CN217243010U - Cold and hot comb and ventilation heat insulation comb tooth structure thereof - Google Patents

Abstract

The utility model discloses a cold and hot comb and thermal-insulated broach structure of ventilation thereof, wherein thermal-insulated broach structure of ventilation includes broach portion, the heating broach, the cooling broach, the heater block, refrigerating unit, set up in broach portion and be used for to each refrigerating unit radiating radiator, set up in handheld portion and be used for to the fan that produces the radiating air current in the broach portion, and set up on broach portion and lie in between each heating broach and each cooling broach, a plurality of thermal-insulated broaches for the heat-conduction between the separation two, set up the radiating channel who is used for making the radiating air current circulate through the radiator in the broach portion, and set up a plurality of and radiating channel intercommunication on the broach portion, an fumarole for the blowout air current forms thermal-insulated wind wall with each heating broach. The utility model discloses can effectively prevent to heat the heat conduction of broach to cooling on the broach, guarantee the cooling effect of cooling broach to the hair.

Description

Cold and hot comb and ventilation heat insulation comb tooth structure thereof

Technical Field

The utility model relates to a cosmetics technical field, in particular to ventilation and heat insulation comb tooth structure.

The utility model discloses still relate to a cold and hot comb.

Background

The comb is one of products commonly used in daily life, and gradually develops from single functional handmade products such as common wooden combs, plastic combs, ceramic combs and the like into household appliances with electrification control and intelligent operation along with the improvement of living standard of people.

At present, in order to meet the hair styling requirements of straightening and curling hair when a user uses a comb to haircut, the hair straightening comb is produced. The hair straightening comb is provided with the conventional plastic comb teeth and the heating comb teeth made of metal, and heating components such as heating wires can heat the heating comb teeth so as to heat hair when the hair is combed, so that moisture is dried. However, the temperature of the heating comb teeth is generally about 200 ℃ during use, the temperature is high, and if the hair is in the high-temperature environment for a long time, the hair quality of the hair is easily damaged or the internal structure is easily damaged, so that the hair is denatured, burnt and the like, and the scalp or the skin of other parts of the user is easily scalded.

In the prior art, generally, the mode that generally sets up the cooling broach again on directly sending out the comb carries out cooling for the hair, forms cold and hot comb structure. In the use of cold and hot comb, can cool off for the hair after the heating through the cooling broach for the higher hair rapid cooling of temperature prevents that the hair from being in high temperature environment for a long time, avoids the hair high temperature and burnt, can prevent that the hair from receiving high temperature damage on the basis that satisfies the hair design demand, reduces the influence healthy to the hair.

However, traditional cold and hot comb structure, because the influence of factors such as installation space is limited, the mounting density of heating broach and cooling broach is great, and setting position between them is very close, consequently leads to in the operation process, produces stronger heat convection phenomenon between heating broach and the cooling broach, and the partial heat of heating broach conducts fast to the cooling broach on, leads to the temperature of cooling broach to be compelled to rise, and then leads to unable maintenance low temperature state, and the cooling effect to the hair is not enough.

Therefore, how to prevent the heat of the heating comb teeth from being conducted to the cooling comb teeth and ensure the cooling effect of the cooling comb teeth on the hair is a technical problem faced by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a thermal-insulated broach structure ventilates can prevent to heat the heat conduction of broach to cooling on the broach, guarantees to cool off the cooling effect of broach to the hair. Another object of the present invention is to provide a cooling-heating comb.

In order to solve the above technical problems, the present invention provides a ventilation and thermal insulation comb tooth structure, comprising a comb tooth portion, a plurality of heating comb teeth protruding from the comb tooth portion, a plurality of cooling comb teeth protruding from the comb tooth portion, a heating member disposed in the comb tooth portion for heating each of the heating comb teeth, a refrigerating member disposed in the comb tooth portion for refrigerating each of the cooling comb teeth, a radiator disposed in the comb tooth portion for radiating heat of each of the refrigerating members, a fan disposed in a hand-held portion for generating a heat radiation air flow into the comb tooth portion, and a plurality of thermal insulation comb teeth disposed on the comb tooth portion and located between each of the heating comb teeth and each of the cooling comb teeth for blocking heat conduction therebetween, wherein a heat radiation channel for allowing a heat radiation air flow to pass through the radiator is formed in the comb tooth portion, and the comb tooth part is provided with a plurality of air injection holes which are communicated with the heat dissipation channel and used for injecting air flow to form a heat insulation air wall for each heating comb tooth.

Preferably, each air injection hole is respectively arranged in a gap between any two adjacent heat insulation comb teeth.

Preferably, each heat insulation comb tooth is annularly distributed on the comb tooth part and surrounds the periphery of each heating comb tooth.

Preferably, each of the air injection holes is annularly distributed on the comb teeth part and surrounds the periphery of each of the heating comb teeth.

Preferably, each heating comb tooth is uniformly distributed in the central area of the surface of the comb tooth part, each cooling comb tooth is uniformly distributed on any one side of each heating comb tooth, and each heat insulation comb tooth and each cooling comb tooth are distributed on the same side.

Preferably, each heating comb tooth is equally distributed in the central region on the surface of the comb tooth part, and each cooling comb tooth is simultaneously distributed on each of both sides of the heating comb tooth, and each heat insulation comb tooth is simultaneously distributed on each of both sides of the heating comb tooth.

Preferably, each heating comb tooth, each cooling comb tooth and each heat insulation comb tooth are uniformly distributed along the preset extending direction of the comb tooth part.

Preferably, the comb-tooth-shaped heating device further comprises mounting rings which are embedded in the surfaces of the comb-tooth parts and distributed around the peripheries of the heating comb teeth, and the heat-insulation comb teeth are distributed on the surfaces of the mounting rings.

Preferably, an air inlet loop channel communicated with the heat dissipation channel is formed in the mounting ring, and each air injection hole is formed in the surface of the mounting ring and communicated with the air inlet loop channel.

The utility model also provides a cold and hot comb, including handheld portion and the thermal-insulated broach structure of ventilation that links to each other rather than, wherein, the thermal-insulated broach structure of ventilation specifically is above-mentioned arbitrary the thermal-insulated broach structure of ventilation.

The utility model provides a ventilation heat-insulating comb tooth structure mainly includes broach portion, heating broach, cooling broach, heater block, refrigeration part, radiator, fan, thermal-insulated broach, heat dissipation channel and fumarole. Wherein, broach portion is the main part of this broach structure, mainly used installs various broach, like conventional plastics broach with the utility model provides a heating broach, cooling broach, thermal-insulated broach also are used for the installation simultaneously and hold all the other relevant spare parts. The heating broach protrusion sets up on broach portion, is provided with many generally simultaneously, and the temperature is higher when operating condition, can heat the hair in the same direction as the hair in the order for hair rapid heating up, thereby stoving hair moisture, with the hair design. The cooling comb teeth are also convexly arranged on the comb teeth part, a plurality of comb teeth are generally arranged at the same time, the temperature is lower in the working state, the hair heated by the heating comb teeth can be cooled while being straightened, the temperature is quickly reduced, the heat of the hair is absorbed, the hair is prevented from being in a high-temperature environment for a long time, and the hair is always in a hot-cold alternative environment in the hair combing process of a user. The heating part sets up in broach portion, and mainly used heats each heating broach. The refrigerating component is arranged in the comb tooth part and is mainly used for refrigerating each cooling comb tooth. The radiator is also arranged in the comb tooth part and is mainly used for radiating each refrigerating component, and then cooling the cooling comb teeth is realized. The fan sets up in handheld portion, mainly used produces the heat dissipation air current in to the broach portion when the operation. Meanwhile, a heat dissipation channel is further formed in the comb tooth part and is mainly used for enabling heat dissipation airflow generated by the fan to pass through, so that the heat dissipation airflow can smoothly pass through components such as a radiator, quick and efficient heat dissipation of the radiator is achieved, and heat of the radiator is dissipated to the outside through the heat dissipation channel. The heat insulation comb teeth are core components, are arranged on the comb tooth part, are generally simultaneously provided with a plurality of heat insulation comb teeth, are specifically positioned between each heating comb tooth and each cooling comb tooth, and mutually isolate the heating comb teeth from the cooling comb teeth; and, the heat insulation broach is a broach of making by thermal insulation material, has thermal-insulated, heat preservation characteristic, can the separation heat conduction effect between heating broach and the cooling broach to prevent to heat conduction to the cooling broach on the heating broach. The fumaroles are arranged on the comb tooth part and are simultaneously provided with a plurality of fumaroles which are communicated with the heat dissipation channel, and the fumaroles are mainly used for ejecting heat dissipation airflow in the heat dissipation channel so as to form a heat insulation air wall at the peripheral area of each heating comb tooth and strengthen the heat insulation effect of the heat insulation comb teeth.

Therefore, the utility model provides a thermal-insulated broach structure ventilates, when combing the hair, at first each heating broach of accessible heats the hair, make the hair dry design, then cool off the hair through each cooling broach, make the hair temperature descend fast, prevent that the hair temperature is too high and burnt to be burnt, and simultaneously, utilize thermal-insulated blast wall that thermal-insulated broach and jet orifice form to keep apart the heat-conduction between heating broach and the cooling broach, can effectively prevent to heat the heat conduction of broach to cooling broach on, guarantee the cooling effect of cooling broach to the hair, consequently, can be on the basis of satisfying the hair design demand, prevent that the hair from receiving high temperature damage, reduce the influence healthy to the hair.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of a specific embodiment of the present invention.

Fig. 2 is an exploded view of the structure of fig. 1.

FIG. 3 is a schematic diagram of a distribution structure of the gas injection holes.

Fig. 4 is a schematic view showing a specific structure of the mounting ring.

Fig. 5 is another view of fig. 4.

Fig. 6 is a front view of fig. 5.

Fig. 7 is a sectional view taken along a-a shown in fig. 6.

FIG. 8 is a schematic view of another distribution structure of the gas injection holes.

Fig. 9 is another view of fig. 8.

Fig. 10 is a partial structural schematic diagram of fig. 9.

FIG. 11 is a schematic view of another distribution structure of the gas injection holes.

Fig. 12 is another view of fig. 11.

Fig. 13 is a partial structural view of fig. 12.

Wherein, in fig. 1-13:

the comb-type heat exchanger comprises a handheld part-1, comb teeth-2, heating comb teeth-3, cooling comb teeth-4, a heating part-5, a refrigerating part-6, a radiator-7, a fan-8, heat insulation comb teeth-9 and a mounting ring-10;

a gas orifice-21 and an air inlet loop-101.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 2, and fig. 3, fig. 1 is a schematic diagram of an overall structure of an embodiment of the present invention, fig. 2 is an exploded view of the structure of fig. 1, and fig. 3 is a schematic diagram of a distribution structure of the gas injection holes 21.

The utility model provides an among the specific embodiment, ventilation thermal-insulated broach structure mainly includes broach portion 2, heating broach 3, cooling broach 4, heater block 5, refrigeration part 6, radiator 7, fan 8, thermal-insulated broach 9, heat dissipation channel and fumarole 21.

The comb teeth portion 2 is a main body structure of the comb teeth structure, and is mainly used for mounting various comb teeth, such as conventional plastic comb teeth, and the heating comb teeth 3, the cooling comb teeth 4 and the heat insulation comb teeth 9 in the embodiment, and is also used for mounting and accommodating other related parts.

Heating broach 3 protrusion sets up on the surface of broach portion 2, is provided with many simultaneously generally, and the temperature is higher when operating condition, can heat the hair in the same direction as the hair for hair rapid heating up, thereby stoving hair moisture, will the hair design.

The cooling comb teeth 4 are also convexly arranged on the surface of the comb teeth part 2, and are generally simultaneously provided with a plurality of hair, the temperature is lower in the working state, the hair heated by the heating comb teeth 3 can be cooled while the hair is straightened, the temperature is quickly reduced, the heat of the hair is absorbed, the hair is prevented from being in a high-temperature environment for a long time, and the hair is always in a 'hot-cold' alternative environment in the hair combing process of a user.

The heating member 5 is provided in the comb-teeth portion 2, and is mainly used for heating each heating comb 3.

The refrigerating component 6 is arranged in the comb tooth part 2 and is mainly used for refrigerating each cooling comb tooth 4.

The radiator 7 is also arranged in the comb tooth part 2 and is mainly used for radiating heat of each refrigerating part 6, so that the cooling of the cooling comb teeth 4 is realized.

The fan 8 is arranged in the handheld portion 1 and is mainly used for generating heat dissipation airflow into the comb teeth portion 2 during operation. Meanwhile, a heat dissipation channel is further formed in the comb tooth portion 2 and is mainly used for enabling heat dissipation airflow generated by the fan 8 to pass through, so that the heat dissipation airflow can smoothly pass through the radiator 7 and other components, quick and efficient heat dissipation of the radiator 7 is achieved, and heat of the radiator 7 is dissipated to the outside through the heat dissipation channel.

Thermal-insulated broach 9 is core component, the same protrusion sets up on broach portion 2 the surface, generally be provided with many simultaneously, specifically be located between each heating broach 3 and each cooling broach 4, will heat broach 3 and cool off broach 4 and keep apart each other, and, thermal-insulated broach 9 is the broach of making by thermal insulation material, it is thermal-insulated to have, the heat preservation characteristic, can the separation heat conduction effect between heating broach 3 and the cooling broach 4, thereby prevent to heat on broach 3's heat conduction to the cooling broach 4.

The fumaroles 21 are provided on the surface of the comb tooth portion 2, and are provided with a plurality of fumaroles simultaneously, and all keep the intercommunication with the heat dissipation channel, and each fumarole 21 encircles and distributes in the peripheral region of each heating comb tooth 3, the heat dissipation air current in the mainly used blowout heat dissipation channel, with the peripheral region at each heating comb tooth 3 forms one thermal-insulated wind wall, thereby strengthens the thermal-insulated effect of thermal-insulated comb tooth 9.

So, the thermal-insulated broach structure of ventilation that this embodiment provided, when combing the hair, at first, each heating broach 3 of accessible heats the hair, make the hair dry design, then cool off the hair through each cooling broach 4, make the hair temperature descend fast, prevent that the hair temperature is too high and burnt, and simultaneously, utilize thermal-insulated blast wall that thermal-insulated broach 9 and fumarole 21 formed to heat the thermal-conduction isolation between broach 3 and the cooling broach 4, can effectively prevent to heat on broach 3's heat conduction to the cooling broach 4, guarantee the cooling effect of cooling broach 4 to the hair, consequently, can be on the basis of satisfying the hair design demand, prevent that the hair from receiving high temperature damage, reduce the influence healthy to the hair.

In an alternative embodiment with respect to the air injection holes 21, each air injection hole 21 may be specifically opened on the surface (comb tooth surface) of the comb tooth portion 2 and located in the gap between any two adjacent heat-insulating comb teeth 9, respectively. With the arrangement, the gaps of the heat insulation comb teeth 9 can be effectively sealed by utilizing the heat dissipation airflow ejected from the air jet holes 21, and the heat is prevented from being transferred outwards from the gaps of the heat insulation comb teeth 9 by utilizing the air wall mode.

Of course, the specific opening position of the air injection hole 21 on the comb tooth portion 2 is not limited to the position between the two adjacent heat insulation comb teeth 9, and may be provided at other preset positions of the comb tooth portion 2, and only the communication with the heat dissipation channel is required.

As shown in fig. 8, 9 and 10, fig. 8 is another distribution structure diagram of the gas injection holes 21, fig. 9 is another view diagram of fig. 8, and fig. 10 is a partial structure diagram of fig. 9.

In another embodiment related to the air injection holes 21, the air injection holes 21 are specifically arranged at the outer ring position of each isolation comb tooth 9 of the comb tooth portion 2, i.e. at the outer side of the isolation comb tooth 9, and may also be circumferentially distributed along the circumferential direction of the comb tooth portion 2, so as to form an annular heat insulation air wall for each isolation comb tooth 9 and the heating comb teeth 3 inside thereof.

As shown in fig. 11, 12 and 13, fig. 11 is a schematic view of another distribution structure of the gas injection holes 21, fig. 12 is a schematic view of another view angle of fig. 11, and fig. 12 is a schematic view of a partial structure of fig. 11.

In still another embodiment concerning the air ejection holes 21, the air ejection holes 21 are specifically provided at both end positions in the longitudinal direction of the comb tooth portion 2, that is, at both end positions on the left and right in the longitudinal direction while also being positioned at the outer periphery of each of the separation comb teeth 9, and the two portions of the air ejection holes 21 at both ends are respectively formed in an arc distribution form, thereby forming an arc-shaped heat insulation wind wall for each of the separation comb teeth 9. In general, each of the gas injection holes 21 may form a multi-row arc distribution structure.

In an alternative embodiment with respect to the comb teeth 2, the comb teeth 2 are embodied as rectangular plates, such as long straight sheets or the like. Meanwhile, in consideration of the width of hair, the heating comb teeth 3, the cooling comb teeth 4, and the heat-insulating comb teeth 9 are generally provided in plural numbers at the same time to form a certain scale, and for this reason, in the present embodiment, in order to facilitate the installation of the heating comb teeth 3, the cooling comb teeth 4, and the heat-insulating comb teeth 9 on the comb teeth 2, the respective heating comb teeth 3, the respective cooling comb teeth 4, and the respective heat-insulating comb teeth 9 are distributed on the surface of the maximum area on the comb teeth 2.

Of course, the specific shape of the comb teeth 2 is not limited to the rectangular plate shape described above, and other shapes such as an oblong plate shape, an elliptical plate shape, and the like may be similarly employed. Meanwhile, the specific arrangement positions of the heating comb teeth 3, the cooling comb teeth 4 and the heat insulation comb teeth 9 on the comb tooth part 2 can be adjusted according to needs. For convenience of discussion, the following description of the present embodiment will be given by taking the case where the comb-teeth 2 has a rectangular plate shape.

In an alternative embodiment regarding the specific distribution pattern of the heating comb teeth 3, the cooling comb teeth 4, and the heat-insulating comb teeth 9, the respective heating comb teeth 3 are distributed in the central region in the surface width direction of the comb tooth portion 2, and the respective cooling comb teeth 4 are distributed in the respective regions on both sides in the width direction of the respective heating comb teeth 3, and are generally located at the edge positions on both sides in the width direction of the comb tooth portion 2, while the respective heat-insulating comb teeth 9 are distributed at the edge positions on both sides in the surface width direction of the comb tooth portion 2, and are, of course, closer to the heating comb teeth 3 than the cooling comb teeth 4. So set up, cooling broach 4 and thermal-insulated broach 9 distribute in the both sides of heating broach 3 simultaneously, and the user will form "cold-hot-cold" circulation alternating comb mode to the hair when combing, and is stronger to the heat absorption refrigeration effect of hair.

In another alternative embodiment regarding the specific distribution pattern of the heating comb teeth 3, the cooling comb teeth 4, and the heat-insulating comb teeth 9, each of the heating comb teeth 3 is distributed in a central region in the width direction of the surface of the comb tooth portion 2, and each of the cooling comb teeth 4 is distributed in one side region in the width direction of each of the heating comb teeth 3, such as a left side region or a right side region, and is generally located at one side edge position in the width direction of the comb tooth portion 2, while each of the heat-insulating comb teeth 9 is distributed at one side edge position in the width direction of the surface of the comb tooth portion 2, and is, of course, closer to the heating comb teeth 3 than to the cooling comb teeth 4. So set up, cooling broach 4 and thermal-insulated broach 9 distribute in one of them side of heating broach 3, and the user will form "hot-cold" circulation alternating comb mode to the hair when combing.

Furthermore, to adapt to the width of the hair during a single combing, the individual heating combs 3 are all evenly distributed along the preset extension direction of the comb teeth 2. Similarly, each cooling comb tooth 4 also all distributes along the predetermined extending direction evenly of broach portion 2, for example, each heating comb tooth 3 and each cooling comb tooth 4 can all distribute along the length direction of broach portion 2. So set up, many heating broach 3 and many cooling broach 4 can cover the hair of wideer within range at the in-process of single comb, improve haircut, directly send out efficiency. Accordingly, the heat-insulating comb teeth 9 may be uniformly distributed along the length direction of the comb teeth 2. Of course, the specific distribution pattern of the heating comb teeth 3, the cooling comb teeth 4, and the heat insulation comb teeth 9 on the comb teeth 2 is not fixed, and may be adjusted according to the specific shape of the comb teeth 2.

Further, for the hair efficiency of finalizing the design when improving single comb, in this embodiment, each heating broach 3 has the multirow on the surface of broach portion 2 simultaneously distributed, for example 2 ~ 4 rows etc. so set up, can improve each heating broach 3 distribution area and distribution area to heat for the hair of bigger area simultaneously when combing.

In addition, in the present embodiment, the cooling comb teeth 4 are distributed in a single row on the surface of the comb teeth 2, so that the temperature of the hair can be appropriately lowered, and the hair can be prevented from being excessively cooled. Of course, the number of rows and the number of the cooling comb teeth 4 are not fixed, and the number of rows and the number of the cooling comb teeth need to be increased, decreased and adjusted according to the difference between the maximum temperature and the appropriate temperature of the hair. Accordingly, the heat-insulating comb teeth 9 may be arranged in a single row or in a plurality of rows on the surface of the comb teeth 2.

In another embodiment of the present invention, the ventilation and thermal insulation comb structure further comprises a mounting ring 10.

As shown in fig. 4 to 7, fig. 4 is a detailed structural view of the mounting ring 10, fig. 5 is another view-angle view of fig. 4, fig. 6 is a front view of fig. 4, and fig. 7 is a sectional view taken along a-a section shown in fig. 8.

Wherein, the collar 10 inlays to be established in the surface of broach part 2, generally can be for dismantling the connection to this collar 10 encircles and distributes in each heating broach 3 periphery, and is airtight along the hoop with each heating broach 3, and correspondingly, each thermal-insulated broach 9 distributes on the surface of collar 10 along the hoop respectively, and each fumarole 21 all sets up on the surface of collar 10. So set up, each thermal-insulated broach 9 and each fumarole 21 will form the encirclement circle along the hoop, with each heating broach 3 all airtight inside the encirclement circle to form isolated region, keep apart each heating broach 3 and each cooling broach 4, improve thermal-insulated effect.

Furthermore, in order to ensure that each air injection hole 21 can form a stable heat insulation air wall, an air inlet loop channel 101 is additionally arranged in the mounting ring 10 in the embodiment. Specifically, the air inlet loop 101 is disposed in the inner cavity of the mounting ring 10 and is communicated with the heat dissipation channel, so as to introduce the heat dissipation airflow into the mounting ring 10. Meanwhile, each gas injection hole 21 is opened on the surface of the mounting ring 10 and is communicated with the air inlet loop 101, so that the heat dissipation air flow can be smoothly ejected from each gas injection hole 21.

The embodiment further provides a cold and hot comb, which mainly comprises a handheld part 1 and a ventilation and heat insulation comb tooth structure connected with the handheld part 1, wherein the specific content of the ventilation and heat insulation comb tooth structure is the same as the related content, and the description is omitted here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The ventilation and heat insulation comb tooth structure is characterized by comprising a comb tooth part (2), a plurality of heating comb teeth (3) which are arranged on the comb tooth part (2) in a protruding mode, a plurality of cooling comb teeth (4) which are arranged on the comb tooth part (2) in a protruding mode, heating parts (5) which are arranged in the comb tooth part (2) and used for heating the heating comb teeth (3), refrigerating parts (6) which are arranged in the comb tooth part (2) and used for refrigerating the cooling comb teeth (4), radiators (7) which are arranged in the comb tooth part (2) and used for radiating the refrigerating parts (6), fans (8) which are arranged in a handheld part (1) and used for generating radiating airflow into the comb tooth part (2), and fan bodies which are arranged on the comb tooth part (2) and located between the heating comb teeth (3) and the cooling comb teeth (4), A fumarole (21) that is used for keeping off a plurality of thermal-insulated broach (9) of heat-conduction between the two, it is used for making the circulation of heat dissipation air current pass through to have seted up in broach portion (2) heat dissipation channel of radiator (7), just seted up on broach portion (2) a plurality of with heat dissipation channel intercommunication, be used for the blowout air current in order to each heating broach (3) form thermal-insulated wind wall.

2. The ventilating and insulating comb tooth structure according to claim 1, wherein each air injection hole (21) is respectively arranged in a gap between any two adjacent insulating comb teeth (9).

3. The ventilating and insulating comb tooth structure according to claim 2, wherein each of the insulating comb teeth (9) is annularly distributed on the comb tooth portion (2) and surrounds the periphery of each of the heating comb teeth (3).

4. The ventilating and insulating comb tooth structure according to claim 3, wherein the air injection holes (21) are annularly distributed on the comb tooth part (2) and surround the periphery of each heating comb tooth (3).

5. The ventilating and heat insulating comb tooth structure according to claim 1, wherein each of the heating comb teeth (3) is distributed on a central region of a surface of the comb tooth portion (2), each of the cooling comb teeth (4) is distributed on either side of each of the heating comb teeth (3), and each of the heat insulating comb teeth (9) is distributed on the same side as each of the cooling comb teeth (4).

6. The ventilating and heat-insulating comb tooth structure according to claim 1, wherein each of the heating comb teeth (3) is equally distributed on a central region of the surface of the comb tooth portion (2), each of the cooling comb teeth (4) is simultaneously distributed on both sides of each of the heating comb teeth (3), and each of the heat-insulating comb teeth (9) is simultaneously distributed on both sides of each of the heating comb teeth (3).

7. The ventilating and insulating comb tooth structure according to claim 1, wherein each of the heating comb teeth (3), each of the cooling comb teeth (4), and each of the insulating comb teeth (9) are uniformly distributed along a predetermined extending direction of the comb tooth portion (2).

8. The ventilating and heat insulating comb tooth structure according to any one of claims 1 to 7, further comprising mounting rings (10) embedded in the surface of the comb tooth part (2) and distributed around the periphery of each heating comb tooth (3), wherein each heat insulating comb tooth (9) is distributed on the surface of the mounting ring (10).

9. The ventilation and heat insulation comb tooth structure according to claim 8, wherein an air inlet loop (101) communicated with the heat dissipation channel is formed in the mounting ring (10), and each air injection hole (21) is formed in the surface of the mounting ring (10) and communicated with the air inlet loop (101).

10. A cooling and heating comb comprising a hand-held part (1) and a ventilating and heat insulating comb tooth structure connected with the hand-held part, characterized in that the ventilating and heat insulating comb tooth structure is a ventilating and heat insulating comb tooth structure according to any one of claims 1 to 9.

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