CN218439830U - Temperature regulator for hanging neck - Google Patents

Abstract

The utility model provides a hang neck attemperator for wear in the neck, include: the air-cooling device comprises a support, a cooling device and a fan, wherein an air inlet, an air outlet and a heat dissipation opening are formed in the support, an accommodating cavity, an air channel and a heat dissipation channel are arranged in the support, the accommodating cavity is arranged corresponding to the air inlet, the air channel is communicated with the accommodating cavity and the air outlet, the air channel is communicated with the accommodating cavity and the heat dissipation channel, and the heat dissipation channel is communicated with the heat dissipation opening; the fan assembly is correspondingly arranged in the accommodating cavity and used for blowing the wind of the air inlet to the air channel; the temperature adjusting piece is embedded in the support and exposed outwards, and is used for being attached to the neck; the heat dissipation piece is in heat conduction with the temperature adjusting piece, is accommodated in the bracket and forms the heat dissipation channel with the bracket; the air of the fan assembly blows towards the air duct, part of the air blows out of the air outlet, and part of the air blows out of the heat dissipation port through the heat dissipation channel.

Description

Temperature regulator for hanging neck

Technical Field

The utility model relates to a attemperator technical field, concretely relates to effectual string neck attemperator cools down.

Background

In hot summer, people often have profuse sweating when walking or doing sports outdoors, and particularly the sweating of the face and the neck is obvious. The appearance of hanging the neck fan not only can blow the heat dissipation to face and neck, has liberated both hands moreover, need not handheld just can realize the effect of blowing anytime and anywhere.

However, the existing neck hanging equipment is only provided with the fan assembly, and the fan assembly only plays a role in blowing and radiating, so that the cooling effect is not obvious; or only set up the semiconductor refrigeration piece, give the human heat conduction contact through the semiconductor refrigeration piece to realize the refrigeration cooling, but lacked the air-out heat dissipation to the face. Although a neck hanging device with a fan assembly and a semiconductor refrigerating piece arranged at the same time appears, the fan assembly and the semiconductor refrigerating piece are separated in the neck hanging device, and the functions of the fan assembly and the semiconductor refrigerating piece are not well integrated and coordinated.

Disclosure of Invention

In view of this, the utility model provides a hang neck attemperator is equipped with the piece that adjusts the temperature and pastes and lean on in the neck, the radiating piece is heat-conducting with the piece that adjusts the temperature, fan assembly's wind blows to the wind channel, partial wind blows off from the air outlet, partial wind blows off from the thermovent via heat dissipation channel for the user enjoys the temperature regulation of blowing and the piece that adjusts the temperature of air outlet simultaneously, and the heat that piece self produced of adjusting the temperature is blown away from the thermovent via the radiating piece by partial wind, fan assembly and the piece that adjusts the temperature, the radiating piece fuses in hanging neck attemperator and coordinates.

The utility model provides a hang neck attemperator for wear in the neck, include: the air-cooling device comprises a support, a cooling device and a fan, wherein an air inlet, an air outlet and a heat dissipation opening are formed in the support, an accommodating cavity, an air channel and a heat dissipation channel are arranged in the support, the accommodating cavity is arranged corresponding to the air inlet, the air channel is communicated with the accommodating cavity and the air outlet, the air channel is communicated with the accommodating cavity and the heat dissipation channel, and the heat dissipation channel is communicated with the heat dissipation opening; the fan assembly is correspondingly arranged in the accommodating cavity and used for blowing the wind of the wind inlet to the wind channel; the temperature adjusting piece is embedded in the bracket and exposed outwards, and is used for being attached to the neck; the heat dissipation piece is in heat conduction with the temperature adjusting piece, is accommodated in the bracket and forms the heat dissipation channel with the bracket; the air of the fan assembly blows towards the air duct, part of the air blows out of the air outlet, and part of the air blows out of the heat dissipation port through the heat dissipation channel.

Further, the support symmetry is equipped with two arm lock, two the arm lock is formed with the symmetry the air intake the air outlet with the thermovent, two be equipped with the symmetry in the arm lock hold the chamber the wind channel with heat dissipation channel, two fan assembly corresponds locates two hold the chamber, two the correspondence of piece that adjusts the temperature is inlayed and is located two the arm lock just outwards shows, two the heat dissipation piece correspondence is located two in the heat dissipation channel.

Furthermore, the two clamping arms are connected, and the two clamping arms can pivot relatively within a certain angle range; or the clamping arm clamp comprises an intermediate connecting part, wherein the intermediate connecting part is connected with two clamping arms and is made of soft materials.

Furthermore, the two accommodating cavities are respectively arranged at the free ends of the two clamping arms, and the fan assembly comprises a centrifugal fan.

Further, the support includes inside wall, lateral wall, first connecting wall and second connecting wall, the inside wall is towards the neck, the lateral wall neck dorsad, first connecting wall with the relative interval setting of second connecting wall just connect in the inside wall with between the lateral wall, the air intake is located the inside wall with the lateral wall, the air outlet is located first connecting wall, the thermovent is located the lateral wall, the piece that adjusts the temperature inlays and locates the inside wall.

Furthermore, the air outlet is arranged at a position, close to the outer side wall, of the first connecting wall, and is arranged at a position, close to the accommodating cavity, of the air duct, a backing plate is arranged in the support, the backing plate is attached to the inner side wall and extends from the accommodating cavity to the air duct, and a step portion is arranged on the backing plate, close to the air outlet, so that air of the fan assembly is lifted to the air outlet to be blown out; and an air deflector is arranged between two adjacent air outlets on the inner side of the first connecting wall and is embedded with the step part.

Further, the radiating piece is including pasting the heating panel that leans on the inside wall, the one end of heating panel with the backing plate borders on, the other end of heating panel with the outside wall butt, the thermovent is close to the heating panel butt the one end of outside wall.

Further, the radiating piece still includes certainly the heating panel court the water conservancy diversion strip that the lateral wall protrusion extends, water conservancy diversion strip protrusion butt the lateral wall, the water conservancy diversion strip will radiating passage divide into many subchannels, and the part wind in the wind channel is via many behind the subchannel, certainly the thermovent blows out.

The air duct is connected with the inner side wall and the outer side wall through the partition board, the accommodating cavity and the air duct are formed between the partition board and the first connecting wall, the electric control bin is formed between the partition board and the second connecting wall and used for accommodating a battery, a main board, a lead and a switch, and the switch comprises a stepless adjusting switch; the partition board is connected with the flow guide strips close to the second connecting wall so as to guide the air in the air duct to flow to the heat dissipation channel; the baffle is equipped with the breach, the breach intercommunication hold the chamber with automatically controlled storehouse, the breach is used for supplying the wire passes.

Furthermore, the temperature adjusting part comprises a temperature making part and a temperature conducting part, the temperature conducting part comprises a supporting frame and a temperature conducting sheet, the supporting frame is embedded in the inner side wall, a gap is formed between the part of the supporting frame and the inner side wall, and the temperature conducting sheet is arranged on one side of the supporting frame facing the neck; the support frame is provided with an installation part, the temperature-making part is accommodated in the installation part, the temperature-making part is inwards connected with the temperature-conducting sheet in a heat conduction way, and the temperature-making part is outwards connected with the heat radiating part in a heat conduction way; the support frame and the heat conducting sheet extend in parallel with the heat dissipation channel and the air duct so as to enlarge the contact range of the heat conducting sheet and the neck.

Compared with the prior art, the utility model discloses hang neck attemperator has following beneficial effect: through set up fan unit and temperature regulation piece simultaneously on hanging neck attemperator, can enjoy fan unit's the temperature regulation of blowing and temperature regulation piece simultaneously when making the user hang the neck and use, and radiating piece and temperature regulation piece heat-conduction are connected, in the radiating piece was located the heat dissipation channel, and the wind channel is linked together with the heat dissipation channel, therefore fan unit's wind not only can blow to the human body from the air outlet, still can blow out the heat of taking away the production of radiating piece from the thermovent via the heat dissipation channel, make fan unit and temperature regulation piece, fuse between the radiating piece and coordinate.

Drawings

Fig. 1 is a perspective view of a first embodiment of the neck hanging temperature adjusting device of the present invention;

fig. 2 is a partial exploded view of the first embodiment of the neck hanging temperature adjusting device of the present invention;

fig. 3 is a partial exploded view of the first embodiment of the neck hanging temperature adjusting device of the present invention at another angle;

fig. 4 is a sectional view of the first embodiment of the neck warmer of the present invention;

fig. 5 is another sectional view of the first embodiment of the neck hanging temperature adjusting device of the present invention;

FIG. 6 is a perspective view of a second embodiment of the neck warmer of the present invention;

fig. 7 is a partial exploded view of an angle of a second embodiment of the neck warmer of the present invention;

fig. 8 is a partial exploded view of the second embodiment of the neck warmer of the present invention from another angle;

fig. 9 is a sectional view of a second embodiment of the neck warmer of the present invention;

fig. 10 is another sectional view of the second embodiment of the neck warmer of the present invention.

Detailed Description

For better understanding of the objects, structures, features, and functions of the present invention, the present invention will be further described with reference to the accompanying drawings and the detailed description of the preferred embodiments.

As shown in fig. 1 to 5, the schematic diagram of the first embodiment of the neck hanging temperature adjusting device 100 of the present invention is shown, the neck hanging temperature adjusting device 100 is used for being worn on the neck, the neck hanging temperature adjusting device 100 includes a support 1, a fan assembly 2 and a heat sink 4 in the support 1, and a temperature adjusting element 3 which is embedded in the support 1 and is exposed outwards. The air conditioner is characterized in that an air inlet 13, an air outlet 14 and a heat dissipation port 15 are formed in the support 1, a containing cavity 16, an air duct 17 and a heat dissipation channel 18 are arranged in the support 1, the containing cavity 16 corresponds to the air inlet 13, the air duct 17 is communicated with the containing cavity 16 and the air outlet 14, the air duct 17 is communicated with the containing cavity 16 and the heat dissipation channel 18, and the heat dissipation channel 18 is communicated with the heat dissipation port 15. The fan assembly 2 is correspondingly disposed in the accommodating cavity 16, and is configured to blow the air from the air inlet 13 to the air duct 17. The temperature adjusting piece 3 is used for being attached to the neck to adjust the temperature of the neck of a human body, and the temperature of the neck can be quickly adjusted. The heat dissipation member 4 is thermally conductive to the temperature adjustment member 3, and the heat dissipation member 4 is accommodated in the bracket 1 and forms the heat dissipation channel 18 with the bracket 1.

As shown in fig. 1 to 3, the wind of the fan assembly 2 is blown toward the wind path 17, part of the wind is blown out from the wind outlet 14, and part of the wind is blown out from the heat dissipating opening 15 through the heat dissipating channel 18. By arranging the fan assembly 2 and the temperature adjusting part 3 on the neck hanging temperature adjusting device 100, a user can enjoy blowing of the fan assembly 2 and temperature adjustment of the temperature adjusting part 3 when hanging a neck for use, the heat radiating part 4 is in heat conduction connection with the temperature adjusting part 3, the heat radiating part 4 is arranged in the heat radiating channel 18, and the air duct 17 is communicated with the heat radiating channel 18, so that wind of the fan assembly 2 can be blown to a human body from the air outlet 14, and heat generated by the heat radiating part 4 can be taken away from the heat radiating port 15 through the heat radiating channel 18, so that the fan assembly 2, the temperature adjusting part 3 and the heat radiating part 4 are fused and coordinated.

As shown in fig. 1 to fig. 3, in this embodiment, the bracket 1 is symmetrically provided with two clamping arms 11, two clamping arms 11 are formed with symmetry between the air inlet 13, the air outlet 14 and the heat dissipation port 15, two clamping arms 11 are provided with symmetry inside the accommodating cavity 16, the air duct 17 and the heat dissipation channel 18, two fan assemblies 2 are correspondingly provided in two accommodating cavities 16, two temperature adjustment members 3 are correspondingly embedded in two clamping arms 11 and exposed outwards, and two heat dissipation members 4 are correspondingly provided in two heat dissipation channels 18. The two clamping arms 11 are connected, and the two clamping arms 11 can pivot relatively within a certain angle range, so that the size of an opening between the two clamping arms 11 is adjusted, and a user can wear the device conveniently.

As shown in fig. 1 to 3, the bracket 1 includes an inner sidewall 1a, an outer sidewall 1b, a first connecting wall 1c and a second connecting wall 1d, the inner sidewall 1a faces the neck, the outer sidewall 1b faces away from the neck, and the first connecting wall 1c and the second connecting wall 1d are oppositely spaced and connected between the inner sidewall 1a and the outer sidewall 1b. In this embodiment, the fan assembly 2 includes a centrifugal fan 21, and two air inlets 13 are disposed corresponding to each fan assembly 2, and the two air inlets 13 are disposed on the inner sidewall 1a and the outer sidewall 1b, respectively. The air outlet 14 is formed in the first connecting wall 1c, and when the mask is worn, the air outlet 14 blows air upwards to blow towards the face and the neck of a human body. In other embodiments, the air outlet 14 may also be disposed on the first connecting wall 1c and the second connecting wall 1d at the same time, so that the air is blown out from the top and the bottom simultaneously when the user wears the clothes dryer, and the blowing effect is better. The heat dissipation port 15 is provided in the outer side wall 1b, and heat blown from the heat dissipation port 15 is not blown to a human body. The temperature adjusting piece 3 is embedded in the inner side wall 1a to better lean against the neck of a human body, so that the temperature of the neck of the human body can be adjusted better.

As shown in fig. 2, fig. 3 and fig. 5, the two accommodating cavities 16 are respectively disposed at the free ends of the two clamping arms 11, and the accommodating cavity 16, the air duct 17 and the heat dissipation channel 18 are sequentially disposed from the free end of the clamping arm 11 to the middle connection end. Correspondingly, the air inlet 13 is also arranged at the free end of the clamping arm 11. Of course, in other embodiments, the two accommodating cavities 16 may be respectively disposed at the middle connecting end of the clamping arm 11, and the accommodating cavity 16, the air duct 17 and the heat dissipating channel 18 are sequentially disposed from the middle connecting end to the free end of the clamping arm 11. It can also be two hold the chamber 16 and locate respectively between the free end of arm lock 11 and the intermediate junction end, certainly hold the chamber 16 to the free end of arm lock 11 is equipped with wind channel 17, certainly hold the chamber 16 to the intermediate junction end of arm lock 11 is equipped with heat dissipation channel 18, or certainly hold the chamber 16 to the free end of arm lock 11 is equipped with heat dissipation channel 18, certainly hold the chamber 16 to the intermediate junction end of arm lock 11 is equipped with wind channel 17.

As shown in fig. 1, fig. 2, fig. 3 and fig. 5, the air outlet 14 is disposed at a position where the first connecting wall 1c is close to the outer side wall 1b, and is disposed at a position where the air duct 17 is close to the accommodating cavity 16, a backing plate 19 is disposed in the support 1, the backing plate 19 is attached to the inner side wall 1a, and extends from the accommodating cavity 16 to the air duct 17, the backing plate 19 is provided with a stepped portion 191 close to the air outlet 14, so as to raise the air of the fan assembly 2 to the air outlet 14 for blowing out, and discharge the air generated by the fan assembly 2 from the air outlet 14 after pressurization treatment, so that the wind power is stronger, and the effects of blowing, heat dissipation and temperature reduction are better. An air deflector 141 is disposed between two adjacent air outlets 14 inside the first connecting wall 1c, and the air deflector 141 guides the air generated by the fan assembly 2 to be uniformly blown out from the air outlets 14. And the air guide plate 141 is fitted to the stepped portion 191, the pad plate 19 can be fixed in the air duct 17 by the air guide plate 141.

As shown in fig. 2 to 5, the heat sink 4 includes a heat dissipation plate 41 attached to the inner sidewall 1a, one end of the heat dissipation plate 41 is adjacent to the backing plate 19, the other end of the heat dissipation plate 41 is adjacent to the outer sidewall 1b, and the heat dissipation opening 15 is adjacent to one end of the heat dissipation plate 41 which is adjacent to the outer sidewall 1b. The heat dissipation member 4 further includes a diversion strip 42 extending from the heat dissipation plate 41 toward the protrusion of the outer side wall 1b, the diversion strip 42 protrudes and abuts against the outer side wall 1b, the diversion strip 42 divides the heat dissipation channel 18 into a plurality of sub-channels, and partial air in the air duct 17 is blown out from the heat dissipation port 15 after passing through the plurality of sub-channels, so that heat conducted by the heat dissipation plate 41 is blown out from the heat dissipation port 15.

As shown in fig. 1 to fig. 3, the rack further includes a partition plate 5 disposed in the rack 1, the partition plate 5 connects the inner side wall 1a and the outer side wall 1b, the accommodating cavity 16 and the air duct 17 are formed between the partition plate 5 and the first connecting wall 1c, an electronic control cabin 20 is formed between the partition plate 5 and the second connecting wall 1d, and the electronic control cabin 20 is configured to accommodate a battery 61, a main board 62, a lead 63, and a switch. In the embodiment, the switches include a fan switch 64 and a temperature adjusting member switch 65, the fan switch 64 is used for controlling the opening, closing and wind speed adjustment of the fan assembly 2, and the temperature adjusting member switch 65 is used for controlling the opening, closing and wind speed adjustment of the temperature adjusting member 3. Wherein, the temperature adjusting piece switch 65 is a stepless adjusting switch to smoothly adjust the temperature of the temperature adjusting piece 3. The fan switch 64 and the thermostat switch 65 are exposed to the outside of the outer side wall 1b for user operation. In other embodiments, the electrical control cabin 20 is further provided with an interface (not shown) for connecting an external power source to charge the battery 61. The partition board 5 is connected to the air guide strips 42 near the second connecting wall 1d to guide the air in the air duct 17 to flow to the heat dissipation channel 18, and reduce the loss of the air flowing to the electronic control cabin 20. The partition board 5 is provided with a notch 51, the notch 51 is communicated with the accommodating cavity 16 and the electronic control cabin 20, and the notch 51 is used for the lead 63 to pass through.

As shown in fig. 1 to 4, the temperature adjusting member 3 includes a temperature making member 31 and a temperature guiding portion 32. Lead warm portion 32 and include support frame 321 and lead warm piece 322, support frame 321 inlays and locates inside wall 1a, just support frame 321 the part with the interval has between the inside wall 1a, it locates to lead warm piece 322 one side that support frame 321 faces the neck. The support frame 321 is provided with an installation part 3211, the temperature making part 31 is accommodated in the installation part 3211, the temperature making part 31 is connected with the temperature guide sheet 322 in a heat conduction mode inwards, the temperature making part 31 is connected with the heat dissipation member 4 in a heat conduction mode outwards so as to adjust the temperature of the temperature guide sheet 322, meanwhile, the generated heat is transmitted to the heat dissipation member 4, and the heat is blown out from the heat dissipation port 15 through the heat dissipation member 4. The supporting frame 321 and the heat conducting sheet 322 both extend parallel to the heat dissipating channel 18 and the air duct 17 to increase the contact range of the heat conducting sheet 322 with the neck, so as to adjust the temperature of the neck with a larger area; and the fit between the large heat conducting piece 322 and the neck is more comfortable, and the user experience is better. In other embodiments, the inner side and the outer side of the temperature-making member 31 are further provided with temperature-conducting silica gel, so that the temperature-making member 31 can be fixed while heat is conducted.

As shown in fig. 6 to 10, the schematic diagram of the second embodiment of the neck hanging temperature adjusting device 100 of the present invention is mainly different from the first embodiment in that: still include intermediate junction portion 12, intermediate junction portion 12 connects two arm lock 11, intermediate junction portion 12 is made for soft material. The size of the opening between the two clamping arms 11 can also be adjusted by providing the intermediate connecting part 12 which can be deformed and bent. Other structures and performances of the second embodiment are substantially the same as those of the first embodiment, and are not described herein again.

The above detailed description is only for the purpose of illustrating the preferred embodiments of the present invention, and not for the purpose of limiting the scope of the present invention, therefore, all the equivalent technical changes using the description and drawings of the present invention are included in the scope of the present invention.

Claims (10)

1. The utility model provides a hang neck attemperator for wear in the neck, its characterized in that includes:

the air-cooling device comprises a support, a cooling device and a fan, wherein an air inlet, an air outlet and a heat dissipation opening are formed in the support, an accommodating cavity, an air channel and a heat dissipation channel are arranged in the support, the accommodating cavity is arranged corresponding to the air inlet, the air channel is communicated with the accommodating cavity and the air outlet, the air channel is communicated with the accommodating cavity and the heat dissipation channel, and the heat dissipation channel is communicated with the heat dissipation opening;

the fan assembly is correspondingly arranged in the accommodating cavity and used for blowing the wind of the wind inlet to the wind channel;

the temperature adjusting piece is embedded in the support and exposed outwards, and is used for being attached to the neck;

the heat dissipation piece is in heat conduction with the temperature adjusting piece, is accommodated in the bracket and forms the heat dissipation channel with the bracket;

the air of the fan assembly blows towards the air duct, part of the air blows out of the air outlet, and part of the air blows out of the heat dissipation port through the heat dissipation channel.

2. The device for adjusting the temperature of a hanging neck as claimed in claim 1, wherein: the support symmetry is equipped with two arm lock, two the arm lock is formed with the symmetry the air intake the air outlet with the thermovent, two be equipped with the symmetry in the arm lock hold the chamber the wind channel with heat dissipation channel, two fan assembly corresponds locates two hold the chamber, two the correspondence of temperature regulation piece is inlayed and is located two the arm lock just outwards shows, two the heat-dissipating piece corresponds locates two in the heat dissipation channel.

3. The device for adjusting the temperature of a hanging neck as claimed in claim 2, wherein: the two clamping arms are connected and can pivot relatively within a certain angle range; or the clamping arm clamp comprises an intermediate connecting part, wherein the intermediate connecting part is connected with two clamping arms and is made of soft materials.

4. The device for adjusting the temperature of a hanging neck as claimed in claim 2, wherein: the two accommodating cavities are respectively arranged at the free ends of the two clamping arms, and the fan assembly comprises a centrifugal fan.

5. The device for adjusting the temperature of a hanging neck as claimed in claim 1, wherein: the support includes inside wall, lateral wall, first connecting wall and second connecting wall, the inside wall is towards the neck, the lateral wall neck dorsad, first connecting wall with the relative interval setting of second connecting wall and connect in the inside wall with between the lateral wall, the air intake is located the inside wall with the lateral wall, the air outlet is located first connecting wall, the thermovent is located the lateral wall, the piece that adjusts the temperature inlays to be located the inside wall.

6. The device for adjusting the temperature of a hanging neck as claimed in claim 5, wherein: the air outlet is arranged at a position, close to the outer side wall, of the first connecting wall, the air duct is arranged at a position, close to the accommodating cavity, of the air duct, a backing plate is arranged in the support, the backing plate is attached to the inner side wall and extends to the air duct from the accommodating cavity, and a step portion is arranged on the backing plate, close to the air outlet, so that air of the fan assembly is lifted to blow out of the air outlet; and an air deflector is arranged between two adjacent air outlets on the inner side of the first connecting wall and is embedded with the step part.

7. The device for adjusting the temperature of a hanging neck as claimed in claim 6, wherein: the heat dissipation piece is including pasting the heating panel of inside wall, the one end of heating panel with the backing plate adjoins, the other end of heating panel with the lateral wall butt, the thermovent is close to the heating panel butt the one end of lateral wall.

8. The device for adjusting the temperature of a hanging neck as claimed in claim 7, wherein: the heat-dissipating piece still includes certainly the heating panel court the water conservancy diversion strip that the lateral wall protrusion extends, water conservancy diversion strip protrusion butt the lateral wall, the water conservancy diversion strip will heat dissipation channel divide into many subchannels, and the part wind in the wind channel is via many behind the subchannel, certainly the thermovent blows out.

9. The device for adjusting the temperature of a hanging neck as claimed in claim 8, wherein: the partition board is arranged in the bracket and connected with the inner side wall and the outer side wall, the accommodating cavity and the air channel are formed between the partition board and the first connecting wall, the electric control bin is formed between the partition board and the second connecting wall and used for accommodating a battery, a mainboard, a lead and a switch, and the switch comprises a stepless adjusting switch; the partition board is connected with the flow guide strips close to the second connecting wall so as to guide the air in the air duct to flow to the heat dissipation channel; the baffle is equipped with the breach, the breach intercommunication hold the chamber with automatically controlled storehouse, the breach is used for supplying the wire passes.

10. The device for adjusting the temperature of a hanging neck as claimed in claim 5, wherein: the temperature adjusting part comprises a temperature making part and a temperature conducting part, the temperature conducting part comprises a supporting frame and a temperature conducting sheet, the supporting frame is embedded in the inner side wall, a gap is formed between the part of the supporting frame and the inner side wall, and the temperature conducting sheet is arranged on one side of the supporting frame facing the neck; the support frame is provided with an installation part, the temperature-making part is accommodated in the installation part, the temperature-making part is inwards connected with the temperature-conducting sheet in a heat conduction way, and the temperature-making part is outwards connected with the heat radiating part in a heat conduction way; the support frame and the heat conducting sheet extend in parallel with the heat dissipation channel and the air duct so as to enlarge the contact range of the heat conducting sheet and the neck.

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