanged heat by way of heat radiation, directly with 3 contact heat-exchanging of heat source to absorb the heat of heat source 3.It is preferred that , highly heat-conductive material part 2 is bonded by bond plies and heat source 3, on the one hand can effectively absorb the heat of heat source 3, another Both aspects are fixedly connected with the reliability that can guarantee to continue heat transfer.Highly heat-conductive material part 2 extends along the length direction with body 1, And then heat can be conducted along highly heat-conductive material part 2 to radiate.Preferably, highly heat-conductive material part 2 covers entire band 1 length field of body Domain, to be radiated to greatest extent using the area with body 1, that is, maximum increasing heat radiation area, heat radiation Efficiency.

Using the bandage of wearable smart machine provided by the utility model, band body 1 plays support fixed function, can Wearing smart machine is worn on the corresponding position of user.At least one end of highly heat-conductive material part 2 is extend out to outside band body 1, Jin Erneng Enough heat sources 3 with wearable smart machine exchange heat, and by the heat absorption of heat source 3 to highly heat-conductive material part 2, heat is along high thermal conductivity material Materials and parts 2 conduct on band 1 extending direction of body, just to function of environment heat emission while conduction.Namely the bandage is due to being provided with height Heat Conduction Material can also play the role of heat dissipation, increase the heat dissipation area of wearable device, improve heat dissipating state, improve and dissipate The thermal efficiency.

Fig. 1-3 is please referred to, Fig. 1 is the bandage external structure schematic diagram of one specific embodiment of the utility model；Fig. 2 is figure 1 half section structure diagram；Fig. 3 is the configuration schematic diagram of Fig. 1.

In a specific embodiment, highly heat-conductive material part 2 includes multiple heat sink strips 21, multiple heat sink strips 21 with body 1 Braiding is an integral structure.It that is to say that highly heat-conductive material part 2 includes at least linear part, multiple heat sink strips of linear parts 21 body 1 is cross one another is woven together with band respectively, forms overall structure.Integrated by weaving formula structure, on the one hand enhances The structural strength of bandage, and highly heat-conductive material part 2 can be good at adapting to the shape with body 1.Highly heat-conductive material end is inhaled simultaneously After the heat for receiving heat source 3, heat can shunt respectively conduction along heat sink strip 21 to radiate.

It is in integral type laminated structure that highly heat-conductive material part 2, which stretches out in the end with body 1 preferably, consequently facilitating with heat source 3 Heat exchange, and structural strength is higher.Each heat sink strip 21 is connect with the integral type laminated structure.The width of specific each heat sink strip 21 can It is set as needed, is not especially limited herein.

The bandage temperature of user's body-sensing, band are reduced while bandage sufficiently radiates in order to promote the wearing experience of user Body 1 is about preferably 0.25W/ (m*K) using low Heat Conduction Material, thermal coefficient K such as fiber or plastic cement.The band of the low Heat Conduction Material Body 1 and user's skin contact, can alleviate the heat transfer bring thermal sensation of bandage.

Fig. 4-Fig. 5 is please referred to, Fig. 4 is the strap configurations schematic diagram of another specific embodiment of the utility model；Fig. 5 is figure 4 configuration schematic diagram.

In another specific embodiment, band body 1 includes inner layer 11 and outer layer 12, and highly heat-conductive material part 2 is positioned at inner layer Highly heat-conductive material layer between 11 and outer layer 12.Namely highly heat-conductive material part 2 is arranged by the way of interlayer.Inner layer 11 and outer Highly heat-conductive material layer directly can be clamped in inside by layer 12, reduced and wanted to mechanical strengths such as the toughness of highly heat-conductive material layer It asks, and then the material selection range of highly heat-conductive material layer is more wide in range.And due to inner layer 11 can completely cut off highly heat-conductive material layer with The direct contact of user's skin also just alleviates bandage heat transfer bring thermal sensation.Can specifically it lead between inner layer 11 and outer layer 12 It crosses the conventional mode that is fixedly connected to connect, so that highly heat-conductive material layer is clamped in inside.As needed, highly heat-conductive material layer It can directly be connect with inner layer 11 and/or outer layer 12 and make its positioned there between.

Further, outer layer 12 and inner layer 11 are plastic cement in the embodiment, and by highly heat-conductive material layer it is hermetically sealed in It is internal.Highly heat-conductive material layer can be sealed envelope by compressing closely sealed processing procedure using thermally conductive or non-conductive plastic cement by specific plastic cement Loaded between outer layer 12 and inner layer 11, the effect of waterproof anti-corrosion can achieve.Plastic cement, which is specifically as follows hard plastic, to be adopted It with soft plastic, is not especially limited herein, and can according to need the bandage for being made into various shapes.As needed, on outer layer 12 Heat release hole 15 can also be opened up, the heat dissipation of highly heat-conductive material layer is further convenient for.The shape and quantity, distribution of specific heat release hole 15 Etc. that can be set as needed, it is not especially limited herein.Certainly, outer layer 12 and inner layer 11 are also not limited to plastic cement, can also be with Using conventional materials such as fibers, it need to only make the two that highly heat-conductive material layer is clipped in inside.

The braiding and two kinds of fixed forms of interlayer of highly heat-conductive material part 2 is explained above, in another specific embodiment, Referring to Fig. 6, highly heat-conductive material part 2 is placed in groove 13 with opening up fluted 13 on body 1, it is arranged on the notch of groove 13 There is protector 14, there is heat release hole 15 on protector 14.So set, being on the one hand convenient for the installation of highly heat-conductive material part 2, and protect Part 14 can play protective action, prevent highly heat-conductive material part 2 caused by external force from damaging.And have heat release hole 15 on protector 14, And then distributed convenient for the heat of highly heat-conductive material part 2, further increase radiating efficiency.The shape and quantity of specific heat release hole 15, Distribution etc. can be set as needed, and be not especially limited herein.As needed, heat release hole can also be not provided on protector 14 15, to play the role of water proof and dust proof.

Specifically, groove 13 can be the through slot that is open at both ends, and then at least one end of highly heat-conductive material part 2 can be with It directly stretches out to exchange heat with heat source 3.Or the both ends of groove 13 also can have side wall, then on side wall it is corresponding open up through-hole with Make being pierced by for highly heat-conductive material part 2, and then exchanges heat with heat source 3.

In this embodiment, it is preferred that highly heat-conductive material part 2 is laminated structure, and length can be set as needed, to protect Demonstrate,prove heat dissipation area.It certainly, as needed can also be using other shapes such as multiple heat sink strips 21.

In other embodiments, highly heat-conductive material part 2 can also be attached directly to the outside with body 1.It should be noted that Outside herein refers to that, with the other side opposite with 1 inside of body, the inside with body 1 then refers to that band body 1 connects with user under wearing state The side of touching.Highly heat-conductive material part 2 can specifically be directly attached to the outside with body 1, it is preferred that highly heat-conductive material part 2 is piece Shape structure.Highly heat-conductive material part 2 is set to the outside with body 1, heat dissipation effect on the one hand can be effectively played, on the other hand keep away Exempted from user's skin contact, the heat transfer bring thermal sensation of bandage can be alleviated.Preferably, band body 1 using thermal insulator or non-is led Hot material part, to reduce sendible temperature when user wears the bandage.

The different fixed forms of highly heat-conductive material part 2 are respectively illustrated above.In the above embodiments, high thermal conductivity One end end that material pieces 2 are used to exchange heat with heat source 3 is the integration slice 22 of integral type, integration slice 22 including width with it is wide with body 1 Consistent interconnecting piece 222 and width are spent less than interconnecting piece 222 and are extended to outside with the head 221 outside body 1.It should be noted that Integration slice 22 refers to monoblock type laminated structure.Integration slice 22 is convenient for exchanging heat with heat source 3 by the modes such as contacting.It is connect with integration slice 22 The part of remaining highly heat-conductive material part 2 be specifically as follows above-mentioned multiple heat sink strips 21, as shown in Figure 7, or with collection The whole laminated structure of 22 one in blocks, as shown in figure 8, to meet different fixation and radiating requirements.Integration slice 22 includes head Portion 221 and interconnecting piece 222, it is outer to exchange heat with heat source 3 that band body 1 is stretched on head 221, interconnecting piece 222 then for be connected to head 221 with Part between rear end residue highly heat-conductive material part 2.Such as it is connect by interconnecting piece 222 with multiple heat sink strips 21.It is namely high to lead First section of the hot material in bandage is that integrated mode is constituted, for being attached to the surface of heat source 3, and then can be more preferable Absorption heat source 3 heat.The setting of interconnecting piece 222 also contributes to improving the structural strength of highly heat-conductive material part 2.Direction of heat flow On efficiency, heat W=thermal conductivity * sectional area/(both ends the length * temperature difference) according to heat transfer flowing calculate, wherein leads The unit of heating rate is W/ (m*K), and the unit of sectional area is m², the unit of length is m, and the unit of both ends temperature difference is DEG C.First section 22 sectional area of integration slice increase, can effectively increase the transmission of heat.

221 width of head is smaller, with the dimensional fits with heat source 3.The width of interconnecting piece 222 is greater than the width on head 221, The increase of width is capable of increasing heat dissipation area, improves radiating efficiency.The width of interconnecting piece 222 preferably with the width one with body 1 It causes, while structure is clean and tidy, the area with body 1 is utilized to greatest extent and radiates.Specifically, being connect with interconnecting piece 222 Remaining highly heat-conductive material part 2 width and interconnecting piece 222 equivalent width, that is, the width of 2 second half section of highly heat-conductive material part Degree is bigger than the width on head 221, and radiating efficiency is promoted, and achievees the effect that quick soaking.

Further, with the enhancing fixing piece 16 that body 1 includes positioned at end, enhancing fixing piece 16 includes inside and outside two layers, and Two interlayers are fixedly connected so that integration slice 22 is pressed in inside.As shown in figure 9, enhance the setting of fixing piece 16 by end, it is right Strap end is reinforced, and is damaged with preventing bandage from scattering during stretching etc..It include multiple dissipate in highly heat-conductive material part 2 Hot item 21, multiple heat sink strips 21 weave in the embodiment being an integral structure with body 1, include the enhancing positioned at end with body 1 Fixing piece 16 is fixedly connected with multiple woven stripes with enhancing fixing piece 16, to be woven into overall structure with heat sink strip 21.Alternatively, Band body 1 includes that multiple woven stripes are provided with being woven into overall structure with heat sink strip 21 in the integrally-built end being woven into The enhancing fixing piece 16 can also.End in the embodiment that highly heat-conductive material part 2 is attached to 1 outside of body, then with 1 ontology of body The as enhancing fixing piece 16 of internal layer further includes the enhancing fixing piece 16 positioned at 2 top of highly heat-conductive material part, i.e. outer layer with body 1 12 enhancing fixing piece 16, highly heat-conductive material part 2 are attached to the outside with 1 ontology of body.Band body 1 is clipped in highly heat-conductive material part 2 In intermediate embodiment, then enhancing fixing piece 16 both can be the end of the inner layer 11 with body 1 and outer layer 12, can also be in inner layer Enhancing fixing piece 16 is added in 11 inboard and the outside of outer layer 12.

Specifically, enhancing fixing piece 16 can use plastic-packaged, intensity when bandage is contacted with product, energy can be enhanced Enough compressive resistances and warping resistance will not cause the fracture of litzendraht wire to fall off or cause integrated one integral piece part because of pulling force.It can also adopt It is pressed or is sutured with cortex class material, to improve the structural strength and toughness of strap end.

Further, it is offered respectively on inside and outside two layers of enhancing fixing piece 16 for the positioning column with wearable smart machine Cooperate the location hole 17 to fix bandage, corresponds to location hole 17 on integration slice 22 and be provided with through-hole or notch.Namely increasing Location hole 17 is preset on strong fixing piece 16, the positioning column on wearable smart machine of arranging in pairs or groups can reach fixed effect.In order to Convenient for cooperating with positioning column, 17 position of location hole is corresponded on integration slice 22 and opens up through-hole, or can also by setting notch with Evacuation.Specifically, wearable smart machine includes the connector 4 for being fixedly connected with bandage, one end setting of the connector 4 There is positioning column, across location hole 17 to connect bandage, the other end of connector 4 can be fixed on the shell of wearable smart machine On body.Location hole 17 be preferable to provide it is multiple, to realize reliable location.

On the basis of the various embodiments described above, the two sides of bandage extending direction weave or are pasted with respectively strengthening material materials and parts 18, as shown in Figure 10.Specifically, strengthening material materials and parts 18 can be the toughness such as fiber or the stronger material of elasticity, for enhancing knot Tension, elasticity, intensity and the wearability of structure.Have the function of promoting the reliability of bandage and protects internal highly heat-conductive material part 2.

In the above embodiments, highly heat-conductive material part 2 is graphene part, carbon fiber part or graphite flake.Due to graphene, Carbon fiber and graphite flake all have high tenacity, and lateral transport thermal coefficient is high, and lateral transport thermal coefficient K is about in 800- 1600W/ (m*K) has preferable thermally conductive advantage compared with metal.And there is low density loss of weight advantage.In addition above-mentioned material have compared with Good bending, fatigue durability have preferable durability, physical strength and the service life for extending bandage.Graphite flake and graphene Equal Heat Conduction Materials, have good toughness with can bending shape, the structure of bending or concave-convex curved surface can be effectively adapted to, so as to It is connect in heat source 3.As needed, highly heat-conductive material part 2 can also have the materials such as the metal of high thermal conductivity coefficient using aluminium etc..

In the above embodiments, in order to maintain the stability and continuity of heating conduction, highly heat-conductive material part 2 is preferred For along the one integral piece extended with 1 length direction of body, one end extends to the position for needing to radiate, attaches on heat source 3, reach and efficiently lead The effect of heat.

To sum up, highly heat-conductive material is fixed on bandage by modes such as braiding, interlayer or fittings by bandage provided by the present application In, radiator can be played the role of.Heat Conduction Material transfers out the heat of heat source 3 to come from product, reduces the heat dissipation of product Design pressure.Bandage has heating conduction, is equivalent to and increases wearable smart machine heat dissipation area, can have and preferably dissipates Thermal effect is promoted.

The bandage provided in based on the above embodiment, the utility model additionally provide a kind of wearable smart machine, this can Dressing smart machine includes any one bandage in above-described embodiment.Since the wearable smart machine uses above-described embodiment In bandage, so the beneficial effect of the wearable smart machine please refers to above-described embodiment.

Specifically, above-mentioned wearable smart machine is to wear display equipment, such as virtual reality glasses, augmented reality glasses Deng, or Intelligent bracelet etc. is worn on the wearable device for needing to be worn by bandage of human body other positions.

Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, the same or similar parts in each embodiment may refer to each other.

The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (12)

1. a kind of bandage of wearable smart machine, including band body (1)；It is characterized in that, further including extending along the band body (1) Highly heat-conductive material part (2), at least one end of the highly heat-conductive material part (2) extend out to the band body (1) outside, with it is described can Dress heat source (3) heat exchange of smart machine.

2. the bandage of wearable smart machine according to claim 1, which is characterized in that the highly heat-conductive material part (2) Including multiple heat sink strips (21), multiple heat sink strips (21) are an integral structure with the band body (1) braiding.

3. the bandage of wearable smart machine according to claim 1, which is characterized in that the band body (1) includes inner layer (11) and outer layer (12), the highly heat-conductive material part (2) are that the height between the inner layer (11) and the outer layer (12) is led Hot material layer.

4. the bandage of wearable smart machine according to claim 3, which is characterized in that the outer layer (12) and it is described in Layer (11) is plastic cement, and the highly heat-conductive material layer is hermetically sealed in inside.

5. the bandage of wearable smart machine according to claim 1, which is characterized in that offered on the band body (1) Groove (13), the highly heat-conductive material part (2) are placed in the groove (13), are provided on the notch of the groove (13) anti- Guard (14) has heat release hole (15) on the protector (14).

6. the bandage of wearable smart machine according to claim 1, which is characterized in that the highly heat-conductive material part (2) It is attached to the outside of the band body (1).

7. the bandage of wearable smart machine according to claim 1-6, which is characterized in that the high thermal conductivity material One end end that materials and parts (2) are used to exchange heat with the heat source (3) is the integration slice (22) of integral type, and the integration slice (22) includes The width interconnecting piece (222) consistent with band body (1) width and width are less than the interconnecting piece (222) and extend to institute outside State the head (221) outside with body (1).

8. the bandage of wearable smart machine according to claim 7, which is characterized in that the band body (1) includes being located at The enhancing fixing piece (16) of end, the enhancing fixing piece (16) includes inside and outside two layers, and two interlayers are fixedly connected with will be described Integration slice (22) is pressed in inside.

9. the bandage of wearable smart machine according to claim 8, which is characterized in that inside and outside two layers of enhancing is fixed It is offered respectively on part (16) for cooperating with the positioning column of the wearable smart machine with the positioning that the bandage is fixed Hole (17) corresponds to the location hole (17) on the integration slice (22) and is provided with through-hole or notch.

10. the bandage of wearable smart machine according to claim 1-6, which is characterized in that the bandage prolongs The two sides for stretching direction weave or are pasted with respectively strengthening material materials and parts (18).

11. the bandage of wearable smart machine according to claim 1-6, which is characterized in that the high thermal conductivity Material pieces (2) are graphene part, carbon fiber part or graphite flake.

12. a kind of wearable smart machine, which is characterized in that including such as described in any item bandages of claim 1-11.