CN217401218U - Neck-hanging temperature adjusting device - Google Patents

Abstract

The application provides a hang neck attemperator can blow casing and first guide duct and second guide duct including leading warm subassembly, the subassembly of blowing, first casing and the second of blowing. The first blowing shell is connected with one side of the heat conduction assembly, and the second blowing shell is connected with the other side of the heat conduction assembly. One end of the first air guide pipe is connected with the first air blowing shell, the other end of the first air guide pipe is connected with one side of the air blowing assembly, one end of the second air guide pipe is connected with the second air blowing shell, and the other end of the second air guide pipe is connected with the other side of the air blowing assembly. The first blow housing and/or the second blow housing includes a first blow hole. The temperature adjusting component is used for adjusting and controlling the temperature of the back neck, the blowing component is used for adjusting and controlling the temperature of the face, the first air guide pipe and the second air guide pipe guide part of air generated by the blowing component to the first blowing shell and the second blowing shell and blow out from the first blowing hole, the temperature of other parts of the neck-hanging temperature adjusting device, which are surrounded on the neck, is adjusted and controlled, and the temperature adjusting coverage rate of the device is high.

Description

Temperature regulator for hanging neck

Technical Field

The application relates to the field of household appliances, in particular to a neck hanging temperature adjusting device.

Background

In hot summer, electric fans, air conditioners and the like are cooling equipment which are most commonly used by people, but the cooling equipment can only be used indoors and cannot be taken out, when people go out or have a rest in the open air, the people can only cool themselves by using fans or natural wind, but the people do not have the natural wind many times and are tired by using the fans.

In view of the above situation, various neck hanging temperature adjusting devices are available in the market, and some neck hanging temperature adjusting devices are provided with a temperature guiding component and a blowing component, but the temperature adjusting and controlling areas of the neck hanging temperature adjusting devices are limited, the functions of the temperature guiding component and the blowing component are independent and single, the temperature adjusting operation can be performed only on the back neck and the face, and the temperature of other parts on the neck cannot be adjusted and controlled, so that the temperature adjusting coverage rate of the neck hanging temperature adjusting devices is low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a hang neck attemperator to solve the technical problem.

The embodiment of the present application achieves the above object by the following means.

The application provides a hang neck attemperator can include: lead temperature subassembly, blowing subassembly, first casing and the second casing of blowing and first guide duct and second guide duct. Lead the temperature subassembly can include first casing, the piece that adjusts the temperature and lead the temperature piece, adjust the temperature piece set up in the first casing, lead the temperature piece locate on the lateral wall of first casing and with adjust the thermal-conduction of temperature piece and be connected. The blowing assembly can comprise a second shell and a fan body, the fan body is arranged in the second shell, and an air outlet is formed in the side wall of the second shell. The first blowing shell is connected to one side of the temperature guide assembly, the second blowing shell is connected to the other side of the temperature guide assembly, and first blowing holes are formed in the side wall of the first blowing shell and/or the side wall of the second blowing shell. One end of the first air guide pipe is connected with the first blowing shell, the other end of the first air guide pipe is connected with one side of the second shell, one end of the second air guide pipe is connected with the second blowing shell, and the other end of the second air guide pipe is connected with the other side of the second shell.

In one embodiment, the first air guiding pipe and the second air guiding pipe are both tubular structures with two open ends and hollow interiors.

In one embodiment, the first air guiding pipe and the second air guiding pipe are both bendable flexible structures.

In one embodiment, a second blowhole is provided in a side wall of the first air guide duct and/or a side wall of the second air guide duct.

In one embodiment, the blowing assembly includes two fan bodies, the two fan bodies rotate in opposite directions, and the blowing assembly further includes a partition plate located in the second housing and between the two fan bodies.

In one embodiment, the temperature conducting assembly further comprises a first connecting piece and a second connecting piece, one end of the first connecting piece is connected with one end of the first shell, the other end of the first connecting piece is connected with the first blowing shell, one end of the second connecting piece is connected with the other end of the first shell, and the other end of the second connecting piece is connected with the second blowing shell; the first connecting piece and/or the second connecting piece comprise a bendable part.

In one embodiment, the temperature guiding assembly further includes a heat dissipating assembly, the heat dissipating assembly is disposed in the first housing, the heat dissipating assembly includes a heat sink and a heat dissipating fan, heat dissipating holes are disposed on a sidewall of the first housing, the heat dissipating holes are opposite to the heat sink, the heat dissipating fan is disposed on one side of the heat sink, and the heat dissipating fan and the heat sink are disposed between the heat dissipating holes and the temperature adjusting member.

In an embodiment, the second casing includes a first sidewall, a second sidewall, and a third sidewall, the first sidewall and the third sidewall are disposed opposite to each other, the second sidewall is located between the first sidewall and the third sidewall, one end of the second sidewall is connected to the first sidewall, the other end of the second sidewall is connected to the third sidewall, the first duct is connected to the first sidewall, the air outlet is disposed in the second sidewall, and the second duct is connected to the third sidewall.

In one embodiment, the blowing assembly further includes a third housing and a battery, the battery is disposed in the third housing, the third housing is disposed on one side of the second housing, and the fan body and the temperature adjusting member are electrically connected to the battery, respectively.

In one embodiment, the side wall of the second casing is further provided with an air inlet, and the air inlet and the battery are located on two opposite sides of the fan body.

The utility model provides a hang neck attemperator, lead the temperature subassembly and the subassembly of blowing through the setting, realize diversified temperature regulation and control, the temperature regulation and control subassembly is used for the temperature regulation and control for back neck, the subassembly of blowing is used for the temperature regulation and control to face, wherein the first guide duct and the second guide duct that this application provided will blow the produced some wind of subassembly and guide to first casing and the second casing of blowing, and blow out from first hole of blowing, encircle other positions on the neck and carry out the temperature regulation and control to hanging neck attemperator, the coverage rate of adjusting temperature is high, the problem that the coverage rate of adjusting temperature of hanging neck attemperator among the prior art is low is solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural view of a neck hanging temperature adjusting device provided in an embodiment of the present application.

Fig. 2 is a partially exploded view of the blower assembly of fig. 1.

Fig. 3 is a partial exploded view of the blower assembly and the thermal conduction assembly of fig. 1.

Fig. 4 is a sectional view taken along line a-a of fig. 1.

Reference numerals: the temperature adjusting device comprises a hanging neck temperature adjusting device 10, a temperature guiding component 100, a first shell 110, a heat radiation hole 111, a temperature adjusting component 120, a heat radiation component 130, a heat radiator 131, a heat radiation fan 132, a temperature guiding component 140, a blowing component 200, a second shell 210, an air inlet 211, an air outlet 212, a third shell 213, a power supply component 214, a battery 214a, a circuit board 214b, a partition plate 215, a fan body 220, a first air guide pipe 300, a second air guide pipe 400, a second air blowing hole 500, a first air blowing shell 600, a first air blowing hole 610, a second air blowing shell 700, a first connecting piece 800 and a second connecting piece 900.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: reference herein to "a plurality" means two or more. "and/or" describes the association relationship of the associated object, indicating that there may be three relationships, for example, a and/or B may indicate: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Referring to fig. 1, the present application provides a hanging neck temperature adjusting device 10, which may include: the fan comprises a temperature guide assembly 100, a blowing assembly 200, a first blowing shell 600, a second blowing shell 700, a first air guide pipe 300 and a second air guide pipe 400.

The temperature conduction assembly 100 is used for regulating and controlling the temperature of the back neck. It should be noted that the temperature control in this document may be cooling or heating.

The temperature delivery assembly 100 may include: the first casing 110, the temperature adjusting member 120, and the temperature guide member 140. The temperature adjusting member 120 is used for changing the temperature, the temperature adjusting member 120 can refrigerate or heat, and then the temperature is transmitted to the temperature guiding member 140, and when the temperature adjusting member is used, the temperature guiding member 140 is close to the back neck, so that the back neck can be heated or cooled. In this embodiment, the temperature adjusting member 120 may be a semiconductor cooling plate, and the temperature conducting member may be a metal or other material with good thermal conductivity, such as an aluminum plate. The temperature adjusting member 120 is disposed in the first casing 110, and it can be understood that the temperature guiding member 140 needs to be in contact with the back neck of the human body to perform heat transfer with the back neck to achieve the effect of adjusting the temperature, therefore, in this embodiment, the temperature guiding member 140 is disposed on the side wall of the first casing 110 and is in heat conduction connection with the temperature adjusting member 120, that is, the temperature guiding surface of the temperature guiding member 140 is exposed on the outer wall of the first casing 110, and the temperature guiding member 140 can perform heat transfer with the temperature adjusting member 120 at the same time.

The blowing assembly 200 is used for temperature control of the face. The blowing assembly 200 may include: a second casing 210 and a fan body 220, wherein the fan body 220 is disposed in the second casing 210. An air outlet 212 is disposed on a side wall of the second housing 210, and the air outlet 212 faces the thermal conductive member 100.

The first blowing shell 600 is located at one side of the temperature guiding assembly 100, the first blowing shell 600 is connected with one side of the temperature guiding assembly 100, the second blowing shell 700 is located at the other side of the temperature guiding assembly 100, and the second blowing shell 700 is connected with the other side of the temperature guiding assembly 100.

The first air guide pipe 300 and the second air guide pipe 400 are used for connecting the temperature conducting assembly 100 and the blowing assembly 200. The connection mode of the first air duct 300, the heat conduction assembly 100 and the blowing assembly 200 may be a snap connection, an adhesive connection or a sleeve connection, and when different connection modes are adopted, the structure of the connection part of the first air duct 300 and the heat conduction assembly 100 is different, for example, when the first air duct 300 and the heat conduction assembly 100 are connected by a sleeve connection, the connection end of the heat conduction assembly 100 is provided with a connection port matched with the first air duct 300, the first air duct 300 is sleeved on the connection port, and meanwhile, in order to make the connection between the first air duct 300 and the heat conduction assembly 100 more stable, the first air duct 300 may further include a fixing member, the fixing member is arranged on the outer surface of the first air duct 300, the fixing member may be a ring structure, the fixing member can slide on the outer surface of the first fixing member 300, when the first air duct 300 is sleeved on the connection port, the fixing member can slide, so that the first air duct 300 is connected to the connection port by an interference fit, so as to improve the stability of the connection between the first air guiding pipe 300 and the thermal conduction assembly 100.

One side of the temperature conduction assembly 100 is connected with one side of the blowing assembly 200 through the first air guide pipe 300, the other side of the temperature conduction assembly 100 is connected with the other side of the blowing assembly 200 through the second air guide pipe 400, and the temperature conduction assembly 100 and the blowing assembly 200 are arranged oppositely.

The air-blowing device comprises a first air guide pipe 300 and a second air guide pipe 400, wherein one end of the first air guide pipe 300 is connected with the first air-blowing shell 600, the other end of the first air guide pipe is connected with one side of the air-blowing assembly 200, one end of the second air guide pipe 400 is connected with the second air-blowing shell 700, and the other end of the second air guide pipe is connected with the other side of the air-blowing assembly 200. The first air guiding duct 300 and the second air guiding duct 400 are hollow, that is, the inside of the first air guiding duct is in a conducting state. Preferably, the first air guide tube 300 and the second air guide tube 400 are both tubular structures with two open ends and hollow interiors, so that the interior space of the first air guide tube 300 is in a communicated state with the interior space of the first blowing casing 600 and the interior space of the blowing assembly 200, respectively, and the interior space of the second air guide tube 400 is also in a communicated state with the interior space of the second blowing casing 700 and the interior space of the blowing assembly 200, respectively.

That is, the first blowing casing 600 is located between the first air guiding pipe 300 and the temperature guiding assembly 100, and the first blowing casing 600 is disposed to prevent the air of the first air guiding pipe 300 from blowing to the temperature guiding assembly 100, that is, the first blowing casing 600 plays a transitional role in the present embodiment. The first air guide pipe 300 is connected with the temperature guiding assembly 100 through the first air blowing shell 600, the first air blowing shell 600 is communicated with the first air guide pipe 300, the second air guide pipe 400 is connected with the temperature guiding assembly 100 through the second air blowing shell 700, and the second air blowing shell 700 is communicated with the second air guide pipe 400. As shown, the first blowing hole 610 may be provided on the first blowing housing 600. It can be understood that, the first blowing holes 610 may also be provided in multiple groups, and the multiple groups of first blowing holes 610 are uniformly disposed on the first blowing casing 600, so as to improve the air outlet efficiency of the first blowing casing 600. Of course, the second blowing housing 700 may also be provided with the first air outlet 610.

The first air guide duct 300 and/or the second air guide duct 400 is provided with a plurality of second blow holes 500, and the plurality of second blow holes 500 communicate with the second case 210. That is, the wind generated by the blowing assembly 200 can enter the first air guiding pipe 300 and the second air guiding pipe 400, and then go out from the second blowing holes 500 of the first air guiding pipe 300 and the second air guiding pipe 400, so as to realize multi-directional temperature control on the neck.

It is understood that the second blowholes 500 may be uniformly distributed on the first and second wind guide pipes 300 and 400, and the distribution method may include uniform distribution at the same height of the neck, or uniform distribution at different heights of the neck. The second air blowing hole 500 may be formed in a partial region of the first air guide duct 300 and the second air guide duct 400. The second air blowing holes 500 may be circular holes, square holes, or the like, and are not limited herein. It should be noted that the aperture of the second air blowing hole 500 is not too large, so as to prevent the structural stability of the first air guiding pipe 300 and the second air guiding pipe 400 from being affected, and prevent impurities from entering the first air guiding pipe 300 and the second air guiding pipe 400.

The embodiment of the application provides a hang neck attemperator 10, lead temperature subassembly 100 and the subassembly 200 of blowing through the setting, realize diversified temperature regulation and control, the subassembly that adjusts the temperature is used for the temperature regulation and control for back neck, the subassembly 200 of blowing is used for the temperature regulation and control to the face, wherein the first guide duct 300 that this application provided and second guide duct 400 will blow the produced some wind of subassembly 200 and guide to first casing 600 and the second casing 700 of blowing, and blow out from first hole 610 of blowing, thereby can also encircle other positions on the neck to hang neck attemperator 10 and carry out temperature regulation and control, the device's the coverage rate that adjusts the temperature is high, the problem that the coverage rate that adjusts the temperature of the device 10 of hanging neck of prior art is low is solved.

Referring to fig. 2, as follows to describe the blowing assembly 200 in the embodiment of the present application in detail, in one embodiment, the second housing 210 may include: an air inlet 211 and an air outlet 212.

The air inlet 211 is located at one side of the second housing 210, the air outlet 212 is located at the other side of the second housing 210, and the fan body 220 is disposed between the air outlet 212 and the air inlet 211. It can be understood that, in some embodiments, the surfaces of the air inlet 211 and the air outlet 212 may be provided with a structure of a dustproof filter screen, or a nest-like structure, a hole-like structure, etc. to prevent large foreign matters from entering the second housing 210 and affecting the normal operation of the fan body 220, for example, prevent hair, knitting wool, etc. from being wound on the fan body 220 to cause damage to the fan and further affect the normal use of the neck-hanging temperature adjustment device 10. It should be noted that the air inlet 211 and the air outlet 212 may be disposed oppositely, and the orientation of the air outlet 212 may point to the thermal conductance assembly 100, and the specific arrangement manner of the air inlet 211 and the air outlet 212 is not unique, and may be flexibly set in combination with specific use scenarios.

In some embodiments, the blowing assembly 200 may further include: a third housing 213 and a power supply assembly 214. The power supply module 214 is used for supplying power to the neck hanging temperature adjusting device 10, and the power supply module 214 at least comprises: a battery 214a and a circuit board 214 b. Taking the embodiment shown in the figure as an example, the power supply module 214 is integrated, that is, the power supply module 214 cannot replace the battery 214a, and the power supply module is used for continuously supplying power to the neck hanging temperature adjusting device 10 in a charging mode. It can be understood that the temperature guiding assembly 100 and all the electrical units in the middle of the blowing fan are electrically connected to the power supply assembly 214, and the above structure is provided with only one power supply, and in addition, the third housing 213 is arranged opposite to the second housing 210, so that the whole structure of the neck hanging temperature adjusting device 10 is more compact.

Further, in some embodiments, the intake vent 211 and the battery 214a may be located on opposite sides of the fan body 220, such that the battery 214a may be provided with a larger volume without affecting the intake volume of the intake vent 211.

The third shell 213 is located on one side of the second shell 210, the power supply assembly 214 is arranged in the third shell 213, and the power supply assembly 214 is separately provided with a cavity, so that the interference of other assemblies on the power supply assembly 214 can be reduced, and the safety of the neck hanging temperature adjusting assembly is improved.

In one embodiment, the number of the fan bodies 220 may be multiple, and as shown in the figure, in this embodiment, the number of the fan bodies 220 is two, and the rotation directions of the two fan bodies 220 are opposite, and this arrangement can increase the air output of the blowing unit.

In addition, in order to reduce the influence between the fan bodies 220, the second case 210 may further include: a partition 215, the partition 215 being disposed between the two fan bodies 220. The partition 215 may be a plastic structure or a metal structure, and the partition 215 is used to separate the two fan bodies 220, so as to prevent air flows generated during the rotation of the fan bodies 220 from influencing each other. It is understood that in some embodiments, the partition 215 is removably coupled to the second housing 210. The detachable connection manner can enable the partition 215 to be detached when one of the fan bodies 220 is damaged, so that the wind blown out by the other normal fan body 220 can enter the first wind guide pipe 300 and the second wind guide pipe 400 at the same time, thereby improving the fault tolerance of the neck-hanging temperature adjusting device 10.

Referring to fig. 3, the temperature guiding assembly 100 of the present embodiment is described in detail as follows, in an embodiment, the temperature guiding assembly 100 may further include: the heat dissipation assembly 130 is disposed in the first housing 110, and is used for dissipating heat of the first housing 110. The arrangement of the heat dissipation assembly 130 can prevent the temperature in the first housing 110 from being too high or too low due to the temperature accumulation in the first housing 110, which affects the use effect of the neck hanging temperature adjustment device 10.

Specifically, the heat dissipation assembly 130 may include: a heat sink 131. The heat sink 131 is used to help dissipate the temperature of the temperature adjusting member 120, and the heat sink 131 may absorb the temperature of the temperature adjusting member 120 using a common heat transfer distance. The first housing 110 may further include: the heat dissipation hole 111 is located on the cavity wall of the first housing 110, and penetrates through the cavity wall of the first housing 110, the heat dissipation hole 111 is opposite to the heat sink 131, and the heat dissipation hole 111 can assist the heat sink 131 to dissipate heat out of the first housing 110.

In addition, the heat dissipation assembly 130 may further include: the heat dissipation fan 132, the heat dissipation fan 132 is used for blowing the heat in the first casing 110 out of the first casing 110 quickly, so as to achieve the function of quick heat dissipation. The heat dissipation fan 132 is located at one side of the heat sink 131, and the heat dissipation fan 132 and the heat sink 131 are both located between the heat dissipation hole 111 and the temperature adjusting member 120. It is understood that, in the embodiment of the present application, the heat dissipation assembly 130 may be provided with only the heat sink 131 or only the heat dissipation fan 132, wherein the heat sink 131 and the heat sink 132 are simultaneously provided as an optimal heat dissipation scheme.

Referring to fig. 4, in some embodiments, the first air guiding tube 300 and the second air guiding tube 400 are flexible structures, such as silicone hoses, and at least one of the first air guiding tube 300 and the second connecting tube can be detachably connected to at least one of the blowing assembly 200 or the temperature guiding assembly 100. The aforesaid setting of dismantling the connection can make this string of neck attemperator 10 be suitable for more crowds, avoids partial user's head too big, is difficult to directly wear string of neck attemperator 10 on the neck, but will hang neck attemperator 10 area on the neck through the mode of concatenation, has improved string of neck attemperator 10's suitability.

It can be understood that the blowing assembly 200 can rotate relative to the first air guiding pipe 300 and the second air guiding pipe 400 to change the position of the air outlet 212, so as to improve the applicability of the neck-hanging temperature adjusting device 10.

In the present embodiment, the neck warmer 10 may further include: a first connector 800 and a second connector 900. The first connector 800 is used for connecting the temperature guiding assembly 100 and the first blowing housing 600, and the second connector 900 is used for connecting the temperature guiding assembly 100 and the second blowing housing 700. The first connector 800 and/or the second connector 900 include bendable portions. It should be noted that the connecting member is made of bendable flexible material such as rubber, resin, etc. so that the connecting member can be bent or rotated. For example, the diameter of the two connecting ends of the connecting member is larger than the diameter of the middle portion, so that the connecting member can be bent or rotated in the middle portion to change the positions of the second blowing holes 500 on the first air guiding pipe 300 and the second air guiding pipe 400, and meanwhile, the connecting member is suitable for more people with different necks.

When the neck hanging temperature adjusting device 10 in the embodiment of the present application is used, the first air guiding pipe 300 and the blowing assembly 200 may be detached first, then the neck hanging temperature adjusting device 10 is worn on the neck, the temperature adjusting member 120 is attached to the back neck, and the first air guiding pipe 300 and the blowing assembly 200 are connected after the wearing is completed. Then, the power is turned on, so that the fan body 220 and the temperature adjusting member 120 are in a working state, the fan body 220 rotates, wind can be blown out from the air outlet 212 to regulate and control the temperature of the face of the user, and can also enter the first wind guide pipe 300 and the second wind guide pipe 400 and be blown out through the second blowing holes 500 on the first wind guide pipe 300 and the second wind guide pipe 400 to regulate and control the temperature of the neck of the user, and in addition, wind can also enter the first blowing shell 600 and the second blowing shell 700 through the first wind guide pipe 300 and the second wind guide pipe 400 and be blown out from the first blowing holes 610 on the first blowing shell 600 and the second blowing shell 700 to regulate and control the temperature of the neck of the user. The temperature adjusting member 120 changes its own temperature, and can also adjust and control the temperature of the back neck of the user, thereby realizing the temperature adjustment and control of multiple regions on the neck.

The embodiment of the application provides a hang neck attemperator, lead temperature subassembly and the subassembly of blowing through the setting, realize diversified temperature regulation and control, the subassembly that adjusts the temperature is used for the temperature regulation and control for back neck, the subassembly of blowing is used for the temperature regulation and control to face, wherein first guide duct and second guide duct that this application provided, first guide duct and second guide duct guide the produced some wind of subassembly of blowing to first casing and the second casing of blowing, and blow out from first hole of blowing, can also encircle other positions on the neck to hang neck attemperator and carry out the temperature regulation and control, the device's the rate of coverage of adjusting the temperature is high, the problem that the rate of coverage of adjusting the temperature of hanging neck attemperator among the prior art is low is solved.

The description of the terms "some embodiments," "other embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiments or examples is included in at least one embodiment or example of the application. In this application, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the various embodiments or examples and features of the various embodiments or examples described in this application can be combined and combined by those skilled in the art without conflicting.

The above embodiments are only for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may be modified or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (10)

1. The utility model provides a hang neck attemperator which characterized in that includes:

the temperature-adjusting part is arranged in the first shell, and the temperature-guiding part is arranged on the side wall of the first shell and is in heat-conduction connection with the temperature-adjusting part;

the fan body is arranged in the second shell, and an air outlet is formed in the side wall of the second shell;

the first blowing shell is connected to one side of the temperature guide assembly, the second blowing shell is connected to the other side of the temperature guide assembly, and first blowing holes are formed in the side wall of the first blowing shell and/or the side wall of the second blowing shell; and

the first air guide pipe is connected with the first blowing shell at one end, the other end of the first air guide pipe is connected with one side of the second shell, one end of the second air guide pipe is connected with the second blowing shell, and the other end of the second air guide pipe is connected with the other side of the second shell.

2. The hanging neck temperature adjusting device as claimed in claim 1, wherein the first air guiding pipe and the second air guiding pipe are both tubular structures with two open ends and hollow interiors.

3. The neck temperature adjusting device of claim 2, wherein the first air duct and the second air duct are both bendable and flexible structures.

4. The neck temperature adjusting device of claim 2, wherein the side wall of the first air guiding pipe and/or the side wall of the second air guiding pipe is provided with a second air blowing hole.

5. The neck temperature regulating device of claim 1 wherein said blower assembly includes two of said fan bodies having opposite rotational directions, said blower assembly further including a partition located within said second housing and between said two fan bodies.

6. The neck temperature adjusting device of claim 1 wherein the temperature guiding assembly further comprises a first connector and a second connector, the first connector having one end connected to one end of the first housing and the other end connected to the first blower housing, the second connector having one end connected to the other end of the first housing and the other end connected to the second blower housing; the first connecting piece and/or the second connecting piece comprise bendable parts.

7. The device as claimed in claim 1, wherein the temperature-guiding assembly further comprises a heat-dissipating assembly disposed in the first housing, the heat-dissipating assembly comprises a heat sink and a heat-dissipating fan, the sidewall of the first housing is provided with heat-dissipating holes, the heat-dissipating holes are opposite to the heat sink, the heat-dissipating fan is disposed at one side of the heat sink, and the heat-dissipating fan and the heat sink are disposed between the heat-dissipating holes and the temperature-adjusting member.

8. The neck temperature regulating device of claim 1, wherein the second housing includes a first sidewall, a second sidewall and a third sidewall, the first sidewall and the third sidewall are disposed opposite to each other, the second sidewall is disposed between the first sidewall and the third sidewall, one end of the second sidewall is connected to the first sidewall, the other end of the second sidewall is connected to the third sidewall, the first air duct is connected to the first sidewall, the air outlet is disposed on the second sidewall, and the second air duct is connected to the third sidewall.

9. The device as claimed in claim 1, wherein the blowing assembly further comprises a third housing and a battery, the battery is disposed in the third housing, the third housing is disposed at one side of the second housing, and the fan body and the temperature adjusting member are electrically connected to the battery, respectively.

10. The device as claimed in claim 9, wherein the second housing further comprises an air inlet on a side wall thereof, the air inlet and the battery being located on opposite sides of the fan body.

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