CN117481793B - Cold compress mechanism for dehairing instrument - Google Patents

Abstract

The invention discloses a cold compress mechanism for a dehairing instrument, and relates to the technical field of dehairing instruments. The cold compress mechanism for the dehairing instrument comprises an outer shell, an inner shell, a cold compress head, a laser dehairing component, an ice crushing air supply component, an ice inlet component, a heat conduction component, a drying component and a heat dissipation component. According to the cold compress mechanism for the dehairing instrument, through the matching design of the outer shell, the inner shell, the cold compress head and the crushed ice air supply assembly, ice cubes are added into the outer shell and the inner shell to serve as cold sources, and then the ice cubes are used for cold compress treatment on dehairing parts, so that the overall manufacturing cost and the use cost of the cold compress mechanism are reduced, the price of the dehairing instrument is reduced, and further the popularization and the use of the dehairing instrument are facilitated; can initiatively carry out crushing processing to the ice-cube, do benefit to the thermal transmission of ice-cube, promote the cold compress effect, in addition the setting of heat conduction subassembly, the transmission ice-cube heat is to the inner shell in, utilizes the forced air cooling to carry out the cold compress to the position that moults simultaneously, promotes the cold compress effect.

Description

Cold compress mechanism for dehairing instrument

Technical Field

The invention relates to the technical field of dehairing instruments, in particular to a cold compress mechanism for a dehairing instrument.

Background

The laser dehairing instrument is a dehairing mode which utilizes the heat energy emitted by laser to enable melanin on the hair to absorb the laser energy through irradiation to the skin so as to be converted into heat energy to go deep into hair follicles, and the skin hair follicles are damaged so as to achieve the dehairing effect; in this way, the hair follicle is destroyed, and long-term depilation effect can be achieved by adherence to use, but because thermal energy is adopted for depilation, certain pain can be generated in the using process.

The utility model provides a cold compress subassembly of appearance that moults of publication number CN112451087A, the appearance that moults includes the shell body, shell body surface is equipped with air intake and air exit, is equipped with in it: a light source assembly for generating light for removing hair; the light-transmitting crystal is at least partially positioned on the light path of the light emitted by the light source component, and at least one other part of the light-transmitting crystal is exposed from the outer shell to form a cold compress area for contacting with human skin; the cold compress assembly includes: the semiconductor refrigerating piece is used for refrigerating the light-transmitting crystal, and the refrigerating surface of the semiconductor refrigerating piece is contacted with one side wall of the light-transmitting crystal; the heat dissipation fan is used for sucking external airflow into the outer shell from the air inlet and then discharging the external airflow through the air outlet; the first part of the radiating frame is contacted with the heating surface of the semiconductor refrigerating sheet, the second part of the radiating frame is contacted with the outer wall of the light source assembly, and the third part of the radiating frame is positioned in the air path of the radiating fan, so that the cold compress effect is enhanced.

The cold compress component of the dehairing instrument utilizes the semiconductor refrigerating sheet and the air cooling mechanism to carry out cold compress on the dehairing part, so that the cost and the use cost are high, the frequency of using the dehairing instrument by a person user is less, and the high price is unfavorable for popularization and use of the dehairing instrument; for this reason, a cold compress mechanism for a dehairing instrument having a relatively low cost and a relatively low use cost is now provided to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and provides a cold compress mechanism for a dehairing instrument, which can solve the problems that the cold compress mechanism adopted by partial dehairing instruments has higher manufacturing cost and use cost and is not beneficial to popularization and use.

In order to achieve the above purpose, the present invention provides the following technical solutions: a cold compress mechanism for a dehairing instrument comprises an outer shell, an inner shell, a cold compress head, a laser dehairing component, an ice crushing air supply component, an ice inlet component, a heat conduction component, a drying component and a heat dissipation component;

the inner shell is arranged on the inner side of the outer shell, the laser depilation component is arranged on the inner side of the inner shell, the cold compress head is integrally connected to the same end face of the outer shell and the inner shell, an ice storage cavity is formed by the outer shell, the inner shell and the cold compress head in a surrounding mode, and a tail end cover capable of sealing the ice storage cavity is detachably arranged on the other end face of the outer shell;

the ice crushing air supply assembly is arranged at the end surfaces of the outer shell and the inner shell, which are far away from the cold compress head, and is used for crushing ice cubes entering the ice storage chamber defined among the outer shell, the inner shell and the cold compress head and conveying cold air to the cold compress head, and the ice inlet assembly is arranged on the tail end cover and can crush the ice cubes entering the ice storage chamber through the tail end cover;

The heat conduction assembly is arranged on the inner side of the inner shell and used for guiding heat in the ice storage cavity to the inner side of the inner shell, the drying assembly is arranged on the outer wall of the laser unhairing assembly and the outer shell and can dry air at the outer shell and the laser unhairing assembly, and the heat dissipation assembly is arranged between the outer shell and the laser unhairing assembly and can actively dissipate heat of the laser unhairing assembly.

Preferably, the broken ice air supply assembly comprises a cover plate, a double-shaft motor, an air supply fan blade and a broken ice blade, wherein the cover plate which can be used for sealing the broken ice is detachably arranged at the end face of the inner shell body, which is far away from the cold compress head, the double-shaft motor is arranged on the cover plate, one group of output shafts on the double-shaft motor extend into the inner side of the inner shell body through a coupler and are fixedly connected with the air supply fan blade, the air supply fan blade faces the laser unhairing assembly vertically, the other group of output shafts of the double-shaft motor are fixedly connected with the broken ice blade through the coupler, and the broken ice blade faces the inner side of the tail end cover.

Preferably, the ice inlet assembly comprises an ice inlet and a sealing cover, the outer wall of the tail end cover is integrally provided with the ice inlet through which ice cubes can pass, and the end part of the ice inlet is detachably provided with the sealing cover for sealing the ice inlet; the ice inlet assembly further comprises an ice breaking cone, a plurality of groups of ice breaking cones which are distributed in an array mode and vertically face the cover plate are integrally formed at the inner wall of the sealing cover, and the ice breaking cones can extend into the tail end cover and the inner side of the outer shell.

Preferably, the heat conduction assembly comprises heat conduction fins and opening parts, a plurality of groups of heat conduction fins axially distributed along the inner shell are arranged at the inner wall of the inner shell in an array manner, the heat conduction fins are of annular structural design, and a plurality of groups of opening parts circumferentially distributed and penetrating through the heat conduction fins are arranged on the surface of the heat conduction fins.

Preferably, the drying component comprises a net cover, an end cover plate and a net cover ring, two groups of net covers which are oppositely arranged are arranged at the outer wall of the laser unhairing component, end cover plates which can be plugged are connected at the two ends of the net cover, the end cover plate is detachably connected with the outer wall of the laser unhairing component, a net cover ring which is annularly and encircling the cold compress head is detachably connected at the position, close to the cold compress head, of the outer wall of the outer shell, and drying agents are filled in the net cover and the net cover ring.

Preferably, the heat dissipation assembly comprises air guide pipes, the outer walls of the outer shell and the inner shell are provided with heat dissipation openings, the positions of the heat dissipation openings on the outer shell and the inner shell are corresponding, the air guide pipes are integrally formed at the outer wall of the laser unhairing assembly and extend to the outer side of the outer shell through the heat dissipation openings on the outer shell and the inner shell, and the air guide pipes are integrally formed and connected with the heat dissipation openings; the heat dissipation assembly further comprises a heat dissipation fan and an air filter screen, the heat dissipation fan is arranged in the air guide pipe, the output end of the heat dissipation fan faces the direction away from the laser unhairing assembly, and the air filter screen is embedded and installed at the end part of the air guide pipe away from the laser unhairing assembly.

Preferably, the end face of the cold compress head away from the outer shell is integrally formed with a plurality of groups of air guide hole parts distributed along the circumferential direction of the cold compress head, and when the air supply fan blades convey air flow to the outer shell and the cold compress head, the air flow can be discharged out of the cold compress head through the air guide hole parts, and cold air can be blown to the outer side of the cold compress head through the air guide hole parts, so that the air cooling effect is not influenced.

Compared with the prior art, the invention has the beneficial effects that:

(1) The cold compress mechanism for the dehairing instrument is characterized in that through the matching design of the outer shell, the inner shell, the cold compress head and the crushed ice air supply assembly, ice cubes are added into the outer shell and the inner shell to serve as cold sources, and then the ice cubes are used for cold compress treatment on dehairing parts, so that the overall manufacturing cost and the use cost of the cold compress mechanism are reduced, the price of the dehairing instrument is reduced, and further the popularization and the use of the dehairing instrument are facilitated; can initiatively carry out crushing processing to the ice-cube, do benefit to the thermal transmission of ice-cube, promote the cold compress effect, in addition heat conduction subassembly's setting, the transmission ice-cube heat is to the inner shell in, utilizes the forced air cooling to unhairing position to carry out the cold compress simultaneously, promotes the cold compress effect, still can dispel the heat cooling to the laser assembly that moults and handle, reduces the laser and moults the possibility that the subassembly damaged fault condition appears because of overheated after long-time operation.

(2) The cold compress mechanism for the dehairing instrument can crush ice cubes by utilizing the ice crushing cone after filling the ice cubes into the outer shell and the inner shell through the matched design of the ice crushing air supply assembly, the tail end cover and the ice inlet assembly, so that the follow-up crushing operation of the ice crushing blade is facilitated, and the safety of the ice crushing blade is ensured; in addition, the drying assembly is arranged, so that air outside the outer shell and inside the inner shell can be dried, the condition of condensation water drops at the outer wall of the outer shell and the inner wall of the inner shell in the ice melting process can be reduced, and the condensation water drops can be absorbed at the same time, so that the interference of the water drops on the unhairing operation of the laser unhairing assembly due to the adhesion of the water drops on the skin of a user can be prevented; in addition, the heat dissipation assembly is arranged, so that heat dissipation treatment can be further carried out on the laser unhairing assembly, partial heat on the laser unhairing assembly is conveyed to the side edge of the outer shell, the interference to cold compress parts is reduced, and the stability of unhairing operation is guaranteed.

Drawings

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view A-A of the present invention;

FIG. 4 is an enlarged view of section A of the present invention;

FIG. 5 is a bottom view of the cover of the present invention;

FIG. 6 is a bottom view of the present invention;

Fig. 7 is a structural diagram of an air guide pipe according to the present invention.

Reference numerals: 1. an outer housing; 2. an inner housing; 3. a cold compress head; 4. a laser dehairing assembly; 5. an ice crushing air supply assembly; 51. a cover plate; 52. a biaxial motor; 53. air supply fan blades; 54. an ice crushing blade; 6. an ice charging assembly; 61. an ice inlet; 62. sealing cover; 63. an ice breaking cone; 7. a heat conducting component; 71. a heat conduction fin; 72. an opening part; 8. a drying assembly; 81. a mesh enclosure; 82. an end cover plate; 83. a mesh cover ring; 9. a heat dissipation assembly; 91. an air guide pipe; 92. a heat dissipation fan; 93. an air filter screen; 10. a tail end cover; 11. and an air guide hole part.

Detailed Description

Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present invention, but not to limit the scope of the present invention.

In the description of the present invention, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present invention and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, greater than, less than, exceeding, etc. are understood to exclude this number, and above, below, within, etc. are understood to include this number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present invention can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1-7, the present invention provides a technical solution: a cold compress mechanism for a dehairing instrument comprises an outer shell 1, an inner shell 2, a cold compress head 3, a laser dehairing component 4, a crushed ice air supply component 5, an ice inlet component 6, a heat conduction component 7, a drying component 8 and a heat dissipation component 9; the inner shell 2 is arranged on the inner side of the outer shell 1, the laser depilation component 4 is arranged on the inner side of the inner shell 2, the cold compress head 3 is integrally connected to the same end face of the outer shell 1 and the inner shell 2, an ice storage cavity is formed by enclosing the outer shell 1, the inner shell 2 and the cold compress head 3, ice cubes are added into the outer shell 1 and the inner shell 2 as cold sources, and then the depilation parts are subjected to cold compress treatment by the ice cubes, so that the overall cost and the use cost of the cold compress mechanism are reduced, the price of a depilation instrument is reduced, and the other end face of the outer shell 1 is detachably provided with a tail end cover 10 which can be used for sealing the depilation instrument; the ice crushing air supply assembly 5 is arranged at the end surfaces of the outer shell 1 and the inner shell 2, which are far away from the cold compress head 3, the ice crushing air supply assembly 5 is used for crushing ice cubes entering an ice storage chamber defined by the outer shell 1, the inner shell 2 and the cold compress head 3 and can convey cold air to the cold compress head 3, and the ice inlet assembly 6 is arranged on the tail end cover 10 and can crush the ice cubes entering the ice storage chamber through the tail end cover 10; the heat conduction component 7 is arranged on the inner side of the inner shell 2 and is used for guiding heat in the ice storage cavity to the inner side of the inner shell 2, the drying component 8 is arranged on the outer walls of the laser unhairing component 4 and the outer shell 1 and can dry air at the outer shell 1 and the laser unhairing component 4, and the heat dissipation component 9 is arranged between the outer shell 1 and the laser unhairing component 4 and can actively dissipate heat of the laser unhairing component 4.

Further, the crushed ice air supply assembly 5 comprises a cover plate 51, a double-shaft motor 52, an air supply fan blade 53 and an crushed ice blade 54, the end face of the inner shell 2 far away from the cold compress head 3 is detachably provided with the cover plate 51 which can be used for sealing the inner shell, the cover plate 51 is provided with the double-shaft motor 52, one group of output shafts on the double-shaft motor 52 extend into the inner side of the inner shell 2 through a coupler and are fixedly connected with the air supply fan blade 53, the air supply fan blade 53 faces the laser unhairing assembly 4 vertically, the other group of output shafts of the double-shaft motor 52 are fixedly connected with the crushed ice blade 54 through the coupler, the crushed ice blade 54 faces the inner side of the tail end cover 10, the end face of the cold compress head 3 far away from the outer shell 1 is integrally provided with a plurality of groups of air guide hole parts 11 which are distributed along the circumference, when the air supply fan blade 53 conveys air flow to the outer shell 1 and the cold compress head 3, the air flow can be discharged out of the cold compress head 3 through the air guide hole part 11, ice cubes can be actively crushed, heat transfer of the ice cubes is facilitated, the cold compress effect is improved, the heat conduction assembly 7 is arranged, heat of the ice cubes is transferred into the inner shell 2, meanwhile, the unhairing part is subjected to cold compress by air cooling, the cold compress effect is improved, the laser unhairing assembly 4 can be subjected to heat dissipation and cooling treatment, the ice inlet assembly 6 comprises an ice inlet 61 and a sealing cover 62, the ice inlet 61 for the ice cubes to pass through is integrally formed at the outer wall of the tail end cover 10, and the sealing cover 62 for sealing the ice inlet 61 is detachably arranged at the end part of the ice inlet 61; the ice inlet assembly 6 further comprises an ice breaking cone 63, a plurality of groups of ice breaking cones 63 which are distributed in an array and vertically face the cover plate 51 are integrally formed at the inner wall of the sealing cover 62, the ice breaking cones 63 can extend into the tail end cover 10 and the inner side of the outer shell 1, and after ice cubes are filled in the outer shell 1 and the inner shell 2, the ice cubes can be crushed by the ice breaking cones 63, so that the follow-up crushing operation of the ice crushing blade 54 is facilitated, and the safety of the ice crushing blade 54 is ensured.

Secondly, the heat conduction assembly 7 comprises heat conduction fins 71 and perforated parts 72, a plurality of groups of heat conduction fins 71 which are distributed along the axial direction of the inner shell 2 are arranged at the inner wall of the inner shell 2 in an array manner, the heat conduction fins 71 are of annular structural design, a plurality of groups of perforated parts 72 which are distributed along the circumferential direction and penetrate through the heat conduction fins 71 are arranged on the surface of the heat conduction fins 71, the drying assembly 8 comprises a mesh enclosure 81, end cover fins 82 and mesh enclosure rings 83, two groups of mesh enclosures 81 which are arranged oppositely are arranged at the outer wall of the laser unhairing assembly 4, the end cover fins 82 which can seal the mesh enclosures are connected with the two ends of the mesh enclosure 81, the end cover fins 82 are detachably connected with the outer wall of the laser unhairing assembly 4, a mesh enclosure ring 83 which is in annular surrounding design is detachably connected at the position close to the cold compress head 3 on the outer wall of the outer shell 1, drying agents are filled in the mesh enclosures 81 and the mesh enclosure ring 83, the air outside of the outer shell 1 and the inner shell 2 can be dried, condensation water droplets at the inner wall of the outer shell 1 and the inner wall of the inner shell 2 in the melting process can be lightened, and the condensation water droplets can be absorbed at the same time, and the condensation water droplets are prevented from being attached to the skin of a user, and the heat dissipation opening 91 is formed on the inner shell 2 and the outer shell 2, and the heat dissipation opening is formed by the heat conduction assembly 4 and the heat dissipation opening is connected with the heat dissipation opening 1; the heat dissipation subassembly 9 still includes heat dissipation fan 92 and air filter 93, and the inside of guide duct 91 is provided with heat dissipation fan 92, and the output orientation of heat dissipation fan 92 is kept away from the direction that laser unhairing assembly 4, and the guide duct 91 is kept away from the tip that laser unhairing assembly 4 is inlayed and is installed air filter 93, can further carry out the heat dissipation to laser unhairing assembly 4 and handle, carries the lateral edge of the outside casing 1 of partial heat on the laser unhairing assembly 4, reduces the interference to the cold compress position.

Working principle: opening the sealing cover 62, putting ice cubes into the outer shell 1 through the sealing cover 62, positioning the ice cubes on the cover plate 51 at the moment, reinstalling the sealing cover 62 on the ice inlet 61, and crushing the ice cubes by the ice breaking cone 63; the double-shaft motor 52 is controlled to start to drive the ice crushing blade 54 to rotate, the ice crushing blade 54 crushes ice cubes, the crushed ice cubes fall into an ice storage cavity between the outer shell 1, the inner shell 2 and the cold compress head 3, the heat of the ice cubes is transferred to the cold compress head 3 and the heat conducting fins 71, and in the dehairing process, the cold compress head 3 is contacted with the skin of a user, so that the cold compress effect is achieved;

The double-shaft motor 52 drives the air supply fan blade 53 to rotate simultaneously, the air supply fan blade 53 conveys the air current to the cold compress head 3, the air current takes away the heat when passing through the heat conduction fin 71 and the trompil portion 72, reach the effect of carrying cold wind, and then realize forced air cooling cold compress processing, when cold compress head 3 and user skin contact, cold wind accessible wind-guiding hole portion 11 blows the outside to cold compress head 3, can not influence forced air cooling effect, the drier absorbs the drop of water that the ice-cube produced in-process of melting in screen panel 81 and the screen panel ring 83, open the radiator fan 92, can carry out forced air cooling heat dissipation to the heat that the laser assembly 4 produced in operation.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present invention.

Claims (9)

1. A cold compress mechanism for a depilatory device, comprising:

The device comprises an outer shell (1), an inner shell (2), a cold compress head (3) and a laser unhairing component (4), wherein the inner shell (2) is arranged on the inner side of the outer shell (1), the laser unhairing component (4) is arranged on the inner side of the inner shell (2), the cold compress head (3) is integrally connected to the same end face of the outer shell (1) and the inner shell (2), an ice storage cavity is formed by encircling the outer shell (1), the inner shell (2) and the cold compress head (3), and a tail end cover (10) capable of sealing the ice storage cavity is detachably arranged at the other end face of the outer shell (1);

The ice crushing and air supplying assembly (5) and the ice inlet assembly (6), the ice crushing and air supplying assembly (5) is arranged at the end faces of the outer shell (1) and the inner shell (2) far away from the cold compress head (3), the ice crushing and air supplying assembly (5) is used for crushing ice cubes entering the ice storage chamber defined among the outer shell (1), the inner shell (2) and the cold compress head (3) and conveying cold air to the cold compress head (3), and the ice inlet assembly (6) is arranged on the tail end cover (10) and can crush the ice cubes entering the ice storage chamber through the tail end cover (10);

The device comprises a heat conduction assembly (7), a drying assembly (8) and a heat dissipation assembly (9), wherein the heat conduction assembly (7) is arranged on the inner side of an inner shell (2) and used for guiding heat in an ice storage cavity to the inner side of the inner shell (2), the drying assembly (8) is arranged on the outer wall of a laser unhairing assembly (4) and an outer shell (1) and can dry air at the outer shell (1) and the laser unhairing assembly (4), and the heat dissipation assembly (9) is arranged between the outer shell (1) and the laser unhairing assembly (4) and can actively dissipate heat of the laser unhairing assembly (4).

2. A cold compress mechanism for a depilatory device according to claim 1, wherein: the utility model provides an ice crushing air supply subassembly (5) includes apron (51), biax motor (52), air supply flabellum (53) and ice crushing blade (54), the terminal surface department detachably who keeps away from cold compress head (3) of inner shell (2) installs can be with its confined apron (51), be provided with biax motor (52) on apron (51), one of them a set of output shaft stretches into the inboard of inner shell (2) and fixedly connected with air supply flabellum (53) on biax motor (52) through the shaft coupling, air supply flabellum (53) are perpendicular towards laser assembly (4) department that moults, another set of output shaft of biax motor (52) passes through shaft coupling fixedly connected with ice crushing blade (54), the inboard of ice crushing blade (54) towards tail end cover (10).

3. A cold compress mechanism for a depilatory device according to claim 2, wherein: the ice inlet assembly (6) comprises an ice inlet (61) and a sealing cover (62), the ice inlet (61) through which ice cubes can pass is integrally formed in the outer wall of the tail end cover (10), and the sealing cover (62) used for sealing the ice inlet (61) is detachably arranged at the end part of the ice inlet (61).

4. A cold compress mechanism for a depilatory device according to claim 3, wherein: the ice inlet assembly (6) further comprises an ice breaking cone (63), a plurality of groups of ice breaking cones (63) which are distributed in an array and vertically face the cover plate (51) are integrally formed at the inner wall of the sealing cover (62), and the ice breaking cones (63) can extend into the tail end cover (10) and the inner side of the outer shell (1).

5. The cold compress mechanism for a depilatory device according to claim 4, wherein: the heat conduction assembly (7) comprises heat conduction fins (71) and opening parts (72), a plurality of groups of heat conduction fins (71) which are axially distributed along the inner shell (2) are arranged at the inner wall of the inner shell (2) in an array mode, the heat conduction fins (71) are of annular structure design, and a plurality of groups of opening parts (72) which are circumferentially distributed and penetrate through the heat conduction fins (71) are formed in the surface of the heat conduction fins (71).

6. A cold compress mechanism for a depilatory device according to claim 5, wherein: drying component (8) are including screen panel (81), end cover piece (82) and screen panel ring (83), the outer wall department of laser assembly (4) that moults is provided with screen panel (81) that two sets of relatively set up, the both ends department of screen panel (81) all is connected with end cover piece (82) that can with its shutoff, end cover piece (82) are connected with the outer wall of laser assembly (4) detachably and are set up, be close to the screen panel ring (83) of cold compress head (3) detachable in position department on the outer wall of shell body (1) are connected with and are annular surrounding design, the inside of screen panel (81) and screen panel ring (83) is all filled with the drier.

7. The cold compress mechanism for a depilatory device according to claim 6, wherein: the heat dissipation assembly (9) comprises an air guide pipe (91), heat dissipation openings are formed in the outer wall of the outer shell (1) and the outer wall of the inner shell (2), the positions of the heat dissipation openings in the outer shell (1) and the inner shell (2) are corresponding, the air guide pipe (91) is integrally formed in the outer wall of the laser unhairing assembly (4), the air guide pipe (91) penetrates through the heat dissipation openings in the outer shell (1) and the inner shell (2) to extend to the outer side of the outer shell (1), and the air guide pipe (91) is integrally formed and connected with the heat dissipation openings.

8. A cold compress mechanism for a depilatory device according to claim 7, wherein: the radiating assembly (9) further comprises a radiating fan (92) and an air filter screen (93), the radiating fan (92) is arranged in the air guide pipe (91), the output end of the radiating fan (92) faces the direction away from the laser unhairing assembly (4), and the air filter screen (93) is embedded and installed at the end part, away from the laser unhairing assembly (4), of the air guide pipe (91).

9. The cold compress mechanism for a depilatory device according to claim 8, wherein: the cold compress head (3) is provided with a plurality of groups of air guide hole parts (11) distributed along the circumferential direction of the cold compress head (3) which are integrally formed at the end face away from the outer shell (1), and when the air supply fan blades (53) convey air flow to the outer shell (1) and the cold compress head (3), the air flow can be discharged out of the cold compress head (3) through the air guide hole parts (11).