CN217612532U

CN217612532U - Skin tendering instrument

Info

Publication number: CN217612532U
Application number: CN202220233592.1U
Authority: CN
Inventors: 林俊宏; 沈代华; 何伟
Original assignee: Shenzhen Qianyu Technology Co ltd
Current assignee: Shenzhen Qianyu Technology Co ltd
Priority date: 2022-01-27
Filing date: 2022-01-27
Publication date: 2022-10-21
Anticipated expiration: 2032-01-27

Abstract

The application belongs to the technical field of electronic equipment, and relates to a skin tendering instrument. The technical scheme provided by the application comprises the following steps: the air conditioner comprises a shell, wherein an air inlet and an air outlet are formed in the shell, and a cooling channel communicated with the air inlet and the air outlet is formed in the shell; the skin tendering mechanism comprises a lamp tube assembly and a cold compress portion, the lamp tube assembly generates light for tendering skin, and the cold compress portion receives the light emitted by the lamp tube assembly and emits the light; the heat dissipation mechanism comprises a refrigeration piece, a heat conduction assembly and a cooling driving piece, the refrigeration piece is arranged on the heat conduction assembly and connected with the cold compressing portion, the lamp tube assembly is connected with the heat conduction assembly, and the cooling driving piece is arranged on one side, away from the air inlet, of the lamp tube assembly. Adopt a cooling channel to dispel the heat to two heat sources of lamp assembly spare and refrigeration piece, when guaranteeing the radiating effect, occupation space is little for tender skin appearance structure is more reasonable, the cost is reduced.

Description

Skin tendering instrument

Technical Field

The application relates to the technical field of electronic equipment, in particular to a skin tendering instrument.

Background

The photon beauty technology developed on the basis of laser technology obtains a rapid development from the technology of treating telangiectasia, photon unhairing and strong pulse light photon skin tendering (IPL) to the technology of narrow spectrum light (DPL), a whitening skin tendering instrument generally utilizes the technology to realize unhairing or whitening skin tendering, when the whitening skin tendering instrument works, a lamp tube component is conducted to emit light, the lamp tube component can emit a large amount of heat, so that the temperature of a contact part at a light outlet of the whitening skin tendering instrument is sharply increased, and the risk of scalding a user exists. In order to solve the problems, the conventional whitening and skin-tendering instrument generally reduces the temperature of a contact part through a refrigerating part, and is provided with two independent cooling channels for respectively cooling the refrigerating part and a lamp tube assembly, so that the structure of the whitening and skin-tendering instrument is complex, the two independent cooling channels are arranged for respectively cooling the refrigerating part and the lamp tube assembly, the occupied space is large, and the cost of the whitening and skin-tendering instrument is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a tender skin appearance, the structure of solving current skin tender skin appearance of whitening is complicated, technical problem with high costs.

In order to solve the above-mentioned problem, the embodiment of the present invention provides the following technical solutions:

a skin rejuvenation apparatus, the skin rejuvenation apparatus comprising:

the air conditioner comprises a shell, wherein an air inlet and an air outlet are formed in the shell, and a cooling channel communicated with the air inlet and the air outlet is formed in the shell;

the skin tendering mechanism is arranged in the shell and comprises a lamp tube assembly and a cold compress part, the lamp tube assembly generates light for tendering skin, and the cold compress part receives the light emitted by the lamp tube assembly and emits the light;

the heat dissipation mechanism, at least part is located in the cooling channel, heat dissipation mechanism includes refrigeration piece, heat-conducting component and cooling driving piece, the refrigeration piece is located on the heat-conducting component and with cold compress portion connects, the lamp assembly with heat-conducting component connects, heat-conducting component is used for right the lamp assembly with the heat dissipation of refrigeration piece, the cooling driving piece is located the lamp assembly is kept away from one side of air intake, the cooling driving piece is used for driving outside cooling medium to follow the air intake gets into cooling channel makes cooling medium flows through cooling channel absorbs heat-conducting component's heat, and will cooling medium follows the air outlet is discharged.

Furthermore, the cooling driving member is provided with a first driving port and a second driving port, the first driving port is arranged at one end, away from the lamp tube assembly, of the cooling driving member, the first driving port is used for inputting a cooling medium, the second driving port is arranged at one end, close to the lamp tube assembly, of the cooling driving member, the second driving port is used for outputting the cooling medium, and the opening direction of the first driving port is the same as the opening direction of the second driving port.

Furthermore, the cooling channel comprises an air inlet channel and an air outlet channel, the air inlet channel is communicated with the first driving port and the air inlet, the air outlet channel is communicated with the second driving port and the air outlet, the air outlet is formed in one side, close to the heat conducting assembly, of the shell, and the air outlet is formed in the direction perpendicular to the second driving port.

Further, the skin tendering instrument further comprises a mounting bracket, the heat conducting assembly is arranged on the mounting bracket and comprises a substrate, a heat conducting plate and a radiating fin assembly, the substrate is arranged on the mounting bracket, the heat conducting plate is arranged on the substrate, and the radiating fin assembly is arranged on the heat conducting plate.

Further, the heat-conducting plate is the VC soaking pit, the fin subassembly includes a plurality of fin that set up side by side and laminate the heat-conducting plate.

Furthermore, the heat sink component faces one end of the lamp tube component and is provided with a mounting groove, the lamp tube component comprises a lamp tube support, a lamp tube and a reflection cup, the shell is provided with a light outlet through which light emitted by the lamp tube passes, the cold compress portion is arranged at the light outlet, the cold compress portion is a transparent crystal, the lamp tube support is arranged on the heat conducting plate, the reflection cup is arranged on the lamp tube support, the lamp tube is arranged in the reflection cup, and the reflection cup and the lamp tube are both positioned in the mounting groove.

Furthermore, the heat conducting component also comprises a heat conducting piece, the heat conducting piece is arranged between the lamp tube bracket and the heat radiating fin component, one end of the heat conducting piece is attached to the heat radiating fin component, and the other end of the heat conducting piece is attached to the reflecting cup; the heat conducting piece is made of heat conducting and insulating materials.

Further, an arc-shaped groove is formed in one end, facing the lamp tube assembly, of each radiating fin, and the arc-shaped grooves of the plurality of radiating fins form the mounting groove;

the lamp tube bracket is provided with an arc-shaped mounting part positioned in the mounting groove, a mounting cavity is arranged in the arc-shaped mounting part, and the reflecting cup is mounted in the mounting cavity;

the arc installation department is equipped with logical groove, the heat-conducting piece include the installation department and with the arc heat-conducting part that the installation department is connected, be equipped with the mounting hole on the installation department, the installation department passes through the mounting hole install in on the fluorescent tube support, the arc heat-conducting part orientation the one end of anti-light cup is equipped with the bellying, the bellying stretches into lead to the groove and with anti-light cup laminating.

Furthermore, the skin tendering instrument further comprises an optical filter component, wherein the optical filter component comprises an optical filter support and an optical filter, the optical filter support is provided with a slot, and the optical filter is arranged in the slot and positioned between the lamp tube and the cold compress part;

the optical filter is provided with an inductor or a sensing piece, and the slot is internally provided with the sensing piece or the inductor;

and a sealing piece is arranged on the notch of the slot.

Furthermore, the inductor is a hall sensor, and the induction piece is an induction magnet;

the sealing element is silica gel or brush hair;

the heat-conducting insulating material is heat-conducting silica gel or aluminum nitride.

Compared with the prior art, the embodiment of the utility model provides a mainly have following beneficial effect:

a skin tendering instrument is characterized in that a lamp tube assembly emits light to realize skin care, a cold compress area of a cold compress portion is in contact with the skin of a user, a lamp tube emits light to the cold compress portion, the cold compress portion can emit light to irradiate the skin of a human body, the cold compress portion is refrigerated through a refrigerating piece to provide ice feeling of the contact portion of the cold compress portion and the human body, the cold compress portion can be rapidly cooled to reduce burning feeling caused by the light, comfort is guaranteed, the refrigerating piece refrigerates the cold compress portion, a refrigerating surface of the refrigerating piece is in contact with the cold compress portion, a radiating surface of the refrigerating piece is in contact with a heat conducting plate, and the heat conducting plate radiates the refrigerating piece to avoid overhigh temperature of the cold compress portion; the reflecting cup of the lamp tube assembly is connected with the radiating fin assembly through the heat conducting piece, heat generated during the working of the lamp tube assembly can be transferred to the radiating fin assembly, and the heat conducting assembly radiates the heat of the lamp tube assembly so as to avoid overhigh temperature of the lamp tube assembly; under the driving of the cooling driving piece, external cooling medium enters the air inlet channel from the air inlet, enters the first driving port of the cooling driving piece, is blown out from the second driving port of the cooling driving piece and is blown to the heat conducting assembly, and the heat conducting assembly absorbs heat of the lamp tube assembly and the refrigerating piece and dissipates heat; the cooling channel is adopted to dissipate heat of the lamp tube assembly and the refrigerating piece, so that the occupied space is small while the heat dissipation effect is ensured, the skin tendering instrument is more reasonable in structure, and the cost is reduced; different optical filters are automatically identified according to different positions of the induction magnets through the induction of the Hall sensor and the induction magnets, so that the replacement of different optical filters is facilitated; the notch of the slot that inserts the light filter sets up silica gel or brush hair, and at the in-process of plug light filter, the notch of slot passes through silica gel or brush hair and can shelter from external foreign matter to prevent that the foreign matter from getting into the tender inside the skin appearance.

Drawings

In order to illustrate the solution of the present invention more clearly, the drawings needed for describing the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a skin tendering instrument in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a control module and a power module according to an embodiment of the present invention;

fig. 3 is a schematic view of the internal structure of the skin tendering instrument in the embodiment of the present invention;

FIG. 4 is a schematic view of the position relationship of the cooling passage, the cooling driving member and the air outlet according to the embodiment of the present invention;

FIG. 5 is a schematic view of the connection between the heat dissipation mechanism and the skin tendering mechanism in the embodiment of the present invention;

FIG. 6 is a schematic structural view of a cooling driving member according to an embodiment of the present invention;

FIG. 7 is a schematic view of the connection between the heat-conducting component and the lamp component according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a heat conducting assembly according to an embodiment of the present invention;

FIG. 9 is a schematic view of the connection between the lamp tube assembly and the heat conducting member according to the embodiment of the present invention;

FIG. 10 is a schematic view of the connection between the lamp tube and the reflector cup in the embodiment of the present invention;

fig. 11 is a schematic structural view of a lamp tube assembly according to an embodiment of the present invention;

fig. 12 is a schematic structural view of a lamp tube bracket according to an embodiment of the present invention;

fig. 13 is a schematic structural view of a heat-conducting member according to an embodiment of the present invention;

fig. 14 is a schematic view of a connection relationship between the optical filter and the housing according to an embodiment of the present invention;

fig. 15 is a schematic structural diagram of an optical filter assembly according to an embodiment of the present invention.

Description of the reference numerals:

1. a housing; 2. a skin tendering mechanism; 21. a lamp tube assembly; 211. a lamp tube bracket; 2111. an arc-shaped mounting part; 2112. a through groove; 212. a lamp tube; 213. a light-reflecting cup; 22. a cold compress part; 3. a heat dissipation mechanism; 31. a refrigeration member; 32. a heat conducting component; 321. a substrate; 322. a heat conducting plate; 323. a heat sink assembly; 3231. mounting grooves; 3232. a heat sink; 3233. an arc-shaped slot; 324. a heat conductive member; 3241. an installation part; 3242. an arc-shaped heat conduction part; 3243. mounting holes; 3244. a boss portion; 33. cooling the drive member; 331. a first drive port; 332. a second drive port; 4. an air outlet; 5. a cooling channel; 6. mounting a bracket; 7. an optical filter assembly; 71. a filter holder; 72. an optical filter; 73. inserting slots; 74. a seal member; 8. a control component; 9. a power supply assembly.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The terms "including" and "having," and any variations thereof, in the description and claims of the present invention and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and in the claims, or in the drawings, are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In order to make the technical solutions of the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the related drawings.

Examples

As shown in fig. 1 to 4, a skin rejuvenation apparatus includes:

the air conditioner comprises a shell 1, wherein an air inlet and an air outlet 4 are formed in the shell 1, and a cooling channel 5 communicated with the air inlet and the air outlet 4 is formed in the shell 1;

the skin tendering mechanism 2 is arranged in the shell 1, the skin tendering mechanism 2 comprises a lamp tube assembly 21 and a cold compress portion 22, the lamp tube assembly 21 generates light for tendering skin, and the cold compress portion 22 receives the light emitted by the lamp tube assembly 21 and emits the light;

heat dissipation mechanism 3, at least part is located in cooling channel 5, heat dissipation mechanism 3 includes refrigeration piece 31, heat-conducting component 32 and cooling driving piece 33, refrigeration piece 31 is located on the heat-conducting component 32 and with cold compress portion 22 is connected, lamp assembly 21 with heat-conducting component 32 connects, heat-conducting component 32 is used for right lamp assembly 21 with refrigeration piece 31 heat dissipation, cooling driving piece 33 is located lamp assembly 21 keeps away from one side of air intake, cooling driving piece 33 is used for driving outside cooling medium to follow the air intake gets into cooling channel 5 makes cooling medium flows through cooling channel 5 absorbs heat of heat-conducting component 32, and will cooling medium follows air outlet 4 discharges.

The embodiment of the utility model provides a tender skin appearance, light pipe subassembly 21 send light and realize tender skin nursing to skin, if unhairing or skin whitening tender, with the refrigeration piece 31 of cold compress portion 22 contact refrigerates cold compress portion 22 to provide the ice of cold compress portion 22 and human body contact position, refrigeration piece 31 installs on heat-conducting component 32, and heat-conducting component 32 dispels the heat to refrigeration piece 31, in order to avoid cold compress portion 22 high temperature; the lamp assembly 21 is connected with the heat conducting assembly 32, heat generated when the lamp assembly 21 works can be transferred to the heat conducting assembly 32, and the heat conducting assembly 32 dissipates heat of the lamp assembly 21 so as to avoid overhigh temperature of the lamp assembly 21; under the driving of the cooling driving part 33, an external cooling medium enters the cooling channel 5 from the air inlet, the cooling medium absorbs heat of the heat conducting component 32 in the process of flowing through the cooling channel 5, then the cooling medium is discharged from the air outlet 4, and the heat conducting component 32 absorbs heat of the lamp tube component 21 and the refrigerating component 31 and dissipates heat, so that the cooling medium takes away the heat of the heat conducting component 32, the internal structure of the skin tendering instrument is optimized, and the cooling channel 5 is adopted to dissipate heat of the two heat sources of the lamp tube component 21 and the refrigerating component 31, so that the occupied space is small while the heat dissipation effect is ensured, the structure of the skin tendering instrument is more reasonable, and the cost is reduced; and absorbed the thermal coolant of lamp assembly 21 and thermal conduction subassembly 32 and directly discharged to the external world through air outlet 4, can not take the heat to lamp assembly 21 or other electrical components in the skin tendering appearance again, can effectively improve skin tendering appearance head cooling efficiency, the radiating effect is good, guarantees with the cooling effect at human contact position, has promoted the result of use, has improved user experience.

In this embodiment, the skin rejuvenation device is a DPL skin rejuvenation device. Narrow spectrum light (DPL) refers to a novel optical skin rejuvenation technique, with a spectral range of 500-600nm or 550-650nm. Different from the traditional photon skin tendering technology (IPL), the narrow-spectrum optical technology can excite the selected narrow-spectrum pulse light with the wave band of 100nm, and the wave band simultaneously contains the absorption peak values of melanin, oxygen and hemoglobin, so that the effective treatment energy is accurately concentrated, and the problems of facial stains and telangiectasia (red face disease) can be quickly and efficiently solved. The DPL narrow-spectrum light skin-tendering technology is praised as an epoch-making optical beauty skin-tendering technology because the curative effect is obviously superior to that of photon skin-tendering and the treatment period is obviously shortened.

As shown in fig. 4 and fig. 6, the cooling driving member 33 is provided with a first driving port 331 and a second driving port 332, the first driving port 331 is disposed at an end of the cooling driving member 33 far away from the lamp tube assembly 21, the first driving port 331 is used for inputting a cooling medium, the second driving port 332 is disposed at an end of the cooling driving member 33 close to the lamp tube assembly 21, the second driving port 332 is used for outputting the cooling medium, and an opening direction of the first driving port 331 is the same as an opening direction of the second driving port 332.

The cooling channel 5 comprises an air inlet channel and an air outlet channel, the air inlet channel is communicated with the first driving port 331 and the air inlet, the air outlet channel is communicated with the second driving port 332 and the air outlet 4, the air outlet 4 is arranged on one side, close to the heat conducting component 32, of the shell 1, and the opening direction of the air outlet 4 is perpendicular to the opening direction of the second driving port 332.

Under the driving of the cooling driving member 33, an external cooling medium enters the air inlet channel from the air inlet, enters the first driving port 331 of the cooling driving member 33, is blown out from the second driving port 332 of the cooling driving member 33, and is blown to the heat conducting assembly 32, and absorbs heat and dissipates heat to the lamp tube assembly 21 and the refrigeration member 31 through the heat conducting assembly 32, so that the cooling medium flows through the cooling channel 5 to absorb heat of the heat conducting assembly 32, and is finally discharged to the outside from the air outlet 4 through the air outlet channel. The cooling channel 5 is adopted to dissipate heat of the two heat sources of the lamp tube assembly 21 and the refrigerating piece 31, so that the occupied space is small while the heat dissipation effect is ensured, the skin tendering instrument is more reasonable in structure, and the cost is reduced; and the cooling medium absorbing the heat of the lamp tube assembly 21 and the heat conducting assembly 32 is directly discharged to the outside through the air outlet 4, so that the heat is not brought to the lamp tube assembly 21 or other electrical components in the skin tendering instrument, and the head cooling efficiency of the skin tendering instrument can be effectively improved.

In one embodiment, the air inlet is a through hole and/or a ventilation grid, and when the air inlet is a through hole, the through hole can be multiple.

The air outlet 4 is a through hole and/or a ventilation grating, and when the air outlet 4 is a through hole, the through hole can be a plurality of.

In one embodiment, the cooling medium may be air, and the cooling driving member 33 may be a fan, for example, the cooling driving member 33 is an axial fan, a centrifugal fan or a mixed flow fan, preferably, the cooling driving member 33 is an axial fan, and when the axial fan operates, the blades push the air to flow in the same direction as the shaft.

The cooling medium can also be other cooling media, such as water or cooling liquid, and is extracted and conveyed by a water pump and a water pipe.

As shown in fig. 5, 7 and 8, the skin rejuvenation apparatus further includes a mounting bracket 6, the heat conducting assembly 32 is disposed on the mounting bracket 6, the heat conducting assembly 32 includes a base plate 321, a heat conducting plate 322 and a heat sink assembly 323, the base plate 321 is disposed on the mounting bracket 6, the heat conducting plate 322 is disposed on the base plate 321, and the heat sink assembly 323 is disposed on the heat conducting plate 322. The heat conductive plate absorbs heat from the refrigerant and rapidly transfers the heat to the heat sink assembly 323 to dissipate the heat using the heat sink assembly 323.

The heat conducting plate 322 is one of a VC soaking plate, a graphene heat dissipation film, a heat dissipation metal piece, and a heat pipe.

In one embodiment, the thermally conductive plate 322 is a VC thermal soak plate. The VC soaking plate has a better stabilizing effect than a heat pipe or a metal substrate radiator, and can ensure that the surface temperature is more uniform. Secondly, the VC soaking plate is used, so that a heat source can be directly contacted with the VC soaking plate, and the thermal resistance is reduced.

The heat sink assembly 323 includes a plurality of heat sinks 3232 disposed side by side and attached to the heat conductive plate 322. Alternatively, the heat sink 3232 may be a cast iron heat sink, a steel heat sink, or an aluminum alloy heat sink. It will be appreciated that the heat sink 3232 dissipates heat by convection, and thus the larger the footprint, the better the dissipation. The plurality of heat radiating fins 3232 completely covers the second driving port 332 of the cooling driver 33.

Optionally, the heat sink 3232 and the heat conducting plate 322 in the heat sink assembly 323 are integrally formed, and the heat sink assembly 323 and the heat conducting plate 322 are connected together, so that, under the action of heat transfer, the heat from the heat sink 3232 and the heat conducting plate 322 is quickly dissipated along with the external cooling medium absorbed into the skin rejuvenation apparatus by the cooling driving element 33, thereby quickly cooling the skin.

The heat sink assembly 323 faces one end of the lamp tube assembly 21 and is provided with a mounting groove 3231, with reference to fig. 9 and 10, the lamp tube assembly 21 includes a lamp tube support 211, a lamp tube 212 and a reflective cup 213, the housing 1 is provided with a light outlet through which light emitted by the lamp tube 212 passes, the cold compress portion 22 is disposed at the light outlet, the lamp tube support 211 is disposed on the heat conducting plate 322, the reflective cup 213 is disposed on the lamp tube support 211, the inner wall of the reflective portion can be plated with a reflective film, the lamp tube 212 is disposed in the reflective cup 213, and the reflective cup 213 and the lamp tube 212 are both disposed in the mounting groove 3231.

In one embodiment, the cold compress portion 22 is a light-transmitting crystal, and the light-transmitting crystal is exposed from the head of the housing 1 and is in actual contact with the skin of the human body, so that a user can simultaneously feel the cold compress effect of the cold compress during the skin care process by using the skin tendering device, and the strong pain caused by the heat generated when the lamp tube assembly 21 works is reduced. The light-transmitting crystal can be sapphire, K9 glass and crystal glass, and only the material of the light-transmitting crystal needs to be satisfied, and the light-transmitting crystal is selectable, has strong low-temperature heat conductivity and good light transmission, has strong heat conductivity, and keeps the light transmittance of light at the same time of reducing the heat of light emitted by the skin tendering instrument emitter.

The refrigerating element 31 comprises a refrigerating surface which can be cooled with respect to the ambient temperature and a heat-dissipating surface which can be heated with respect to the ambient temperature; the refrigeration piece 31 is arranged on one side of the light-transmitting crystal, the refrigeration surface is contacted with the light-transmitting crystal, and the heat dissipation surface is contacted with the heat conduction plate 322.

Optionally, the refrigerating member 31 may be a semiconductor refrigerating plate, and the semiconductor refrigerating plate can effectively improve the cooling effect on the transparent crystal. It can be understood that, the cold compress area of the transparent crystal is in contact with the skin of the user, the lamp tube 212 emits light to the transparent crystal, the light can be emitted out of the transparent crystal to irradiate the skin of the human body, the transparent crystal is refrigerated through the refrigerating piece 31, the transparent crystal can be rapidly cooled to reduce the burning sensation caused by the light, and the comfort is ensured.

It should be noted that, when the temperature difference between the cooling surface and the heat dissipating surface of the semiconductor cooling plate reaches a certain value, a balance point is reached, and at this time, the temperature of the cooling surface and the temperature of the heat dissipating surface do not change continuously, and active heat dissipation needs to be performed on the heat dissipating surface in order to make the cooling surface reach a lower temperature. Therefore, the heat-conducting plate 322 is adopted in the present embodiment to dissipate heat from the heat-dissipating surface, so that the temperature of the refrigerating surface can be correspondingly lowered to reach a lower temperature.

As shown in fig. 7, 9 and 10, the heat conducting assembly 32 further includes a heat conducting member 324, the heat conducting member 324 is disposed between the lamp tube support 211 and the heat sink assembly 323, one end of the heat conducting member 324 is attached to the heat sink assembly 323, and the other end is attached to the reflective cup 213.

In one embodiment, the heat conducting member 324 is made of a heat conducting insulating material, preferably, the heat conducting member 324 is made of heat conducting silica gel or aluminum nitride, the heat conducting member 324 may also be made of other heat conducting insulating materials, the heat conducting member 324 can conduct heat on the reflector cup 213 when the lamp tube assembly 21 operates to the heat sink member 323, the heat sink member dissipates heat from the reflector cup, and the cooling driving member 33 blows a cooling medium to the heat conducting member 32, so as to take away heat from the two heat sources of the refrigeration member 31 and the lamp tube assembly 21.

As shown in fig. 8, in one embodiment, the end of the heat sink 3232 facing the lamp tube assembly 21 is provided with an arc-shaped groove 3233, and the arc-shaped grooves 3233 of the plurality of heat sinks 3232 form the mounting groove 3231.

As shown in fig. 8 and 12, in one embodiment, the lamp bracket 211 is provided with an arc-shaped mounting portion 2111 located in the mounting groove 3231, a mounting cavity is provided in the arc-shaped mounting portion 2111, and the reflective cup 213 is mounted in the mounting cavity.

As shown in fig. 11 to 13, in an embodiment, the arc-shaped mounting portion 2111 is provided with a through slot 2112, the heat conducting member 324 includes a mounting portion 3241 and an arc-shaped heat conducting portion 3242 connected to the mounting portion 3241, the mounting portion 3241 is provided with a mounting hole 3243, the mounting portion 3241 is mounted on the lamp tube support 211 through the mounting hole 3243, one end of the arc-shaped heat conducting portion 3242 facing the reflector cup 213 is provided with a protruding portion 3244, and the protruding portion 3244 extends into the through slot 2112 and is attached to the reflector cup 213.

As shown in fig. 14 and 15, the skin rejuvenation apparatus further includes an optical filter assembly 7, the optical filter assembly 7 includes an optical filter support 71 and an optical filter 72, with reference to fig. 3, the optical filter support 71 is provided with an insertion slot 73, the optical filter 72 is installed in the insertion slot 73 and located between the lamp 212 and the cold compress portion 22, and the optical filter 72 prevents heat of the lamp 212 from being transferred to the cold compress portion.

The optical filter 72 is provided with a sensor or a sensor, and the slot 73 is internally provided with a sensor or a sensor.

In one embodiment, a sensor is disposed on the optical filter 72, a sensing element is disposed in the slot 73, or a sensing element is disposed on the optical filter 72, and a sensor is disposed in the slot 73, so that whether the optical filter 72 is mounted in the slot 73 is obtained through sensing of the sensor and the sensing element, and the operation of the lamp assembly 21 is conveniently controlled, and when the optical filter 72 is not mounted in the slot 73, the lamp assembly 21 does not operate; in addition, different optical filters 72 can be identified through the induction of the inductor and the induction piece, so that the replacement of different optical filters 72 is facilitated, and the light source can adapt to light sources in different wavelength ranges.

Preferably, the sensor is a hall sensor, the sensing member is a sensing magnet, and whether the optical filter 72 is installed in the slot 73 or not can be timely acquired through sensing between the hall sensor and the sensing magnet, so that the work of the lamp tube assembly 21 is conveniently controlled, and when the optical filter 72 is not installed in the slot 73, the lamp tube assembly 21 does not work; when different filters 72 are mounted, the hall sensor senses the induction magnet, and different filters 72 are automatically identified according to different positions of the induction magnet.

In one embodiment, the slot of the slot 73 is provided with a seal 74. The sealing element 74 is arranged to seal the notch of the slot 73, so that foreign matters are prevented from entering the interior of the skin tendering instrument.

Preferably, the sealing member 74 is silica gel or bristles, the notches of the insertion slots 73 for inserting the optical filters 72 are provided with silica gel or bristles, and in the process of inserting and pulling the optical filters 72, the notches of the insertion slots 73 shield external foreign matters through the silica gel or the bristles, so that the foreign matters are prevented from entering the interior of the skin tendering instrument.

As shown in fig. 2 and fig. 3, the skin rejuvenation device further comprises a control assembly 8, a power supply assembly 9 and a sensing module, the control assembly 8, the power supply assembly 9 and the sensing module are arranged in the casing 1, the lamp tube assembly 21 is electrically connected with the control assembly 8 and the power supply assembly 9, the sensing module is electrically connected with the control assembly 8, the sensing module is used for sensing whether the position of the transparent crystal is close to the skin or not, the control assembly 8 is used for controlling the opening and closing of the lamp tube assembly 21, the control assembly 8 is a control circuit board, and when the transparent crystal is contacted with the skin, the sensing module senses whether the transparent crystal is actually contacted with the skin or not, so that the safety problem caused by misoperation of a user can be reduced, and the working efficiency of the skin rejuvenation device is improved.

Optionally, the power supply 9 may be a rechargeable battery or a rechargeable capacitor, and the skin rejuvenation device further includes a power line and/or a charging interface for connecting with an external power source.

The embodiment of the utility model provides a tender skin appearance, light pipe subassembly 21 sends light and realizes the in-process to skin nursing, the cold compress district and the contact of user's skin that utilize cold compress portion 22, fluorescent tube 212 sends light to cold compress portion 22, make cold compress portion 22 can emergent light shine to human skin, refrigerate cold compress portion 22 through refrigeration piece 31, so as to provide the ice sense of cold compress portion 22 and human contact site, make cold compress portion 22 can cool down in order to reduce the burning sense that light brought fast, the travelling comfort has been guaranteed, refrigeration piece 31 refrigerates cold compress portion 22, the refrigeration face and the contact of cold compress portion 22 of refrigeration piece 31, the cooling surface and the heat-conducting plate 322 contact of refrigeration piece 31, heat-conducting plate 322 dispels the heat to refrigeration piece 31, in order to avoid cold compress portion 22 high temperature; the reflecting cup 213 of the lamp assembly 21 is connected with the heat sink assembly 323 through the heat conducting member 324, heat generated by the lamp assembly 21 during operation can be transferred to the heat sink assembly 323, and the heat sink assembly 323 dissipates heat of the lamp assembly 21, so as to avoid over-high temperature of the lamp assembly 21; under the driving of the cooling driving member 33, an external cooling medium enters the air inlet channel from the air inlet, enters the first driving port 331 of the cooling driving member 33, is blown out from the second driving port 332 of the cooling driving member 33, and is blown to the heat conducting assembly 32, and absorbs heat and dissipates heat for the lamp tube assembly 21 and the refrigeration piece 31 through the heat conducting assembly 32, so that the cooling medium flows through the cooling channel 5 to absorb heat of the heat conducting assembly 32, and is finally discharged to the outside from the air outlet 4 through the air outlet channel; adopt a cooling channel 5 to dispel the heat to two heat sources of lamp tube subassembly 21 and refrigeration piece 31, when guaranteeing the radiating effect, occupation space is little for tender skin appearance structure is more reasonable, the cost is reduced.

It is to be understood that the above-described embodiments are only some of the embodiments of the present invention, and not all of the embodiments, and the preferred embodiments of the present invention are shown in the drawings, but not limited to the scope of the present invention. The present invention may be embodied in many different forms and, on the contrary, these embodiments are provided so that this disclosure will be thorough and complete. While the invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. All utilize the equivalent structure that the content of the utility model discloses a specification and attached drawing was done, direct or indirect application is in other relevant technical field, all is in the same way the utility model discloses within the patent protection scope.

Claims

1. A skin rejuvenation apparatus, the skin rejuvenation apparatus comprising:

2. The skin rejuvenation apparatus as defined in claim 1,

the cooling driving part is provided with a first driving port and a second driving port, the first driving port is arranged at one end, away from the lamp tube assembly, of the cooling driving part, the first driving port is used for inputting cooling media, the second driving port is arranged at one end, close to the lamp tube assembly, of the cooling driving part, the second driving port is used for outputting the cooling media, and the arranging direction of the first driving port is the same as that of the second driving port.

3. The skin rejuvenation apparatus as defined in claim 2,

the cooling channel comprises an air inlet channel and an air outlet channel, the air inlet channel is communicated with the first driving port and the air inlet, the air outlet channel is communicated with the second driving port and the air outlet, the air outlet is formed in the side, close to the heat-conducting component, of the shell, and the air outlet is perpendicular to the second driving port in the opening direction.

4. The skin rejuvenation apparatus as defined in claim 1,

the skin tendering instrument further comprises a mounting bracket, the heat conduction assembly is arranged on the mounting bracket, the heat conduction assembly comprises a base plate, a heat conduction plate and a heat dissipation piece assembly, the base plate is arranged on the mounting bracket, the heat conduction plate is arranged on the base plate, and the heat dissipation piece assembly is arranged on the heat conduction plate.

5. The skin rejuvenation apparatus as defined in claim 4,

the heat-conducting plate is the VC soaking pit, the fin subassembly includes a plurality of fin that set up side by side and laminate the heat-conducting plate.

6. The skin rejuvenation apparatus as defined in claim 5,

the lamp tube component comprises a lamp tube support, a lamp tube and a reflecting cup, a light outlet is formed in the shell, light emitted by the lamp tube passes through the light outlet, the cold compressing portion is arranged at the light outlet, the cold compressing portion is a light-transmitting crystal, the lamp tube support is arranged on the heat conducting plate, the reflecting cup is arranged on the lamp tube support, the lamp tube is arranged in the reflecting cup, and the reflecting cup and the lamp tube are located in the mounting groove.

7. The skin rejuvenation apparatus as defined in claim 6,

the heat conducting component also comprises a heat conducting piece, the heat conducting piece is arranged between the lamp tube bracket and the radiating fin component, one end of the heat conducting piece is attached to the radiating fin component, and the other end of the heat conducting piece is attached to the reflecting cup; the heat conducting piece is made of heat conducting and insulating materials.

8. The skin rejuvenation apparatus as defined in claim 7,

one end of each radiating fin, which faces the lamp tube assembly, is provided with an arc-shaped groove, and the arc-shaped grooves of the plurality of radiating fins form the mounting grooves;

9. The skin rejuvenation apparatus as defined in claim 7,

the skin tendering instrument further comprises an optical filter component, the optical filter component comprises an optical filter support and an optical filter, an inserting slot is formed in the optical filter support, and the optical filter is installed in the inserting slot and located between the lamp tube and the cold compress portion;

and a sealing piece is arranged on the notch of the slot.

10. The skin rejuvenation apparatus as defined in claim 9,

the sensor is a Hall sensor, and the sensing piece is a sensing magnet;

the sealing element is silica gel or brush hair;