CN209594131U - A kind of wearable device - Google Patents

Abstract

This application discloses a kind of wearable devices, including functional component, heat source and semiconductor cooler, heat source outer cover is equipped with thermal insulator, the main radiating surface of the first end connection heat source of the thermally conductive pathways of semiconductor cooler, the second end connection of the thermally conductive pathways of semiconductor cooler for heating sink to the radiator outside wearable device, heat source, semiconductor cooler with the heat-insulated setting of radiating piece for radiating for functional component.Heat source is isolated from the outside and its heat dissipation channel with other waits for that thermal component and space are not connected to, forms the exclusive heat dissipation channel for being directed to heat source, avoiding is influenced by other structures, and the radiating efficiency of heat source is able to ascend.

Description

A kind of wearable device

Technical field

The utility model relates to wearable device technical fields, more specifically to a kind of wearable device.

Background technique

The wearable devices such as display equipment, wrist strap, watch are worn, increasingly by the favor of ordinary consumer.With intelligence Energyization, miniaturization, light-weighted development and consumer's wearing comfort require to improve, the heat dissipation performance of these wearable devices Important indicator as overall performance.

Traditional big heat sink and fan are not suitable for minimizing wearable device.Traditional heat sink conception is unable to satisfy Minimize the radiating requirements of wearable device.

It needs to develop new heat sink conception to promote the heat dissipation performance of miniaturization wearable device, and then promotes user's body It tests.

Utility model content

In view of this, the purpose of the utility model is to provide a kind of wearable device, which be can be realized pair Its internal heat resource radiates, good heat dissipation effect and structure is simple.

To achieve the goals above, the utility model provides the following technical solutions:

A kind of wearable device, including functional component and heat source, further include semiconductor cooler, are arranged outside the heat source There is thermal insulator；

The first end of the thermally conductive pathways of the semiconductor cooler connects the main radiating surface of the heat source, the semiconductor system The second end of the thermally conductive pathways of cooler is connected for heating sink to the radiator outside wearable device；

The heat source, the semiconductor cooler with the heat-insulated setting of radiating piece for radiating for the functional component.

Preferably, the main radiating surface of the heat source fits over heat-conducting pad, and the another side of the heat-conducting pad is bonded institute State the first end of the thermally conductive pathways of semiconductor cooler；

The heat-conducting pad and the heat-insulated setting of the radiating piece.

Preferably, the second end of the semiconductor cooler thermally conductive pathways fits over metal conducting strip, and the metal is led Backing connects the radiator by heat pipe；

The metal conducting strip, the heat pipe with the heat-insulated setting of the radiating piece.

Preferably, it is equipped between the heat pipe and the radiating piece and is used for heat-insulated foam；And/or the heat pipe includes At least two ultrathin heat pipes.

Preferably, through-hole is provided on the radiating piece, the heat source is located inside the through-hole, and the thermal insulator includes Between the heat source and the through-hole, for the heat-insulated heat-insulated foam of ring-type.

Preferably, the heat source is installed on pcb board, and the other side of the pcb board is equipped with LCD screen, and the pcb board and LCD frame is equipped between the LCD screen.

Preferably, the pcb board is equipped with several functional chips, and the radiating surface of the functional chip is bonded described dissipate Warmware, the side of the radiating piece are equipped with the fan to wearable device external cooling；

The radiator is set to the side of the fan.

Preferably, the power supply of the semiconductor cooler is equipped with the control switch for adjusting its current direction, the control System is switched for being reversely powered when environment temperature is lower than preset value and needs to start the heat source to the semiconductor cooler, So that the second end is conducted heat to the first end.

Preferably, the heat source is the master chip of the wearable device.

Preferably, the wearable device includes wearing display equipment.

In wearable device provided herein, heat source is isolated from the outside by thermal insulator, passes through semiconductor refrigerating By the heat of heat source, efficiently heat dissipation transmitting, heat dissipation channel wait for that thermal component and space are not connected to other to device outward, are formed For the exclusive heat dissipation channel of heat source, avoiding is influenced by other structures, be able to ascend the radiating efficiency of heat source and realize compared with Good heat dissipation 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 the embodiments of the present invention, for those of ordinary skill in the art, without creative efforts, also Other attached drawings can be obtained according to the attached drawing of offer.

Fig. 1 is that a kind of wearable device provided by the utility model removes the schematic diagram after front housing；

Fig. 2 is a kind of perspective view of the explosion of wearable device provided by the utility model；

Fig. 3 is the perspective view of the explosion of heat radiation module provided by the utility model；

Fig. 4 is the schematic diagram that radiating piece is arranged in heat radiation module provided by the utility model；

Fig. 5 is sectional view along A-A in Fig. 4.

In Fig. 1-5:

1 is front housing, and 2 be main body case, and 3 be lens module, and 4 be LCD screen, and 5 be LCD frame, and 6 be pcb board, and 61 be heat source, 7 be radiating piece, and 8 be camera module, and 9 be heat radiation module, and 10 be cell apparatus；

901 be cyclic annular heat-insulated foam, and 902 be heat-conducting pad, and 903 be semiconductor cooler, and 903-1 is potsherd, 903-2 It is copper sheet for semiconductor material, 904,905 be heat pipe, and 906 be fan, and 907 be radiator, and 908 be heat-insulated foam.

Specific embodiment

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 core of the utility model is to provide a kind of wearable device, which can be realized to its internal heat resource It radiates, good heat dissipation effect and structure is simple.

Fig. 1 to Fig. 5 is please referred to, Fig. 1 is that a kind of wearable device provided by the utility model removes the signal after front housing Figure；Fig. 2 is a kind of perspective view of the explosion of wearable device provided by the utility model；Fig. 3 is provided by the utility model The perspective view of the explosion of heat radiation module；Fig. 4 is the schematic diagram that radiating piece is arranged in heat radiation module provided by the utility model；Fig. 5 For sectional view along A-A in Fig. 4.

A kind of wearable device provided by the present application, which has the characteristics that compact structure and thermal diffusivity is good, It can be any one equipment worn, can be to wear VR equipment, wrist wearing devices etc..The wearable device includes Functional component and heat source 61, functional component and heat source 61 are respectively provided with inside the shell, in this configuration further include semiconductor cooler 903,61 outer cover of heat source is equipped with thermal insulator, and the of the thermally conductive pathways of the main radiating surface connection semiconductor cooler 903 of heat source 61 The second end of one end, the thermally conductive pathways of semiconductor cooler 903 is connected for heating sink to the heat dissipation outside wearable device Device 907, heat source 61, semiconductor cooler 903 with the heat-insulated setting of radiating piece 7 for radiating for functional component.

It should be noted that the heat source 61 in wearable device is not limited to unique mainboard chip of wearable device, It refers to the objective chip for mainly needing to radiate, can be mainboard chip or be other chips important, that cooling requirements are high, Or the heat generating components such as battery.Functional component is heat production or the component by heat radiation when wearable device is run, and be can be Any part inside wearable device.Another angle, heat source 61 have quantity of heat production big or importance compared with functional component High feature.

Wherein, semiconductor cooler (TEC, Thermo Electric Cooler) 903 refers to utilizing semiconductor material Peltier effect made of have heat absorption and heat release function structure, when there is electric current to flow through from TEC, by electric current in TEC Upper generation hot and cold sides, realize the transmitting of heat.

Semiconductor cooler 903 forms hot end and cold end according to energization direction, and the two is defined as first in this application End and second end.When forward direction is powered, first end is cold end, and second end is hot end.

61 outer cover of heat source is equipped with thermal insulator so that heat source 61 and the heat-insulated setting of its external component, and and outside air Heat radiation and convection current can not be carried out, and the main radiating surface of heat source 61 refers to a surface on heat source with heat sinking function, half The first end of the thermally conductive pathways of conductor refrigerator 903 connects main radiating surface, the second end of the thermally conductive pathways of semiconductor cooler 903 The radiator 907 of connection, is mainly used for heating sink to outside wearable device, that is to say, that semiconductor cooler 903, heat dissipation Device 907 forms the heat dissipation channel of heat source 61, and this heat dissipation channel is not connect with other structures and its heat dissipation channel, mutually Without heat interaction between phase.

When being powered using cell apparatus 10 is positive to semiconductor cooler 903, the heat for the heat source 61 being connect with cold end It can be transferred to the hot end connecting with radiator 907, so as to which the heat of heat source 61 sheds.Due to using semiconductor refrigerating Device 903 radiates to heat source 61, and heat dissipation effect is preferable, can be realized the purpose of rapid cooling.

In wearable device provided herein, heat source 61 is isolated from the outside, it will be hot by semiconductor cooler 903 The heat in source 61 carries out efficient heat dissipation transmitting, heat dissipation channel outward and waits for that thermal component and space are not connected to other, is formed For the exclusive heat dissipation channel of heat source 61, avoiding is influenced by other structures, is able to ascend the radiating efficiency of heat source 61 and real Now preferable heat dissipation effect.

On the basis of above-described embodiment, the main radiating surface of heat source 61 fits over heat-conducting pad 902, heat-conducting pad The first end of the thermally conductive pathways of 902 another side laminated semiconductor refrigerator 903, heat-conducting pad 902 with radiating piece 7 is heat-insulated sets It sets.

It should be noted that semiconductor cooler 903 connects heat source 61 by heat-conducting pad 902, to guarantee that heat source 61 dissipates Heat-conducting pad 902 is fitted over the main radiating surface in heat source by the stabilization of the thermal efficiency, main radiating surface completely with heat-conducting pad 902 It is bonded, heat can be conducted to heat-conducting pad 902 by all sites on main radiating surface.In view of semiconductor cooler 903 The first ends of thermally conductive pathways be also planar structure, therefore the another side of heat-conducting pad 902 is bonded completely with above-mentioned first end, is used In uniformly transferring for guarantee heat.Above-mentioned heat-conducting pad 902 is also heat-insulated setting with above-mentioned radiating piece 7 simultaneously, avoids radiating piece 7 Heat-conducting pad 902 is transferred heat to, the problem of reducing by 61 radiating efficiency of heat source is caused.

Optionally, above-mentioned heat-conducting pad 902 can be made of various material or structure.

On the basis of above-described embodiment, the second end of 903 thermally conductive pathways of semiconductor cooler fits over metal and leads Backing, metal conducting strip connect radiator 907 by heat pipe 905, metal conducting strip, heat pipe 905 with radiating piece 7 is heat-insulated sets It sets.

It should be noted that the hot end of semiconductor cooler 903, that is, the second end and metal conducting strip of thermally conductive pathways Connection heat pipe 905 is passed to by metal conducting strip for realizing heat, the connection type and above-mentioned 902 explanation of heat-conducting pad Structure it is similar.For the high efficiency for promoting thermally conductive allround fastness and heat dissipation, the second end face paste and metal of thermally conductive pathways are led Backing guarantees the uniform of heat transmitting.In addition, heat pipe 905 is a kind of efficient heat-conducting piece, it can be ensured that the stable transmitting of heat. Optionally, metal conducting strip heat transfer can be obviously improved to radiator 907 by radiating efficiency using heat pipe 905, certainly, Also other efficient transfer modes can also be used.

On the basis of above-described embodiment, it is equipped between heat pipe 905 and radiating piece 7 and is used for heat-insulated foam；And/or Heat pipe 905 includes at least two ultrathin heat pipes.

It should be noted that heat pipe 905 centainly cannot be with since heat pipe 905 has efficient thermal conducting function Other wait for that thermal component, high-temperature component have heat transmitting, otherwise will seriously affect the heat dissipation of heat source 61.It, will be hot in the present embodiment Pipe 905 and the heat-insulated setting of radiating piece 7, herein heat-insulated both include not contacting, not conducting heat in structure, both further include in sky Between in arrangement, acted on without mutual heat radiation, avoid the passive transmitting of heat.

The concrete type of heat pipe 905 can be selected as ultrathin heat pipe, to realize high-strength heat transfer, and can reduce biography Thermal resistance during passing, in addition, the quantity of heat pipe 905 can for one, two or more, and set to realize wearable Standby interior route is arranged, and heat pipe 905 can have certain bending design or design the evacuation of functional component.

On the basis of any one above-mentioned embodiment, through-hole is provided on radiating piece 7, heat source 61 is located in through-hole Portion, and be provided between heat source 61 and through-hole for the heat-insulated heat-insulated foam 901 of ring-type.

It should be noted that heat source 61 is realized heat-insulated with outside by cyclic annular heat-insulated foam 901, Fig. 2 is specifically please referred to And Fig. 3, it is equipped with cyclic annular heat-insulated foam 901 in the outside of heat source 61, so that the periphery of heat source 61 is thermally shielded, and heat source 61 Main radiating surface be bonded with heat-conducting pad 902, the face opposite with main radiating surface is the mounting surface of heat source 61 on heat source 61, specifically , heat source 61 is arranged by mounting surface in fixed position, and cyclic annular heat-insulated foam 901 can be avoided to absorb heat from outside, cyclic annular heat-insulated Foam 901 can be stuck on the through-hole of radiating piece 7.Usual situation lower through-hole can be slightly larger than heat source 61, so that being cased with ring-type The heat source 61 of heat-insulated foam 901 can be stuck on the through-hole of radiating piece 7.

On the basis of any one above-mentioned embodiment, heat source 61 is installed on pcb board 6, and the other side of PCB plate 6 is set There is LCD screen 4, and is equipped with LCD frame 5 between pcb board 6 and LCD screen 4.

It should be noted that above-mentioned pcb board 6 is connect with heat source 61, if pcb board is influenced to make by outside heat Therefore LCD frame 5 is arranged in the other side of pcb board 6, LCD frame 5 can be by the warm of LCD screen 4 in the influence that pairs of heat source 61 radiates Amount is isolated, and avoids influencing pcb board 6.

On the basis of any one above-mentioned embodiment, pcb board 6 is equipped with several functional chips, functional chip Radiating surface is bonded radiating piece 7, and the side of radiating piece 7 is equipped with the fan 906 to wearable device external cooling.

It should be noted that under normal conditions, heat source 61 is arranged on pcb board 6, also have on pcb board 6 other chips or Functional component, wherein functional chip is bonded radiating piece 7, transfers heat to radiating piece 7 and radiates.

Radiating piece 7 provided in the application can be heat sink, preferably metallic heat radiating plate, due to heat dissipation plate suqare compared with Greatly, after part-structure is bonded above-mentioned functional component, other parts can carry out the heat dissipation of uniform high-efficiency.Certainly, above-mentioned heat dissipation Part 7 or bar shaped or other structures.

It should be noted that being additionally provided with the components such as camera module 8 in above structure, which connect with radiating piece 7, So that the heat transfer of generation is transmitted to radiating piece 7.

After the heat of the lesser chip of other power consumptions is uniformly spread by radiating piece 7 on pcb board 6, a part heat Amount can be exchanged by the ventilation hole on fan 906 or shell to the external world, and another part is dissipated in surrounding air.

Heat source 61 is wrapped up using cyclic annular heat-insulated foam 901 in the application, and passes through heat-conducting pad 902, semiconductor system Cooler 903, heat pipe 905, radiator 907 thermally conductive pathways radiate.Heat dissipation road of this paths independently of other component Diameter not will do it therebetween heat exchange.Other component can connect radiating piece 7 (being specifically as follows heat sink etc.), optional , above-mentioned radiator 907 is set to the side of fan 906.Optionally, fan 906 is positioned close to the position of front housing 1, while before Heat release hole is set on shell 1, and hull outside can be discharged by fan 906 in heat by radiating piece 7 and radiator 907.It is wearable The shell of equipment includes main body cover 2 and front housing 1, and each functional component and heat source 61 of wearable device etc. are arranged at main body In the cavity that shell 2 and front housing 1 are formed.

Semiconductor cooler 903 provided by the present application includes semiconductor material 903-2, metallic conductor, potsherd 903-1, Wherein semiconductor material 903-2 includes P-type semiconductor and N-type semiconductor, is referred to as semiconductor.P-type semiconductor and N-type semiconductor It is arranged alternately side by side, and there is gap between two adjacent semiconductors, the head end and tail end of the same semiconductor pass through respectively Different metallic conductor connections is located at the semiconductor of its two sides, and two adjacent semiconductors only have one end and pass through the same metal Piece connection, so that several semiconductors form serpentine configuration by several sheet metals, since all semiconductors are substantially at It is arranged in parallel, therefore the both ends of several metallic conductors difference semiconductor, all metallic conductors positioned at the same end pass through same A potsherd 903-1 connection, two potsherd 903-1 are respectively hot end and cold end.

On the basis of any one above-mentioned embodiment, the power supply of semiconductor cooler 903 can be cell apparatus 10, The anode and cathode of cell apparatus 10 are separately connected two metallic conductors, and electric current is circulated with serpentine fashion, successively pass through first Metallic conductor, first P-type semiconductor, second metallic conductor, first N-type semiconductor, third metallic conductor, second P-type semiconductor, the 4th metallic conductor, and so on, this is worked as metallic conductor in the process and receives the electricity from P-type semiconductor When flowing, and being conducted to N type semiconductor, this metallic conductor is presented to external heat release state, that is, hot end, corresponding to work as Metallic conductor receives the electric current from N-type semiconductor, and when being conducted to P-type semiconductor, this metallic conductor is presented to external suction Warm status, that is, cold end.Such as above-mentioned second metallic conductor is heat release state, as hot end, the 4th metallic conductor is Heat absorption state, as cold end.The above-mentioned principle of device is based on paltie effect, and the semiconductor of two kinds of opposed polarities connects into logical After road, junction can have thermoelectric potential difference, and the liter of potential difference is had when impressed current driving carrier passes through point of interface Drop, and then cause to absorb or discharge heat.

In this application, heat-insulated foam 901 is filled for heat source 61 and external high temperature air insulated shape using ring at heat source 61 At closed low-temperature region.After semiconductor cooler 903 works, cold end is being formed close to 61 side of heat source, close to heat pipe 905 sides form hot end；The heat that heat source 61 generates under action of thermal difference is driven by conduction to potsherd 903-1 in TEC Under, cold end heat transfer is to hot end.

Optionally, above-mentioned metal conducting strip can be copper sheet 904, and above-mentioned metal conducting strip can be by being welded to connect heat pipe 905。

Optionally, above-mentioned metal conducting strip, can be with foam, for separating the heat exchange of itself and radiating piece 7 on heat pipe 905.

Heat source 61 in the application specifically can be master chip in wearable device, either can it is larger for power consumption or The biggish component of radiating requirements.Wherein master chip refers to the more important chip of mainboard chip or a certain structure.

Wearable device in the application be specifically as follows wear display equipment, bracelet, arm hang it is one of standby.Wherein Wearing display equipment includes VR equipment, AR equipment, MR equipment etc..

On the basis of above-mentioned each embodiment, cell apparatus 10 is equipped with and opens for adjusting the control of its current direction It closes, control switch is used for reversely logical to semiconductor cooler 903 when environment temperature is lower than preset value and needs to start heat source 61 Electricity, so that second end is conducted heat to first end.

It should be noted that above structure is at low ambient temperatures, can be directly powered from battery by external switch, And it is passed through the electric current of opposite direction when freezing with above-mentioned heat dissipation, so that hot end and cold end are exchanged, 61 temperature of release heat lift heat source Degree can cut off the power after success starts at low temperature.If 61 temperature of heat source is excessively high in use, forward direction can be connected Electric current is to realize heat dissipation.

When above-mentioned wearable device be specially wear display equipment when, wear display equipment outdoors low temperature environment or other When needing to start under low temperature environment, after getting enabling signal, first environment temperature can be incuded, it is low when getting temperature When preset value, above-mentioned control switch is reversely powered using power supply to semiconductor cooler 903, realizes above-mentioned second end to the One end heat transfer discharges the temperature of heat lift heat source 61 so that hot end and cold end are exchanged.And it is increased to when getting environment temperature More than preset value or after helmet start completion, the control switch to semiconductor cooler 903 can be closed, to stop supplying Electricity.

The heat source 61 of the structure of wearable device provided by the present application can be deposited for photographic device, synchronous dynamic random-access The equipment that the needs such as reservoir DDR, WiFi individually radiate.The application is that above equipment is provided with the path independently radiated, make its with The heat dissipation of other structures is not interfere with each other, and guarantees whole heat dissipation capacity, can be obviously improved radiating efficiency, even if working long hours feelings Under condition, the high efficiency and heat radiation of precise part can also ensure that.

In addition to the primary structure of wearable device provided by above-mentioned each embodiment, other each sections of wearable device Structure refer to the prior art, repeats no more herein.

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.

Wearable device provided by the utility model is described in detail above.Specific case used herein The principles of the present invention and embodiment are expounded, the above embodiments are only used to help understand, and this is practical Novel method and its core concept.It should be pointed out that for those skilled in the art, not departing from this reality Under the premise of with new principle, several improvements and modifications can be made to this utility model, these improvement and modification are also fallen into In the protection scope of the utility model claims.

Claims (10)

1. a kind of wearable device, including functional component and heat source (61), which is characterized in that further include semiconductor cooler (903), heat source (61) outer cover is equipped with thermal insulator；

The main radiating surface of the first end connection heat source (61) of the thermally conductive pathways of the semiconductor cooler (903), described half The second end of the thermally conductive pathways of conductor refrigerator (903) is connected for heating sink to the radiator outside the wearable device (907)；

The heat source (61), the semiconductor cooler (903) with the radiating piece (7) for radiating for the functional component every Heat setting.

2. wearable device according to claim 1, which is characterized in that the main radiating surface of the heat source (61) fits over Heat-conducting pad (902), the another side of the heat-conducting pad (902) are bonded the thermally conductive pathways of the semiconductor cooler (903) First end；

The heat-conducting pad (902) and the radiating piece (7) heat-insulated setting.

3. wearable device according to claim 2, which is characterized in that semiconductor cooler (903) thermally conductive pathways Second end fit over metal conducting strip, the metal conducting strip connects the radiator (907) by heat pipe (905)；

The metal conducting strip, the heat pipe (905) with the radiating piece (7) heat-insulated setting.

4. wearable device according to claim 3, which is characterized in that the heat pipe (905) and the radiating piece (7) it Between be equipped be used for heat-insulated foam；And/or the heat pipe (905) includes at least two ultrathin heat pipes.

5. wearable device according to any one of claims 1 to 4, which is characterized in that be provided on the radiating piece (7) Through-hole, the heat source (61) are located inside the through-hole, the thermal insulator include be set to the heat source (61) and the through-hole it Between, for the heat-insulated heat-insulated foam (901) of ring-type.

6. wearable device according to claim 5, which is characterized in that the heat source (61) is installed on pcb board (6), The other side of the pcb board (6) is equipped with LCD screen (4), and LCD frame is equipped between the pcb board (6) and the LCD screen (4) (5)。

7. wearable device according to claim 6, which is characterized in that the pcb board (6) is equipped with several function cores Piece, the radiating surface of the functional chip are bonded the radiating piece (7), and the side of the radiating piece (7) is equipped with to be set to wearable The fan (906) of standby external cooling；

The radiator (907) is set to the side of the fan (906).

8. wearable device according to claim 5, which is characterized in that the power supply of the semiconductor cooler (903) is set There is the control switch for adjusting its current direction, the control switch is used to be lower than preset value in environment temperature and needs to start It is reversely powered when heat source (61) to the semiconductor cooler (903), so that the second end is conducted heat to the first end.

9. wearable device according to claim 5, which is characterized in that the heat source (61) is the wearable device Master chip.

10. wearable device according to claim 1-4, which is characterized in that the wearable device includes head Wear display equipment.