CN218391259U - Depilatory instrument - Google Patents

Abstract

The utility model discloses an appearance moults, including the casing that is equipped with accommodating space with accept in accommodating space's the mechanism that moults, control mechanism and heat dissipation mechanism, moults the mechanism and all be connected with the control mechanism electricity with heat dissipation mechanism, moults the mechanism and include the electrode that is used for sending irradiant fluorescent tube and electricity to connect fluorescent tube and control mechanism, heat dissipation mechanism includes the heat-sink with electrode thermal connection. The utility model discloses an appearance that moults is through setting up the radiating piece of being connected with electrode heat for the heat of electrode can transmit to the radiating piece, thereby has reduced the temperature of electrode, guarantees the working property and the life of electrode.

Description

Depilatory instrument

Technical Field

The utility model relates to a technical field that moults especially relates to an appearance that moults.

Background

Light depilation is becoming more and more popular with consumers as a safe and convenient depilation technique. However, the light generates a great deal of heat during depilation, so that the temperature of the electrodes connected thereto is also high, and too high a temperature of the electrodes may affect the working performance and the service life thereof. However, the conventional electrode has poor heat dissipation effect due to a natural heat dissipation mode, so that the conventional electrode has high temperature.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a good appearance that moults of electrode radiating effect.

A depilating instrument comprises a machine shell with an accommodating space, a depilating mechanism, a control mechanism and a heat dissipation mechanism, wherein the depilating mechanism, the heat dissipation mechanism and the control mechanism are accommodated in the accommodating space, the depilating mechanism and the heat dissipation mechanism are electrically connected with the control mechanism, the depilating mechanism comprises a lamp tube used for emitting light and an electrode electrically connected with the lamp tube and the control mechanism, and the heat dissipation mechanism comprises a heat dissipation piece thermally connected with the electrode.

In some embodiments, the heat dissipation member includes a plurality of fixing portions and a heat dissipation portion connected between two adjacent fixing portions, the heat dissipation portion includes two heat dissipation plates that are opposite to each other at intervals and a connection plate connected between the two heat dissipation plates, and an airflow channel is formed between two adjacent heat dissipation plates.

In some embodiments, the control mechanism includes a circuit board, the electrode is electrically connected to the circuit board, a heat conducting sheet is disposed on the circuit board, and the fixing portion of the heat sink is thermally connected to the electrode through the heat conducting sheet.

In some embodiments, the heat dissipation mechanism further includes a heat conduction volute disposed in the accommodating space and an impeller mounted in the heat conduction volute, the heat conduction volute is provided with a volute air inlet and a volute air outlet which are communicated with each other, and the volute air outlet faces the lamp tube.

In some embodiments, the depilating mechanism further includes a lamp cover for mounting the lamp tube and condensing light emitted by the lamp tube, the lamp cover is provided with a light outlet deviating from the heat-conducting spiral case and a lamp cover air inlet and a lamp cover air outlet which are communicated with each other, and the lamp cover air inlet is communicated with the spiral case air outlet.

In some embodiments, the lamp cover includes two side plates disposed opposite to each other at an interval and a light reflecting plate connected between the two side plates, two ends of the lamp tube are respectively mounted to the two side plates, the lamp cover air inlet is disposed on one of the side plates far away from the heat dissipating member, and the lamp cover air outlet and the light outlet are both disposed on the light reflecting plate.

In some embodiments, the casing is provided with an air outlet, and the heat dissipation member is disposed between the volute outlet and the air outlet, so that the air generated by the impeller during operation flows through the heat dissipation member before being discharged from the air outlet.

In some embodiments, the control mechanism includes a circuit board, the lamp housing further includes a support leg connected between the circuit board and the reflector to space the reflector from the circuit board, and the lamp housing air outlet is disposed on a side of the reflector away from the circuit board.

In some embodiments, the casing includes a holding portion, a bottom wall fixed at one end of the holding portion, a top wall opposite to the bottom wall at a distance, and a side wall connected between the bottom wall and the top wall, the bottom wall is provided with an air inlet hole opposite to and communicated with the volute air inlet, the side wall is provided with an air outlet hole communicated with the volute air outlet, and the heat dissipation member is located between the electrode and the air outlet hole.

In some embodiments, the control mechanism includes a circuit board, the heat dissipation mechanism further includes an air guiding device covering the circuit board, the air guiding device and the circuit board enclose to form an air guiding channel, one end of the air guiding channel is communicated with the volute air outlet, the other end of the air guiding channel is communicated with the air outlet, and the lamp tube and the heat dissipation member are located in the air guiding channel.

The utility model provides a scheme is through setting up the heat-dissipating piece of being connected with electrode heat for the heat of electrode can transmit to the heat-dissipating piece, thereby has reduced the temperature of electrode, guarantees the working property and the life of electrode.

Drawings

Fig. 1 is a schematic structural diagram of a hair removal device according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the epilating apparatus shown in FIG. 1;

FIG. 3 is an exploded view of the epilating apparatus shown in FIG. 1;

FIG. 4 is an assembled view of the grip portion, bottom wall and control buttons shown in FIG. 3;

FIG. 5 is a schematic structural diagram of the control button shown in FIG. 3;

FIG. 6 is a schematic cross-sectional view of FIG. 4 in an exploded state;

FIG. 7 is an enlarged view of a portion of FIG. 4 at A;

FIG. 8 is an exploded view of the hair removal mechanism shown in FIG. 2;

FIG. 9 is an exploded view of the hair removal part, the circuit board, the air guiding device and the heat dissipating member shown in FIG. 3;

FIG. 10 is a schematic view of the structure of the lamp housing shown in FIG. 9;

FIG. 11 is a schematic view of the construction of the third insulating panel shown in FIG. 9;

FIG. 12 is a schematic view of the depilating apparatus shown in FIG. 1, without the grip, power supply mechanism, depilating mechanism, and heat pipe;

FIG. 13 is a schematic structural view of the depilating apparatus shown in FIG. 1 without the grip, the power supply mechanism, and the air guiding device;

FIG. 14 is a schematic view of the structure of FIG. 12 without the heat pipe installed;

FIG. 15 is an assembly view of the heat pipe, the heat conductive volute, and the heat conductive member shown in FIG. 3;

fig. 16 is a structural view of the heat sink shown in fig. 9.

In the figure: 1. a depilatory instrument; 10. a housing; 20. a depilating mechanism; 40. a heat dissipation mechanism; 60. a control mechanism; 70. a power supply mechanism; 80. a heat insulation mechanism; 11. a holding part; 12. a head; 111. a first accommodating cavity; 121. a second accommodating cavity; 122. a bottom wall; 123. an end cap; 124. a top wall; 125. a side wall; 61. a control key; 63. a circuit board; 610. an elastic portion; 611. a pressing part; 612. a first elastic wall; 613. a second elastic wall; 614. a body; 112. a key hole; 615. a hollow-out area; 113. a first bump; 616. hooking; 114. a bayonet; 115. a second bump; 116. a bending section; 617. a guide block; 618. a bevel; 22. a depilating section; 24. a cold compress portion; 221. a lamp tube; 222. a lamp shade; 223. an optical filter; 224. a light-gathering surrounding frame; 225. a light transmitting sheet; 2221. a light outlet; 226. an electrode; 2241. a light exit channel; 227. a lens holder; 2222. a cover main body; 2223. a support leg; 2224. a side plate; 2225. a reflector; 81. a first heat insulation plate; 82. a second heat insulation board; 83. a third heat insulation plate; 831. An electrode avoidance groove; 832. a leg avoidance groove; 241. a refrigeration member; 242. a first conductive member; 243. a second conductive element; 244. A mounting frame; 2421. a through hole; 2441. a first mounting groove; 2442. a second mounting groove; 41. an impeller; 42. a thermally conductive volute; 43. a heat pipe; 1221. an air inlet hole; 1231. an air outlet; 421. a volute air inlet; 422. a volute air outlet; 44. a heat conductive member; 45. an air guide device; 1232. heat dissipation holes; 126. a dust screen; 2226. the lampshade air inlet; 2227. the air outlet of the lampshade; 46. a heat sink; 461. a fixed part; 462. a heat dissipating section; 4621. a heat dissipation plate; 4622. a connecting plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

It should be noted that all directional indicators (such as upper, lower, left, right, front, rear, inner, outer, top, bottom \8230;) in the embodiments of the present invention are only used to explain the relative positional relationship between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

It will also be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Referring to fig. 1 to 3, a depilating apparatus 1 according to an embodiment of the present invention, the depilating apparatus 1 is preferably, but not limited to, a portable depilating apparatus, the depilating apparatus 1 includes a housing 10 having an accommodating space, a depilating mechanism 20 installed in the accommodating space for contacting with the skin surface of a user, a heat dissipation mechanism 40 installed in the accommodating space for dissipating heat from the depilating mechanism 20, a control mechanism 60 for controlling the depilating mechanism 20 and the heat dissipation mechanism 40, and a power supply mechanism 70 electrically connected to the control mechanism 60, wherein the power supply mechanism 70 is electrically connected to the depilating mechanism 20 and the heat dissipation mechanism 40 through the control mechanism 60 to supply power to the depilating mechanism 20 and the heat dissipation mechanism 40.

The housing 10 includes a holding portion 11 for a user to hold and a head portion 12 fixed at one end of the holding portion 11, the accommodating space includes a first accommodating cavity 111 disposed in the holding portion 11 and a second accommodating cavity 121 disposed in the head portion 12, and the first accommodating cavity 111 and the second accommodating cavity 121 are communicated with each other. The grip portion 11 is preferably, but not limited to, cylindrical for the convenience of holding by a user, and is provided with a first housing cavity 111 opening toward the head portion 12, and the power supply mechanism 70 is housed in the first housing cavity 111. The head 12 includes a bottom wall 122 fixed at one end of the holding portion 11 and an end cap 123 connected to one side of the bottom wall 122 far from the holding portion 11, the end cap 123 and the bottom wall 122 enclose to form a second accommodating cavity 121, and the heat dissipation mechanism 40 is accommodated in the second accommodating cavity 121. The head 12 has an opening, the hair removing mechanism 20 is received in the second receiving cavity 121 and partially protrudes out of the second receiving cavity 121 through the opening of the head 12, and the portion protruding out of the second receiving cavity 121 is convenient for contacting with the skin of the user.

The connection method of the bottom wall 122 and the grip 11 and the connection method of the bottom wall 122 and the end cap 123 are not limited, and may be integrally formed by injection molding, or may be connected by a screw, welding, or a snap. In some embodiments, the bottom wall 122 is bowl-shaped, and the end cap 123 includes a top wall 124 and a side wall 125 extending from the periphery of the top wall 124, the side wall 125 terminating in the bottom wall 122.

The power mechanism 70 may be a rechargeable battery, or may be a non-rechargeable battery or employ an external power source. In this embodiment, the power supply mechanism 70 comprises a flash capacitor disposed in the grip portion 11, and when the flash capacitor is electrically connected to an external power supply, a large current can be generated in a short time, and the trigger coil can be used to instantaneously release energy from the hair removal mechanism 20, i.e. the hair removal mechanism 20 instantaneously generates light.

The control mechanism 60 includes a control button 61 and a circuit board 63, the circuit board 63 is accommodated in the second accommodating cavity 121 of the head 12 and electrically connected to the power supply mechanism 70, and both the hair removal mechanism 20 and the heat dissipation mechanism 40 are electrically connected to the circuit board 63. A control button 61 is mounted on the grip portion 11, and the user can control the start, stop and power of the hair removing mechanism 20 and the heat dissipating mechanism 40 through the control button 61.

In this embodiment, the included angle between the central axis of the circuit board 63 and the holding portion 11 is greater than 0 ° and less than or equal to 90 °, preferably equal to 90 ° or close to 90 °, and compared with the mode that the circuit board 63 and the holding portion 11 are arranged in parallel, because the thickness of the circuit board 63 is much smaller than the length and the width of the circuit board 63, the overall height of the head 12 can be greatly reduced, which is beneficial to reducing the overall volume of the depilating apparatus 1, and the depilating apparatus 1 is convenient to store, carry and use.

Referring to fig. 4 to 7, the control key 61 includes an elastic portion 610 and a pressing portion 611, the elastic portion 610 includes a first elastic wall 612, a second elastic wall 613 and a body 614, the body 614 is mounted to the pressing portion 611, the first elastic wall 612 is connected to an end of the body 614 close to the head 12, the second elastic wall 613 is connected to an end of the body 614 away from the head 12, and both the first elastic wall 612 and the second elastic wall 613 are movably connected to the holding portion 11. The holding portion 11 is provided with a key hole 112 communicating with the first accommodating cavity 111, and the pressing portion 611 of the control key 61 movably penetrates through the key hole 112. When the pressing part 611 is pressed, the pressing part 611 moves toward the central axis direction of the grip 11 against the elastic deformation force of the first elastic wall 612 and the second elastic wall 613; when the pressing force applied to the pressing portion 611 disappears, the first elastic wall 612 and the second elastic wall 613 are restored to the original positions by the elastic force thereof, and the pressing portion 611 is driven to be restored to the original positions.

In order to facilitate the user to press the control key 61, the outer side of the pressing portion 611, i.e. the side away from the first receiving cavity 111, may be flush with the outer side of the key hole 112, or protrude from the outer side of the first receiving cavity 111.

The holding portion 11 is further provided with a key circuit board 110 disposed opposite to the pressing portion 611, the key circuit board 110 is spaced from the battery and electrically connected to the circuit board 63, and when the pressing portion 611 is pressed to move inward, the key circuit board 110 is pushed to move together, so that the key circuit board 110 is electrically connected to the battery.

The specific manner of movably connecting the first elastic wall 612 and the second elastic wall 613 with the grip portion 11 is not limited, and for example, the first elastic wall 612 and the second elastic wall 613 may be clamped by a snap structure, and a portion away from the pressing portion 611 is initially fixed with the grip portion 11, and a portion close to the pressing portion 611 is not fixed with the grip portion 11.

The first elastic wall 612 extends from the body 614 along the S-shaped path in a direction away from the body 614, that is, the first elastic wall 612 is S-shaped, which reduces the rigidity of the first elastic wall 612, thereby facilitating the deformation of the first elastic wall 612. It will be appreciated that the first flexible wall 612 may also have an L-shape or serpentine shape, which may also serve to reduce its stiffness.

The second elastic wall 613 is provided with a hollow area 615 in a penetrating manner, and the hollow area 615 is located in the middle of the second elastic wall 613, so that the rigidity of the second elastic wall 613 is reduced, and the second elastic wall 613 can be deformed conveniently.

The inner wall of the holding portion 11 is protruded with two first protrusions 113 opposite to each other at an interval, the two first protrusions 113 extend along the axial direction of the holding portion 11 and enclose with the inner wall of the holding portion 11 to form a sliding slot 1130, the control key 61 is in sliding fit with the sliding slot 1130, and the pressing portion 611, the first elastic wall 612 and the second elastic wall 613 are located between the two first protrusions 113. A hook 616 is disposed at an end of the first elastic wall 612 away from the body 614, a bayonet 114 is disposed at an end, i.e., a top end, of the first protrusion 113 facing the head 12, the bayonet 114 is disposed near an inner wall of the grip 11, and the hook 616 is hung at the bayonet 114. When the control key 61 is installed, the control key 61 can be inserted between the two first protruding blocks 113 from the top of the first accommodating cavity 111, and then the control key 61 is pushed, so that the hook 616 is hung on the bayonet 114 to complete the installation, and the operation is simple, quick and effective, and the installation of the control key 61 is convenient.

In this embodiment, two first elastic walls 612 are provided, one end of each first elastic wall 612, which is far away from the pressing portion 611, is provided with a hook 616, tops of the two protrusions are provided with the bayonets 114 correspondingly, and the two hooks 616 are respectively hung on the two bayonets 114, so as to enhance the stability of the control key 61.

The inner wall of the holding portion 11 is provided with a limiting portion cooperating with the second elastic wall 613, and the limiting portion includes two second protruding blocks 115 and two second bending portions 116. The two second protrusions 115 are oppositely arranged at intervals, along the circumferential direction of the holding portion 11, the two second protrusions 115 are located between the two first protrusions 113, a bent portion 116 is disposed on one side of each second protrusion 115 away from the inner wall of the holding portion 11, the two bent portions 116 extend in opposite directions, so that the two second protrusions 115, the two bent portions 116 and the holding portion 11 together enclose a limiting groove 117, and the second elastic wall 613 is partially inserted into the limiting groove 117. When the control key 61 is installed, the control key 61 is inserted between the two first protrusions 113, the second elastic wall 613 is aligned with the limiting groove 117, the control key 61 is pushed along the axial direction of the holding portion 11, the second elastic wall 613 is inserted into the limiting groove 117, and the hook 616 is hung in the bayonet 114, so that the installation of the control key 61 can be completed, and the operation is simple, quick and effective, and the installation of the control key 61 is convenient.

A guide block 617 is protruded from a side of the second elastic wall 613 facing the bent portion 116, and a slope 618 extending obliquely downward is formed on a side of the guide block 617 facing the bent portion 116. The guide block 617 is provided with a slope 618 to form a guide surface, so that the guide block is conveniently inserted into the limiting groove 117, and the control key 61 is conveniently installed.

Referring to fig. 2, 3, 8, 9 and 10, the hair removing mechanism 20 includes a hair removing portion 22 and a cold compress portion 24, the hair removing portion 22 is used for generating light, the cold compress portion 24 can cool, and a portion of the cold compress portion 24 protrudes out of the second accommodating cavity 121 to facilitate contact with the skin. When the hair removal operation is performed, the light emitted from the hair removal portion 22 may damage the hair follicles of the skin in contact therewith, and the hair follicles and the surrounding tissues are structurally changed due to the temperature rise, thereby suppressing the growth of hairs and shrinking the hairs. The cold compress part 24 can form a lower temperature through refrigeration, so that a cold compress effect is formed on skin in contact with the cold compress part, the burning heat feeling brought to the skin when the hair is depilated by light is relieved, skin irritation is reduced, and painless and lasting depilating experience is brought.

The hair removal part 22 includes a lamp 221, a lamp cover 222, a filter 223, a light-gathering frame 224 and a light-transmitting sheet 225, wherein the lamp cover 222 is fixedly mounted on the circuit board 63 and is provided with a light outlet 2221. The lamp 221 is installed inside the lamp housing 222 and electrically connected to the circuit board 63 through the electrode 226, and the light emitted from the lamp 221 is focused and emitted from the light outlet 2221 through the light-focusing function of the lamp housing 222, so as to improve the hair removal effect of the hair removal portion 22. The light-condensing enclosure frame 224 is spaced from the lampshade 222, and a light-emitting channel 2241 is arranged along the light-emitting direction. The optical filter 223 is disposed between the light outlet 2221 and the light outlet passage 2241 and covers the light outlet 2221, the light transmissive sheet 225 is located at one end of the light-focusing surrounding frame 224 away from the lamp housing 222, and the light transmissive sheet 225 can prevent fingers or other impurities from entering the depilating apparatus 1 through the light-focusing surrounding frame 224 and damaging the internal structure thereof.

When the light is emitted from the light outlet 2221 of the lampshade 222, the light firstly passes through the optical filter 223, the optical filter 223 can filter the light which passes through, light which is harmful to the skin in the light, such as ultraviolet light, is filtered, light with a useful wave band is left, and the skin of a user is prevented from being injured by the depilating apparatus 1. The light rays pass through the light filter 223 and enter the light-gathering surrounding frame 224, and under the light-gathering effect of the light-gathering surrounding frame 224, more light rays are emitted from one end of the light-emitting channel 2241, which is far away from the lampshade 222, and pass through the light-transmitting sheet 225 and then irradiate on the skin to be depilated, so that the depilating effect of the depilating apparatus 1 is improved.

It is understood that the light emitted from the tube 221 can be color light, composite light, intense light, pulsed light, or laser light, so long as the light emitted from the tube 221 can pass through the epidermis to illuminate the hair follicle.

The light-transmitting sheet 225 may be a glass sheet, or may be made of other transparent materials as long as light can pass through.

The depilating mechanism 20 further includes a lens holder 227, referring to fig. 2, a portion of the lens holder 227 is connected to a side of the circuit board 63 away from the light tube 221, and another portion protrudes out of the circuit board 63. The portion of the lens holder 227 protruding out of the circuit board 63 is provided with a slot into which the optical filter 223 is inserted.

The lamp housing 222 includes a housing main body 2222 and support legs 2223, the housing main body 2222 includes two side plates 2224 disposed opposite to each other at intervals and a reflective plate 2225 connected between the two side plates 2224, the cross section of the reflective plate 2225 is U-shaped, and an open end of the reflective plate 2225 faces the optical filter 223, and an open end of the U-shaped cross section forms a light outlet 2221 of the lamp housing 222. Both ends of the lamp tube 221 are respectively mounted to the two side plates 2224, and both ends of the legs 2223 are respectively fixedly connected to the U-shaped reflection plate 2225 and the circuit board 63, and make the housing main body 2222 and the circuit board 63 spaced apart from each other. The lamp tube 221 generates heat during the lighting process, so that the temperature of the lampshade 222 is also high, and the contact area between the circuit board 63 and the lampshade 222 can be reduced by connecting the support legs 2223 with the circuit board 63, thereby reducing the heat transferred from the lampshade 222 to the circuit board 63, and avoiding the problem that the normal operation and the service life of the circuit board 63 are influenced due to the overhigh temperature.

Referring to fig. 3, 9 and 11, a heat insulation mechanism 80 is further disposed in the second accommodating chamber 121, and the heat insulation mechanism 80 is made of a heat insulation material, and the heat conduction coefficient of the heat insulation material is very low, so that the heat insulation mechanism can play a certain role in blocking heat transfer.

The heat insulation mechanism 80 includes a first heat insulation plate 81 disposed on a side of the lens holder 227 away from the circuit board 63 and a second heat insulation plate 82 disposed on an inner side of the top wall 124 (i.e., a surface of the top wall 124 facing the bottom wall 122), wherein the first heat insulation plate 81 is located between the circuit board 63 and the second heat insulation plate 82. The first heat insulating plate 81 may reduce the amount of heat transferred to the top wall 124 by the optical filter 223, and the second heat insulating plate 82 may reduce the amount of heat transferred to the top wall 124 by the circuit board 63. The electronic components on the circuit board 63 generate heat during operation, and the optical filter 223 also generates heat due to the irradiation of the lamp tube 221, and during heat transfer, the first heat insulation board 81 and the second heat insulation board 82 can play a role in blocking heat transfer from the optical filter 223 and the circuit board 63 to the end cap 123, so as to reduce the temperature of the end cap 123.

The heat insulating mechanism 80 further includes a third heat insulating plate 83 fixed to the side of the circuit board 63 remote from the first heat insulating plate 81, the third heat insulating plate 83 being located between the cover main body 2222 and the circuit board 63. By providing the third heat insulating plate 83 between the circuit board 63 and the cover main body 2222, the amount of heat transferred from the cover main body 2222 to the circuit board 63 is further reduced, ensuring normal operation and life of the circuit board 63.

The materials of the first heat insulation board 81, the second heat insulation board 82 and the third heat insulation board 83 are not limited, and may be made of rubber wool or heat insulation cotton, or plastic or mica, for example, as long as the materials have low thermal conductivity.

Referring to fig. 11, the third heat insulation board 83 is provided with an electrode avoiding groove 831 and a leg avoiding groove 832 in a penetrating manner, two ends of the lamp tube 221 are electrically connected to the circuit board 63 through two electrodes 226, the two electrodes 226 are respectively fixed to the circuit board 63 and electrically connected to the circuit thereon, and one end of one electrode 226 passes through the electrode avoiding groove 831; the legs 2223 have one end connected to the housing main body 2222 and the other end connected to the circuit board 63 after passing through the leg escape slots 832. Since the leg avoiding groove 832 and the electrode avoiding groove 831 are provided on the third heat insulating board 83, a portion of the third heat insulating board 83 may extend to the outside of the leg 2223 or the outside of the electrode 226, thereby increasing the area of the third heat insulating board 83, so that the orthographic projection of the cover main body 2222 on the circuit board 63 may completely fall on the third heat insulating board 83, thereby forming a better heat insulating effect.

Referring to fig. 3 and 8, the cold compressing portion 24 includes a cooling element 241, a first conducting element 242, a second conducting element 243, and a mounting frame 244 for mounting the cooling element 241, the first conducting element 242, and the second conducting element 243, and the first conducting element 241, the second conducting element 243, and the first conducting element 242 are sequentially arranged along the light emitting direction. The first conductive member 242 is fixed to a side of the mounting frame 244 away from the lamp tube 221 for contacting the skin. The cooling element 241 is preferably a semiconductor cooling element for generating a cold flow. The second conduction member 243 is connected between the first conduction member 242 and the cooling member 241, and is used for transferring the cold flow generated by the cooling member 241 to the first conduction member 242, and then transferring the cold flow to the skin contacted with the first conduction member 242, so that a cold compress effect is formed on the skin, and the burning sensation of the skin caused by depilation is relieved. The area of the first conduction member 242 is larger than that of the cooling member 241, thereby increasing the contact area with the skin, increasing the cold compress area, and thus enhancing the cold compress effect. And the cold flow of the refrigerating member 241 is transmitted to the skin through the first and second conductive members 242 and 243, so that the refrigerating member 241 does not need to be in direct contact with the skin, thereby preventing the refrigerating member 241 from being corroded by grease, sweat and the like on the skin.

The material of the first conductive member 242 and the second conductive member 243 is not limited, and may be, for example, metal or alloy having good heat conductivity, such as aluminum and copper. In this embodiment, the first conducting member 242 and the second conducting member 243 are made of soft heat conducting material, so that when the depilating apparatus 1 falls accidentally, the first conducting member 242 and the second conducting member 243 can play a role in buffering, thereby reducing the risk of the cooling member 241 being broken due to impact caused by falling, and enhancing the falling resistance of the depilating apparatus 1.

A through hole 2421 penetrates through the middle part of the first conducting member 242 along the light emitting direction, and the through hole 2421 is arranged opposite to the light-transmitting sheet 225 for light to pass through. The head 12 of the housing 10 has an opening communicating with the second receiving cavity 121, the first conducting member 242 is located in the opening, and the outer side of the first conducting member 242, i.e. the side away from the lamp tube 221, is flush with the outer side of the opening, so that the first conducting member 242 can be attached to the skin to form a good cold compress effect, and the appearance of the depilating apparatus 1 is more aesthetic. In other embodiments, the first conducting member 242 may protrude from the opening, as long as it can be attached to the skin.

It is understood that the through hole 2421 of the first conductive member 242 may be omitted, for example, it is also possible that the region of the first conductive member 242 opposite to the light-transmissive sheet 225 is made of transparent material, as long as light can pass through.

The mounting bracket 244 is provided with a first mounting groove 2441 and a second mounting groove 2442 in a light emitting direction, the first mounting groove 2441 is located in the middle of the mounting bracket 244, and the second mounting groove 2442 is located at the edge of the mounting bracket 244. The light-condensing enclosure frame 224 is installed in the first installation groove 2441, and the second conductive member 243 and the cooling member 241 are installed in the second installation groove 2442.

The cooling member 241 includes a first surface far away from the lamp tube 221 and a second surface close to the lamp tube 221, the first surface is used for generating cold flow, the second surface generates heat, and the second conducting member 243 is attached to the first surface, so as to conduct the cold flow generated by the first surface to the first conducting member 242 in time.

Referring to fig. 12 to 16, the heat dissipation mechanism 40 includes an impeller 41 accommodated in the second accommodating chamber 121, a heat conduction volute 42 and a heat pipe 43, the impeller 41 is disposed in the heat conduction volute 42, an evaporation end of the heat pipe 43 is attached to the second surface of the refrigeration element 241, and a condensation end of the heat pipe 43 is connected to the heat conduction volute 42. The evaporation end of the heat pipe 43 can absorb heat generated by the refrigeration element 241, so that liquid in the evaporation end forms steam with a higher temperature, the steam then moves to the condensation end of the heat pipe 43, the steam dissipates heat at the condensation end and becomes liquid, and then flows back to the evaporation end through the capillary structure of the inner wall of the heat pipe 43, so that heat is transferred from the evaporation end to the condensation end, the heat conduction volute 42 is used for absorbing heat at the condensation end, so that the steam in the condensation end becomes liquid again, the impeller 41 can generate an air flow when in operation, the air flow can take away heat on the heat conduction volute 42 when flowing along the heat conduction volute 42, and the temperature of the heat conduction volute 42 is reduced, so as to promote the heat absorption effect of the heat conduction volute 42 on the condensation end. Through the mutual cooperation of the heat pipe 43, the heat conduction volute 42 and the impeller 41, the heat generated by the refrigerating piece 241 can be transferred in time, and the refrigerating effect of the refrigerating piece 241 is ensured, so that the cold compressing effect of the cold compressing portion 24 is ensured.

The heat conductive volute 42 is made of metal (such as copper, aluminum, etc.) or nonmetal (such as diamond or graphite, etc.) with good heat conductivity, and can effectively absorb heat at the condensation end of the heat pipe 43, so that elements such as a heat dissipation fin for absorbing heat at the condensation end of the heat pipe 43 can be omitted, the structure of the heat dissipation mechanism 40 is simplified, and the overall volume of the depilating apparatus 1 is reduced.

A heat conducting member 44 is fixed to the evaporation end of the heat pipe 43, and the heat conducting member 44 is attached to the second surface of the cooling member 241. The heat pipe 43 is connected with the refrigerating part 241 through the heat conducting part 44, so that the contact area with the refrigerating part 241 is increased, the heat transfer efficiency between the refrigerating part 241 and the evaporation end of the heat pipe 43 is improved, the heat pipe 43 can timely and effectively transfer the heat generated by the refrigerating part 241, and the refrigerating effect of the refrigerating part 241 is ensured.

The bottom wall 122 is provided with air inlet holes 1221 (see fig. 3 and 4) extending therethrough and communicating with the second accommodating chamber 121, and the air inlet holes 1221 are disposed around the periphery of the grip 11, preferably, the air inlet holes 1221 extend through the bottom wall 122 in an axial direction parallel to the grip 11. A plurality of air outlet holes 1231 communicated with the second accommodating cavity 121 are formed in the side wall 125 of the end cap 123 in a penetrating manner, and preferably, the air outlet holes 1231 are inclined at a certain angle relative to the axial direction of the holding portion 11 so as to increase the length of each air outlet hole 1231, thereby reducing wind resistance. The impeller 41 is a centrifugal impeller, the heat-conducting volute 42 is provided with a volute air inlet 421 and a volute air outlet 422, the volute air inlet 421 is opposite to the air inlet 1221 of the bottom wall 122, the volute air outlet 422 is communicated with an air guide device 45, the inlet end of the air guide device 45 is communicated with the volute air outlet 422, and the outlet end of the air guide device 45 is communicated with the air outlet 1231 on the side wall 125. In the present embodiment, the air guiding device 45 is an air guiding cover, the air guiding cover is disposed on the circuit board 63 so as to enclose the circuit board 63 to form an air guiding channel, and a shape of an end of the air guiding device 45 close to the air outlet 1231 is consistent with and attached to the shape of the side wall 125. When the impeller 41 works, the external air can be sucked into the heat conduction volute 42 through the air inlet 1221 on the bottom wall 122 and the volute air inlet 421, then enter the air guiding device 45 through the volute air outlet 422, and finally be discharged out of the second accommodating chamber 121 through the air outlet 1231 on the side wall 125. When the air flows through the relevant components, for example the heat-conducting volute 42, it takes away part of the heat of the relevant components and transfers it to the environment, thereby lowering the temperature inside the epilating apparatus 1.

The volute air inlet 421 is opposite to the air inlet 1221 on the casing 10, so that the air resistance can be reduced, and the air inlet efficiency can be improved. In the embodiment of the present application, by disposing the air inlet holes 1221 on the bottom wall 122, compared with the manner of disposing the air inlet holes 1221 on the side wall 125 of the head 12, the overall height of the head 12 can be reduced, which is helpful for reducing the overall volume of the depilating apparatus 1, and is convenient for the user to use and carry; but also brings cool feeling to the hand of the user holding the depilating apparatus 1, and improves the operation experience of the user.

In this embodiment, the side of the sidewall 125 of the end cap 123 far from the air outlet 1231 is further provided with a heat dissipation hole 1232 for natural heat dissipation, and heat generated by the operation of the internal components of the hair removal device 1 can be discharged from the air outlet 1231 under the action of the impeller 41 and can be discharged through the heat dissipation hole 1232, thereby further reducing the temperature inside the hair removal device 1.

In this embodiment, the dust screen 126 (see fig. 3) is disposed at the air inlet 1221, the air outlet 1231, and the heat dissipation holes 1232, and the dust screen 126 can prevent dust from entering the second accommodating cavity 121 and affecting the normal operation and the service life of each component in the second accommodating cavity 121.

Referring to fig. 14, the lampshade 222 is disposed inside the air guiding device 45 and spaced apart from the inner wall of the air guiding device 45. The lamp housing 222 has a lamp housing inlet 2226 and a lamp housing outlet 2227, the lamp housing inlet 2226 is disposed on the side plate 2224 of the housing main body 2222 away from the air outlet 1231, and the lamp housing outlet 2227 is disposed on the side of the U-shaped reflector 2225 away from the circuit board 63. When air enters the air guiding device 45 from the volute air outlet 422, a part of air flow directly passes through a gap between the reflector 2225 and the inner wall of the air guiding device 45, and takes away part of heat of the lamp shade 222; another part of the airflow enters the interior of the lamp housing 222 through the lamp housing inlet 2226, flows through the lamp tube 221 and is exhausted from the lamp housing outlet 2227, takes away part of the heat of the lamp housing 222 and the lamp tube 221, and then reenters the gap between the lamp housing 222 and the air guiding device 45, and finally is exhausted through the air outlet 1231 on the end cover 123, so as to reduce the temperature inside the hair removal device 1.

In other embodiments, the lampshade outlet 2227 can also be disposed on the other side panel 2224 (i.e. the side panel 2224 close to the outlet hole 1231). Because the other side plate 2224 is close to the air outlet 1231, when the lamp tube 221 works, part of the light emitted from the lamp shade air outlet 2227 and the air outlet 1231 can be emitted, so that a light leakage phenomenon is generated, and the normal use and experience of a user are partially influenced.

In some embodiments, a heat sink 46 may be disposed between the side plate 2224 of the lamp housing 222 near the air outlet 1231 and the air outlet 1231, and the heat sink 46 is thermally connected to the electrode 226, i.e., the heat of the electrode 226 can be transferred to the heat sink 46. In this embodiment, the heat sink 46 is fixed to the circuit board 63 and indirectly contacts the electrode 226 through a heat conducting sheet, which may be either only thermally conductive or electrically non-conductive, or both thermally and electrically conductive, as long as the heat of the electrode 226 can be transferred to the heat sink 46 through the heat conducting sheet, thereby effectively reducing the temperature of the electrode 226. The airflow passes through the heat sink 46 before being discharged from the air outlet 1231, thereby removing heat from the heat sink 46.

Preferably, the heat sink 46 includes a plurality of fixing portions 461 fixed to the circuit board 63 and a U-shaped heat sink 462 connected between adjacent two fixing portions 461. Each heat dissipation part 462 comprises two parallel heat dissipation plates 4621 which are opposite at intervals and a connecting plate 4622 connected between the two heat dissipation plates 4621, an air flow channel is formed between the adjacent heat dissipation plates 4621, and the direction of the air flow channel is consistent with the direction of air flow in the air guide pipe as much as possible so as to reduce wind resistance. In this embodiment, the orientation of the airflow channel forms a certain angle with the axial direction of the lamp 221, and the airflow channel is inclined to the axial direction of the lamp 221 toward the air outlet 1231 by a certain angle. When the airflow flows through the heat dissipation member 46, the airflow not only contacts the outer surface of the heat dissipation member 46, but also contacts the inner surface of the heat dissipation part 462, so that the contact area between the heat dissipation member 46 and the airflow is increased, that is, the heat dissipation area of the heat dissipation member 46 is increased, and the heat dissipation effect of the heat dissipation member 46 is enhanced.

The number of the heat dissipation portions 462 is not limited, and may be one or more.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The depilating mechanism comprises a lamp tube used for emitting light and an electrode electrically connected with the lamp tube and the control mechanism, and the heat dissipation mechanism comprises a heat dissipation part thermally connected with the electrode.

2. An epilator as claimed in claim 1, wherein the heat dissipating member comprises a plurality of fixing portions and a heat dissipating portion connected between two adjacent fixing portions, the heat dissipating portion comprising two spaced-apart and opposing heat dissipating plates and a connecting plate connected between the two heat dissipating plates, an air flow passage being formed between two adjacent heat dissipating plates.

3. A depilating apparatus according to claim 2, wherein the control mechanism comprises a circuit board, the electrodes are electrically connected to the circuit board, a heat conducting strip is provided on the circuit board, and the fixing portion of the heat dissipating member is thermally connected to the electrodes via the heat conducting strip.

4. The hair removal device of claim 1, wherein the heat dissipation mechanism further comprises a heat conduction volute disposed in the receiving space and an impeller mounted in the heat conduction volute, the heat conduction volute has a volute air inlet and a volute air outlet that are communicated with each other, and the volute air outlet faces the lamp tube.

5. The hair removal device as claimed in claim 4, wherein the hair removal mechanism further comprises a lamp housing for mounting the lamp tube and condensing the light emitted from the lamp tube, the lamp housing has a light outlet deviating from the heat-conducting volute, and a lamp housing air inlet and a lamp housing air outlet which are connected to each other, and the lamp housing air inlet is connected to the volute air outlet.

6. The hair removal device as claimed in claim 5, wherein said lamp housing comprises two side plates disposed opposite to each other at a distance and a light reflecting plate connected between said two side plates, two ends of said lamp tube are respectively mounted to said two side plates, said lamp housing air inlet is disposed on one of said side plates far from said heat dissipating member, and said lamp housing air outlet and said light outlet are disposed on said light reflecting plate.

7. A depilating apparatus according to claim 4, wherein the housing is provided with an air outlet, and the heat sink is arranged between the volute air outlet and the air outlet, so that the air generated by the impeller during operation flows through the heat sink before being exhausted from the air outlet.

8. The hair removal device of claim 6, wherein said control mechanism includes a circuit board, said housing further includes legs connected between said circuit board and said reflector for spacing said reflector from said circuit board, and said housing outlet is disposed on a side of said reflector remote from said circuit board.

9. The hair removal device as claimed in claim 4, wherein the housing comprises a holding portion, a bottom wall fixed at one end of the holding portion, a top wall spaced from and opposite to the bottom wall, and a side wall connected between the bottom wall and the top wall, the bottom wall is provided with an air inlet hole opposite to and communicated with the air inlet of the volute, the side wall is provided with an air outlet hole communicated with the air outlet of the volute, and the heat dissipation member is located between the electrode and the air outlet hole.

10. The hair removal device as claimed in claim 9, wherein the control mechanism includes a circuit board, the heat dissipation mechanism further includes an air guiding device covering the circuit board, the air guiding device and the circuit board enclose to form an air guiding channel, one end of the air guiding channel is communicated with the air outlet of the volute, the other end of the air guiding channel is communicated with the air outlet, and the lamp and the heat dissipation member are located in the air guiding channel.

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