CN218739124U - Unhairing instrument - Google Patents

Abstract

The embodiment of the utility model relates to the field of nursing appliances, in particular to a depilating apparatus, which comprises a shell, a hair-removing device and a hair-removing device, wherein the shell is provided with a containing cavity and a first opening communicated with the containing cavity; the cold compress assembly is arranged in the accommodating cavity and comprises a cold compress piece, and the cold compress piece is positioned at the first opening; the illumination assembly is arranged in the accommodating cavity and used for emitting light; the light filter is arranged in the accommodating cavity, and light rays emitted by the illumination assembly sequentially pass through the light filter and the cold compress piece and are output; the sealing piece is provided with a light-transmitting through hole penetrating through the first surface and the second surface of the sealing piece, the sealing piece is located between the cold compress piece and the optical filter, the first surface of the sealing piece is abutted to the cold compress piece, the second surface of the sealing piece is abutted to the optical filter, the sealing piece is used for sealing the periphery of a gap between the cold compress piece and the optical filter, the light-transmitting through hole is used for allowing light to pass through, and the first surface and the second surface are arranged oppositely. In this way, the embodiment of the utility model provides a can reduce the influence of steam to the light filter.

Description

Unhairing instrument

Technical Field

The embodiment of the utility model provides a relate to nursing utensil technical field, especially relate to an appearance that moults.

Background

At present, what present appearance of mouling mainly adopted is discontinuous Intense pulse Light (IPL for short) technique, and is specific, and the appearance of mouling includes illumination subassembly, light filter and cold compress subassembly usually, and the Intense pulse Light of illumination subassembly output passes through Light filter and cold compress subassembly in proper order, and the Light filter is used for filtering harmful Light, and the cold compress subassembly is used for attaching in the user, and the temperature of cold compress subassembly is lower, is favorable to reducing the Intense pulse Light and scalds the user.

The utility model discloses an inventor is realizing the utility model discloses an in-process discovers: because the clearance between cold compress subassembly and the light filter is open to the temperature of cold compress subassembly is lower, when steam got into the clearance between cold compress subassembly and the light filter, steam condenses easily and forms the drop of water, and the drop of water of formation easily attaches to the surface that faces the light filter or cold compress subassembly, easily causes the loss of light to the refraction of intense pulse light production or reflection, thereby influences the result of use that the appearance moults.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the embodiment of the utility model provides a depilate appearance has improved above-mentioned drop of water and has easily attached to the surface that light filter or cold compress subassembly face the light filter, easily causes the loss of light to strong pulse light production refraction or reflection to influence the result of use scheduling problem that depilates the appearance.

According to an aspect of the embodiment of the utility model, a appearance that moults is provided, including casing, cold compress subassembly, illumination subassembly, light filter and sealing member. The casing is provided with and holds chamber and intercommunication hold the first opening in chamber, the cold compress subassembly set up in hold the chamber, the cold compress subassembly includes the cold compress piece, the cold compress piece is located first opening part, the illumination subassembly is located hold the chamber, the illumination subassembly is used for emission, the light filter set up in hold the chamber, wherein, the light that the illumination subassembly transmitted exports after light filter and cold compress piece in proper order, in addition, the sealing member is provided with and runs through the printing opacity through-hole on the first surface of sealing member and second surface, the sealing member is located the cold compress piece with between the light filter, the first surface and the cold compress piece butt of sealing member, the second surface of sealing member with the light filter butt, the sealing member is used for sealing the periphery in the clearance between cold compress piece and the light filter, the printing opacity through-hole is used for supplying light passes through, first surface and second surface set up relatively.

In an optional mode, a first sealing groove is formed in the first surface of the sealing element, the light-transmitting through hole penetrates through the groove bottom and the second surface of the first sealing groove, one end, close to the optical filter, of the cold compress piece is contained in the first sealing groove, and one end, close to the optical filter, of the cold compress piece abuts against the groove bottom of the first sealing groove.

In an optional manner, a sidewall of the first sealing groove may also abut against a sidewall of the cold dressing.

In an optional mode, a second sealing groove is formed in the second surface of the sealing element, the light-transmitting through hole penetrates through the groove bottom and the first surface of the second sealing groove, the optical filter is contained in the second sealing groove, the optical filter covers the light-transmitting through hole, and the optical filter abuts against the groove bottom of the second sealing groove.

In an optional manner, a sidewall of the second sealing groove further abuts against a sidewall of the filter.

In an optional manner, the second surface of the sealing member extends toward the filter to form an annular protrusion, and the annular protrusion abuts against the filter.

In an alternative mode, the cross section of the annular convex part is in a spike shape, and the cross section of the annular convex part is a cross section of the annular convex part along a direction perpendicular to the first surface to the second surface.

In an optional manner, the sealing member is made of at least one of silicone rubber, fluorosilicone rubber, chloroprene rubber, nitrile rubber, urethane rubber, hydrogenated nitrile rubber, acrylate rubber, ethylene propylene diene monomer rubber, and butyl rubber.

In an optional mode, the depilating apparatus further includes a mounting bracket, the mounting bracket is disposed in the accommodating cavity, the mounting bracket is provided with an accommodating cavity and a second opening, and the second opening communicates the accommodating cavity and the accommodating cavity; the illumination assembly and the optical filter are fixed in the accommodating cavity, the sealing element and the cold compress element are fixed in the second opening, and one end, far away from the sealing element, of the cold compress element extends out of the second opening and is connected to the first opening in an inserting mode.

In an optional mode, the installing support includes support body and lower support body, go up support body and lower support body and can dismantle the connection, the second opening all sets up in lower support body with acceping the chamber.

In an optional mode, the wall of the accommodating cavity is provided with a first insertion groove and a second insertion groove, the first insertion groove and the second insertion groove are formed by sinking the other end of the upper frame body from one end, close to the upper frame body, of the lower frame body to the other end, far away from the lower frame body, of the upper frame body, the two ends of the optical filter are respectively inserted into the first insertion groove and the second insertion groove, and the upper frame body is abutted to one side, far away from the optical filter, of the lower frame body.

In an alternative mode, a first limiting part and a second limiting part are arranged on the opposite wall surfaces of the second opening; the cold compress piece comprises a first side wall and a second side wall which are arranged oppositely, the first side wall is provided with a first limiting groove, the second side wall is provided with a second limiting groove, the first limiting portion is inserted into the first limiting groove, the first limiting portion is inserted into the second limiting groove, the upper frame body abuts against a third side wall of the cold compress piece, and the third side wall is perpendicular to the first side wall and the second side wall respectively.

In an alternative mode, the mounting bracket is provided with a cooling channel and an inlet and an outlet which are communicated with the cooling channel, and the cooling channel is communicated with the accommodating cavity; the depilating instrument comprises a cooling driver, the cooling driver is located in the accommodating cavity and is connected with the inlet of the cooling channel, and the cooling driver can be used for driving an external cooling medium to circulate from the inlet of the cooling channel to the outlet of the cooling channel.

In an alternative form, the cold application portion includes a refrigeration member for refrigerating the cold application member, the refrigeration member being disposed on the mounting bracket; the appearance that moults includes heat-conducting piece and radiator unit, radiator unit set up in hold the intracavity, heat-conducting piece set up in on the installing support, heat-conducting piece's one end with refrigeration piece contact, heat-conducting piece's the other end with radiator unit butt.

In an optional mode, the heat dissipation assembly comprises a heat dissipation box body and a plurality of heat dissipation fins, the heat dissipation box body is provided with a heat dissipation space, a side wall of the heat dissipation box body is provided with a first heat dissipation port, a top wall of the heat dissipation box body is provided with a second heat dissipation port, the plurality of heat dissipation fins are arranged at intervals in the heat dissipation space, the heat dissipation space is divided into a plurality of heat dissipation channels, the plurality of heat dissipation channels are communicated with the first heat dissipation port and the second heat dissipation port, the cooling driver is connected with the first heat dissipation port or the second heat dissipation port, and the cooling driver can be used for driving an external cooling medium to circulate in the plurality of heat dissipation channels.

In an optional mode, the illumination subassembly includes light source, two mounts and reflecting plate, two mount intervals are fixed in on the installing support, one end of light source is fixed in one the mount, the other end of light source is fixed in another the mount, the reflecting plate is fixed in the installing support, just the reflecting plate is located the light source deviates from one side of cold compress, the reflecting plate with the light emission of light source gather in the cold compress.

The embodiment of the utility model provides a beneficial effect is: be different from prior art's condition, the embodiment of the utility model provides a through being provided with casing, cold compress subassembly, illumination subassembly, light filter and sealing member. Wherein, the casing is provided with and holds chamber and intercommunication hold the first opening in chamber, the cold compress subassembly set up in hold the chamber, the cold compress subassembly includes the cold compress piece, the cold compress piece is located first opening part, the illumination subassembly is located hold the chamber, the illumination subassembly is used for emission light, the light filter set up in hold the chamber, the light of illumination subassembly transmission is exported after light filter and cold compress piece in proper order, in addition, the sealing member is provided with and runs through the printing opacity through-hole of the first surface of sealing member and second surface, the sealing member is located between the cold compress piece with between the light filter, the first surface and the cold compress piece butt of sealing member, the second surface of sealing member with the light filter butt, the sealing member is used for sealing the periphery in the clearance between cold compress piece and the light filter, the printing opacity through-hole is used for supplying light passes through, first surface and second surface set up relatively, set up like this, the direct contact between sealing member and the cold compress piece can reduce the influence of the air filter collision between the filter collision and the filter, thereby can reduce the dust and get into in addition and reduce the clearance in the filter and the filter, and the dust and get into the clearance, thereby the dust and reduce the dirt in addition, reduce the filter adhesion effect that the dirt in the product falls.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of the overall structure of a depilating device according to an embodiment of the present invention;

fig. 2 is an exploded view of the whole structure of the depilating device in the embodiment of the present invention;

FIG. 3 is an exploded view of a portion of the depilating device in accordance with an embodiment of the present invention;

FIG. 4 is another exploded perspective view of the whole structure of the depilating device of the present invention;

FIG. 5 is another exploded view of a portion of the depilating device according to the embodiment of the present invention;

FIG. 6 is an enlarged view of the structure at A in FIG. 5;

FIG. 7 is a schematic diagram of a depilating apparatus according to an embodiment of the present invention, further illustrating an exploded view;

FIG. 8 is a schematic diagram of the overall structure of a sealing member of a depilating apparatus according to an embodiment of the present invention;

FIG. 9 is a schematic view of the overall structure of a sealing member of another embodiment of the hair removal device;

FIG. 10 is a schematic view of the sealing member of the depilating apparatus of the present invention in another angle;

fig. 11 is a further exploded view of the overall structure of a depilating apparatus in accordance with an embodiment of the present invention;

FIG. 12 is an exploded view of another embodiment of the depilating apparatus of the present invention;

fig. 13 is an exploded view of another angle of the structure of another portion of a depilating apparatus in accordance with an embodiment of the present invention.

Detailed Description

To facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In addition, the technical features mentioned in the different embodiments of the present application described below may be combined with each other as long as they do not conflict with each other.

Referring to fig. 1-3, the epilating apparatus 1000 includes a housing 10, a cold compress assembly 20, a light assembly 30, a mounting bracket 40, a filter 50, a sealing member 60, a cooling driver 70, a control assembly 80, a heat conducting member 90, a heat dissipating assembly 100, and a control switch 110. Wherein, cold compress subassembly 20, illumination subassembly 30, light filter 50, sealing member 60 all set up in the installing support 40, installing support 40 is located in the casing 10, control switch 110 is located on the casing 10, control assembly 80's partial component is located on the casing 10, cooling driver 70, heat-conducting piece 90 and radiator unit 100 all are located in the casing 10, cold compress subassembly 20, illumination subassembly 30, cooling driver 70 and control switch 110 all with control assembly 80 electricity is connected, the light warp of illumination subassembly 30 transmission is again to cold compress subassembly 20 through light filter 50, and cold compress subassembly 20 is laminated on user's skin again. The housing 10, the cooling module 20, the lighting module 30, the mounting bracket 40, the filter 50, the sealing member 60, the cooling driver 70, the control module 80, the heat conducting member 90, the heat dissipating module 100, and the control switch 110 will be described in detail below.

With regard to the housing 10, as shown in fig. 4, the housing 10 is provided with a receiving cavity 10a and a first opening 10b communicating with the receiving cavity 10a, and the receiving cavity 10a can receive the mounting bracket 40, the heat conducting member 90, the heat dissipating assembly 100, and the like. The casing 10 includes epitheca 101, inferior valve 102, top shell 103 and drain pan 104, it is fixed between epitheca 101, inferior valve 102, top shell 103 and the drain pan 104, wherein, be provided with first cavity 101a on the epitheca 101, be provided with second cavity 102a on the inferior valve 102, the epitheca 101 is connected with the lower valve 102, first cavity 101a and second cavity 102a intercommunication form the open chamber 10a that holds, top shell 103 and drain pan 104 are connected respectively in epitheca 101 and the integrative both sides of inferior valve 102 connection to enclose and close and form the confined chamber 10a that holds, top shell 103 and drain pan 104 are located the epitheca 101 with between the lower valve 102. It can be understood that: the upper shell 101, the lower shell 102, the top shell 103 and the bottom shell 104 may be fixed by any fixing method, including but not limited to screwing, clipping, and the like, and may also be integrally formed. Optionally, the upper casing 101, the lower casing 102, the top casing 103, and the bottom casing 104 are assembled in a snap-fit manner, so that the casing 10 is conveniently disassembled and maintained. Wherein the first opening 10b is located on the top case 103, and the first opening 10b can be used for placing part of the components of the cold compress assembly 20, so as to facilitate cold compress for a user.

In some embodiments, the housing 10 is further provided with a first guiding port 105, the first guiding port 105 is communicated with the accommodating cavity 10a, the first guiding port 105 is arranged at the joint of the upper shell 101 and the lower shell 102, and the first guiding port 105 facilitates the external cooling medium flowing through the inside of the mounting bracket 40 to flow out of the housing 10.

In some embodiments, the housing 10 is further provided with a second guiding opening 106, the second guiding opening 106 is communicated with the accommodating cavity 10a, the second guiding opening 106 is located on the lower shell 102, the second guiding opening 106 is opposite to the heat dissipating opening on the heat dissipating assembly 100, and the second guiding opening 106 can facilitate the external cooling medium flowing through the heat dissipating assembly 100 to flow out of the housing 10.

In some embodiments, the housing 10 is provided with a mounting opening 107, the mounting opening 107 is located at a joint of the upper shell 101 and the housing 10, the mounting opening 107 can facilitate the mounting of the control switch 110, and when a user uses the product, the user holds the housing 10 with his hand, and the control switch 110 is located close to the position of the user's finger, which facilitates the user to turn on/off the control switch 110.

In some embodiments, an external port 108 is disposed on the housing 10, the external port 108 is electrically connected to the control assembly 80, the external port 108 is disposed on the bottom case 104, and the external port 108 can be used for externally connecting an external device.

As shown in fig. 4 and 5, the mounting bracket 40 is disposed in the accommodating cavity 10a of the housing 10, the mounting bracket 40 is provided with an accommodating cavity 40a and a second opening 40b, the second opening 40b communicates the accommodating cavity 40a and the accommodating cavity 10a, and the accommodating cavity 40a can be used for accommodating some components of the cold compress assembly 20, the illumination assembly 30, the optical filter 50 and the sealing member 60. The mounting bracket 40 includes an upper bracket body 401 and a lower bracket body 402 detachably connected to the upper bracket body 401, and optionally, both the second opening 40b and the receiving cavity 40a are disposed on the lower bracket body 402. It can be understood that: the structure of the mounting bracket 40 is not limited to the above, and may be other structures, for example: the upper frame body 401 is provided with a first accommodating space, the lower frame body 402 is provided with a second accommodating space, and when the upper frame body 401 is connected with the lower frame body 402, the first accommodating space is communicated with the second accommodating space to form the accommodating cavity 40a.

In some embodiments, the mounting bracket 40 is provided with a cooling channel 403 and an inlet 403a and an outlet 403b communicating with the cooling channel 403, the cooling channel 403 is communicated with the receiving cavity 40a, and an external cooling medium can flow through the cooling channel 403 for dissipating heat of the components such as the cold compress device 20 and the lighting device 30.

In some embodiments, referring to fig. 6, the wall surface of the accommodating cavity 40a is provided with a first insertion groove 404 and a second insertion groove 405, the first insertion groove 404 and the second insertion groove 405 are recessed from one end of the lower frame 402 close to the upper frame 401 to the other end of the lower frame 402 away from the upper frame 401, two ends of the optical filter 50 are respectively inserted into the first insertion groove 404 and the second insertion groove 405, the upper frame 401 abuts against one side of the optical filter 50 away from the lower frame 402, so as to fix the optical filter 50, and at the same time, the optical filter 50 can be limited in the direction from the first opening 10b to the second opening 40 b. When the upper frame 401 is separated from the lower frame 402, the optical filter 50 can be conveniently detached from the first insertion groove 404 and the second insertion groove 405.

In some embodiments, the opposing walls of the second opening 40b are provided with a first position-limiting portion 406 and a second position-limiting portion 407, and the first position-limiting portion 406 and the second position-limiting portion 407 can limit parts of the components in the cold compress assembly 20.

With regard to the cold compress assembly 20, as shown in fig. 2 and 5, the cold compress assembly 20 includes a cold compress part 201, a cooling part 202 for cooling the cold compress part 201, and a flexible circuit board 203, the flexible circuit board 203 is electrically connected to the cooling part 202 and the control assembly 80, the flexible circuit board 203 is disposed on the mounting bracket 40 and is disposed around the second opening 40b, the cold compress part 201 is fixed to the second opening 40b, one end of the cold compress part 201 away from the sealing part 60 extends out of the second opening 40b and is inserted into the first opening 10b, and the cooling part 202 is disposed on the mounting bracket 40. When using the appearance product that moults, cold compress 201 and user's skin laminating, the light warp of illumination subassembly 30 transmission the hair follicle that cold compress 201 shines to user's skin utilizes light to penetrate skin irradiation hair follicle and moults, cold compress 201 can rapid cooling in order to reduce the burning hot sense that light brought, keeps the travelling comfort. Preferably, the cold compress 201 is made of a crystal material, specifically sapphire, K9 glass, or crystal glass, and only needs to be made of a transparent crystal material, and optionally, is made of a sapphire material.

It can be understood that, because the cold compress 201 is made of sapphire, the cold compress 201 can also be used as a light outlet, and when the illumination assembly 30 emits light, the sapphire has a strong heat conduction performance, so that the refrigeration piece 202 and the cold compress 201 can efficiently generate heat exchange, thereby achieving an optimal refrigeration effect. Alternatively, the shape of the cold compress 201 may be a circular plate, a rectangular plate, and is not limited herein. The surface of the cold compress 201 away from the illumination assembly 30 is in contact with the human body, and the contact surface may be a curved surface or a flat surface, preferably a flat surface.

In some embodiments, referring to fig. 6, the cold compress 201 includes a first side wall and a second side wall that are disposed opposite to each other, the first side wall is provided with a first limiting groove 2011, the second side wall is provided with a second limiting groove 2012, the first limiting portion 406 is inserted into the first limiting groove 2011, the second limiting portion 407 is inserted into the second limiting groove 2012, the upper frame body 401 abuts against a third side wall of the cold compress 201, and the third side wall is perpendicular to the first side wall and the second side wall, respectively. The cold compress 201 is limited in the direction from the first opening 10b to the second opening 40b by inserting the first limiting portion 406 into the first limiting groove 2011 and inserting the second limiting portion 407 into the second limiting groove 2012.

As for the above-mentioned illumination assembly 30 and the optical filter 50, as shown in fig. 2, 4 and 7, the illumination assembly 30 is disposed in the accommodating cavity 10a, the illumination assembly 30 is used for emitting light, the emitted light irradiates the hair follicle of the skin of the user, and the hair follicle is irradiated by the light penetrating the skin to perform hair removal. The optical filter 50 is located between the illumination assembly 30 and the cold compress 201, and the optical filter 50 can filter the light emitted by the illumination assembly 30 and filter some emitted harmful light, so that the light emitted by the illumination assembly 30 can safely and effectively remove hair from the skin of a user.

Specifically, illumination subassembly 30 includes light source 301, two mounts 302 and reflecting plate 303, two mounts 302 intervals are fixed in on the installing support 40, the one end of light source 301 is fixed in one mount 302, the other end of light source 301 is fixed in another mount 302, reflecting plate 303 is fixed in installing support 40, just reflecting plate 303 is located light source 301 deviates from one side of cold compress piece 201, reflecting plate 303 will the light transmission of light source 301 gather in cold compress piece 201. It can be understood that: the shape of the reflective plate 303 is not particularly limited in this embodiment, as long as the light from the light source 301 is concentrated toward the cold compress 201, and optionally, the reflective plate 303 has a U-shape, and the opening of the reflective plate 303 is disposed toward the cold compress 201. The light source 301 is located in the center of the U-shaped opening of the reflection plate 303, and the reflection plate 303 not only has the function of concentrating light, but also can prevent heat generated by the light source 301 during working from being dissipated to other positions to affect other elements.

It should be noted that: the light source 301 may be an IPL lamp tube and is located on a side of the cold compress 201 away from the human body, and light emitted from the lamp tube is emitted to the skin of the user through the optical filter 50 and the cold compress 201, wherein the color of the light emitted from the lamp tube is not specifically limited in this embodiment, the color of the light may be color light, composite light, and the like, and the specific wavelength and frequency may be determined according to actual conditions.

With regard to the sealing member 60, as shown in fig. 7 and 8, the sealing member 60 is disposed between the cold compress 201 and the optical filter 50 and fixed to the second opening 40b, and the sealing member 60 can seal the periphery of the gap between the cold compress 201 and the optical filter 50, so as to reduce the entrance of dust or dirt in the air into the gap between the cold compress 201 and the optical filter 50, and further reduce the formation of water drops in the gap for attaching to the optical filter 50, thereby further reducing the influence of the water drops on the intense pulsed light. Specifically, the sealing member 60 is provided with a light-transmitting through hole 60a penetrating through a first surface and a second surface of the sealing member 60, the first surface of the sealing member 60 abuts against the cold compress 201, and the second surface of the sealing member 60 abuts against the optical filter 50. Wherein, the light emitted by the illumination assembly 30 can pass through the light-transmitting through hole, and the first surface and the second surface are arranged oppositely.

In some embodiments, in order to reduce the influence of the surrounding environment (too cold or too hot), it is generally necessary to ensure that the sealing member 60 has the characteristics of high and low temperature resistance and laser resistance (light emitted by the illumination assembly), and thus, the material of the sealing member 60 may be at least one of silicon rubber, fluorosilicone rubber, neoprene rubber, nitrile rubber, polyurethane rubber, hydrogenated nitrile rubber, acrylate rubber, ethylene propylene diene monomer rubber, and butyl rubber.

In some embodiments, a first sealing groove 601 is disposed on a first surface of the sealing element 60, the light-transmitting through hole penetrates through a groove bottom and a second surface of the first sealing groove 601, one end of the cold compress 201 close to the optical filter 50 is contained in the first sealing groove 601, one end of the cold compress 201 close to the optical filter 50 abuts against the groove bottom of the first sealing groove 601, primary sealing is completed by abutting the groove bottom of the first sealing groove 601 against the cold compress 201, the first sealing groove 601 can contain one end of the cold compress 201 close to the optical filter 50, and external moisture or dust is further reduced from entering a gap between the cold compress 201 and the optical filter 50. Preferably, the sidewall of the first sealing groove 601 is further abutted against the cold compress 201, and the sidewall of the first sealing groove 601 is abutted against the sidewall of the cold compress 201, so that double sealing is completed, and the sealing effect of the sealing member 60 is better.

In some embodiments, referring to fig. 9, a second sealing groove 602 is disposed on a second surface of the sealing element 60, the light-transmitting through hole penetrates through a groove bottom and a first surface of the second sealing groove 602, the optical filter 50 is accommodated in the second sealing groove 602, the optical filter 50 covers the light-transmitting through hole, the optical filter 50 abuts against the groove bottom of the second sealing groove 602, primary sealing is completed by abutting the groove bottom of the second sealing groove 602 against the optical filter 50, and the second sealing groove 602 can accommodate the optical filter 50, so as to further reduce external moisture or dust from entering a gap between the cold compress 201 and the optical filter 50. Preferably, the sidewall of the second sealing groove 602 is further abutted against the sidewall of the optical filter 50, and the sidewall of the second sealing groove 602 is abutted against the sidewall of the optical filter 50, so that double sealing is completed, and the sealing effect of the sealing element 60 is better. It can be understood that: the sealing element 60 may be provided with both the first sealing groove 601 and the second sealing groove 602, or may be provided with only the first sealing groove 601 or the second sealing groove 602, which is not specifically limited in this embodiment.

In some embodiments, referring to fig. 10, an annular protrusion 603 extends from the second surface of the sealing element 60 toward the filter 50, the annular protrusion 603 abuts against the filter 50, and the annular protrusion 603 can better fit the sealing element 60 and the filter 50. Optionally, the cross section of the annular protrusion 603 is spike-shaped, and the cross section of the annular protrusion 603 is a cross section of the annular protrusion 603 along a direction perpendicular to the first surface toward the second surface. On the basis that the first surface of the sealing element 60 is abutted against the cold compress 201 to complete sealing, the cross section of the annular convex part 603 is in a sharp-pointed shape, so that the contact area between the second surface of the sealing element 60 and the optical filter 50 is reduced, the blocking of the sealing element 60 to the light filtered by the optical filter 50 is reduced, and the loss of the light is reduced.

As shown in fig. 4 and 11, for the control module 80 and the control switch 110, the control switch 110 is connected to the control, the control switch 110 is used for controlling the on/off of the control module 80, and the control switch 110 is disposed at the mounting opening 107 on the housing 10. The control assembly 80 includes a control panel 801, a main control panel 802, a sub-control panel 803, a processor and a capacitor 804, wherein the processor is disposed on the main control panel 802, the capacitor 804 is electrically connected to the main control panel 802 and the sub-control panel 803, the main control panel 802 and the sub-control panel 803 are electrically connected to the cold compress assembly 20 and the illumination assembly 30, the sub-control panel 803 is disposed opposite to the control panel 801, the control panel 801 is disposed on the upper case 101, the control panel 801 is electrically connected to the main control panel 802 and the sub-control panel 803, a switch key 8011 is disposed on the control panel 801, and the switch key 8011 can be used for controlling the illumination assembly 30 to emit light. The control panel 801 is further provided with a light guide piece 8012, the light guide piece 8012 is connected with the auxiliary control panel 803, and the light guide piece 8012 can play a role in illumination, so that a user can conveniently press the switch key 8011 in a dark environment. Optionally, the auxiliary control board 803 is a lamp panel, light on the lamp panel can be displayed through the control panel 801, and the lamp panel can display the light intensity emitted by the illumination assembly 30 by using the number of the light emitting tubes, for example: when the quantity of luminous fluorescent tube on the lamp plate was 1, the explanation the light intensity of illumination subassembly 30 transmission is general, when the quantity of luminous fluorescent tube on the lamp plate was 4, the explanation the light intensity of illumination subassembly 30 transmission is stronger, can understand, corresponds different light intensity, and the effect of mouling that the appearance that moults can reach is different, and convenient to use person selects.

In some embodiments, the illumination assembly 30 is electrically connected to the control assembly 80, and the control assembly 80 can provide power for the illumination assembly 30 and control the operation of the illumination assembly 30, so that the illumination assembly can be used without being plugged into an external circuit, and an external power source, such as the dry capacitor 804 or the energy storage capacitor 804, can be directly adopted, so that the illumination assembly is convenient to store and carry and can be used outdoors.

As for the cooling driver 70, the heat conducting member 90 and the heat dissipating assembly 100, as shown in fig. 4 and 12, the cooling driver 70 is located in the accommodating cavity 10a, the heat dissipating assembly 100 is disposed in the accommodating cavity 10a, the heat conducting member 90 is disposed on the mounting bracket 40, one end of the heat conducting member 90 contacts the cooling member 202, the other end of the heat conducting member 90 abuts against the heat dissipating assembly 100, and the heat conducting member 90 can conduct heat generated by the cold compress assembly 20 to the heat dissipating assembly 100 and conduct the heat out of the housing 10 by using the heat dissipating assembly 100 and the cooling driver 70. The cooling driver 70 is used to drive an external cooling medium to flow through the heat sink assembly 100 and the cooling channel 403 in the mounting bracket 40, so that the external cooling medium can take away heat from the interior of the product. Optionally, the cooling driver 70 is a fan, and the external cooling medium is air. For example: the cooling driver 70 is a centrifugal fan, an axial fan, a mixed flow fan, or a cross flow fan. Preferably, the cooling drive 70 is a centrifugal fan, so that the outside air flows only in a radial direction after entering the impeller of the fan axially.

In some embodiments, the cooling driver 70 is provided with a first driving port 701 and a second driving port 702, the first driving port 701 is connected to the inlet 403a of the cooling channel 403 to drive the external cooling medium to flow from the inlet 403a of the cooling channel 403 to the outlet 403b of the cooling channel 403, and the second driving port 702 is used for being connected to the heat dissipation assembly 100 to enable the external cooling medium to flow through the heat dissipation assembly 100.

In some embodiments, referring to fig. 13, the heat dissipation assembly 100 includes a heat dissipation box 1001 and a plurality of heat dissipation fins 1002, the heat dissipation box 1001 is provided with a heat dissipation space (not labeled), a side wall of the heat dissipation box 1001 is provided with a first heat dissipation opening 10011, a top wall of the heat dissipation box 1001 is provided with a second heat dissipation opening 10012, the heat dissipation fins 1002 are disposed at intervals in the heat dissipation space to partition the heat dissipation space into a plurality of heat dissipation channels (not labeled), the plurality of heat dissipation channels are communicated with the first heat dissipation opening 10011 and the second heat dissipation opening 10012, the second driving opening 702 on the cooling driver 70 is connected with the first heat dissipation opening 10011 or the second heat dissipation opening 10012, and the cooling driver 70 can be used to drive an external cooling medium to circulate in the plurality of heat dissipation channels. Optionally, the second driving port 702 of the cooling driver 70 is connected to the first heat dissipation port 10011, the second heat dissipation port 10012 is disposed opposite to the second guiding port 106 of the housing 10, and an external cooling medium flows through the heat dissipation channel from the first heat dissipation port 10011 to the second heat dissipation port 10012 until flowing out of the housing 10 from the second guiding port 106 of the housing 10.

In the embodiment of the present invention, the housing 10, the cold compress assembly 20, the illumination assembly 30, the light filter 50 and the sealing member 60 are disposed. Wherein, the casing 10 is provided with a containing cavity 10a and a first opening 10b communicated with the containing cavity 10a, the cold compress assembly 20 is arranged in the containing cavity 10a, the cold compress assembly 20 comprises a cold compress piece 201, the cold compress piece 201 is positioned at the first opening 10b, the illumination assembly 30 is arranged in the containing cavity 10a, the illumination assembly 30 is used for emitting light, the optical filter 50 is arranged in the containing cavity 10a, the light emitted by the illumination assembly 30 passes through the optical filter 50 and the cold compress piece 201 in sequence and then is output, in addition, the sealing piece 60 is provided with a light-transmitting through hole penetrating through the first surface and the second surface of the sealing piece 60, the sealing piece 60 is positioned between the cold compress piece 201 and the optical filter 50, the first surface of the sealing piece 60 is abutted to the cold compress piece 201, and the second surface of the sealing piece 60 is abutted to the optical filter 50, the sealing member 60 is used for sealing the periphery in the clearance between cold compress 201 and the light filter 50, the printing opacity through-hole is used for supplying light passes through, first surface and second surface set up relatively, set up like this, the direct contact between the reducible cold compress 201 of sealing member 60 and the light filter 50, when the product appears falling, avoid direct collision between cold compress 201 and the light filter 50 to cause the damage, simultaneously, utilize the sealing member 60 to seal the clearance between cold compress 201 and the light filter 50, dust or dirt in the reducible air get into in the clearance between cold compress 201 and the light filter 50, in addition, can also reduce steam and get into the clearance and form the drop of water and attach to on the light filter 50, further reduce the drop of water and produce the influence to strong pulse light, thereby improve the result of use of the appearance that moults.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (15)

1. An epilating apparatus, comprising:

the shell is provided with an accommodating cavity and a first opening communicated with the accommodating cavity;

the cold compress assembly is arranged in the accommodating cavity and comprises a cold compress piece, and the cold compress piece is positioned at the first opening;

the illumination assembly is arranged in the accommodating cavity and used for emitting light rays;

the light filter is arranged in the accommodating cavity, and light rays emitted by the illumination assembly sequentially pass through the light filter and the cold compress piece and are output;

the sealing member is provided with and runs through the printing opacity through-hole of the first surface of sealing member and second surface, the sealing member is located cold compress spare with between the light filter, the first surface of sealing member with cold compress spare butt, the second surface of sealing member with the light filter butt, the sealing member is used for sealing the periphery in the clearance between cold compress spare and the light filter, the printing opacity through-hole is used for supplying light passes through, first surface and second surface set up relatively.

2. The hair removal device of claim 1,

the first surface of sealing member is provided with first seal groove, the printing opacity through-hole runs through the tank bottom and the second surface of first seal groove, the cold compress piece is close to the one end of light filter accept in first seal groove, and the cold compress piece is close to the one end butt of light filter in the tank bottom of first seal groove.

3. The hair removal device of claim 2,

the side wall of the first sealing groove is also abutted to the side wall of the cold compress piece.

4. The hair removal device of claim 1,

the second surface of the sealing element is provided with a second sealing groove, the light-transmitting through hole penetrates through the groove bottom and the first surface of the second sealing groove, the optical filter is contained in the second sealing groove, the optical filter covers the light-transmitting through hole, and the optical filter abuts against the groove bottom of the second sealing groove.

5. An epilating apparatus as claimed in claim 4,

the side wall of the second sealing groove is also abutted against the side wall of the optical filter.

6. The hair removal device of claim 1,

the second surface of the sealing element extends towards the direction of the optical filter to form an annular convex part which is abutted against the optical filter.

7. An epilating apparatus as claimed in claim 6,

the cross section of the annular convex part is in a spike shape, and the cross section of the annular convex part is a section of the annular convex part along a direction perpendicular to the first surface and towards the second surface.

8. The hair removal device of claim 1,

the sealing element is made of at least one of silicon rubber, fluorosilicone rubber, chloroprene rubber, nitrile rubber, polyurethane rubber, hydrogenated nitrile rubber, acrylate rubber, ethylene propylene diene monomer rubber and butyl rubber.

9. The hair removal device of claim 1,

the depilating instrument further comprises a mounting bracket, the mounting bracket is arranged in the accommodating cavity, the mounting bracket is provided with an accommodating cavity and a second opening, and the second opening is communicated with the accommodating cavity and the accommodating cavity;

the illumination assembly and the optical filter are fixed in the containing cavity, the sealing element and the cold compress element are fixed in the second opening, and one end of the cold compress element, which is far away from the sealing element, extends out of the second opening and is inserted in the first opening.

10. The hair removal device of claim 9,

the installing support includes support body and lower support body, go up support body and lower support body detachable connection, the second opening with accept the chamber all set up in lower support body.

11. The hair removal device of claim 10,

the wall of the accommodating cavity is provided with a first inserting groove and a second inserting groove, the first inserting groove and the second inserting groove are formed by enabling the lower frame body to be close to one end of the upper frame body to be far away from the lower frame body in a direction of the other end of the upper frame body, the two ends of the optical filter are respectively inserted into the first inserting groove and the second inserting groove, and the upper frame body is abutted to one side, away from the optical filter, of the lower frame body.

12. The hair removal device of claim 10,

a first limiting part and a second limiting part are arranged on the opposite wall surfaces of the second opening;

the cold compress piece comprises a first side wall and a second side wall which are arranged oppositely, the first side wall is provided with a first limiting groove, the second side wall is provided with a second limiting groove, the first limiting portion is connected with the first limiting groove in an inserting mode, the second limiting portion is connected with the second limiting groove in an inserting mode, the upper frame body abuts against a third side wall of the cold compress piece, and the third side wall is perpendicular to the first side wall and the second side wall respectively.

13. The hair removal device of claim 9,

the mounting bracket is provided with a cooling channel, an inlet and an outlet which are communicated with the cooling channel, and the cooling channel is communicated with the accommodating cavity;

the depilating instrument comprises a cooling driver, the cooling driver is located in the accommodating cavity and is connected with the inlet of the cooling channel, and the cooling driver can be used for driving an external cooling medium to circulate from the inlet of the cooling channel to the outlet of the cooling channel.

14. The hair removal device of claim 13,

the cold compress assembly comprises a refrigerating piece for refrigerating the cold compress piece, and the refrigerating piece is arranged on the mounting bracket;

the appearance that moults includes heat-conducting piece and radiator unit, radiator unit set up in hold the intracavity, heat-conducting piece set up in on the installing support, heat-conducting piece's one end with refrigeration piece contact, heat-conducting piece's the other end with radiator unit butt.

15. The hair removal device of claim 14,

the heat dissipation assembly comprises a heat dissipation box body and a plurality of heat dissipation fins, the heat dissipation box body is provided with a heat dissipation space, one side wall of the heat dissipation box body is provided with a first heat dissipation port, a top wall of the heat dissipation box body is provided with a second heat dissipation port, the heat dissipation fins are arranged at intervals in the heat dissipation space, the heat dissipation space is divided into a plurality of heat dissipation channels, the heat dissipation channels are communicated with the first heat dissipation port and the second heat dissipation port, the cooling driver is connected with the first heat dissipation port or the second heat dissipation port, and the cooling driver can be used for driving external cooling media to circulate in the heat dissipation channels.

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