WO2024114706A1 - Hair removal apparatus - Google Patents

Hair removal apparatus Download PDF

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Publication number
WO2024114706A1
WO2024114706A1 PCT/CN2023/135244 CN2023135244W WO2024114706A1 WO 2024114706 A1 WO2024114706 A1 WO 2024114706A1 CN 2023135244 W CN2023135244 W CN 2023135244W WO 2024114706 A1 WO2024114706 A1 WO 2024114706A1
Authority
WO
WIPO (PCT)
Prior art keywords
heat
heat dissipation
air
air duct
outlet
Prior art date
Application number
PCT/CN2023/135244
Other languages
French (fr)
Chinese (zh)
Inventor
李丐腾
谈太平
康星星
Original Assignee
上海飞科电器股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN202223214260.8U external-priority patent/CN219331905U/en
Priority claimed from CN202223214565.9U external-priority patent/CN219679037U/en
Priority claimed from CN202223214333.3U external-priority patent/CN219331906U/en
Priority claimed from CN202223214292.8U external-priority patent/CN219679036U/en
Application filed by 上海飞科电器股份有限公司 filed Critical 上海飞科电器股份有限公司
Publication of WO2024114706A1 publication Critical patent/WO2024114706A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D26/00Hair-singeing apparatus; Apparatus for removing superfluous hair, e.g. tweezers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B18/00Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body
    • A61B18/18Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body by applying electromagnetic radiation, e.g. microwaves
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K7/00Constructional details common to different types of electric apparatus
    • H05K7/20Modifications to facilitate cooling, ventilating, or heating

Definitions

  • the present invention relates to the technical field of beauty equipment, and further to a hair removal device.
  • a home hair removal device is a beauty instrument used to remove body hair.
  • the home hair removal devices on the market are mainly “female hair removal devices", which are used to remove hair from the armpits, legs and other parts of the body, which helps women dress up.
  • a heat sink is usually provided in the hair removal device, and a part of the heat sink cooperates with a refrigeration module at the light outlet to transfer the heat from the refrigeration module to the heat sink.
  • An air inlet and an air outlet are provided on the outer casing, and a fan draws in external air through the air inlet to dissipate the heat of the heat sink.
  • the heat transferred to the heat sink diffuses slowly on the heat sink, resulting in poor heat dissipation performance, which reduces the durability of the hair removal device.
  • the purpose of the present invention is to provide a hair removal device to solve the technical problem that the heat on the heat sink diffuses slowly on the heat sink, resulting in poor heat dissipation performance and reducing the durability of the hair removal device.
  • the present invention provides a hair removal device, comprising a housing and a heat dissipation component and an air duct component arranged in the housing;
  • the air duct assembly includes an air inlet, an air outlet and a light outlet opened on the shell, a heat dissipation air cavity is formed inside the shell, the light outlet is used to set a refrigeration module, and the air inlet is also provided with A fan, the fan being used to blow air into the heat dissipation air cavity;
  • the heat dissipation assembly includes a heat sink and a cooling fin, both of which are arranged in the heat dissipation air cavity, the cooling fin has a cooling surface and a heating surface, the cooling surface is arranged toward the refrigeration module, and the heating surface transfers heat through the heat sink.
  • the cooling module is sapphire.
  • the heat sink includes a heat sink body and a first heat sink portion, and the refrigeration fin is disposed between the first heat sink portion and the refrigeration module;
  • the heat dissipation assembly further includes a heat pipe, which includes a first pipe body and a second pipe body.
  • the first pipe body is at least partially located on the first heat dissipation portion, and the second pipe body is located on the heat dissipation body.
  • the heat pipe includes a first heat conducting section, a second heat conducting section, and a third heat conducting section, and the first heat conducting section and the third heat conducting section are connected through the second heat conducting section;
  • the first heat-conducting section is located on the first heat-dissipating portion, and the second heat-conducting section and the third heat-conducting section are both located on the heat-dissipating body.
  • the heat dissipation assembly further includes a heat dissipation grille, the heat dissipation grille includes a first plate body and a second plate body disposed opposite to each other, and a plurality of grid sheets disposed between the first plate body and the second plate body, and all of the grid sheets extend in the same direction;
  • the heat sink is connected to the first plate body, and a mounting groove is formed on a side of the first plate body facing the second plate body, and a portion of the heat pipe is disposed in the mounting groove.
  • the mounting groove includes a first groove body and a second groove body that are interconnected, the first groove body extends along the extension direction of the grid, and the second groove body extends in a direction perpendicular to the extension direction of the grid; the first heat-conducting portion of the heat pipe is arranged in the first groove body, the second heat-conducting portion is arranged in the second groove body, and the third heat-conducting portion is arranged on the heating surface of the refrigeration fin.
  • the first slot body and the second slot body form an L-shaped structure, and along the extension direction of the grid sheet, the first plate body has a first end and a second end opposite to each other, the first slot body passes through the first end, and the second slot body passes through the second end;
  • the first heat conducting portion, the second heat conducting portion and the third heat conducting portion form a U-shaped structure.
  • the air inlet includes a first air inlet and a second air inlet, the first air inlet is connected to the air suction port of the fan,
  • the first air duct has a first inlet and a first outlet, the first inlet is used to communicate with the air outlet of the fan, and the first outlet is used to communicate with the air outlet;
  • the second air duct has a second inlet and a second outlet arranged on the first air duct, the second inlet is used to communicate with the second air inlet, and the second outlet is used to communicate with the first air duct;
  • the second air duct draws air through the airflow in the first air duct.
  • a cross-sectional area of the second inlet is greater than a cross-sectional area of the second outlet, and the second air duct tapers from the second inlet to the second outlet.
  • the side wall of the first air duct has a first guide plate and a second guide plate, and the first guide plate and the second guide plate are staggered to form the second outlet;
  • One end of the second guide plate located at the second outlet extends outward to form a third guide plate, and the third guide plate and the first guide plate form the second air duct.
  • the third guide plate is bent relative to the second guide plate toward a side away from the first guide plate.
  • the air duct assembly further includes a third air duct disposed on the first air duct;
  • the third air duct has a third inlet and a third outlet.
  • the third inlet is used to communicate with the air outlet of the fan, and the third outlet is used to communicate with the air outlet.
  • the first air duct includes a base and a first upper cover.
  • the first upper cover is arranged on the base, and has a cover top and a lower cover wall located at the lower side of the cover top, and the first inlet and the first outlet are opened on the lower cover wall;
  • the third air duct is arranged on the upper side of the cover top.
  • the third air duct includes a second upper cover and an upper cover wall located on the upper side of the cover top, the second upper cover is arranged on the top of the upper cover wall, and the third inlet and the third outlet are opened on the upper cover wall.
  • the hair removal device provided by the present invention has at least one of the following beneficial effects:
  • the cooling surface of the cooling plate cools down the cooling module, thereby improving the heat dissipation effect of the cooling module and thus improving the hair removal effect.
  • the heat on the heating surface is transferred to the heat sink, and a heat pipe is provided on the side of the heat sink away from the cooling plate. Since the heat pipe has a high efficiency in heat conduction, the heat on the heat sink is quickly diffused through the heat pipe, thereby improving the heat diffusion efficiency on the heat sink, thereby improving the heat dissipation performance and improving the durability of the hair removal device.
  • the air suction port of the fan sucks external air from the first air inlet, and blows the air to the first inlet through the air blowing port, thereby entering the first air duct and forming a first airflow, and the first airflow flows from the first outlet to the air outlet and is discharged. Since the first airflow has a certain flow rate when flowing, it can form a negative pressure in the second air duct through the second outlet, and suck the external air from the second air inlet to the second inlet, thereby entering the second air duct to form a second airflow.
  • Only one fan can form two airflows to dissipate the heat of the heating element in the first air duct together, thereby improving the heat dissipation effect and durability of the hair removal device, and does not occupy too much space inside the shell, so that the hair removal device can be small in size as a whole and easy to carry.
  • the cross-sectional area of the second inlet is larger than the cross-sectional area of the second outlet, the wind speed at the second outlet is greater than the wind speed at the second inlet, thereby increasing the speed of the second airflow entering the first air duct, further improving the heat dissipation effect.
  • the lamp tube is fixed in the hair removal device through the damping shock-absorbing seats at both ends, which is convenient for the installation of the lamp tube.
  • the damping shock-absorbing seats at both ends of the lamp tube can absorb the shock through the damping effect. The energy of the lamp is reduced, thereby reducing the resonance amplitude transmitted to the lamp tube, effectively avoiding the lamp tube from breaking, and thus prolonging the service life of the lamp tube.
  • FIG1 is an exploded view of a heat dissipation assembly provided by an embodiment of the present utility model
  • FIG2 is a schematic diagram of a side view of a heat dissipation assembly provided by an embodiment of the present utility model
  • FIG3 is a schematic diagram of a side view of a heat dissipation assembly provided by an embodiment of the present utility model
  • FIG4 is a schematic diagram of another side of the heat dissipation assembly provided by an embodiment of the utility model
  • FIG5 is a schematic diagram of the structure of the heat transfer pipe provided by the embodiment of the utility model when it is separately arranged;
  • FIG. 6 is a schematic structural diagram of a heat sink provided by an embodiment of the utility model when a first grid body and a second grid body are provided;
  • FIG. 7 is an exploded view of a heat sink provided by an embodiment of the present utility model when a first grid body and a second grid body are provided;
  • FIG8 is an exploded view of the installation of the heat pipe and the heat dissipation assembly provided in an embodiment of the utility model
  • FIG. 9 is a schematic structural diagram of a heat pipe provided by an embodiment of the utility model when it is installed in the second tank body and passes through the second end;
  • FIG. 10 is a schematic structural diagram of a hair removal device provided in an embodiment of the utility model
  • FIG11 is a top view of a base provided in an embodiment of the utility model
  • FIG12 is a schematic diagram of the structure of the air outlet side of the air duct assembly provided in an embodiment of the present utility model
  • FIG13 is a schematic diagram of the structure of the air duct assembly provided in an embodiment of the utility model
  • FIG. 14 is a schematic diagram of the first outlet when the first upper cover is installed on the base according to an embodiment of the present utility model
  • FIG. 15 is a diagram of the first inlet when the first upper cover provided by the embodiment of the utility model is installed on the base Schematic diagram;
  • FIG16 is a schematic diagram of the structure of an anti-drop xenon lamp assembly provided in an embodiment of the present utility model
  • FIG17 is an exploded view of a damping shock absorbing seat from one perspective provided by an embodiment of the utility model
  • FIG. 18 is an exploded view of the damping shock absorbing seat from another perspective provided by an embodiment of the utility model.
  • Heat dissipation component 2 heat sink 21, heat dissipation body 211, second heat dissipation part 2111, third heat dissipation part 2112, first heat dissipation part 212, cooling sheet 22, thermal paste 221, buffer 222, heat pipe 23, first tube 231, second tube 232, first heat conduction section 233, second heat conduction section 234, third heat conduction section 235, heat dissipation grille 24, first plate 241, mounting groove 2411, first slot 24111, second slot 24112, second plate 242, grid 243, first grid 244, second grid 245, partition wall 255,
  • Air duct assembly 3 first inlet 31, first outlet 32, second inlet 33, second outlet 34, third inlet 35, third outlet 36, first guide plate 37, second guide plate 38, third guide plate 39, base 40, first upper cover 41, cover top 42, lower cover wall 43, second upper cover 44, upper cover wall 45, shielding portion 46,
  • Lamp tube 51 damping shock absorbing seat 52 , first connecting member 53 , shock absorbing member 54 , universal groove 55 , universal ball 56 , first notch 57 , cylinder 58 , first end cover 59 , second end cover 60 , plug-in portion 61 , second notch 62 , limiting portion 63 , connecting portion 64 .
  • the terms “installed”, “connected”, and “connected” should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, or it can be indirectly connected through an intermediate medium, or it can be the internal communication of two components.
  • installed should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, or it can be indirectly connected through an intermediate medium, or it can be the internal communication of two components.
  • the present invention provides a hair removal device, which includes a shell 1 and a heat dissipation component 2 and an air duct component 3 arranged in the shell 1;
  • the air duct component 3 includes an air inlet 12, an air outlet 13 and a light outlet opened on the shell 1, a heat dissipation air cavity is formed inside the shell 1, the light outlet is used to set a refrigeration module 11, and a fan is also arranged at the air inlet 12, and the fan is used to blow air into the heat dissipation air cavity;
  • the heat dissipation component 2 includes a heat sink 21 and a cooling fin 22, the heat sink 21 and the cooling fin 22 are both arranged in the heat dissipation air cavity, the cooling fin 22 has a cooling surface and a heating surface, the cooling surface is arranged toward the refrigeration module 11, and the heating surface transfers heat through the heat sink 21.
  • the cooling surface of the cooling plate 22 cools the cooling module 11, thereby improving the cooling effect on the cooling module.
  • the heat dissipation effect of the block 11 is improved, thereby improving the hair removal effect.
  • the heat on the heating surface is transferred to the heat sink 21.
  • the heat sink 21 and the cooling fin 22 are both arranged in the heat dissipation air cavity.
  • the refrigeration module 11 includes but is not limited to sapphire.
  • the heat sink 21 includes a heat sink body 211 and a first heat sink portion 212 , and the cooling fin 22 is disposed between the first heat sink portion 212 and the cooling module 11 .
  • the lower side surface of the first heat dissipation part 212 is in contact with the heating surface of the lower cooling plate 22, and the heat of the heating surface is diffused to the heat dissipation body 211 through the first heat dissipation part 212, thereby increasing the heat dissipation area and thus improving the heat dissipation effect.
  • the heat pipe 23 can be arranged in a split body.
  • the heat pipe 23 includes a first tube body 231 and a second tube body 232 ; the first tube body 231 is at least partially located on the first heat dissipation portion 212 , and the second tube body 232 is located on the heat dissipation body 211 .
  • the first tube 231 can be entirely located on the upper side of the first heat dissipation portion 212, which can effectively improve the heat diffusion efficiency of the first heat dissipation portion 212.
  • a portion of the first tube 231 is located on the upper side of the first heat dissipation portion 212, and another portion is located on the upper side of the heat dissipation body 211, which can improve the heat diffusion efficiency of both the first heat dissipation portion 212 and the heat dissipation body 211.
  • the second tube 232 is disposed on the upper side of the heat dissipation body 211, and the heat dissipation body 211 quickly diffuses the heat through the second tube 232, thereby improving the heat dissipation effect of the heat dissipation body 211.
  • the heat pipe 23 can include more than two tube bodies.
  • the tube bodies can be set on the upper side of the heat dissipation body 211 or on the upper side of the first heat dissipation part 212, as long as the heat dissipation requirements are met.
  • the heat conducting pipe 23 can also be integrally formed.
  • the heat conducting pipe 23 includes a first heat conducting section 233, a second heat conducting section 234 and a third heat conducting section 235, and the first heat conducting section 233 and the third heat conducting section 235 are connected through the second heat conducting section 234; the first heat conducting section 233 is located at the first heat dissipation portion 212 , the second heat conducting segment 234 and the third heat conducting segment 235 are both located on the heat dissipation body 211 .
  • the first heat-conducting section 233 is located on the upper side of the first heat dissipation portion 212, and the second heat-conducting section 234 and the third heat-conducting section 235 are both located on the upper side of the heat dissipation body 211.
  • the heat of the first heat dissipation portion 212 diffuses toward the heat dissipation body 211 and is also transferred to the first heat-conducting section 233.
  • the first heat-conducting section 233 transfers the heat to the second heat-conducting section 234, and then to the third heat-conducting section 235.
  • the heat of the first heat dissipation portion 212 can be quickly transferred to the heat dissipation body 211 through the first heat-conducting section 233, the second heat-conducting section 234 and the third heat-conducting section 235, thereby improving the heat dissipation effect.
  • the first heat conducting section 233, the second heat conducting section 234 and the third heat conducting section 235 form a U-shaped structure, which is easy to manufacture and has a simple structure.
  • first heat conducting segment 233 , the second heat conducting segment 234 and the third heat conducting segment 235 may also form a T-shaped structure, a T-shaped structure or other shapes as long as the requirements are met.
  • the length of the third heat conducting segment 235 is greater than the length of the first heat conducting segment 233 .
  • the length of the cooling fin 22 is smaller than the length of the heat dissipation body 211, that is, the length of the heating surface is smaller than the length of the heat dissipation body 211. Since the heat dissipation area of the heat dissipation body 211 is larger, the heat dissipation effect is improved.
  • the length of the third heat conduction segment 235 is greater than the length of the first heat conduction segment 233, which increases the contact area between the third heat conduction segment 235 and the heat dissipation body 211 and improves the heat dissipation effect.
  • the shape and size of the first heat conduction segment 233 match the heating surface to improve the heat transfer efficiency and effect.
  • An optional technical solution of this embodiment further includes a heat dissipation grille 24 .
  • the heat dissipation grille 24 is arranged on a side of the heat dissipation fin 21 facing the cooling fin 22 and is located on the heat dissipation body 211 .
  • the heat dissipation grille 24 is disposed on the lower side of the heat dissipation body 211 , and the heat on the heat dissipation body 211 can be quickly dissipated through the heat dissipation grille 24 , thereby improving the heat dissipation effect.
  • the heat dissipation grille 24 includes a first grille 244 and a second grille 245, and the heat dissipation body 211 includes a second heat dissipation portion 2111 and a third heat dissipation portion 2112; the first grille 244 is connected to the second heat dissipation portion 2111, the second grille 245 is connected to the third heat dissipation portion 2112, and the second grille 245 Located at air inlet 12.
  • the first grid body 244 is connected to the lower side of the second heat dissipation part 2111, and the second grid body 245 is connected to the lower side of the third heat dissipation part 2112.
  • the first grid body 244 dissipates heat for the second heat dissipation part 2111, and the second grid body 245 dissipates heat for the third heat dissipation part 2112.
  • the second grid body 245 is located at the air inlet 12, and the heat dissipation effect is good.
  • the third heat conducting section 235 can be entirely located on the upper side of the second heat dissipation portion 2111, or a portion can be located on the upper side of the second heat dissipation portion 2111 and another portion can be located on the upper side of the third heat dissipation portion 2112.
  • the second heat conducting section 234 is located on the upper side of the second heat dissipation portion 2111.
  • the heat dissipation grille 24 includes a first plate body 241 and a second plate body 242, and the heat dissipation body 211 includes a second heat dissipation part 2111 and a third heat dissipation part 2112; the first plate body 241 is connected to the second heat dissipation part 2111, the second plate body 242 is connected to the third heat dissipation part 2112, and the second plate body 242 is located at the air inlet 12.
  • the first plate body 241 is connected to the lower side of the second heat dissipation part 2111, and the second plate body 242 is connected to the lower side of the third heat dissipation part 2112.
  • the first plate body 241 dissipates heat for the second heat dissipation part 2111, and the second plate body 242 dissipates heat for the third heat dissipation part 2112.
  • the second plate body 242 is located at the air inlet 12, and the heat dissipation effect is good.
  • the third heat conducting section 235 can be entirely located on the upper side of the second heat dissipation portion 2111, or a portion can be located on the upper side of the second heat dissipation portion 2111 and another portion can be located on the upper side of the third heat dissipation portion 2112.
  • the second heat conducting section 234 is located on the upper side of the second heat dissipation portion 2111.
  • the heat dissipation assembly 2 includes a heat sink 21 and a heat dissipation grille 24 arranged opposite to the heat sink 21, the heat sink 21 is connected to the heat dissipation grille 24, and part of the heat pipe 23 is arranged between the heat sink 21 and the heat dissipation grille 24.
  • the heat dissipation grille 24 is connected to the lower surface of the heat sink 21, and the heat dissipation grille 24 is used to dissipate heat from the heat sink 21, thereby improving the heat dissipation effect.
  • a large part of the heat pipe 23 is installed between the heat dissipation grille 24 and the heat sink 21, and is in close contact with the heat sink 21 and the heat dissipation grille 24, thereby improving the heat dissipation effect.
  • the heat conduction efficiency between the heat pipe 23 and the heat sink 21 and the heat sink grille 24 is improved, thereby improving the heat dissipation effect.
  • another small part of the heat pipe 23 extends out and fits with the heating surface below, thereby improving the heat conduction efficiency between the heat pipe 23 and the heating surface, thereby improving the heat dissipation effect.
  • the heat dissipation assembly 2 may also only include the heat sink 21, a large portion of the heat pipe 23 is installed on the lower surface of the heat sink 21, and is in contact with the heat sink 21, thereby improving the heat conduction efficiency between the heat pipe 23 and the heat sink 21, thereby improving the heat dissipation effect, and at the same time, another small portion of the heat pipe 23 is in contact with the heating surface below, thereby improving the heat conduction efficiency between the heat pipe 23 and the heating surface, thereby improving the heat dissipation effect.
  • the heat dissipation grille 24 includes a first plate body 241 and a second plate body 242 that are arranged opposite to each other, and a plurality of grid plates 243 arranged between the first plate body 241 and the second plate body 242, and the extension direction of all the grid plates 243 is the same; the heat dissipation fin 21 is connected to the first plate body 241, and the first plate body 241 is recessed on one side toward the second plate body 242 to form an installation groove 2411, and a portion of the heat pipe 23 is arranged in the installation groove 2411.
  • the upper end of the grid 243 is connected to the lower side of the first plate 241, and the lower end is connected to the upper side of the second plate 242.
  • the heat sink 21 is connected to the upper side of the first plate 241.
  • the upper side of the first plate 241 is recessed downward to form a mounting groove 2411.
  • a large part of the heat pipe 23 is arranged in the mounting groove 2411.
  • the mounting groove 2411 includes a first groove body 24111 and a second groove body 24112 which are interconnected, the first groove body 24111 extends along the extension direction of the grid sheet 243, and the second groove body 24112 extends along the extension direction perpendicular to the grid sheet 243;
  • the heat pipe 23 includes a first heat conducting section 233, a second heat conducting section 234 and a third heat conducting section 235, and the first heat conducting section 233 and the third heat conducting section 235 are connected through the second heat conducting section 234;
  • the first heat conducting section 233 is arranged in the first groove body 24111, the second heat conducting section 234 is arranged in the second groove body 24112, and the third heat conducting section 235 is arranged on the heat generating surface.
  • the extension direction of the first slot body 24111 is perpendicular to the extension direction of the grid sheet 243
  • the extension direction of the second slot body 24112 is perpendicular to the extension direction of the grid sheet 243.
  • One end of 24112 is connected to the first slot body 24111, and the other end passes through the first plate body 241.
  • the third heat-conducting segment 235 is located outside the second slot body 24112 and is in contact with the heat-generating surface.
  • the third heat-conducting segment 235 is connected to the first heat-conducting segment 233 through the second heat-conducting segment 234, so that the heat of the third heat-conducting segment 235 can be quickly transferred to the heat sink 21 and the first plate body 241 through the second heat-conducting segment 234 and the first heat-conducting segment 233 along the extension direction of the first slot body 24111 and the extension direction of the second slot body 24112, thereby improving the heat dissipation effect.
  • the first groove body 24111 and the second groove body 24112 form an L-shaped structure, and along the extension direction of the grid plate 243, the first plate body 241 has a first end and a second end opposite to each other, and the first groove body 24111 passes through the first end; the first heat conducting section 233, the second heat conducting section 234 and the third heat conducting section 235 form a U-shaped structure.
  • the first slot body 24111 and the second slot body 24112 form an L-shaped structure
  • the heat pipe 23 is first placed in the installation slot 2411, and then the heat sink 21 is connected to the first plate body 241, wherein the connection method may be welding, clamping or bolting.
  • One end of the first slot body 24111 passes through the first end, and the other end is connected to the second slot body 24112.
  • the end of the first heat conducting section 233 away from the second heat conducting section 234 is flush with the first end, thereby improving the heat dissipation effect.
  • the structure of the installation slot 2411 and the heat conducting pipe 23 is simple, convenient to manufacture, and easy to install.
  • the second slot 24112 passes through the second end.
  • the installation groove 2411 forms a slot.
  • the heat pipe 23 can be inserted into the installation groove 2411 from the second end, and then the heat sink 21 is connected to the first plate body 241; or the heat sink 21 and the first plate body 241 can be connected first, and then the heat pipe 23 can be inserted into the installation groove 2411 from the second end, which improves applicability and facilitates installation and disassembly.
  • the length of the cooling sheet 22 is less than the length of the heat dissipation component 2, that is, the length of the heating surface is less than the length of the heat dissipation component 2. Since the heat dissipation area of the heat dissipation component 2 is large, the heat dissipation effect is improved.
  • the length of the first heat conduction segment 233 is greater than the length of the third heat conduction segment 235, and the contact area between the first heat conduction segment 233 and the heat dissipation component 2 is increased, thereby improving the heat dissipation effect.
  • the shape and size of the third heat conduction segment 235 match the heating surface, thereby improving the heat transfer efficiency and Effect.
  • the heat sink 21 includes a heat dissipation body 211 and a first heat dissipation portion 212 , the heat dissipation body 211 is connected to the first plate 241 , and the third heat conduction segment 235 is disposed between the first heat dissipation portion 212 and the heating surface.
  • the lower side surface of the third heat-conducting segment 235 is in contact with the heat-generating surface, and the upper side surface is in contact with the first heat dissipation portion 212, so that the heat of the third heat-conducting segment 235 is transferred through the second heat-conducting segment 234 while being transferred to the heat dissipation body 211 through the first heat dissipation portion 212, thereby further improving the heat transfer effect and thus improving the heat dissipation effect.
  • a heat-conducting paste 221 is provided on the heating surface, and the third heat-conducting section 235 is attached to the heat-conducting paste 221.
  • the heat-conducting paste 221 can transfer the heat on the heating surface to the third heat-conducting section 235, and has a buffering effect to prevent damage to the third heat-conducting section 235 and the cooling plate 22.
  • a buffer 222 is provided on the side of the first heat dissipation portion 212 away from the third heat-conducting section 235, that is, a buffer 222 is provided on the upper side of the first heat dissipation portion 212 to prevent the first heat dissipation portion 212 from directly contacting the second upper cover 44 and causing collision damage.
  • the air duct assembly 3 includes a base 40, a first upper cover 41 and a second upper cover 44, and the hair removal device also includes a lamp tube 51, which is mounted on the base 40 and located in the first air duct.
  • the first air duct can dissipate heat for the lamp tube 51.
  • a light outlet is provided on the base 40, and the refrigeration module 11 is mounted at the light outlet and corresponds to the lamp tube 51.
  • the heat sink 21, the heat pipe 23 and the heat dissipation grille 24 are all arranged on the partition wall 255 and are all located in the second air duct.
  • the partition wall 255 is provided with a heat conduction port, and the refrigeration fin 22 is penetrated through the heat conduction port and the refrigeration surface is attached to the top of the refrigeration module 11, and the heating surface is attached to the first heat dissipation part 212.
  • the air inlet 12 and the air outlet 13 are both partially located on the upper cover wall 45 and the other part is located on the lower cover wall 43, so that the fan blows air into the second air duct and the first air duct at the same time, so that the hair removal device only needs to be provided with one fan, saving internal space and making the hair removal device smaller as a whole.
  • the air inlet 12 includes a first air inlet 121 and a second air inlet 122.
  • the first air inlet 121 is connected to the air inlet of the fan.
  • the air duct assembly 3 includes a first air duct and a second air duct arranged on the first air duct.
  • the first air duct has a first inlet 31 and a first outlet 32.
  • the first inlet 31 is used to communicate with the air inlet of the fan.
  • the blowing port is connected, and the first outlet 32 is used to communicate with the air outlet 13;
  • the second air duct has a second inlet 33 and a second outlet 34 arranged on the first air duct, the second inlet 33 is used to communicate with the second air inlet 122, and the second outlet 34 is used to communicate with the first air duct;
  • the second air duct draws air through the airflow in the first air duct, and the cross-sectional area of the second inlet 33 is greater than the cross-sectional area of the second outlet 34.
  • the air suction port of the fan sucks in external air from the first air inlet 121, and blows the air to the first inlet 31 through the air blowing port, thereby entering the first air duct and forming a first airflow, and the first airflow flows from the first outlet 32 to the air outlet 13 for discharge. Since the first airflow has a certain flow rate when flowing, it can form a negative pressure in the second air duct through the second outlet 34, and suck the external air from the second air inlet 122 to the second inlet 33, thereby entering the second air duct to form a second airflow.
  • Only one fan can form two airflows to dissipate the heat of the heating element in the first air duct together, thereby improving the heat dissipation effect and durability of the hair removal device, and does not occupy too much internal space of the shell 1, so that the hair removal device can be smaller in size as a whole and is easy to carry.
  • the cross-sectional area of the second inlet 33 is larger than the cross-sectional area of the second outlet 34, the wind speed at the second outlet 34 is greater than the wind speed at the second inlet 33, thereby increasing the speed of the second airflow entering the first air duct, further improving the heat dissipation effect.
  • the first air inlet 121 is opened at the top of the shell 1, the air inlet direction of the first air inlet 121 is vertically downward, and is blown horizontally into the first air duct by the fan, and the second air inlet 122 is opened on the side wall of the shell 1, and the air inlet direction of the second air inlet 122 enters the second air duct horizontally, so that the second airflow can better merge with the first airflow, avoiding turbulence and eddy currents between the first airflow and the second airflow, and improving the heat dissipation effect of the heat generating components in the first air duct.
  • the second outlet 34 is arranged on the first air duct, which is equivalent to an air inlet for the first air duct.
  • the principle of forming the second airflow is that when the first airflow is flowing, the first airflow has a certain flow velocity, so that low pressure is generated near the first airflow, thereby generating negative pressure in the second air duct through the second outlet 34, and then generating suction to suck the external air into the second air duct through the second air inlet 122 and form the second airflow.
  • the second air duct gradually contracts from the second inlet 33 to the second outlet 34, so that the second airflow is gradually accelerated from the second inlet 33 to the second outlet 34, and the acceleration of the second airflow is stable, thereby improving the heat dissipation effect.
  • the second air duct is not limited thereto, and the second air duct may also have a cross-sectional area that first increases and then decreases from the second inlet 33 to the second outlet 34, or may be any other transformation form as long as the speed increase requirement is met.
  • the side wall of the first air duct has a first guide plate 37 and a second guide plate 38, and the first guide plate 37 and the second guide plate 38 are staggered to form a second outlet 34; the second guide plate 38 is located at one end of the second outlet 34 and extends outward to form a third guide plate 39, and the third guide plate 39 and the first guide plate 37 form a second air duct.
  • the first guide plate 37 is located upstream of the guide direction of the first air duct, and the second guide plate 38 is located downstream, and the second guide plate 38 is located on the outside of the guide direction of the first guide plate 37, that is, the corresponding ends of the first guide plate 37 and the second guide plate 38 are staggered, which effectively prevents the first airflow from being discharged from the second outlet 34 after passing through the first guide plate 37, and at the same time ensures that the first airflow can have an adsorption effect at the first outlet 32 after passing through the first guide plate 37.
  • the second guide plate 38 continues to extend from the end of the first guide plate 37 corresponding to the first guide plate 37 to form a third guide plate 39, so that the third guide plate 39 and the first guide plate 37 form a second air duct, that is, the second air duct is integrated on the first air duct, which has a simple structure, is easy to manufacture, reduces the occupied space, improves space utilization and has a stable structure.
  • a second inlet 33 is formed between an end of the first guide plate 37 away from the second guide plate 38 and an end of the third guide plate 39 away from the second guide plate 38 .
  • the third guide plate 39 is bent relative to the second guide plate 38 toward a side away from the first guide plate 37.
  • the cross-sectional area of the second inlet 33 formed between the third guide plate 39 and the first guide plate 37 is increased, the air intake volume and air intake effect of the second air duct are increased, and the heat dissipation effect is further improved.
  • the first inlet 31 is directly opposite to the first guide plate 37, and the heating element is located at In the lateral direction of the first guide plate 37 , the first guide plate 37 is arranged in an arc shape, which can better guide the airflow of the first inlet 31 to the lateral direction, facilitate the heat dissipation of the heating element, and improve the heat dissipation effect.
  • the third guide plate 39 can be linear, and the first guide plate 37 and the third guide plate 39 cooperate with each other to form a second air duct with a gradually decreasing cross-sectional area from the second inlet 33 to the second outlet 34, thereby increasing the wind speed of the second airflow when it enters the first air duct and improving the heat dissipation effect.
  • the third guide plate 39 is arc-shaped and cooperates with the arc-shaped first guide plate 37 to form a trumpet-shaped second air duct, thereby improving the guiding effect of the first guide plate 37 and the third guide plate 39 on the second airflow, avoiding the generation of turbulence and eddy currents, and thereby improving the heat dissipation effect.
  • the air duct assembly 3 also includes a third air duct arranged on the first air duct; the third air duct has a third inlet 35 and a third outlet 36, the third inlet 35 is used to communicate with the air outlet of the fan, and the third outlet 36 is used to communicate with the air outlet 13.
  • the air duct assembly 3 is provided with three air ducts, wherein the first air duct and the second air duct cooperate to dissipate the heat of the heating element in the first air duct, another heating element is arranged in the third air duct, and the fan blows air into the third air duct to form a third airflow, and the third airflow dissipates the heat of the heating element in the third air duct.
  • the two heating elements are independently arranged in the first air duct and the third air duct for independent heat dissipation, thereby avoiding mutual influence and improving the heat dissipation effect.
  • air is supplied by a fan without occupying too much internal space of the outer shell 1, so that the hair removal device can be small in overall size and easy to carry.
  • the first air duct includes a base 40 and a first upper cover 41, the first upper cover 41 is covered on the base 40, and the first upper cover 41 has a cover top 42 and a lower cover wall 43 located at the lower side of the cover top 42, and the lower cover wall 43 is provided with a first inlet 31 and a first outlet 32; the third air duct is arranged on the upper side of the cover top 42.
  • the first guide plate 37 has two parts, one part is located on the side wall of the base 40, and the other part is located on the lower cover wall 43 of the first upper cover 41.
  • the first upper cover 41 is buckled with the base 40, the two parts of the first guide plate 37 are butted, and the second guide plate 38 and the third guide plate 39 are buckled with the lower side of the cover top 42 through the first buckle structure, which is convenient for installation and disassembly, and it is convenient to set a heating element on the base 40.
  • the first airflow can act on both the base 40 and the first upper cover 41, thereby improving the heat dissipation effect.
  • a first inlet 31 and a first outlet 32 are provided on the lower cover wall 43 of the first upper cover 41, which does not damage the structure of the base 40 and is convenient to manufacture.
  • the third air duct includes a second upper cover 44 and an upper cover wall 45 located on the upper side of the cover top 42, the second upper cover 44 is covered on the top of the upper cover wall 45, and the upper cover wall 45 is provided with a third inlet 35 and a third outlet 36.
  • the second upper cover 44 and the first upper cover 41 are buckled with each other through the second buckle structure, but they can also be connected by other connection methods, including bolt connection or positioning pin connection, which is convenient for installation and disassembly, and convenient for setting a heating element on the cover top 42 of the first upper cover 41.
  • the second upper cover 44 cooperates with the cover top 42 and the upper cover wall 45 of the first upper cover 41 to form a third air duct, which has a simple structure, high structural integration, and reduces the occupied space.
  • the third inlet 35 and the third outlet 36 are opened on the upper cover wall 45 of the first upper cover 41, and the first inlet 31 corresponds to the third inlet 35, and the first outlet 32 corresponds to the third outlet 36.
  • the overall matching degree is high, which is convenient for air inlet and outlet and improves the heat dissipation effect.
  • the first inlet 31 is connected to the third inlet 35
  • the first outlet 32 is connected to the third outlet 36, which is convenient to manufacture and improves the diversion effect.
  • the upper cover wall 45 and the lower cover wall 43 of the first upper cover 41 form a side wall, and an inlet and an outlet are opened on the side wall.
  • the cover top 42 of the first upper cover 41 separates the inlet into a first inlet 31 and a third inlet 35, and separates the outlet into a first outlet 32 and a third outlet 36.
  • the second upper cover 44 is located at the third outlet 36 and tilts downward to form a shielding portion 46.
  • the shielding portion 46 is used to shield the third outlet 36.
  • the third outlet 36 is connected to the first outlet 32 through the gap between the shielding portion 46 and the cover top 42 of the first upper cover 41 to realize air outlet.
  • the heating element disposed on the base 40 may be a lamp tube 51
  • the heating element disposed on the cover top 42 of the first upper cover 41 may be a heat sink 21 .
  • the hair removal device includes an anti-fall xenon lamp assembly, which includes a lamp tube 51 and two damping shock-absorbing seats 52.
  • the opposite ends of the lamp tube 51 are respectively connected to a damping shock-absorbing seat 52, and the damping shock-absorbing seat 52 is used to reduce the resonance amplitude transmitted to the lamp tube 51.
  • the lamp tube 51 is fixed in the hair removal device by the damping shock-absorbing seats 52 at both ends, which facilitates the installation of the lamp tube 51.
  • the damping shock-absorbing seats 52 at both ends of the lamp tube 51 can absorb the vibration energy through the damping effect, thereby reducing the resonance amplitude transmitted to the lamp tube 51, effectively avoiding the lamp tube 51 from breaking, and thereby increasing the service life of the lamp tube 51.
  • the damping shock absorbing seat 52 includes a first connecting member 53, a shock absorbing member 54 and a seat body connected to the lamp tube 51; a housing cavity is arranged in the seat body, and the shock absorbing member 54 is suspended in the housing cavity, and is movably connected to the seat body through the first connecting member 53.
  • the shock absorbing member 54 moves relative to the seat body through the first connecting member 53 to reduce the resonance amplitude transmitted from the seat body to the lamp tube 51.
  • the shock absorbing member 54 is suspended in the housing cavity through the first connecting member 53, and because the shock absorbing member 54 is movably connected to the seat body through the first connecting member 53, when the hair removal device falls or collides, the shock absorbing member 54 moves in the housing cavity in the opposite direction of the force direction of the hair removal device, that is, a damping effect is generated, reducing the force in the force direction of the hair removal device acting on the seat body, thereby reducing the resonance amplitude transmitted from the seat body to the lamp tube 51, thereby preventing the lamp tube 51 from breaking, and the structure is simple and the shock absorbing and anti-falling effect is good.
  • the first connecting member 53 can be an elastic member. Under the action of elasticity, the shock absorbing member 54 can move and thus produce a damping effect; the elastic member can be a spring, which has a simple structure, low cost and good elasticity. Preferably, multiple springs can be arranged in the same plane, one end of the multiple springs is connected to the seat body, and the other end is connected to the shock absorbing member 54. At this time, the shock absorbing member 54 can move in any direction in the accommodating cavity, and the damping effect is good.
  • the elastic member can also be a soft rubber, which is coated on the shock absorbing member 54, and the soft rubber fills the accommodating cavity. The shock absorbing member 54 can squeeze the soft rubber in the soft rubber to produce movement or movement trend, thereby producing a damping effect, absorbing the vibration energy, and thus avoiding damage to the lamp tube 51.
  • the first connecting member 53 can be fixedly connected to the base body, and the shock absorbing member 54 can be movably connected to the first connecting member 53; or the first connecting member 53 can be movably connected to the base body, and the shock absorbing member 54 can be fixedly connected to the first connection or movably connected to the first connection; both of the above methods can produce a damping effect when the hair removal device falls or collides, and also have the above-mentioned effects.
  • the first connecting member 53 is fixedly connected to the seat body, and the shock absorbing member 54 is movably connected to the seat body through the connecting structure.
  • the first connecting member 53 is connected to the first connecting member 53. That is, the first connecting member 53 is fixed relative to the base, and the shock absorbing member 54 can move relative to the first connecting member 53 through the connecting structure.
  • the damping effect generated by the shock absorbing member 54 acts on the base through the first connecting member 53.
  • the structure is stable and the manufacturing is convenient.
  • the shock absorbing member 54 has a good effect of transmitting the damping force through the fixed first connecting member 53, so that the damping force can act completely on the base, and the resonance amplitude transmitted from the base to the lamp tube 51 is reduced to the maximum extent, and the shock absorbing and anti-falling effect is good.
  • connection structure includes a universal groove 55 provided on the first connecting member 53 and a universal ball 56 provided on the shock absorbing member 54, and the universal groove 55 is located in the accommodating cavity; the notch of the universal groove 55 is provided with at least one first notch 57, and the universal ball 56 is embedded in the universal groove 55.
  • the universal groove 55 and the universal ball 56 cooperate to form a universal joint, the universal groove 55 is fixed relative to the seat body through the first connecting member 53, and the shock absorbing member 54 rotates in the universal groove 55 through the universal ball 56, so that the shock absorbing member 54 can generate a damping effect and transmit the damping force to the seat body, with good shock absorption and fall prevention effect, and the universal groove 55 and the universal ball 56 cooperate stably and are not easy to be damaged, and at the same time, the effect of transmitting the damping force is good, thereby improving the fall prevention effect.
  • the setting of the first notch 57 enables the notch of the universal groove 55 to have the ability to expand radially, which facilitates the installation of the universal ball 56 into the universal groove 55.
  • four first notches 57 are evenly spaced along the circumference of the notch of the universal groove 55, so that the universal ball 56 can be more conveniently installed in the universal groove 55.
  • connection structure is not limited to this, and the connection structure can also be an elastic member.
  • the shock absorbing member 54 is movably connected to the first connecting member 53 through the elastic member. At this time, the first connecting member 53 is fixed relative to the seat body and can also produce a damping effect.
  • the elastic member is a spring.
  • the shock absorber 54 is spherical, and the diameter of the shock absorber 54 is greater than the diameter of the universal ball 56.
  • the universal ball 56 and the shock absorber 54 are made of the same material, so that the mass of the shock absorber 54 is greater than the mass of the universal ball 56, thereby enabling the shock absorber 54 to produce a damping effect;
  • the shock absorber 54 is connected to the universal ball 56 through a second connecting member, so that there is a gap between the shock absorber 54 and the universal ball 56, thereby improving the damping effect of the shock absorber 54.
  • the second connecting member may be an elastic member, so that when the shock absorbing member 54 generates a damping effect, the second connecting member can generate elastic movement, thereby further improving the damping effect and the anti-fall effect;
  • the second connecting member is a spring.
  • the first connecting member 53, the shock absorbing member 54, the seat body, the universal ball 56, the universal groove 55 and the second connecting member are all non-metallic parts, which effectively reduce the overall weight, thereby reducing the weight of the overall hair removal device, making it convenient to carry and use, and improving the user experience.
  • the first connecting member 53, the shock absorbing member 54, the seat body, the universal ball 56, the universal groove 55 and the second connecting member are all made of plastic, which is light and has a certain strength.
  • the shock absorbing member 54, the universal ball 56 and the second connecting member are integrally injection molded, which is easy to manufacture and has a stable structure, and avoids the shock absorbing member 54 and the universal ball 56 from separating.
  • the base body includes a cylinder 58, a first end cover 59 and a second end cover 60; the first end cover 59 and the second end cover 60 are respectively connected to the opposite ends of the cylinder 58, and a accommodating cavity is formed between the first end cover 59 and the cylinder 58, and the first connecting member 53 is fixedly connected to the cylinder 58; a plug-in portion 61 is provided on the side of the first end cover 59 facing away from the second end cover 60, and the lamp tube 51 is inserted into the plug-in portion 61.
  • the cylinder 58 is coaxially arranged with the lamp tube 51, so that the amplitude transmitted from the cylinder 58 to the lamp tube 51 through the plug-in portion 61 on the first end cover 59 is minimized, further improving the anti-fall effect.
  • the seat body has a simple structure, is easy to assemble, and is easy to install with the lamp tube 51.
  • a second notch 62 is provided on the end surface of the cylinder 58 close to the second end cover 60, and a limiting portion 63 is provided on the first connecting member 53; the first connecting member 53 is inserted into the second notch 62, and the limiting portion 63 cooperates with the outer wall of the cylinder 58 and the universal groove 55 cooperates with the inner wall of the cylinder 58, so as to limit the radial movement of the first connecting member 53 along the cylinder 58.
  • the cross section of the first connecting member 53 is T-shaped, that is, one end of the first connecting member 53 protrudes to both sides to form a limiting structure, and the other end is provided with a universal groove 55, and an installation gap is provided between the universal groove 55 and the limiting portion 63.
  • connection member 53 is fixed, easy to install and has a simple structure.
  • the cross section of the first connecting member 53 is L-shaped, which has a simple structure and is easy to manufacture.
  • the hair removal device includes a shell 1, an air duct assembly 3, a fan, a heat sink 21 and a cooling fin 22.
  • the shell 1 is provided with an air inlet 12, an air outlet 13 and a light outlet.
  • the air duct assembly 3, the fan, the heat sink 21 and the cooling fin 22 are all arranged in the shell 1, and the fan is located at the air inlet 12.
  • the air duct assembly 3 includes a base 40, a second upper cover 44 and a first upper cover 41.
  • a relative fixed seat is arranged on the base 40.
  • a connecting portion 64 is arranged on the side of the second end cover 60 away from the first end cover 59. The connecting portion 64 is connected to the fixing seat, so that the anti-fall xenon lamp assembly is fixed on the base 40.
  • the structure is simple and the connection is convenient.
  • the second upper cover 44 is covered on the base 40, and a first air duct is formed between the second upper cover 44 and the first upper cover 41, and a second air duct is formed between the first upper cover 41 and the cover top 42.
  • the inlets of the first air duct and the second air duct are both connected to the air outlet of the fan, and the outlets of the first air duct and the second air duct are both connected to the air outlet 13.
  • a second light outlet corresponding to the light outlet is provided on the first air duct, the anti-drop xenon lamp assembly is located in the first air duct, and the lamp tube 51 corresponds to the second light outlet.
  • the first air duct dissipates heat from the lamp tube 51 to avoid excessive temperature and improve user experience.
  • a cooling sheet 22 is provided at the second light outlet, and the cooling surface of the cooling sheet 22 dissipates heat to the lamp tube 51, further improving the heat dissipation effect.
  • a heat conduction port is opened in the second air duct, and the heat sink 21 is arranged in the second air duct, and a part of the heat conduction port is extended to cooperate with the heating surface of the cooling sheet 22 to transfer the heat through the heat sink 21 to the second air duct.
  • the heat sink 21 is dissipated through the second air duct, and the heat is dissipated through the dual air ducts, further improving the heat dissipation effect.
  • the lamp tube 51 has a first projection surface on a surface perpendicular to the axis of the lamp tube 51
  • the damping and shock absorbing seat 52 has a second projection surface on a surface perpendicular to the axis of the lamp tube 51, and the first projection surface is located inside the second projection surface. That is, the diameter of the cylinder 58 is larger than the diameter of the lamp tube 51, so that when the lamp tube 51 is fixed on the base 40 through the damping and shock absorbing seat 52, the lamp tube 51 is prevented from contacting the base 40, and when the hair removal device falls or collides, the base 40 is prevented from directly acting on the lamp, thereby further preventing the lamp tube 51 from breaking.

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Abstract

A hair removal apparatus, relating to the technical field of beauty apparatuses. The hair removal apparatus comprises a casing (1), and a heat dissipation module (2) and an air duct module (3) which are arranged inside the casing (1). The air duct module (3) comprises an air inlet (12), an air outlet (13) and a light outlet which are provided in the casing (1), a heat dissipation air cavity being formed inside the casing (1), the light outlet being used for arranging a refrigeration module (11), a fan being further provided at the air inlet (12), and the fan being used for blowing air into the heat dissipation air cavity. The heat dissipation module (2) comprises a cooling fin (21) and a refrigeration sheet (22), the cooling fin (21) and the refrigeration sheet (22) being both provided in the heat dissipation air cavity, the refrigeration sheet (22) being provided with a refrigeration surface and a heating surface, the refrigeration surface being arranged facing the refrigeration module (11), and the heating surface transferring heat by means of the cooling fin (21). The hair removal apparatus can solve the technical problems of reduced durability of hair removal apparatuses caused by poor heat dissipation performance of cooling fins (21) due to slow diffusion of heat on the cooling fins (21).

Description

一种脱毛仪A hair removal device 技术领域Technical Field
本发明涉及美容设备技术领域,进一步地涉及一种脱毛仪。The present invention relates to the technical field of beauty equipment, and further to a hair removal device.
背景技术Background technique
随着现代社会的发展,人民的生活水平不断提高,人们对于美容产品的需求也越来越丰富了,脱毛仪作为一种新型的美容产品,市场前景广泛。With the development of modern society, people's living standards are constantly improving, and people's demand for beauty products is becoming more and more abundant. As a new type of beauty product, hair removal devices have broad market prospects.
家用脱毛仪是一种用于去除体毛的美容仪器,目前市场上的家用脱毛器主要为“女用脱毛器”,用于去除腋毛、腿毛等部位的毛发,有助于女性穿着打扮。A home hair removal device is a beauty instrument used to remove body hair. Currently, the home hair removal devices on the market are mainly "female hair removal devices", which are used to remove hair from the armpits, legs and other parts of the body, which helps women dress up.
在现有技术中,通常在脱毛仪内都会设有散热片,散热片的局部与出光口处的制冷模块配合,将制冷模块上的热量传递至散热片,在外壳上开设进风口和出风口,风机通过进风口将外部空气吸入对散热片进行散热,但是传递至散热片上的热量在散热片上扩散较慢,导致散热性能不佳,使得脱毛仪的耐用性降低。In the prior art, a heat sink is usually provided in the hair removal device, and a part of the heat sink cooperates with a refrigeration module at the light outlet to transfer the heat from the refrigeration module to the heat sink. An air inlet and an air outlet are provided on the outer casing, and a fan draws in external air through the air inlet to dissipate the heat of the heat sink. However, the heat transferred to the heat sink diffuses slowly on the heat sink, resulting in poor heat dissipation performance, which reduces the durability of the hair removal device.
发明内容Summary of the invention
针对上述技术问题,本发明的目的在于提供一种脱毛仪,以解决散热片上的热量在散热片上扩散较慢,导致散热性能不佳,使得脱毛仪的耐用性降低的技术问题。In view of the above technical problems, the purpose of the present invention is to provide a hair removal device to solve the technical problem that the heat on the heat sink diffuses slowly on the heat sink, resulting in poor heat dissipation performance and reducing the durability of the hair removal device.
为了实现上述目的,本发明提供一种脱毛仪,包括外壳以及设置在所述外壳内的散热组件和风道组件;In order to achieve the above-mentioned object, the present invention provides a hair removal device, comprising a housing and a heat dissipation component and an air duct component arranged in the housing;
所述风道组件包括开设在所述外壳上的进风口、出风口以及出光口,所述外壳内部形成散热风腔,所述出光口用于设置制冷模块,所述进风口处还设有 风扇,所述风扇用于向所述散热风腔内吹风;The air duct assembly includes an air inlet, an air outlet and a light outlet opened on the shell, a heat dissipation air cavity is formed inside the shell, the light outlet is used to set a refrigeration module, and the air inlet is also provided with A fan, the fan being used to blow air into the heat dissipation air cavity;
所述散热组件包括散热片和制冷片,所述散热片和所述制冷片均设置在所述散热风腔,所述制冷片具有制冷面和发热面,所述制冷面朝向所述制冷模块设置,所述发热面通过所述散热片传递热量。The heat dissipation assembly includes a heat sink and a cooling fin, both of which are arranged in the heat dissipation air cavity, the cooling fin has a cooling surface and a heating surface, the cooling surface is arranged toward the refrigeration module, and the heating surface transfers heat through the heat sink.
在一些实施方式中,所述制冷模块为蓝宝石。In some embodiments, the cooling module is sapphire.
在一些实施方式中,所述散热片包括散热主体和第一散热部,所述制冷片设置于所述第一散热部与所述制冷模块之间;In some embodiments, the heat sink includes a heat sink body and a first heat sink portion, and the refrigeration fin is disposed between the first heat sink portion and the refrigeration module;
所述散热组件还包括导热管,所述导热管包括第一管体和第二管体,所述第一管体至少部分位于所述第一散热部上,所述第二管***于所述散热主体上。The heat dissipation assembly further includes a heat pipe, which includes a first pipe body and a second pipe body. The first pipe body is at least partially located on the first heat dissipation portion, and the second pipe body is located on the heat dissipation body.
在一些实施方式中,所述导热管包括第一导热段、第二导热段和第三导热段,且所述第一导热段和所述第三导热段通过所述第二导热段连接;In some embodiments, the heat pipe includes a first heat conducting section, a second heat conducting section, and a third heat conducting section, and the first heat conducting section and the third heat conducting section are connected through the second heat conducting section;
所述第一导热段位于所述第一散热部上,所述第二导热段和所述第三导热段均位于所述散热主体上。The first heat-conducting section is located on the first heat-dissipating portion, and the second heat-conducting section and the third heat-conducting section are both located on the heat-dissipating body.
在一些实施方式中,所述散热组件还包括散热格栅,所述散热格栅包括相对设置的第一板体和第二板体,以及设置于所述第一板体与所述第二板体之间的多个栅片,且全部所述栅片的延伸方向相同;In some embodiments, the heat dissipation assembly further includes a heat dissipation grille, the heat dissipation grille includes a first plate body and a second plate body disposed opposite to each other, and a plurality of grid sheets disposed between the first plate body and the second plate body, and all of the grid sheets extend in the same direction;
所述散热片连接于所述第一板体,且所述第一板体朝向所述第二板体的一侧凹陷形成有安装槽,所述导热管的部分设置于所述安装槽内。The heat sink is connected to the first plate body, and a mounting groove is formed on a side of the first plate body facing the second plate body, and a portion of the heat pipe is disposed in the mounting groove.
在一些实施方式中,所述安装槽包括相互连通的第一槽体和第二槽体,所述第一槽体沿所述栅片的延伸方向延伸,所述第二槽体沿垂直于所述栅片的延伸方向延伸;所述导热管的所述第一导热部设置于所述第一槽体内,所述第二导热部设置于所述第二槽体内,所述第三导热部设置于所述制冷片的发热面上。 In some embodiments, the mounting groove includes a first groove body and a second groove body that are interconnected, the first groove body extends along the extension direction of the grid, and the second groove body extends in a direction perpendicular to the extension direction of the grid; the first heat-conducting portion of the heat pipe is arranged in the first groove body, the second heat-conducting portion is arranged in the second groove body, and the third heat-conducting portion is arranged on the heating surface of the refrigeration fin.
在一些实施方式中,所述第一槽体和所述第二槽体形成L型结构,且沿所述栅片的延伸方向,所述第一板体具有相对的第一端和第二端,所述第一槽体贯通所述第一端,所述第二槽体贯通所述第二端;In some embodiments, the first slot body and the second slot body form an L-shaped structure, and along the extension direction of the grid sheet, the first plate body has a first end and a second end opposite to each other, the first slot body passes through the first end, and the second slot body passes through the second end;
所述第一导热部、所述第二导热部和所述第三导热部形成U型结构。The first heat conducting portion, the second heat conducting portion and the third heat conducting portion form a U-shaped structure.
在一些实施方式中,所述进风口包括第一进风口和第二进风口,所述第一进风口与所述风扇的吸风口连通,In some embodiments, the air inlet includes a first air inlet and a second air inlet, the first air inlet is connected to the air suction port of the fan,
所述第一风道具有第一进口和第一出口,所述第一进口用于与所述风扇的吹风口连通,第一出口用于与所述出风口连通;The first air duct has a first inlet and a first outlet, the first inlet is used to communicate with the air outlet of the fan, and the first outlet is used to communicate with the air outlet;
所述第二风道具有第二进口和设置于所述第一风道上的第二出口,所述第二进口用于与所述第二进风口连通,所述第二出口用于与所述第一风道连通;The second air duct has a second inlet and a second outlet arranged on the first air duct, the second inlet is used to communicate with the second air inlet, and the second outlet is used to communicate with the first air duct;
所述第二风道通过所述第一风道内的气流吸风。The second air duct draws air through the airflow in the first air duct.
在一些实施方式中,所述第二进口的横截面积大于所述第二出口的横截面积,所述第二风道由所述第二进口至所述第二出口渐缩。In some embodiments, a cross-sectional area of the second inlet is greater than a cross-sectional area of the second outlet, and the second air duct tapers from the second inlet to the second outlet.
在一些实施方式中,沿所述第一风道的导流方向,所述第一风道的侧壁具有第一导流板和第二导流板,且所述第一导流板和所述第二导流板通过错位设置形成所述第二出口;In some embodiments, along the guide direction of the first air duct, the side wall of the first air duct has a first guide plate and a second guide plate, and the first guide plate and the second guide plate are staggered to form the second outlet;
所述第二导流板位于所述第二出口的一端向外侧延伸形成第三导流板,所述第三导流板与所述第一导流板形成所述第二风道。One end of the second guide plate located at the second outlet extends outward to form a third guide plate, and the third guide plate and the first guide plate form the second air duct.
在一些实施方式中,所述第三导流板相对于所述第二导流板向背离所述第一导流板的一侧弯折。In some embodiments, the third guide plate is bent relative to the second guide plate toward a side away from the first guide plate.
在一些实施方式中,所述风道组件还包括设置于所述第一风道上的第三风道;In some embodiments, the air duct assembly further includes a third air duct disposed on the first air duct;
所述第三风道具有第三进口和第三出口,所述第三进口用于与所述风扇的吹风口连通,第三出口用于与所述出风口连通。The third air duct has a third inlet and a third outlet. The third inlet is used to communicate with the air outlet of the fan, and the third outlet is used to communicate with the air outlet.
在一些实施方式中,所述第一风道包括底座和第一上盖,所述第一上盖盖 设于所述底座,且所述第一上盖具有盖顶和位于盖顶下侧的下盖壁,所述下盖壁上开设有所述第一进口和所述第一出口;In some embodiments, the first air duct includes a base and a first upper cover. The first upper cover is arranged on the base, and has a cover top and a lower cover wall located at the lower side of the cover top, and the first inlet and the first outlet are opened on the lower cover wall;
所述第三风道设置于所述盖顶的上侧。The third air duct is arranged on the upper side of the cover top.
在一些实施方式中,所述第三风道包括第二上盖和位于所述盖顶上侧的上盖壁,所述第二上盖盖设于所述上盖壁的顶部,且所述上盖壁上开设有所述第三进口和所述第三出口。In some embodiments, the third air duct includes a second upper cover and an upper cover wall located on the upper side of the cover top, the second upper cover is arranged on the top of the upper cover wall, and the third inlet and the third outlet are opened on the upper cover wall.
与现有技术相比,本发明所提供的一种脱毛仪具有以下有益效果的至少一个:Compared with the prior art, the hair removal device provided by the present invention has at least one of the following beneficial effects:
1.制冷片的制冷面对制冷模块进行降温,提高对制冷模块的散热效果,进而提高脱毛效果,发热面上的热量传递至散热片上,且散热片背离制冷片的一侧设置有导热管,由于导热管传导热量的效率高,使散热片上的热量通过导热管快速扩散,从而提升热量在散热片上的扩散效率,进而提高散热性能以及提升脱毛仪的耐用性。1. The cooling surface of the cooling plate cools down the cooling module, thereby improving the heat dissipation effect of the cooling module and thus improving the hair removal effect. The heat on the heating surface is transferred to the heat sink, and a heat pipe is provided on the side of the heat sink away from the cooling plate. Since the heat pipe has a high efficiency in heat conduction, the heat on the heat sink is quickly diffused through the heat pipe, thereby improving the heat diffusion efficiency on the heat sink, thereby improving the heat dissipation performance and improving the durability of the hair removal device.
2.当风扇工作时,风扇的吸风口将外部的气体由第一进风口吸入,并通过吹风口将气体吹向到第一进口,从而进入第一风道内并形成第一气流,第一气流由第一出口流向出风口排出,由于第一气流在流动时具有一定的流速,能够通过第二出口在第二风道内形成负压,并将外部气体由第二进风口吸入到第二进口,从而进入到第二风道内形成第二气流,仅通过一个风扇即可形成两道气流一同对第一风道内的发热件进行散热,提高了脱毛仪的散热效果和耐用性,且不占用过多外壳内部空间,使脱毛仪能够整体体积较小便于携带,同时由于第二进口的横截面积大于第二出口的横截面积,使第二出口处的风速大于第二进口处的风速,从而提升第二气流进入第一风道内的速度,进一步提升散热效果。2. When the fan is working, the air suction port of the fan sucks external air from the first air inlet, and blows the air to the first inlet through the air blowing port, thereby entering the first air duct and forming a first airflow, and the first airflow flows from the first outlet to the air outlet and is discharged. Since the first airflow has a certain flow rate when flowing, it can form a negative pressure in the second air duct through the second outlet, and suck the external air from the second air inlet to the second inlet, thereby entering the second air duct to form a second airflow. Only one fan can form two airflows to dissipate the heat of the heating element in the first air duct together, thereby improving the heat dissipation effect and durability of the hair removal device, and does not occupy too much space inside the shell, so that the hair removal device can be small in size as a whole and easy to carry. At the same time, since the cross-sectional area of the second inlet is larger than the cross-sectional area of the second outlet, the wind speed at the second outlet is greater than the wind speed at the second inlet, thereby increasing the speed of the second airflow entering the first air duct, further improving the heat dissipation effect.
3.灯管通过两端的阻尼减震座固定在脱毛仪内,方便灯管安装,当脱毛仪掉落或发生碰撞时,灯管两端的阻尼减震座通过阻尼作用能够吸收震 荡能量,从而减小传递至灯管上的共振振幅,有效避免灯管破裂,进而提升灯管的使用寿命。3. The lamp tube is fixed in the hair removal device through the damping shock-absorbing seats at both ends, which is convenient for the installation of the lamp tube. When the hair removal device falls or collides, the damping shock-absorbing seats at both ends of the lamp tube can absorb the shock through the damping effect. The energy of the lamp is reduced, thereby reducing the resonance amplitude transmitted to the lamp tube, effectively avoiding the lamp tube from breaking, and thus prolonging the service life of the lamp tube.
附图说明BRIEF DESCRIPTION OF THE DRAWINGS
下面将以明确易懂的方式,结合附图说明优选实施方式,对本发明的上述特性、技术特征、优点及其实现方式予以进一步说明。The preferred implementation modes will be described below in a clear and understandable manner with reference to the accompanying drawings to further illustrate the above-mentioned characteristics, technical features, advantages and implementation methods of the present invention.
图1是本实用新型实施例提供的散热组件***图;FIG1 is an exploded view of a heat dissipation assembly provided by an embodiment of the present utility model;
图2是本实用新型实施例提供的散热组件的一侧示意图;FIG2 is a schematic diagram of a side view of a heat dissipation assembly provided by an embodiment of the present utility model;
图3是本实用新型实施例提供的散热组件的一侧示意图;FIG3 is a schematic diagram of a side view of a heat dissipation assembly provided by an embodiment of the present utility model;
图4是本实用新型实施例提供的散热组件的另一侧示意图;FIG4 is a schematic diagram of another side of the heat dissipation assembly provided by an embodiment of the utility model;
图5是本实用新型实施例提供的导热管分体设置时的结构示意图;FIG5 is a schematic diagram of the structure of the heat transfer pipe provided by the embodiment of the utility model when it is separately arranged;
图6是本实用新型实施例提供的散热片上设置有第一栅体和第二栅体时的结构示意图;6 is a schematic structural diagram of a heat sink provided by an embodiment of the utility model when a first grid body and a second grid body are provided;
图7是本实用新型实施例提供的散热片上设置有第一栅体和第二栅体时的***图;7 is an exploded view of a heat sink provided by an embodiment of the present utility model when a first grid body and a second grid body are provided;
图8是本实用新型实施例提供的导热管与散热组件的安装***图;FIG8 is an exploded view of the installation of the heat pipe and the heat dissipation assembly provided in an embodiment of the utility model;
图9是本实用新型实施例提供的导热管安装在第二槽体贯通第二端时的结构示意图;9 is a schematic structural diagram of a heat pipe provided by an embodiment of the utility model when it is installed in the second tank body and passes through the second end;
图10是本实用新型实施例提供的脱毛仪结构示意图;10 is a schematic structural diagram of a hair removal device provided in an embodiment of the utility model;
图11是本实用新型实施例提供的底座的俯视图;FIG11 is a top view of a base provided in an embodiment of the utility model;
图12是本实用新型实施例提供的风道组件出风侧结构示意图;FIG12 is a schematic diagram of the structure of the air outlet side of the air duct assembly provided in an embodiment of the present utility model;
图13是本实用新型实施例提供的风道组件结构示意图;FIG13 is a schematic diagram of the structure of the air duct assembly provided in an embodiment of the utility model;
图14是本实用新型实施例提供的第一上盖安装在底座上时的第一出口处示意图;14 is a schematic diagram of the first outlet when the first upper cover is installed on the base according to an embodiment of the present utility model;
图15是本实用新型实施例提供的第一上盖安装在底座上时的第一进口处 示意图;FIG. 15 is a diagram of the first inlet when the first upper cover provided by the embodiment of the utility model is installed on the base Schematic diagram;
图16是本实用新型实施例提供的抗摔氙灯组结构示意图;FIG16 is a schematic diagram of the structure of an anti-drop xenon lamp assembly provided in an embodiment of the present utility model;
图17是本实用新型实施例提供的一个视角的阻尼减震座***图;FIG17 is an exploded view of a damping shock absorbing seat from one perspective provided by an embodiment of the utility model;
图18是本实用新型实施例提供的另一个视角的阻尼减震座***图。FIG. 18 is an exploded view of the damping shock absorbing seat from another perspective provided by an embodiment of the utility model.
附图标号说明:Description of Figure Numbers:
外壳1,制冷模块11,进风口12,第一进风口121,第二进风口122,出风口13,Housing 1, refrigeration module 11, air inlet 12, first air inlet 121, second air inlet 122, air outlet 13,
散热组件2,散热片21,散热主体211,第二散热部2111,第三散热部2112,第一散热部212,制冷片22,导热膏体221,缓冲件222,导热管23,第一管体231,第二管体232,第一导热段233、第二导热段234,第三导热段235,散热格栅24,第一板体241,安装槽2411,第一槽体24111,第二槽体24112,第二板体242,栅片243,第一栅体244,第二栅体245,分隔壁255,Heat dissipation component 2, heat sink 21, heat dissipation body 211, second heat dissipation part 2111, third heat dissipation part 2112, first heat dissipation part 212, cooling sheet 22, thermal paste 221, buffer 222, heat pipe 23, first tube 231, second tube 232, first heat conduction section 233, second heat conduction section 234, third heat conduction section 235, heat dissipation grille 24, first plate 241, mounting groove 2411, first slot 24111, second slot 24112, second plate 242, grid 243, first grid 244, second grid 245, partition wall 255,
风道组件3,第一进口31,第一出口32,第二进口33,第二出口34,第三进口35,第三出口36,第一导流板37,第二导流板38,第三导流板39,底座40,第一上盖41,盖顶42,下盖壁43,第二上盖44,上盖壁45,遮挡部46,Air duct assembly 3, first inlet 31, first outlet 32, second inlet 33, second outlet 34, third inlet 35, third outlet 36, first guide plate 37, second guide plate 38, third guide plate 39, base 40, first upper cover 41, cover top 42, lower cover wall 43, second upper cover 44, upper cover wall 45, shielding portion 46,
灯管51,阻尼减震座52,第一连接件53,减震件54,万向槽55,万向球56,第一缺口57,圆筒58,第一端盖59,第二端盖60,插接部61,第二缺口62,限位部63,连接部64。Lamp tube 51 , damping shock absorbing seat 52 , first connecting member 53 , shock absorbing member 54 , universal groove 55 , universal ball 56 , first notch 57 , cylinder 58 , first end cover 59 , second end cover 60 , plug-in portion 61 , second notch 62 , limiting portion 63 , connecting portion 64 .
具体实施方式Detailed ways
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对照附图说明本发明的具体实施方式。显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图,并获得其他的实施方式。 In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the specific implementation methods of the present invention will be described below with reference to the accompanying drawings. Obviously, the accompanying drawings described below are only some embodiments of the present invention. For ordinary technicians in this field, other drawings and other implementation methods can be obtained based on these drawings without creative work.
为使图面简洁,各图中只示意性地表示出了与发明相关的部分,它们并不代表其作为产品的实际结构。另外,以使图面简洁便于理解,在有些图中具有相同结构或功能的部件,仅示意性地绘示了其中的一个,或仅标出了其中的一个。在本文中,“一个”不仅表示“仅此一个”,也可以表示“多于一个”的情形。In order to simplify the drawings, only the parts related to the invention are schematically shown in each figure, and they do not represent the actual structure of the product. In addition, in order to simplify the drawings and facilitate understanding, in some figures, only one of the parts with the same structure or function is schematically drawn or marked. In this article, "one" not only means "only one", but also means "more than one".
还应当进一步理解,在本申请说明书和所附权利要求书中使用的术语“和/或”是指相关联列出的项中的一个或多个的任何组合以及所有可能组合,并且包括这些组合。It should be further understood that the term “and/or” used in the specification and appended claims refers to any combination and all possible combinations of one or more of the associated listed items, and includes these combinations.
在本文中,需要说明的是,除非另有明确的规定和限定,术语“安装”、“相连”、“连接”应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或一体地连接;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通。对于本领域的普通技术人员而言,可以具体情况理解上述术语在本发明中的具体含义。In this document, it should be noted that, unless otherwise clearly specified and limited, the terms "installed", "connected", and "connected" should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, or it can be indirectly connected through an intermediate medium, or it can be the internal communication of two components. For ordinary technicians in this field, the specific meanings of the above terms in the present invention can be understood according to specific circumstances.
另外,在本申请的描述中,术语“第一”、“第二”等仅用于区分描述,而不能理解为指示或暗示相对重要性。应当说明的是,上述实施例均可根据需要自由组合。以上仅是本发明的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本发明的保护范围。In addition, in the description of the present application, the terms "first", "second", etc. are only used to distinguish the description and cannot be understood as indicating or implying relative importance. It should be noted that the above embodiments can be freely combined as needed. The above are only preferred implementations of the present invention. It should be pointed out that for ordinary technicians in this technical field, several improvements and modifications can be made without departing from the principles of the present invention, and these improvements and modifications should also be regarded as the scope of protection of the present invention.
本发明提供一个脱毛仪,脱毛仪包括外壳1以及设置在外壳1内的散热组件2和风道组件3;风道组件3包括开设在外壳1上的进风口12、出风口13以及出光口,外壳1内部形成散热风腔,出光口用于设置制冷模块11,进风口12处还设有风扇,风扇用于向散热风腔内吹风;散热组件2包括散热片21和制冷片22,散热片21和制冷片22均设置在散热风腔,制冷片22具有制冷面和发热面,制冷面朝向制冷模块11设置,发热面通过散热片21传递热量。The present invention provides a hair removal device, which includes a shell 1 and a heat dissipation component 2 and an air duct component 3 arranged in the shell 1; the air duct component 3 includes an air inlet 12, an air outlet 13 and a light outlet opened on the shell 1, a heat dissipation air cavity is formed inside the shell 1, the light outlet is used to set a refrigeration module 11, and a fan is also arranged at the air inlet 12, and the fan is used to blow air into the heat dissipation air cavity; the heat dissipation component 2 includes a heat sink 21 and a cooling fin 22, the heat sink 21 and the cooling fin 22 are both arranged in the heat dissipation air cavity, the cooling fin 22 has a cooling surface and a heating surface, the cooling surface is arranged toward the refrigeration module 11, and the heating surface transfers heat through the heat sink 21.
本实施例中,制冷片22的制冷面对制冷模块11进行降温,提高对制冷模 块11的散热效果,进而提高脱毛效果,发热面上的热量传递至散热片21上,散热片21、制冷片22均设置于散热风腔内,当风扇工作时,将外部的空气通过风扇引入风道组件3的进风口12,从而对散热风腔内的散热片21、导热管23、制冷片22进行散热,并将热量通过出风口13排出外壳1,提高散热效果。具体地,制冷模块11包括但不局限于蓝宝石。In this embodiment, the cooling surface of the cooling plate 22 cools the cooling module 11, thereby improving the cooling effect on the cooling module. The heat dissipation effect of the block 11 is improved, thereby improving the hair removal effect. The heat on the heating surface is transferred to the heat sink 21. The heat sink 21 and the cooling fin 22 are both arranged in the heat dissipation air cavity. When the fan is working, the external air is introduced into the air inlet 12 of the air duct assembly 3 through the fan, thereby dissipating the heat of the heat sink 21, the heat pipe 23, and the cooling fin 22 in the heat dissipation air cavity, and the heat is discharged from the housing 1 through the air outlet 13, thereby improving the heat dissipation effect. Specifically, the refrigeration module 11 includes but is not limited to sapphire.
本实施例的可选技术方案中,散热片21包括散热主体211和第一散热部212,制冷片22设置于第一散热部212与制冷模块11之间。In an optional technical solution of this embodiment, the heat sink 21 includes a heat sink body 211 and a first heat sink portion 212 , and the cooling fin 22 is disposed between the first heat sink portion 212 and the cooling module 11 .
本实施例中,第一散热部212的下侧面与下方制冷片22的发热面贴合,发热面的热量通过第一散热部212扩散至散热主体211,提高散热面积,进而提升散热效果。In this embodiment, the lower side surface of the first heat dissipation part 212 is in contact with the heating surface of the lower cooling plate 22, and the heat of the heating surface is diffused to the heat dissipation body 211 through the first heat dissipation part 212, thereby increasing the heat dissipation area and thus improving the heat dissipation effect.
本实施例的可选技术方案中,导热管23可以分体设置,优选的,导热管23包括第一管体231和第二管体232;第一管体231至少部分位于第一散热部212上,第二管体232位于散热主体211上。In an optional technical solution of this embodiment, the heat pipe 23 can be arranged in a split body. Preferably, the heat pipe 23 includes a first tube body 231 and a second tube body 232 ; the first tube body 231 is at least partially located on the first heat dissipation portion 212 , and the second tube body 232 is located on the heat dissipation body 211 .
本实施例中,第一管体231可以全部位于第一散热部212的上侧面,能够有效提高第一散热部212的热量扩散效率。优选的,第一管体231的一部分位于第一散热部212的上侧面,另一部分位于散热主体211的上侧面,既能提高第一散热部212的热量扩散效率,也能提高散热主体211的热量扩散效率。第二管体232设置在散热主体211的上侧面,散热主体211通过第二管体232快速将热量扩散,提高散热主体211的散热效果。In this embodiment, the first tube 231 can be entirely located on the upper side of the first heat dissipation portion 212, which can effectively improve the heat diffusion efficiency of the first heat dissipation portion 212. Preferably, a portion of the first tube 231 is located on the upper side of the first heat dissipation portion 212, and another portion is located on the upper side of the heat dissipation body 211, which can improve the heat diffusion efficiency of both the first heat dissipation portion 212 and the heat dissipation body 211. The second tube 232 is disposed on the upper side of the heat dissipation body 211, and the heat dissipation body 211 quickly diffuses the heat through the second tube 232, thereby improving the heat dissipation effect of the heat dissipation body 211.
需要说明的是,本实施例不仅局限于此,当导热管23设置时,导热管23可以包括两个以上管体,管体可以设置在散热主体211的上侧面,也可以设置在第一散热部212的上侧面,只要满足散热需求即可。It should be noted that this embodiment is not limited to this. When the heat pipe 23 is set, the heat pipe 23 can include more than two tube bodies. The tube bodies can be set on the upper side of the heat dissipation body 211 or on the upper side of the first heat dissipation part 212, as long as the heat dissipation requirements are met.
本实施例的可选技术方案中,导热管23也可以一体成型,此时导热管23包括第一导热段233、第二导热段234和第三导热段235,且第一导热段233和第三导热段235通过第二导热段234连接;第一导热段233位于第一散热部 212上,第二导热段234和第三导热段235均位于散热主体211上。In an optional technical solution of this embodiment, the heat conducting pipe 23 can also be integrally formed. In this case, the heat conducting pipe 23 includes a first heat conducting section 233, a second heat conducting section 234 and a third heat conducting section 235, and the first heat conducting section 233 and the third heat conducting section 235 are connected through the second heat conducting section 234; the first heat conducting section 233 is located at the first heat dissipation portion 212 , the second heat conducting segment 234 and the third heat conducting segment 235 are both located on the heat dissipation body 211 .
本实施例中,第一导热段233位于第一散热部212的上侧面,第二导热段234和第三导热段235均位于散热主体211的上侧面,发热面的热量传递至第一散热部212后,第一散热部212的热量向散热主体211扩散的同时也传递至第一导热段233,第一导热段233将热量传递至第二导热段234,进而传递至第三导热段235,第一散热部212的热量通过第一导热段233、第二导热段234和第三导热段235能够快速传递至散热主体211,提高散热效果。In this embodiment, the first heat-conducting section 233 is located on the upper side of the first heat dissipation portion 212, and the second heat-conducting section 234 and the third heat-conducting section 235 are both located on the upper side of the heat dissipation body 211. After the heat of the heating surface is transferred to the first heat dissipation portion 212, the heat of the first heat dissipation portion 212 diffuses toward the heat dissipation body 211 and is also transferred to the first heat-conducting section 233. The first heat-conducting section 233 transfers the heat to the second heat-conducting section 234, and then to the third heat-conducting section 235. The heat of the first heat dissipation portion 212 can be quickly transferred to the heat dissipation body 211 through the first heat-conducting section 233, the second heat-conducting section 234 and the third heat-conducting section 235, thereby improving the heat dissipation effect.
本实施例的可选技术方案中,第一导热段233、第二导热段234和第三导热段235形成U型结构。制作方便且结构简单。In the optional technical solution of this embodiment, the first heat conducting section 233, the second heat conducting section 234 and the third heat conducting section 235 form a U-shaped structure, which is easy to manufacture and has a simple structure.
但本实施例不仅局限于此,第一导热段233、第二导热段234和第三导热段235也可以形成T型结构、丁字结构或其他形状的结构,只要满足需求即可。However, the present embodiment is not limited thereto, and the first heat conducting segment 233 , the second heat conducting segment 234 and the third heat conducting segment 235 may also form a T-shaped structure, a T-shaped structure or other shapes as long as the requirements are met.
本实施例的可选技术方案中,第三导热段235的长度大于第一导热段233的长度。In an optional technical solution of this embodiment, the length of the third heat conducting segment 235 is greater than the length of the first heat conducting segment 233 .
本实施例中,制冷片22的长度小于散热主体211的长度,即发热面的长度小于散热主体211的长度,由于散热主体211的散热面积较大,提高散热效果,同时第三导热段235的长度大于第一导热段233的长度,提高第三导热段235与散热主体211的接触面积,提高散热效果,优选的,第一导热段233的形状和大小与发热面匹配,提高热传递效率和效果。In this embodiment, the length of the cooling fin 22 is smaller than the length of the heat dissipation body 211, that is, the length of the heating surface is smaller than the length of the heat dissipation body 211. Since the heat dissipation area of the heat dissipation body 211 is larger, the heat dissipation effect is improved. At the same time, the length of the third heat conduction segment 235 is greater than the length of the first heat conduction segment 233, which increases the contact area between the third heat conduction segment 235 and the heat dissipation body 211 and improves the heat dissipation effect. Preferably, the shape and size of the first heat conduction segment 233 match the heating surface to improve the heat transfer efficiency and effect.
本实施例的可选技术方案中,还包括散热格栅24,散热格栅24设置于散热片21朝向制冷片22的一侧,且位于散热主体211上。An optional technical solution of this embodiment further includes a heat dissipation grille 24 . The heat dissipation grille 24 is arranged on a side of the heat dissipation fin 21 facing the cooling fin 22 and is located on the heat dissipation body 211 .
本实施例中,散热格栅24设置于散热主体211的下侧面,散热主体211上的热量通过散热格栅24能够快速散热,提高散热效果。In this embodiment, the heat dissipation grille 24 is disposed on the lower side of the heat dissipation body 211 , and the heat on the heat dissipation body 211 can be quickly dissipated through the heat dissipation grille 24 , thereby improving the heat dissipation effect.
本实施例的可选技术方案中,散热格栅24包括第一栅体244和第二栅体245,散热主体211包括第二散热部2111和第三散热部2112;第一栅体244连接于第二散热部2111,第二栅体245连接于第三散热部2112,且第二栅体245 位于进风口12处。In the optional technical solution of this embodiment, the heat dissipation grille 24 includes a first grille 244 and a second grille 245, and the heat dissipation body 211 includes a second heat dissipation portion 2111 and a third heat dissipation portion 2112; the first grille 244 is connected to the second heat dissipation portion 2111, the second grille 245 is connected to the third heat dissipation portion 2112, and the second grille 245 Located at air inlet 12.
本实施例中,第一栅体244连接于第二散热部2111的下侧面,第二栅体245连接于第三散热部2112的下侧面,第一栅体244对第二散热部2111进行散热,第二栅体245对第三散热部2112进行散热,且第二栅体245位于进风口12处,散热效果好。In this embodiment, the first grid body 244 is connected to the lower side of the second heat dissipation part 2111, and the second grid body 245 is connected to the lower side of the third heat dissipation part 2112. The first grid body 244 dissipates heat for the second heat dissipation part 2111, and the second grid body 245 dissipates heat for the third heat dissipation part 2112. The second grid body 245 is located at the air inlet 12, and the heat dissipation effect is good.
本实施例中,第三导热段235可以全部位于第二散热部2111的上侧面,也可以一部分位于第二散热部2111的上侧面,另一部分位于第三散热部2112的上侧面,第二导热段234位于第二散热部2111的上侧面。In this embodiment, the third heat conducting section 235 can be entirely located on the upper side of the second heat dissipation portion 2111, or a portion can be located on the upper side of the second heat dissipation portion 2111 and another portion can be located on the upper side of the third heat dissipation portion 2112. The second heat conducting section 234 is located on the upper side of the second heat dissipation portion 2111.
本实施例的可选技术方案中,散热格栅24包括第一板体241和第二板体242,散热主体211包括第二散热部2111和第三散热部2112;第一板体241连接于第二散热部2111,第二板体242连接于第三散热部2112,且第二板体242位于进风口12处。In the optional technical solution of this embodiment, the heat dissipation grille 24 includes a first plate body 241 and a second plate body 242, and the heat dissipation body 211 includes a second heat dissipation part 2111 and a third heat dissipation part 2112; the first plate body 241 is connected to the second heat dissipation part 2111, the second plate body 242 is connected to the third heat dissipation part 2112, and the second plate body 242 is located at the air inlet 12.
本实施例中,第一板体241连接于第二散热部2111的下侧面,第二板体242连接于第三散热部2112的下侧面,第一板体241对第二散热部2111进行散热,第二板体242对第三散热部2112进行散热,且第二板体242位于进风口12处,散热效果好。In this embodiment, the first plate body 241 is connected to the lower side of the second heat dissipation part 2111, and the second plate body 242 is connected to the lower side of the third heat dissipation part 2112. The first plate body 241 dissipates heat for the second heat dissipation part 2111, and the second plate body 242 dissipates heat for the third heat dissipation part 2112. The second plate body 242 is located at the air inlet 12, and the heat dissipation effect is good.
本实施例中,第三导热段235可以全部位于第二散热部2111的上侧面,也可以一部分位于第二散热部2111的上侧面,另一部分位于第三散热部2112的上侧面,第二导热段234位于第二散热部2111的上侧面。In this embodiment, the third heat conducting section 235 can be entirely located on the upper side of the second heat dissipation portion 2111, or a portion can be located on the upper side of the second heat dissipation portion 2111 and another portion can be located on the upper side of the third heat dissipation portion 2112. The second heat conducting section 234 is located on the upper side of the second heat dissipation portion 2111.
本实施例的可选技术方案中,散热组件2包括散热片21和与散热片21相对设置的散热格栅24,散热片21连接于散热格栅24,且导热管23的部分设置于散热片21与散热格栅24之间。In an optional technical solution of this embodiment, the heat dissipation assembly 2 includes a heat sink 21 and a heat dissipation grille 24 arranged opposite to the heat sink 21, the heat sink 21 is connected to the heat dissipation grille 24, and part of the heat pipe 23 is arranged between the heat sink 21 and the heat dissipation grille 24.
本实施例中,散热格栅24连接于散热片21的下表面,通过散热格栅24对散热片21进行散热,提高散热效果。其中,导热管23的其中一大部分安装在散热格栅24与散热片21之间,且与散热片21和散热格栅24贴合,提高导 热管23与散热片21和散热格栅24之间的热传导效率,进而提升散热效果,同时导热管23的另外一小部分伸出并与下方的发热面贴合,提高导热管23与发热面之间的热传导效率,进而提升散热效果。In this embodiment, the heat dissipation grille 24 is connected to the lower surface of the heat sink 21, and the heat dissipation grille 24 is used to dissipate heat from the heat sink 21, thereby improving the heat dissipation effect. Among them, a large part of the heat pipe 23 is installed between the heat dissipation grille 24 and the heat sink 21, and is in close contact with the heat sink 21 and the heat dissipation grille 24, thereby improving the heat dissipation effect. The heat conduction efficiency between the heat pipe 23 and the heat sink 21 and the heat sink grille 24 is improved, thereby improving the heat dissipation effect. At the same time, another small part of the heat pipe 23 extends out and fits with the heating surface below, thereby improving the heat conduction efficiency between the heat pipe 23 and the heating surface, thereby improving the heat dissipation effect.
本实施例不仅局限于此,也可以是散热组件2仅包括散热片21,导热管23的其中一大部分安装在散热片21的下表面,且与散热片21贴合,提高导热管23与散热片21之间的热传导效率,进而提升散热效果,同时导热管23的另外一小部分与下方的发热面贴合,提高导热管23与发热面之间的热传导效率,进而提升散热效果。The present embodiment is not limited thereto, and the heat dissipation assembly 2 may also only include the heat sink 21, a large portion of the heat pipe 23 is installed on the lower surface of the heat sink 21, and is in contact with the heat sink 21, thereby improving the heat conduction efficiency between the heat pipe 23 and the heat sink 21, thereby improving the heat dissipation effect, and at the same time, another small portion of the heat pipe 23 is in contact with the heating surface below, thereby improving the heat conduction efficiency between the heat pipe 23 and the heating surface, thereby improving the heat dissipation effect.
本实施例的可选技术方案中,散热格栅24包括相对设置的第一板体241和第二板体242,以及设置于第一板体241与第二板体242之间的多个栅片243,且全部栅片243的延伸方向相同;散热片21连接于第一板体241,且第一板体241朝向第二板体242的一侧凹陷形成安装槽2411,导热管23的部分设置于安装槽2411内。In the optional technical solution of this embodiment, the heat dissipation grille 24 includes a first plate body 241 and a second plate body 242 that are arranged opposite to each other, and a plurality of grid plates 243 arranged between the first plate body 241 and the second plate body 242, and the extension direction of all the grid plates 243 is the same; the heat dissipation fin 21 is connected to the first plate body 241, and the first plate body 241 is recessed on one side toward the second plate body 242 to form an installation groove 2411, and a portion of the heat pipe 23 is arranged in the installation groove 2411.
本实施例中,栅片243的上端连接于第一板体241的下侧面,下端连接于第二板体242的上侧面,散热片21连接在第一板体241的上侧面,同时第一板体241的上侧面向下凹陷形成安装槽2411,导热管23的一大部分设置于安装槽2411内,整体结构稳定简单,且安装方便。In this embodiment, the upper end of the grid 243 is connected to the lower side of the first plate 241, and the lower end is connected to the upper side of the second plate 242. The heat sink 21 is connected to the upper side of the first plate 241. At the same time, the upper side of the first plate 241 is recessed downward to form a mounting groove 2411. A large part of the heat pipe 23 is arranged in the mounting groove 2411. The overall structure is stable and simple, and it is easy to install.
本实施例的可选技术方案中,安装槽2411包括相互连通的第一槽体24111和第二槽体24112,第一槽体24111沿栅片243的延伸方向延伸,第二槽体24112沿垂直于栅片243的延伸方向延伸;导热管23包括第一导热段233、第二导热段234和第三导热段235,且第一导热段233和第三导热段235通过第二导热段234连接;第一导热段233设置于第一槽体24111内,第二导热段234设置于第二槽体24112内,第三导热段235设置于发热面上。In an optional technical solution of this embodiment, the mounting groove 2411 includes a first groove body 24111 and a second groove body 24112 which are interconnected, the first groove body 24111 extends along the extension direction of the grid sheet 243, and the second groove body 24112 extends along the extension direction perpendicular to the grid sheet 243; the heat pipe 23 includes a first heat conducting section 233, a second heat conducting section 234 and a third heat conducting section 235, and the first heat conducting section 233 and the third heat conducting section 235 are connected through the second heat conducting section 234; the first heat conducting section 233 is arranged in the first groove body 24111, the second heat conducting section 234 is arranged in the second groove body 24112, and the third heat conducting section 235 is arranged on the heat generating surface.
本实施例中,在水平方向上,第一槽体24111的延伸方向与栅片243的延伸方向,第二槽体24112的延伸方向与栅片243的延伸方向垂直,且第二槽体 24112的一端与第一槽体24111连通,另一端贯通第一板体241,第三导热段235位于第二槽体24112的外部,且与发热面贴合,第三导热段235通过第二导热段234与第一导热段233连接,使第三导热段235的热量能够通过第二导热段234和第一导热段233沿第一槽体24111的延伸方向和第二槽体24112的延伸方向快速传递至散热片21和第一板体241,进而提升散热效果。In this embodiment, in the horizontal direction, the extension direction of the first slot body 24111 is perpendicular to the extension direction of the grid sheet 243, and the extension direction of the second slot body 24112 is perpendicular to the extension direction of the grid sheet 243. One end of 24112 is connected to the first slot body 24111, and the other end passes through the first plate body 241. The third heat-conducting segment 235 is located outside the second slot body 24112 and is in contact with the heat-generating surface. The third heat-conducting segment 235 is connected to the first heat-conducting segment 233 through the second heat-conducting segment 234, so that the heat of the third heat-conducting segment 235 can be quickly transferred to the heat sink 21 and the first plate body 241 through the second heat-conducting segment 234 and the first heat-conducting segment 233 along the extension direction of the first slot body 24111 and the extension direction of the second slot body 24112, thereby improving the heat dissipation effect.
本实施例的可选技术方案中,第一槽体24111和第二槽体24112形成L型结构,且沿栅片243的延伸方向,第一板体241具有相对的第一端和第二端,第一槽体24111贯通第一端;第一导热段233、第二导热段234和第三导热段235形成U型结构。In an optional technical solution of this embodiment, the first groove body 24111 and the second groove body 24112 form an L-shaped structure, and along the extension direction of the grid plate 243, the first plate body 241 has a first end and a second end opposite to each other, and the first groove body 24111 passes through the first end; the first heat conducting section 233, the second heat conducting section 234 and the third heat conducting section 235 form a U-shaped structure.
本实施例中,由于第一槽体24111和第二槽体24112形成L型结构,在安装时,先将导热管23放置在安装槽2411内,在将散热片21与第一板体241连接,其中连接方式可以是焊接、卡接或螺栓连接。第一槽体24111的一端贯通第一端,另一端与第二槽体24112连通,第一导热段233远离第二导热段234的一端与第一端平齐,提高散热效果,同时安装槽2411和导热管23的结构简单制作方便,且便于安装。In this embodiment, since the first slot body 24111 and the second slot body 24112 form an L-shaped structure, during installation, the heat pipe 23 is first placed in the installation slot 2411, and then the heat sink 21 is connected to the first plate body 241, wherein the connection method may be welding, clamping or bolting. One end of the first slot body 24111 passes through the first end, and the other end is connected to the second slot body 24112. The end of the first heat conducting section 233 away from the second heat conducting section 234 is flush with the first end, thereby improving the heat dissipation effect. At the same time, the structure of the installation slot 2411 and the heat conducting pipe 23 is simple, convenient to manufacture, and easy to install.
本实施例的可选技术方案中,第二槽体24112贯通第二端。In an optional technical solution of this embodiment, the second slot 24112 passes through the second end.
本实施例中,由于第二槽体24112贯通第二端,使安装槽2411形成插槽,此时,可以将导热管23由第二端插在安装槽2411后,在将散热片21与第一板体241连接;也可以先将散热片21和第一板体241连接后,再将导热管23由第二端***安装槽2411,提高适用性,安装与拆卸方便。In this embodiment, since the second groove body 24112 passes through the second end, the installation groove 2411 forms a slot. At this time, the heat pipe 23 can be inserted into the installation groove 2411 from the second end, and then the heat sink 21 is connected to the first plate body 241; or the heat sink 21 and the first plate body 241 can be connected first, and then the heat pipe 23 can be inserted into the installation groove 2411 from the second end, which improves applicability and facilitates installation and disassembly.
本实施例的可选技术方案中,沿栅片243的延伸方向,制冷片22的长度小于散热组件2的长度,即发热面的长度小于散热组件2的长度,由于散热组件2的散热面积较大,提高散热效果,同时第一导热段233的长度大于第三导热段235的长度,提高第一导热段233与散热组件2的接触面积,提高散热效果,优选的,第三导热段235的形状和大小与发热面匹配,提高热传递效率和 效果。In the optional technical solution of this embodiment, along the extension direction of the grid sheet 243, the length of the cooling sheet 22 is less than the length of the heat dissipation component 2, that is, the length of the heating surface is less than the length of the heat dissipation component 2. Since the heat dissipation area of the heat dissipation component 2 is large, the heat dissipation effect is improved. At the same time, the length of the first heat conduction segment 233 is greater than the length of the third heat conduction segment 235, and the contact area between the first heat conduction segment 233 and the heat dissipation component 2 is increased, thereby improving the heat dissipation effect. Preferably, the shape and size of the third heat conduction segment 235 match the heating surface, thereby improving the heat transfer efficiency and Effect.
本实施例的可选技术方案中,散热片21包括散热主体211和第一散热部212,散热主体211连接于第一板体241,第三导热段235设置于第一散热部212与发热面之间。In an optional technical solution of this embodiment, the heat sink 21 includes a heat dissipation body 211 and a first heat dissipation portion 212 , the heat dissipation body 211 is connected to the first plate 241 , and the third heat conduction segment 235 is disposed between the first heat dissipation portion 212 and the heating surface.
本实施例中,第三导热段235的下侧面与发热面贴合,上侧面与第一散热部212贴合,使第三导热段235的热量通过第二导热段234传递的同时,还通过第一散热部212传递至散热主体211,进一步提高热传递效果,进而提升散热效果。In this embodiment, the lower side surface of the third heat-conducting segment 235 is in contact with the heat-generating surface, and the upper side surface is in contact with the first heat dissipation portion 212, so that the heat of the third heat-conducting segment 235 is transferred through the second heat-conducting segment 234 while being transferred to the heat dissipation body 211 through the first heat dissipation portion 212, thereby further improving the heat transfer effect and thus improving the heat dissipation effect.
进一步的,发热面上设置有导热膏体221,第三导热段235与导热膏体221贴合,导热膏体221能够将发热面上的热量传递至第三导热段235,同时具有缓冲作用,避免第三导热段235和制冷片22损坏。第一散热部212背离第三导热段235的一侧设置有缓冲件222,即第一散热部212的上侧设置有缓冲件222,避免第一散热部212与第二上盖44直接接触导致碰撞损坏。Furthermore, a heat-conducting paste 221 is provided on the heating surface, and the third heat-conducting section 235 is attached to the heat-conducting paste 221. The heat-conducting paste 221 can transfer the heat on the heating surface to the third heat-conducting section 235, and has a buffering effect to prevent damage to the third heat-conducting section 235 and the cooling plate 22. A buffer 222 is provided on the side of the first heat dissipation portion 212 away from the third heat-conducting section 235, that is, a buffer 222 is provided on the upper side of the first heat dissipation portion 212 to prevent the first heat dissipation portion 212 from directly contacting the second upper cover 44 and causing collision damage.
进一步地,风道组件3包括底座40、第一上盖41和第二上盖44,脱毛仪还包括灯管51,灯管51安装在底座40上,且位于第一风道内,第一风道能够对灯管51进行散热,底座40上开设有出光口,制冷模块11安装在出光口处,且与灯管51对应配合,散热片21、导热管23和散热格栅24均设置在分隔壁255上,且均位于第二风道内,分隔壁255开设有导热口,制冷片22穿设于导热口且制冷面与制冷模块11的顶部贴合,发热面与第一散热部212贴合。进风口12和出风口13均是一部分位于上盖壁45,另一部分位于下盖壁43,实现风扇向第二风道和第一风道内同时吹风,使脱毛仪只需设置一个风扇,节省内部空间,使脱毛仪能够整体更小。Furthermore, the air duct assembly 3 includes a base 40, a first upper cover 41 and a second upper cover 44, and the hair removal device also includes a lamp tube 51, which is mounted on the base 40 and located in the first air duct. The first air duct can dissipate heat for the lamp tube 51. A light outlet is provided on the base 40, and the refrigeration module 11 is mounted at the light outlet and corresponds to the lamp tube 51. The heat sink 21, the heat pipe 23 and the heat dissipation grille 24 are all arranged on the partition wall 255 and are all located in the second air duct. The partition wall 255 is provided with a heat conduction port, and the refrigeration fin 22 is penetrated through the heat conduction port and the refrigeration surface is attached to the top of the refrigeration module 11, and the heating surface is attached to the first heat dissipation part 212. The air inlet 12 and the air outlet 13 are both partially located on the upper cover wall 45 and the other part is located on the lower cover wall 43, so that the fan blows air into the second air duct and the first air duct at the same time, so that the hair removal device only needs to be provided with one fan, saving internal space and making the hair removal device smaller as a whole.
具体的,进风口12包括第一进风口121和第二进风口122,第一进风口121与风扇的吸风口连通,风道组件3包括第一风道和设置于第一风道上的第二风道;第一风道具有第一进口31和第一出口32,第一进口31用于与风扇的 吹风口连通,第一出口32用于与出风口13连通;第二风道具有第二进口33和设置于第一风道上的第二出口34,第二进口33用于与第二进风口122连通,第二出口34用于与第一风道连通;第二风道通过第一风道内的气流吸风,且第二进口33的横截面积大于第二出口34的横截面积。Specifically, the air inlet 12 includes a first air inlet 121 and a second air inlet 122. The first air inlet 121 is connected to the air inlet of the fan. The air duct assembly 3 includes a first air duct and a second air duct arranged on the first air duct. The first air duct has a first inlet 31 and a first outlet 32. The first inlet 31 is used to communicate with the air inlet of the fan. The blowing port is connected, and the first outlet 32 is used to communicate with the air outlet 13; the second air duct has a second inlet 33 and a second outlet 34 arranged on the first air duct, the second inlet 33 is used to communicate with the second air inlet 122, and the second outlet 34 is used to communicate with the first air duct; the second air duct draws air through the airflow in the first air duct, and the cross-sectional area of the second inlet 33 is greater than the cross-sectional area of the second outlet 34.
本实施例中,当风扇工作时,风扇的吸风口将外部的气体由第一进风口121吸入,并通过吹风口将气体吹向到第一进口31,从而进入第一风道内并形成第一气流,第一气流由第一出口32流向出风口13排出,由于第一气流在流动时具有一定的流速,能够通过第二出口34在第二风道内形成负压,并将外部气体由第二进风口122吸入到第二进口33,从而进入到第二风道内形成第二气流,仅通过一个风扇即可形成两道气流一同对第一风道内的发热件进行散热,提高了脱毛仪的散热效果和耐用性,且不占用过多外壳1内部空间,使脱毛仪能够整体体积较小便于携带,同时由于第二进口33的横截面积大于第二出口34的横截面积,使第二出口34处的风速大于第二进口33处的风速,从而提升第二气流进入第一风道内的速度,进一步提升散热效果。In this embodiment, when the fan is working, the air suction port of the fan sucks in external air from the first air inlet 121, and blows the air to the first inlet 31 through the air blowing port, thereby entering the first air duct and forming a first airflow, and the first airflow flows from the first outlet 32 to the air outlet 13 for discharge. Since the first airflow has a certain flow rate when flowing, it can form a negative pressure in the second air duct through the second outlet 34, and suck the external air from the second air inlet 122 to the second inlet 33, thereby entering the second air duct to form a second airflow. Only one fan can form two airflows to dissipate the heat of the heating element in the first air duct together, thereby improving the heat dissipation effect and durability of the hair removal device, and does not occupy too much internal space of the shell 1, so that the hair removal device can be smaller in size as a whole and is easy to carry. At the same time, since the cross-sectional area of the second inlet 33 is larger than the cross-sectional area of the second outlet 34, the wind speed at the second outlet 34 is greater than the wind speed at the second inlet 33, thereby increasing the speed of the second airflow entering the first air duct, further improving the heat dissipation effect.
本实施例中,第一进风口121开设在外壳1的顶部,第一进风口121的进风方向竖直向下,并通过风扇水平吹入到第一风道内,第二进风口122开设在外壳1的侧壁,第二进风口122的进风方向水平进入到第二风道内,使第二气流能够更好的与第一气流汇合,避免第一气流与第二气流之间产生乱流和涡流,提高对第一风道内的发热件的散热效果。In this embodiment, the first air inlet 121 is opened at the top of the shell 1, the air inlet direction of the first air inlet 121 is vertically downward, and is blown horizontally into the first air duct by the fan, and the second air inlet 122 is opened on the side wall of the shell 1, and the air inlet direction of the second air inlet 122 enters the second air duct horizontally, so that the second airflow can better merge with the first airflow, avoiding turbulence and eddy currents between the first airflow and the second airflow, and improving the heat dissipation effect of the heat generating components in the first air duct.
需要说明的是,第二出口34设置在第一风道上,对第一风道而言相当于一个进风的口。It should be noted that the second outlet 34 is arranged on the first air duct, which is equivalent to an air inlet for the first air duct.
本实施例中,第二气流的形成原理是,当第一气流在流动时第一气流具有一定的流速,使第一气流的附近产生低压,从而通过第二出口34在第二风道内产生负压,进而产生吸力将外部气体通过第二进风口122吸入第二风道内并形成第二气流。 In this embodiment, the principle of forming the second airflow is that when the first airflow is flowing, the first airflow has a certain flow velocity, so that low pressure is generated near the first airflow, thereby generating negative pressure in the second air duct through the second outlet 34, and then generating suction to suck the external air into the second air duct through the second air inlet 122 and form the second airflow.
本实施例的可选技术方案中,第二风道由第二进口33至第二出口34渐缩。使第二气流由第二进口33至第二出口34逐渐加速,第二气流的加速平稳,提高散热效果。In an optional technical solution of this embodiment, the second air duct gradually contracts from the second inlet 33 to the second outlet 34, so that the second airflow is gradually accelerated from the second inlet 33 to the second outlet 34, and the acceleration of the second airflow is stable, thereby improving the heat dissipation effect.
本实施例中,第二风道不仅局限于此,第二风道也可以是由第二进口33至第二出口34横截面积先增大再减小,还可以是其他任意变换形式,只要满足增速需求即可。In this embodiment, the second air duct is not limited thereto, and the second air duct may also have a cross-sectional area that first increases and then decreases from the second inlet 33 to the second outlet 34, or may be any other transformation form as long as the speed increase requirement is met.
本实施例的可选技术方案中,沿第一风道的导流方向,第一风道的侧壁具有第一导流板37和第二导流板38,且第一导流板37和第二导流板38通过错位设置形成第二出口34;第二导流板38位于第二出口34的一端向外侧延伸形成第三导流板39,第三导流板39与第一导流板37形成第二风道。In the optional technical solution of the present embodiment, along the guide direction of the first air duct, the side wall of the first air duct has a first guide plate 37 and a second guide plate 38, and the first guide plate 37 and the second guide plate 38 are staggered to form a second outlet 34; the second guide plate 38 is located at one end of the second outlet 34 and extends outward to form a third guide plate 39, and the third guide plate 39 and the first guide plate 37 form a second air duct.
本实施例中,第一导流板37位于第一风道导流方向的上游,第二导流板38位于下游,且第二导流板38位于第一导流板37导流方向的外侧,即第一导流板37和第二导流板38相对应的端部形成错位设置,有效避免第一气流经过第一导流板37后由第二出口34排出,同时保证第一气流在经过第一导流板37后能够在第一出口32处具有吸附作用,同时第二导流板38对应第一导流板37的端部继续延伸形成第三导流板39,使第三导流板39与第一导流板37形成第二风道,即第二风道集成在第一风道上,结构简单,制作方便,减小占用空间,提高空间利用率且结构稳定。In this embodiment, the first guide plate 37 is located upstream of the guide direction of the first air duct, and the second guide plate 38 is located downstream, and the second guide plate 38 is located on the outside of the guide direction of the first guide plate 37, that is, the corresponding ends of the first guide plate 37 and the second guide plate 38 are staggered, which effectively prevents the first airflow from being discharged from the second outlet 34 after passing through the first guide plate 37, and at the same time ensures that the first airflow can have an adsorption effect at the first outlet 32 after passing through the first guide plate 37. At the same time, the second guide plate 38 continues to extend from the end of the first guide plate 37 corresponding to the first guide plate 37 to form a third guide plate 39, so that the third guide plate 39 and the first guide plate 37 form a second air duct, that is, the second air duct is integrated on the first air duct, which has a simple structure, is easy to manufacture, reduces the occupied space, improves space utilization and has a stable structure.
本实施例中,第一导流板37远离第二导流板38的一端与第三导流板39远离第二导流板38的一端之间形成第二进口33。In this embodiment, a second inlet 33 is formed between an end of the first guide plate 37 away from the second guide plate 38 and an end of the third guide plate 39 away from the second guide plate 38 .
本实施例的可选技术方案中,第三导流板39相对于第二导流板38向背离第一导流板37的一侧弯折。使第三导流板39与第一导流板37之间形成的第二进口33的横截面积增大,提高第二风道的进风量和进风效果,进而提升散热效果。In an optional technical solution of this embodiment, the third guide plate 39 is bent relative to the second guide plate 38 toward a side away from the first guide plate 37. The cross-sectional area of the second inlet 33 formed between the third guide plate 39 and the first guide plate 37 is increased, the air intake volume and air intake effect of the second air duct are increased, and the heat dissipation effect is further improved.
本实施例的可选技术方案中,第一进口31正对第一导流板37,发热件位 于第一导流板37的横向上,第一导流板37呈弧形设置,能够更好的将第一进口31的气流引导转向为横向,方便对发热件进行散热,提高散热效果。In the optional technical solution of this embodiment, the first inlet 31 is directly opposite to the first guide plate 37, and the heating element is located at In the lateral direction of the first guide plate 37 , the first guide plate 37 is arranged in an arc shape, which can better guide the airflow of the first inlet 31 to the lateral direction, facilitate the heat dissipation of the heating element, and improve the heat dissipation effect.
本实施例中,第三导流板39可以是直线型,第一导流板37与第三导流板39相互配合形成由第二进口33至第二出口34横截面积渐缩的第二风道,提高第二气流进入第一风道内时的风速,提高散热效果。In this embodiment, the third guide plate 39 can be linear, and the first guide plate 37 and the third guide plate 39 cooperate with each other to form a second air duct with a gradually decreasing cross-sectional area from the second inlet 33 to the second outlet 34, thereby increasing the wind speed of the second airflow when it enters the first air duct and improving the heat dissipation effect.
优选的,第三导流板39呈弧形,且与弧形的第一导流板37配合形成喇叭状的第二风道,提高第一导流板37和第三导流板39对第二气流的导流效果,避免产生乱流和涡流,进而提升散热效果。Preferably, the third guide plate 39 is arc-shaped and cooperates with the arc-shaped first guide plate 37 to form a trumpet-shaped second air duct, thereby improving the guiding effect of the first guide plate 37 and the third guide plate 39 on the second airflow, avoiding the generation of turbulence and eddy currents, and thereby improving the heat dissipation effect.
本实施例的可选技术方案中,风道组件3还包括设置于第一风道上的第三风道;第三风道具有第三进口35和第三出口36,第三进口35用于与风扇的吹风口连通,第三出口36用于与出风口13连通。In the optional technical solution of this embodiment, the air duct assembly 3 also includes a third air duct arranged on the first air duct; the third air duct has a third inlet 35 and a third outlet 36, the third inlet 35 is used to communicate with the air outlet of the fan, and the third outlet 36 is used to communicate with the air outlet 13.
本实施例中,风道组件3设置有三个风道,其中第一风道与第二风道配合对第一风道内的发热件进行散热,第三风道内设置另一个发热件,风扇向第三风道内吹风形成第三气流,第三气流对第三风道内的发热件进行散热,两个发热件分别独立设置在第一风道和第三风道内进行独立散热,避免相互影响,提高散热效果,同时通过一个风扇供风,不占用过多外壳1内部空间,使脱毛仪能够整体体积较小便于携带。In this embodiment, the air duct assembly 3 is provided with three air ducts, wherein the first air duct and the second air duct cooperate to dissipate the heat of the heating element in the first air duct, another heating element is arranged in the third air duct, and the fan blows air into the third air duct to form a third airflow, and the third airflow dissipates the heat of the heating element in the third air duct. The two heating elements are independently arranged in the first air duct and the third air duct for independent heat dissipation, thereby avoiding mutual influence and improving the heat dissipation effect. At the same time, air is supplied by a fan without occupying too much internal space of the outer shell 1, so that the hair removal device can be small in overall size and easy to carry.
本实施例的可选技术方案中,第一风道包括底座40和第一上盖41,第一上盖41盖设于底座40,且第一上盖41具有盖顶42和位于盖顶42下侧的下盖壁43,下盖壁43上开设有第一进口31和第一出口32;第三风道设置于盖顶42的上侧。In the optional technical solution of this embodiment, the first air duct includes a base 40 and a first upper cover 41, the first upper cover 41 is covered on the base 40, and the first upper cover 41 has a cover top 42 and a lower cover wall 43 located at the lower side of the cover top 42, and the lower cover wall 43 is provided with a first inlet 31 and a first outlet 32; the third air duct is arranged on the upper side of the cover top 42.
本实施例中,第一导流板37具有两部分,一部分位于底座40的侧壁,另一部分位于第一上盖41的下盖壁43,当第一上盖41与底座40扣合时,第一导流板37的两部分对接,第二导流板38和第三导流板39处与盖顶42的下侧通过第一卡扣结构相互扣合,安装与拆卸方便,且方便在底座40上设置发热 件,同时使第一气流既能作用在底座40内也能作用在第一上盖41内,提高散热效果,同时第一上盖41的下盖壁43上开设有第一进口31和第一出口32,不破坏底座40的结构,且方便制作。In this embodiment, the first guide plate 37 has two parts, one part is located on the side wall of the base 40, and the other part is located on the lower cover wall 43 of the first upper cover 41. When the first upper cover 41 is buckled with the base 40, the two parts of the first guide plate 37 are butted, and the second guide plate 38 and the third guide plate 39 are buckled with the lower side of the cover top 42 through the first buckle structure, which is convenient for installation and disassembly, and it is convenient to set a heating element on the base 40. The first airflow can act on both the base 40 and the first upper cover 41, thereby improving the heat dissipation effect. At the same time, a first inlet 31 and a first outlet 32 are provided on the lower cover wall 43 of the first upper cover 41, which does not damage the structure of the base 40 and is convenient to manufacture.
本实施例的可选技术方案中,第三风道包括第二上盖44和位于盖顶42上侧的上盖壁45,第二上盖44盖设于上盖壁45的顶部,且上盖壁45上开设有第三进口35和第三出口36。In an optional technical solution of this embodiment, the third air duct includes a second upper cover 44 and an upper cover wall 45 located on the upper side of the cover top 42, the second upper cover 44 is covered on the top of the upper cover wall 45, and the upper cover wall 45 is provided with a third inlet 35 and a third outlet 36.
本实施例中,第二上盖44与第一上盖41之间通过第二卡扣结构相互扣合,但也可以通过其他连接方式连接,其中可以通过螺栓连接或定位销连接,安装与拆卸方便,且方便在第一上盖41的盖顶42上设置发热件,第二上盖44与第一上盖41的盖顶42和上盖壁45配合形成第三风道,结构简单,结构集成度高,减少占用空间。第三进口35和第三出口36开设在第一上盖41的上盖壁45上,且第一进口31与第三进口35相对应,第一出口32与第三出口36相对应,整体配合度高,方便进出风,提高散热效果。优选的,第一进口31与第三进口35连通,第一出口32与第三出口36连通,制作方便且提升导流效果。具体的,第一上盖41的上盖壁45和下盖壁43形成侧壁,在侧壁上开设进口和出口,第一上盖41的盖顶42将进口分隔为第一进口31和第三进口35,将出口分隔为第一出口32和第三出口36,同时第二上盖44位于第三出口36处向下倾斜形成遮挡部46,遮挡部46用于遮挡第三出口36,此时第三出口36通过遮挡部46与第一上盖41的盖顶42之间的间隙与第一出口32连通实现出风。In this embodiment, the second upper cover 44 and the first upper cover 41 are buckled with each other through the second buckle structure, but they can also be connected by other connection methods, including bolt connection or positioning pin connection, which is convenient for installation and disassembly, and convenient for setting a heating element on the cover top 42 of the first upper cover 41. The second upper cover 44 cooperates with the cover top 42 and the upper cover wall 45 of the first upper cover 41 to form a third air duct, which has a simple structure, high structural integration, and reduces the occupied space. The third inlet 35 and the third outlet 36 are opened on the upper cover wall 45 of the first upper cover 41, and the first inlet 31 corresponds to the third inlet 35, and the first outlet 32 corresponds to the third outlet 36. The overall matching degree is high, which is convenient for air inlet and outlet and improves the heat dissipation effect. Preferably, the first inlet 31 is connected to the third inlet 35, and the first outlet 32 is connected to the third outlet 36, which is convenient to manufacture and improves the diversion effect. Specifically, the upper cover wall 45 and the lower cover wall 43 of the first upper cover 41 form a side wall, and an inlet and an outlet are opened on the side wall. The cover top 42 of the first upper cover 41 separates the inlet into a first inlet 31 and a third inlet 35, and separates the outlet into a first outlet 32 and a third outlet 36. At the same time, the second upper cover 44 is located at the third outlet 36 and tilts downward to form a shielding portion 46. The shielding portion 46 is used to shield the third outlet 36. At this time, the third outlet 36 is connected to the first outlet 32 through the gap between the shielding portion 46 and the cover top 42 of the first upper cover 41 to realize air outlet.
本实施例中,底座40上设置的发热件可以是灯管51,第一上盖41的盖顶42上设置的发热件可以是散热片21。In this embodiment, the heating element disposed on the base 40 may be a lamp tube 51 , and the heating element disposed on the cover top 42 of the first upper cover 41 may be a heat sink 21 .
脱毛仪包括一种抗摔氙灯组件,抗摔氙灯组件包括灯管51和两个阻尼减震座52,灯管51相对的两端分别连接有一个阻尼减震座52,且阻尼减震座52用于减小传递至灯管51上的共振振幅。 The hair removal device includes an anti-fall xenon lamp assembly, which includes a lamp tube 51 and two damping shock-absorbing seats 52. The opposite ends of the lamp tube 51 are respectively connected to a damping shock-absorbing seat 52, and the damping shock-absorbing seat 52 is used to reduce the resonance amplitude transmitted to the lamp tube 51.
本实施例中,灯管51通过两端的阻尼减震座52固定在脱毛仪内,方便灯管51安装,当脱毛仪掉落或发生碰撞时,灯管51两端的阻尼减震座52通过阻尼作用能够吸收震荡能量,从而减小传递至灯管51上的共振振幅,有效避免灯管51破裂,进而提升灯管51的使用寿命。In this embodiment, the lamp tube 51 is fixed in the hair removal device by the damping shock-absorbing seats 52 at both ends, which facilitates the installation of the lamp tube 51. When the hair removal device falls or collides, the damping shock-absorbing seats 52 at both ends of the lamp tube 51 can absorb the vibration energy through the damping effect, thereby reducing the resonance amplitude transmitted to the lamp tube 51, effectively avoiding the lamp tube 51 from breaking, and thereby increasing the service life of the lamp tube 51.
本实施例的可选技术方案中,阻尼减震座52包括第一连接件53、减震件54和连接于灯管51的座体;座体内设置有容纳腔,减震件54悬空设置于容纳腔内,且通过第一连接件53活动连接于座体,减震件54通过第一连接件53相对于座体活动减小座体传递至灯管51上的共振振幅。其中,减震件54通过第一连接件53实现在容纳腔内悬空,且由于减震件54通过第一连接件53活动连接于座体,当脱毛仪掉落或发生碰撞时,减震件54在容纳腔内向脱毛仪的受力方向相反的方向运动,即产生了阻尼作用,减小脱毛仪受力方向的力作用在座体上,从而减小座体传递至灯管51上的共振振幅,进而避免灯管51破裂,结构简单,减震防摔效果好。In the optional technical solution of this embodiment, the damping shock absorbing seat 52 includes a first connecting member 53, a shock absorbing member 54 and a seat body connected to the lamp tube 51; a housing cavity is arranged in the seat body, and the shock absorbing member 54 is suspended in the housing cavity, and is movably connected to the seat body through the first connecting member 53. The shock absorbing member 54 moves relative to the seat body through the first connecting member 53 to reduce the resonance amplitude transmitted from the seat body to the lamp tube 51. The shock absorbing member 54 is suspended in the housing cavity through the first connecting member 53, and because the shock absorbing member 54 is movably connected to the seat body through the first connecting member 53, when the hair removal device falls or collides, the shock absorbing member 54 moves in the housing cavity in the opposite direction of the force direction of the hair removal device, that is, a damping effect is generated, reducing the force in the force direction of the hair removal device acting on the seat body, thereby reducing the resonance amplitude transmitted from the seat body to the lamp tube 51, thereby preventing the lamp tube 51 from breaking, and the structure is simple and the shock absorbing and anti-falling effect is good.
本实施例中,第一连接件53可以是弹性件,在弹性的作用下,减震件54能够运动进而产生阻尼作用;弹性件可以是弹簧,结构简单,成本较低且弹性较好。优选的,可以在同一平面内设置多个弹簧,多个弹簧的一端连接于座体,另一端连接于减震件54,此时减震件54在容纳腔内能够向任意方向运动,阻尼效果好。弹性件也可以是软胶,软胶包覆在减震件54上,且软胶充满容纳腔,减震件54在软胶内能够挤压软胶产生运动或运动趋势,进而产生阻尼作用,吸收震荡能量,进而避免灯管51损坏。In this embodiment, the first connecting member 53 can be an elastic member. Under the action of elasticity, the shock absorbing member 54 can move and thus produce a damping effect; the elastic member can be a spring, which has a simple structure, low cost and good elasticity. Preferably, multiple springs can be arranged in the same plane, one end of the multiple springs is connected to the seat body, and the other end is connected to the shock absorbing member 54. At this time, the shock absorbing member 54 can move in any direction in the accommodating cavity, and the damping effect is good. The elastic member can also be a soft rubber, which is coated on the shock absorbing member 54, and the soft rubber fills the accommodating cavity. The shock absorbing member 54 can squeeze the soft rubber in the soft rubber to produce movement or movement trend, thereby producing a damping effect, absorbing the vibration energy, and thus avoiding damage to the lamp tube 51.
本实施例中,可以是第一连接件53固定连接于座体,减震件54活动连接于第一连接件53;也可以是第一连接件53活动连接于座体,减震件54可以固定连接于第一连接,也可以活动连接于第一连接;上述两种方式均能够在脱毛仪掉落或发生碰撞时产生阻尼作用,同样具有上述效果。In this embodiment, the first connecting member 53 can be fixedly connected to the base body, and the shock absorbing member 54 can be movably connected to the first connecting member 53; or the first connecting member 53 can be movably connected to the base body, and the shock absorbing member 54 can be fixedly connected to the first connection or movably connected to the first connection; both of the above methods can produce a damping effect when the hair removal device falls or collides, and also have the above-mentioned effects.
优选的,第一连接件53固定连接于座体,减震件54通过连接结构活动连 接于第一连接件53。即第一连接件53相对于座体固定不动,减震件54通过连接结构能够相对于第一连接件53活动,减震件54产生的阻尼作用通过第一连接件53作用在座体上,结构稳定,制作方便且减震件54通过固定的第一连接件53传递阻尼力的效果好,使阻尼力能过完全作用在座体上,最大限度的减小座体传递至灯管51上的共振振幅,减震防摔效果好。Preferably, the first connecting member 53 is fixedly connected to the seat body, and the shock absorbing member 54 is movably connected to the seat body through the connecting structure. The first connecting member 53 is connected to the first connecting member 53. That is, the first connecting member 53 is fixed relative to the base, and the shock absorbing member 54 can move relative to the first connecting member 53 through the connecting structure. The damping effect generated by the shock absorbing member 54 acts on the base through the first connecting member 53. The structure is stable and the manufacturing is convenient. The shock absorbing member 54 has a good effect of transmitting the damping force through the fixed first connecting member 53, so that the damping force can act completely on the base, and the resonance amplitude transmitted from the base to the lamp tube 51 is reduced to the maximum extent, and the shock absorbing and anti-falling effect is good.
本实施例的可选技术方案中,连接结构包括设置于第一连接件53上的万向槽55和设置于减震件54上的万向球56,且万向槽55位于容纳腔内;万向槽55的槽口开设有至少一个第一缺口57,万向球56嵌设于万向槽55内。万向槽55与万向球56配合形成万向节,万向槽55通过第一连接件53相对于座体固定不动,减震件54通过万向球56在万向槽55内转动,使减震件54能够产生阻尼作用,并将阻尼力传递至座体,减震防摔效果好,且万向槽55与万向球56配合稳定,不易损坏,同时传递阻尼力的效果好,进而提升防摔效果。其中,第一缺口57的设置使万向槽55的槽口能够具有径向扩张的能力,方便万向球56安装到万向槽55内,优选的,第一缺口57沿万向槽55槽口的周向等间距设置有四个,使万向球56能够更方便的安装到万向槽55内。In the optional technical solution of this embodiment, the connection structure includes a universal groove 55 provided on the first connecting member 53 and a universal ball 56 provided on the shock absorbing member 54, and the universal groove 55 is located in the accommodating cavity; the notch of the universal groove 55 is provided with at least one first notch 57, and the universal ball 56 is embedded in the universal groove 55. The universal groove 55 and the universal ball 56 cooperate to form a universal joint, the universal groove 55 is fixed relative to the seat body through the first connecting member 53, and the shock absorbing member 54 rotates in the universal groove 55 through the universal ball 56, so that the shock absorbing member 54 can generate a damping effect and transmit the damping force to the seat body, with good shock absorption and fall prevention effect, and the universal groove 55 and the universal ball 56 cooperate stably and are not easy to be damaged, and at the same time, the effect of transmitting the damping force is good, thereby improving the fall prevention effect. Among them, the setting of the first notch 57 enables the notch of the universal groove 55 to have the ability to expand radially, which facilitates the installation of the universal ball 56 into the universal groove 55. Preferably, four first notches 57 are evenly spaced along the circumference of the notch of the universal groove 55, so that the universal ball 56 can be more conveniently installed in the universal groove 55.
本实施例中,连接结构不仅局限于此,连接结构也可以是弹性件,减震件54通过弹性件活动连接于第一连接件53,此时第一连接件53相对于座体固定不动,同样能够产生阻尼作用,优选的,弹性件为弹簧。In this embodiment, the connection structure is not limited to this, and the connection structure can also be an elastic member. The shock absorbing member 54 is movably connected to the first connecting member 53 through the elastic member. At this time, the first connecting member 53 is fixed relative to the seat body and can also produce a damping effect. Preferably, the elastic member is a spring.
本实施例的可选技术方案中,减震件54呈球状,且减震件54的直径大于万向球56的直径,万向球56与减震件54为同种材质,使减震件54的质量大于万向球56的质量,进而使减震件54能够产生阻尼作用;减震件54通过第二连接件连接于万向球56,使减震件54与万向球56之间具有间隔,提高减震件54的阻尼效果。In the optional technical solution of this embodiment, the shock absorber 54 is spherical, and the diameter of the shock absorber 54 is greater than the diameter of the universal ball 56. The universal ball 56 and the shock absorber 54 are made of the same material, so that the mass of the shock absorber 54 is greater than the mass of the universal ball 56, thereby enabling the shock absorber 54 to produce a damping effect; the shock absorber 54 is connected to the universal ball 56 through a second connecting member, so that there is a gap between the shock absorber 54 and the universal ball 56, thereby improving the damping effect of the shock absorber 54.
本实施例中,第二连接件可以是弹性件,使减震件54在产生阻尼作用时,第二连接件能够产生弹性运动,进一步提高阻尼作用,进一步提高防摔效果; 优选的,第二连接件为弹簧。In this embodiment, the second connecting member may be an elastic member, so that when the shock absorbing member 54 generates a damping effect, the second connecting member can generate elastic movement, thereby further improving the damping effect and the anti-fall effect; Preferably, the second connecting member is a spring.
本实施例中,第一连接件53、减震件54、座体、万向球56、万向槽55和第二连接件均为非金属件,有效减轻整体重量,进而减小整体脱毛仪的重量,方便携带和使用,提升用户使用体验。优选的,第一连接件53、减震件54、座体、万向球56、万向槽55和第二连接件均为塑料材质,质量较轻且具有一定强度,减震件54、万向球56和第二连接件一体注塑成型,制作方便,结构稳定,避免减震件54与万向球56分离。In this embodiment, the first connecting member 53, the shock absorbing member 54, the seat body, the universal ball 56, the universal groove 55 and the second connecting member are all non-metallic parts, which effectively reduce the overall weight, thereby reducing the weight of the overall hair removal device, making it convenient to carry and use, and improving the user experience. Preferably, the first connecting member 53, the shock absorbing member 54, the seat body, the universal ball 56, the universal groove 55 and the second connecting member are all made of plastic, which is light and has a certain strength. The shock absorbing member 54, the universal ball 56 and the second connecting member are integrally injection molded, which is easy to manufacture and has a stable structure, and avoids the shock absorbing member 54 and the universal ball 56 from separating.
本实施例的可选技术方案中,座体包括圆筒58、第一端盖59和第二端盖60;第一端盖59和第二端盖60分别连接于圆筒58相对的两端,且与圆筒58之间形成容纳腔,第一连接件53固定连接于圆筒58;第一端盖59背离第二端盖60的一侧设置有插接部61,灯管51插设于插接部61。In the optional technical solution of this embodiment, the base body includes a cylinder 58, a first end cover 59 and a second end cover 60; the first end cover 59 and the second end cover 60 are respectively connected to the opposite ends of the cylinder 58, and a accommodating cavity is formed between the first end cover 59 and the cylinder 58, and the first connecting member 53 is fixedly connected to the cylinder 58; a plug-in portion 61 is provided on the side of the first end cover 59 facing away from the second end cover 60, and the lamp tube 51 is inserted into the plug-in portion 61.
本实施例中,圆筒58与灯管51同轴设置,使圆筒58通过第一端盖59上的插接部61传递至灯管51的振幅最小,进一步提高防摔效果。同时座体结构简单,组装方便,且与灯管51之间的安装方便。In this embodiment, the cylinder 58 is coaxially arranged with the lamp tube 51, so that the amplitude transmitted from the cylinder 58 to the lamp tube 51 through the plug-in portion 61 on the first end cover 59 is minimized, further improving the anti-fall effect. At the same time, the seat body has a simple structure, is easy to assemble, and is easy to install with the lamp tube 51.
本实施例的可选技术方案中,圆筒58靠近第二端盖60一端的端面开设有第二缺口62,第一连接件53上设置有限位部63;第一连接件53插设于第二缺口62,且限位部63与圆筒58的外侧壁配合和万向槽55与圆筒58的内侧壁配合,用于限制第一连接件53沿圆筒58的径向运动。In the optional technical solution of the present embodiment, a second notch 62 is provided on the end surface of the cylinder 58 close to the second end cover 60, and a limiting portion 63 is provided on the first connecting member 53; the first connecting member 53 is inserted into the second notch 62, and the limiting portion 63 cooperates with the outer wall of the cylinder 58 and the universal groove 55 cooperates with the inner wall of the cylinder 58, so as to limit the radial movement of the first connecting member 53 along the cylinder 58.
本实施例中,第一连接件53的横截面呈T型,即第一连接件53的一端向两侧凸起形成限位结构,另一端设置有万向槽55,且万向槽55与限位部63之间设置有安装间隙。第一连接件53安装时,第一连接件53通过安装间隙沿第二端盖60至第一端盖59的方向插设在第二缺口62内,限位部63抵接在圆筒58的外侧壁上,万向槽55抵接在圆筒58的内侧壁上,避免第一限位件在圆筒58的径向上运动,安装完成后将第二端盖60连接在圆筒58上,第二缺口62的底部和第二端盖60限制第一连接件53在圆筒58的轴向上运动,实现第一 连接件53的固定,安装方便且结构简单。In this embodiment, the cross section of the first connecting member 53 is T-shaped, that is, one end of the first connecting member 53 protrudes to both sides to form a limiting structure, and the other end is provided with a universal groove 55, and an installation gap is provided between the universal groove 55 and the limiting portion 63. When the first connecting member 53 is installed, the first connecting member 53 is inserted into the second notch 62 along the direction from the second end cover 60 to the first end cover 59 through the installation gap, the limiting portion 63 abuts on the outer wall of the cylinder 58, and the universal groove 55 abuts on the inner wall of the cylinder 58 to prevent the first limiting member from moving in the radial direction of the cylinder 58. After the installation is completed, the second end cover 60 is connected to the cylinder 58, and the bottom of the second notch 62 and the second end cover 60 limit the movement of the first connecting member 53 in the axial direction of the cylinder 58, so as to realize the first The connection member 53 is fixed, easy to install and has a simple structure.
优选的,第一连接件53的横截面呈L型,结构的简单,制作方便。Preferably, the cross section of the first connecting member 53 is L-shaped, which has a simple structure and is easy to manufacture.
本实施例中,脱毛仪包括外壳1、风道组件3、风机、散热片21和制冷片22,外壳1开设有进风口12、出风口13和出光口,风道组件3、风机、散热片21和制冷片22均设置于外壳1内,且风机位于进风口12处,风道组件3包括底座40、第二上盖44和第一上盖41,底座40上设置有相对的固定座,第二端盖60背离第一端盖59的一侧设置有连接部64,连接部64与固定座连接,使抗摔氙灯组件固定在底座40上,结构简单,连接方便。其中,第二上盖44盖设在底座40上,且与底座40之间形成第一风道,第一上盖41盖设在第二上盖44上,且与第一上盖41的盖顶42之间形成第二风道,第一风道和第二风道的进口均与风机的吹风口连通,第一风道和第二风道的出口均与出风口13连通。第一风道上开设有与出光口对应的第二出光口,抗摔氙灯组件位于第一风道内,且灯管51与第二出光口对应,第一风道对灯管51进行散热,避免温度过高,提升用户体验。第二出光口处设置有制冷片22,且制冷片22的制冷面对灯管51进行散热,进一步提高散热效果,第二风道开设有导热口,散热片21设置于第二风道内,且部分伸出导热口与制冷片22的发热面配合将热量通过散热片21传递至第二风道内,通过第二风道对散热片21进行散热,通过双风道散热,进一步提高散热效果。In this embodiment, the hair removal device includes a shell 1, an air duct assembly 3, a fan, a heat sink 21 and a cooling fin 22. The shell 1 is provided with an air inlet 12, an air outlet 13 and a light outlet. The air duct assembly 3, the fan, the heat sink 21 and the cooling fin 22 are all arranged in the shell 1, and the fan is located at the air inlet 12. The air duct assembly 3 includes a base 40, a second upper cover 44 and a first upper cover 41. A relative fixed seat is arranged on the base 40. A connecting portion 64 is arranged on the side of the second end cover 60 away from the first end cover 59. The connecting portion 64 is connected to the fixing seat, so that the anti-fall xenon lamp assembly is fixed on the base 40. The structure is simple and the connection is convenient. The second upper cover 44 is covered on the base 40, and a first air duct is formed between the second upper cover 44 and the first upper cover 41, and a second air duct is formed between the first upper cover 41 and the cover top 42. The inlets of the first air duct and the second air duct are both connected to the air outlet of the fan, and the outlets of the first air duct and the second air duct are both connected to the air outlet 13. A second light outlet corresponding to the light outlet is provided on the first air duct, the anti-drop xenon lamp assembly is located in the first air duct, and the lamp tube 51 corresponds to the second light outlet. The first air duct dissipates heat from the lamp tube 51 to avoid excessive temperature and improve user experience. A cooling sheet 22 is provided at the second light outlet, and the cooling surface of the cooling sheet 22 dissipates heat to the lamp tube 51, further improving the heat dissipation effect. A heat conduction port is opened in the second air duct, and the heat sink 21 is arranged in the second air duct, and a part of the heat conduction port is extended to cooperate with the heating surface of the cooling sheet 22 to transfer the heat through the heat sink 21 to the second air duct. The heat sink 21 is dissipated through the second air duct, and the heat is dissipated through the dual air ducts, further improving the heat dissipation effect.
本实施例的可选技术方案中,灯管51在垂直于灯管51轴线的面上具有第一投影面,阻尼减震座52在垂直于灯管51轴线的面上具有第二投影面,第一投影面位于第二投影面内。即圆筒58的直径大于灯管51的直径,使灯管51通过阻尼减震座52固定在底座40上时,避免灯管51与底座40接触,当脱毛仪掉落或发生碰撞时,避免底座40将作用力直接作用在灯关上,进一步防止灯管51破裂。In the optional technical solution of this embodiment, the lamp tube 51 has a first projection surface on a surface perpendicular to the axis of the lamp tube 51, and the damping and shock absorbing seat 52 has a second projection surface on a surface perpendicular to the axis of the lamp tube 51, and the first projection surface is located inside the second projection surface. That is, the diameter of the cylinder 58 is larger than the diameter of the lamp tube 51, so that when the lamp tube 51 is fixed on the base 40 through the damping and shock absorbing seat 52, the lamp tube 51 is prevented from contacting the base 40, and when the hair removal device falls or collides, the base 40 is prevented from directly acting on the lamp, thereby further preventing the lamp tube 51 from breaking.
应当说明的是,上述实施例均可根据需要自由组合。以上仅是本发明的优 选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本发明的保护范围。 It should be noted that the above embodiments can be freely combined as needed. When selecting an implementation method, it should be pointed out that, for ordinary technicians in this technical field, several improvements and modifications can be made without departing from the principle of the present invention, and these improvements and modifications should also be regarded as the scope of protection of the present invention.

Claims (14)

  1. 一种脱毛仪,其特征在于,包括外壳以及设置在所述外壳内的散热组件和风道组件;A hair removal device, characterized in that it comprises a housing and a heat dissipation component and an air duct component arranged in the housing;
    所述风道组件包括开设在所述外壳上的进风口、出风口以及出光口,所述外壳内部形成散热风腔,所述出光口用于设置制冷模块,所述进风口处还设有风扇,所述风扇用于向所述散热风腔内吹风;The air duct assembly includes an air inlet, an air outlet and a light outlet opened on the shell, a heat dissipation air cavity is formed inside the shell, the light outlet is used to set a refrigeration module, and a fan is also provided at the air inlet, and the fan is used to blow air into the heat dissipation air cavity;
    所述散热组件包括散热片和制冷片,所述散热片和所述制冷片均设置在所述散热风腔,所述制冷片具有制冷面和发热面,所述制冷面朝向所述制冷模块设置,所述发热面通过所述散热片传递热量。The heat dissipation assembly includes a heat sink and a cooling fin, both of which are arranged in the heat dissipation air cavity, the cooling fin has a cooling surface and a heating surface, the cooling surface is arranged toward the refrigeration module, and the heating surface transfers heat through the heat sink.
  2. 根据权利要求1所述的一种脱毛仪,其特征在于,The hair removal device according to claim 1, characterized in that:
    所述制冷模块为蓝宝石。The refrigeration module is made of sapphire.
  3. 根据权利要求1或2所述的一种脱毛仪,其特征在于,A hair removal device according to claim 1 or 2, characterized in that:
    所述散热片包括散热主体和第一散热部,所述制冷片设置于所述第一散热部与所述制冷模块之间;The heat sink comprises a heat sink body and a first heat sink portion, and the refrigeration fin is arranged between the first heat sink portion and the refrigeration module;
    所述散热组件还包括导热管,所述导热管包括第一管体和第二管体,所述第一管体至少部分位于所述第一散热部上,所述第二管***于所述散热主体上。The heat dissipation assembly further includes a heat pipe, which includes a first pipe body and a second pipe body. The first pipe body is at least partially located on the first heat dissipation portion, and the second pipe body is located on the heat dissipation body.
  4. 根据权利要求3所述的一种脱毛仪,其特征在于,The hair removal device according to claim 3 is characterized in that:
    所述导热管包括第一导热段、第二导热段和第三导热段,且所述第一导热段和所述第三导热段通过所述第二导热段连接;The heat conducting pipe comprises a first heat conducting section, a second heat conducting section and a third heat conducting section, and the first heat conducting section and the third heat conducting section are connected through the second heat conducting section;
    所述第一导热段位于所述第一散热部上,所述第二导热段和所述第三导热段均位于所述散热主体上。 The first heat-conducting section is located on the first heat-dissipating portion, and the second heat-conducting section and the third heat-conducting section are both located on the heat-dissipating body.
  5. 根据权利要求4所述的一种脱毛仪,其特征在于,The hair removal device according to claim 4 is characterized in that:
    所述散热组件还包括散热格栅,所述散热格栅包括相对设置的第一板体和第二板体,以及设置于所述第一板体与所述第二板体之间的多个栅片,且全部所述栅片的延伸方向相同;The heat dissipation assembly further includes a heat dissipation grille, which includes a first plate body and a second plate body arranged opposite to each other, and a plurality of grid sheets arranged between the first plate body and the second plate body, and all the grid sheets extend in the same direction;
    所述散热片连接于所述第一板体,且所述第一板体朝向所述第二板体的一侧凹陷形成有安装槽,所述导热管的部分设置于所述安装槽内。The heat sink is connected to the first plate body, and a mounting groove is formed on a side of the first plate body facing the second plate body, and a portion of the heat pipe is disposed in the mounting groove.
  6. 根据权利要求5所述的一种脱毛仪,其特征在于,The hair removal device according to claim 5 is characterized in that:
    所述安装槽包括相互连通的第一槽体和第二槽体,所述第一槽体沿所述栅片的延伸方向延伸,所述第二槽体沿垂直于所述栅片的延伸方向延伸;所述导热管的所述第一导热部设置于所述第一槽体内,所述第二导热部设置于所述第二槽体内,所述第三导热部设置于所述制冷片的发热面上。The mounting groove includes a first groove body and a second groove body which are interconnected, the first groove body extends along the extension direction of the grid plate, and the second groove body extends in a direction perpendicular to the extension direction of the grid plate; the first heat-conducting portion of the heat-conducting pipe is arranged in the first groove body, the second heat-conducting portion is arranged in the second groove body, and the third heat-conducting portion is arranged on the heat-generating surface of the refrigeration fin.
  7. 根据权利要求6所述的一种脱毛仪,其特征在于,The hair removal device according to claim 6, characterized in that:
    所述第一槽体和所述第二槽体形成L型结构,且沿所述栅片的延伸方向,所述第一板体具有相对的第一端和第二端,所述第一槽体贯通所述第一端,所述第二槽体贯通所述第二端;The first slot body and the second slot body form an L-shaped structure, and along the extension direction of the grid plate, the first plate body has a first end and a second end opposite to each other, the first slot body passes through the first end, and the second slot body passes through the second end;
    所述第一导热部、所述第二导热部和所述第三导热部形成U型结构。The first heat conducting portion, the second heat conducting portion and the third heat conducting portion form a U-shaped structure.
  8. 根据权利要求1或2所述的一种脱毛仪,其特征在于,A hair removal device according to claim 1 or 2, characterized in that:
    所述进风口包括第一进风口和第二进风口,所述第一进风口与所述风扇的吸风口连通,The air inlet includes a first air inlet and a second air inlet, the first air inlet is connected to the air suction port of the fan,
    所述第一风道具有第一进口和第一出口,所述第一进口用于与所述风扇的吹风口连通,第一出口用于与所述出风口连通; The first air duct has a first inlet and a first outlet, the first inlet is used to communicate with the air outlet of the fan, and the first outlet is used to communicate with the air outlet;
    所述第二风道具有第二进口和设置于所述第一风道上的第二出口,所述第二进口用于与所述第二进风口连通,所述第二出口用于与所述第一风道连通;The second air duct has a second inlet and a second outlet arranged on the first air duct, the second inlet is used to communicate with the second air inlet, and the second outlet is used to communicate with the first air duct;
    所述第二风道通过所述第一风道内的气流吸风。The second air duct draws air through the airflow in the first air duct.
  9. 根据权利要求8所述的一种脱毛仪,其特征在于,The hair removal device according to claim 8, characterized in that:
    所述第二进口的横截面积大于所述第二出口的横截面积,所述第二风道由所述第二进口至所述第二出口渐缩。The cross-sectional area of the second inlet is greater than the cross-sectional area of the second outlet, and the second air duct gradually contracts from the second inlet to the second outlet.
  10. 根据权利要求9所述的一种脱毛仪,其特征在于,The hair removal device according to claim 9 is characterized in that:
    沿所述第一风道的导流方向,所述第一风道的侧壁具有第一导流板和第二导流板,且所述第一导流板和所述第二导流板通过错位设置形成所述第二出口;Along the guide direction of the first air duct, the side wall of the first air duct has a first guide plate and a second guide plate, and the first guide plate and the second guide plate are staggered to form the second outlet;
    所述第二导流板位于所述第二出口的一端向外侧延伸形成第三导流板,所述第三导流板与所述第一导流板形成所述第二风道。One end of the second guide plate located at the second outlet extends outward to form a third guide plate, and the third guide plate and the first guide plate form the second air duct.
  11. 根据权利要求10所述的一种脱毛仪,其特征在于,The hair removal device according to claim 10, characterized in that:
    所述第三导流板相对于所述第二导流板向背离所述第一导流板的一侧弯折。The third guide plate is bent relative to the second guide plate toward a side away from the first guide plate.
  12. 根据权利要求8所述的一种脱毛仪,其特征在于,The hair removal device according to claim 8, characterized in that:
    所述风道组件还包括设置于所述第一风道上的第三风道;The air duct assembly further includes a third air duct disposed on the first air duct;
    所述第三风道具有第三进口和第三出口,所述第三进口用于与所述风扇的吹风口连通,第三出口用于与所述出风口连通。The third air duct has a third inlet and a third outlet. The third inlet is used to communicate with the air outlet of the fan, and the third outlet is used to communicate with the air outlet.
  13. 根据权利要求12所述的一种脱毛仪,其特征在于, The hair removal device according to claim 12, characterized in that:
    所述第一风道包括底座和第一上盖,所述第一上盖盖设于所述底座,且所述第一上盖具有盖顶和位于盖顶下侧的下盖壁,所述下盖壁上开设有所述第一进口和所述第一出口;The first air duct includes a base and a first upper cover, the first upper cover is disposed on the base, and the first upper cover has a cover top and a lower cover wall located at the lower side of the cover top, and the lower cover wall is provided with the first inlet and the first outlet;
    所述第三风道设置于所述盖顶的上侧。The third air duct is arranged on the upper side of the cover top.
  14. 根据权利要求13所述的一种脱毛仪,其特征在于,The hair removal device according to claim 13, characterized in that:
    所述第三风道包括第二上盖和位于所述盖顶上侧的上盖壁,所述第二上盖盖设于所述上盖壁的顶部,且所述上盖壁上开设有所述第三进口和所述第三出口。 The third air duct includes a second upper cover and an upper cover wall located on the upper side of the cover top, the second upper cover is arranged on the top of the upper cover wall, and the upper cover wall is provided with the third inlet and the third outlet.
PCT/CN2023/135244 2022-11-30 2023-11-29 Hair removal apparatus WO2024114706A1 (en)

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
CN202223214565.9 2022-11-30
CN202223214260.8U CN219331905U (en) 2022-11-30 2022-11-30 Anti xenon lamp subassembly that falls and appearance that moults
CN202223214333.3 2022-11-30
CN202223214565.9U CN219679037U (en) 2022-11-30 2022-11-30 Heat abstractor and appearance moults
CN202223214333.3U CN219331906U (en) 2022-11-30 2022-11-30 Air duct assembly and dehairing instrument
CN202223214292.8U CN219679036U (en) 2022-11-30 2022-11-30 Heat abstractor and appearance moults
CN202223214260.8 2022-11-30
CN202223214292.8 2022-11-30

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WO2024114706A1 true WO2024114706A1 (en) 2024-06-06

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PCT/CN2023/135244 WO2024114706A1 (en) 2022-11-30 2023-11-29 Hair removal apparatus

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WO (1) WO2024114706A1 (en)

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20150226492A1 (en) * 2014-02-12 2015-08-13 Asia Vital Components Co., Ltd. Heat Pipe Structure and Thermal Module Using Same
CN212729965U (en) * 2020-10-19 2021-03-19 深圳市蓓媞科技有限公司 Cold compress mechanism and appearance that moults
WO2021196506A1 (en) * 2020-04-02 2021-10-07 深圳市予一电子科技有限公司 Hair removal instrument and semiconductor refrigeration slice
CN216532299U (en) * 2021-09-16 2022-05-13 深圳市宗匠科技有限公司 Depilatory instrument
CN216566016U (en) * 2021-09-16 2022-05-17 深圳市宗匠科技有限公司 Depilatory instrument
CN217138248U (en) * 2021-09-13 2022-08-09 广州星际悦动股份有限公司 Beauty instrument
CN219679036U (en) * 2022-11-30 2023-09-12 上海飞科电器股份有限公司 Heat abstractor and appearance moults
CN219679037U (en) * 2022-11-30 2023-09-12 上海飞科电器股份有限公司 Heat abstractor and appearance moults

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20150226492A1 (en) * 2014-02-12 2015-08-13 Asia Vital Components Co., Ltd. Heat Pipe Structure and Thermal Module Using Same
WO2021196506A1 (en) * 2020-04-02 2021-10-07 深圳市予一电子科技有限公司 Hair removal instrument and semiconductor refrigeration slice
CN212729965U (en) * 2020-10-19 2021-03-19 深圳市蓓媞科技有限公司 Cold compress mechanism and appearance that moults
CN217138248U (en) * 2021-09-13 2022-08-09 广州星际悦动股份有限公司 Beauty instrument
CN216532299U (en) * 2021-09-16 2022-05-13 深圳市宗匠科技有限公司 Depilatory instrument
CN216566016U (en) * 2021-09-16 2022-05-17 深圳市宗匠科技有限公司 Depilatory instrument
CN219679036U (en) * 2022-11-30 2023-09-12 上海飞科电器股份有限公司 Heat abstractor and appearance moults
CN219679037U (en) * 2022-11-30 2023-09-12 上海飞科电器股份有限公司 Heat abstractor and appearance moults

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