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CN-224220228-U - Skin care equipment

CN224220228UCN 224220228 UCN224220228 UCN 224220228UCN-224220228-U

Abstract

The application discloses skin care equipment which comprises a shell, a light emitting assembly, a light filtering assembly and a driving mechanism, wherein the shell is provided with a light emitting hole, the light emitting assembly is used for generating light rays emitted from the light emitting hole to skin to be treated, the light filtering assembly comprises a first sub-filter and a second sub-filter, the first sub-filter and the second sub-filter are movably arranged in the shell and are provided with a light filtering position and an avoidance position, the first sub-filter and the second sub-filter are used for filtering out the light rays of the light emitting assembly at the light filtering position and are used for avoiding the light rays of the light emitting assembly at the avoidance position, and the driving mechanism is used for moving the first sub-filter and the second sub-filter from the light filtering position to the avoidance position. The skin care device of the present application has the advantage of facilitating a miniaturized design.

Inventors

  • TAN LIJUN
  • ZHAI JIANZHENG

Assignees

  • 深圳由莱智能电子有限公司

Dates

Publication Date
20260512
Application Date
20250526

Claims (10)

  1. 1. A skin care device, comprising: The shell is provided with a light outlet; The light emitting assembly is arranged in the shell and is used for generating light rays emitted from the light emitting hole to the skin to be treated; The optical filtering assembly comprises a first optical filter, the first optical filter comprises a first sub-optical filter and a second sub-optical filter, the first sub-optical filter and the second sub-optical filter are movably arranged in the shell and provided with an optical filtering position and an avoidance position, the first sub-optical filter and the second sub-optical filter are used for combining at the optical filtering position to form the first optical filter so as to be used for filtering light rays emitted by the light emitting assembly towards the light emitting hole, the first sub-optical filter and the second sub-optical filter are used for avoiding light rays emitted by the light emitting assembly towards the light emitting hole at the avoidance position, The driving mechanism comprises a driving part and a transmission part, wherein the driving part is movably arranged on the shell, the driving part is connected with the first sub-optical filter to drive the first sub-optical filter to move, one end of the transmission part is movably connected with the driving part, the other end of the transmission part is movably connected with the second sub-optical filter, the driving part is used for driving the second sub-optical filter to move through the transmission part, and the driving part drives the first sub-optical filter and the second sub-optical filter to move in a direction away from each other when moving in a first direction so as to enable the first sub-optical filter and the second sub-optical filter to move from the optical filtering position to the avoiding position.
  2. 2. The skin care device according to claim 1, wherein the first partial filter and the second partial filter are respectively movably provided in the housing, and the driving portion drives the first partial filter and the second partial filter to move in a direction away from each other when moving in the first direction, so that the first partial filter and the second partial filter move from the filtering position to the avoidance position.
  3. 3. The skin care apparatus of claim 2, wherein the drive portion is movably mounted to the housing; The driving part is provided with a force application part which is exposed outside the shell and used for driving the driving part to move through the force application part, or the driving mechanism also comprises a driving piece which is used for driving the driving part to move, and/or, The driving part is fixedly connected with the first sub-optical filter to drive the first sub-optical filter to move along with the driving part, and/or, The transmission part is rotatably arranged in the shell, one end of the transmission part is rotatably and slidably connected with the driving part through a first chute, the other end of the transmission part is rotatably and slidably connected with the second sub-filter through a second chute, the driving part is used for driving the second sub-filter to move by driving the transmission part to rotate, and/or, The shell is internally provided with a first guide groove, the first sub-filter is slidably arranged in the first guide groove so as to enable the first sub-filter to move between the corresponding filtering position and the avoiding position, and/or, The shell is internally provided with a second guide groove, and the second dichroic filter is slidably arranged in the second guide groove, so that the second dichroic filter moves between the corresponding filtering position and the avoiding position.
  4. 4. A skin care device as claimed in claim 3, characterized in that the transmission member comprises a first segment and a second segment which are connected, the transmission member being rotatably mounted in the housing at the connection of the first segment and the second segment, and/or, The first section is provided with the first chute, the first chute extends along the length direction of the first section, the driving part is provided with a first sliding convex part, the first sliding convex part is rotatably and slidably arranged in the first chute, so that one end of the transmission part is rotatably and slidably connected with the driving part through the first chute, and/or, The second section is provided with a second chute, the second chute extends along the length direction of the second section, the optical filtering assembly further comprises a second supporting piece for supporting the second optical dividing piece, the second optical dividing piece is arranged on the second supporting piece, the second supporting piece is provided with a second sliding convex part, the second sliding convex part is rotatably and slidably arranged in the second chute, so that the other end of the transmission piece is rotatably and slidably connected with the second optical dividing piece through the second chute, and/or, The skin care device also comprises a cold compress component and a heat dissipation component, wherein the cold compress component comprises a refrigerating piece and a light transmission piece, the light transmission piece is arranged in the light outlet hole, the refrigerating surface of the refrigerating piece is in heat conduction connection with the light transmission piece, the heat dissipation component comprises a heat conduction piece and a heat dissipation sheet component, the heat dissipation component is connected with the heat conduction piece, one end of the heat conduction piece is in heat conduction connection with the heat dissipation surface of the refrigerating piece, the heat conduction piece is arranged on one side of the light transmission piece and the light outlet component, the heat conduction piece is a temperature equalization plate, the temperature equalization plate is provided with a second avoidance hole, the second bisection filter is movably arranged in the second avoidance hole, and/or, The driving part comprises a driving plate and a poking plate, the driving plate is slidably arranged in the shell, a poking opening is formed in the shell, the poking plate is connected to one side of the driving plate, the free end of the poking plate forms the force application part, and the force application part is movably arranged in the poking opening.
  5. 5. The skin care device as claimed in claim 4, characterized in that the end of the first section remote from the second section is arranged obliquely in the direction of the first partial filter and/or the end of the second section remote from the first section is arranged obliquely in the direction of the first partial filter, The filter assembly further comprises a first support member for supporting the first sub-filter, the first sub-filter being mounted to the first support member, the first sub-filter being mounted to the driving portion via the first support member, and/or, The optical filtering component comprises a first supporting piece which is respectively connected and fixed with the driving part and the first sub-optical filter, one end of the second section far away from the first section is obliquely arranged towards the direction of the first supporting piece, and/or, The light emitting component comprises a shell, a driving part, a first guide groove, a second guide groove, a first avoidance hole and a second avoidance hole, wherein the shell is internally provided with a mounting bracket for mounting the light transmitting part and the light emitting component, the driving part is slidably mounted on the mounting bracket and/or the inner wall of the shell, and/or the driving part is rotatably mounted on the mounting bracket and/or the inner wall of the shell, and/or the first guide groove is arranged on the mounting bracket and/or the inner wall of the shell, and/or the second guide groove is arranged on the mounting bracket and/or the inner wall of the shell, and/or the mounting bracket is provided with the first avoidance hole, and the first branch filter is movably arranged in the first avoidance hole, or The second avoidance hole is used for forming the second guide groove.
  6. 6. The skin care device of claim 1, wherein the first and second partial filters are rotatably disposed within the housing, the driving portion driving the first and second partial filters to rotate in a direction away from each other when moving in a first direction to move the first and second partial filters from the filtering position to the avoidance position, wherein, The driving part is movably arranged in the shell, the driving part is movably connected with the first sub-filter to drive the first sub-filter to rotate, the transmission part comprises a steering gear and a transmission part, the driving part is in meshed connection with the steering gear, one end of the transmission part is in meshed connection with the steering gear, the other end of the transmission part is movably connected with the second sub-filter to drive the second sub-filter to rotate, or the driving part is rotatably arranged in the shell, the driving part is fixedly connected with the first sub-filter to drive the first sub-filter to rotate, one end of the transmission part is movably connected with the driving part, the other end of the transmission part is movably connected with the second sub-filter, the driving part is used for driving the second sub-filter to rotate through the transmission part, and/or, The light emitting component comprises a lamp tube parallel to the rotation axis of the first sub-filter, or The light emitting component comprises a lamp tube parallel to the rotation axis of the second dichroic filter, or The light emitting assembly comprises a light reflecting cup and a light tube, wherein the light tube is at least partially arranged in the light reflecting cup, and when the first sub-filter and the second sub-filter are positioned at the avoiding position, at least one part of the first sub-filter and the second sub-filter is positioned in the light reflecting cup, or The filter assembly comprises a first rotating shaft and a second elastic piece, wherein the first rotating shaft is floatingly arranged in the shell through the second elastic piece, and the first sub-filter is rotatably arranged in the shell through the first rotating shaft so that the first sub-filter can elastically move relative to the shell, or The optical filtering assembly comprises a second rotating shaft and a third elastic piece, the second rotating shaft is arranged in the shell in a floating mode through the third elastic piece, and the second sub-optical filter is arranged in the shell in a rotating mode through the second rotating shaft, so that the second sub-optical filter can elastically move relative to the shell.
  7. 7. The skin care device according to any one of claims 1 to 6, wherein the driving portion is configured to drive the first sub-filter and the second sub-filter to move toward each other when moved in a second direction, so that the first sub-filter and the second sub-filter are moved to the filtering position, the first direction being opposite to the second direction, and/or, The driving mechanism is used for driving the first sub-filter and the second sub-filter to synchronously move, and/or, The skin care device comprises a first elastic piece, wherein the first elastic piece is arranged in the shell and is used for driving the first sub-filter and the second sub-filter to move oppositely so as to enable the first sub-filter and the second sub-filter to move to the filtering position.
  8. 8. The skin care device of any one of claims 1 to 6, wherein the filter assembly further comprises a second filter between the first filter and the exit aperture for filtering light directed by the exit assembly towards the exit aperture, the second filter being spaced apart from a light transmissive element of the skin care device, the filter assembly further comprising a seal at least partially disposed between the light transmissive element and the second filter for sealing a space between the light transmissive element and the second filter, and/or, The peripheral side surface of one end of the shell comprises a first side surface, the first side surface is provided with a protruding part, the light emergent hole is arranged on the end surface of the protruding part, the first side surface is also provided with a poking opening, the poking opening is positioned on one side of the protruding part, the driving part is provided with a force application part, the force application part is movably arranged in the poking opening, and/or, The skin care device is a depilatory instrument or a skin tenderer.
  9. 9. The skin care device according to claim 1 or 2, characterized in that the drive part has a force application part which is exposed outside the housing for driving the drive part in motion by the force application part and/or, The driving mechanism further comprises a driving piece, wherein the driving piece is used for driving the driving part to move, and/or, The first and second sub-filters are disposed opposite to each other in a length direction or a width direction of the light-emitting hole, and/or, The filter assembly further comprises a first support piece used for supporting the first sub-filter, the first sub-filter is installed on the first support piece and connected with the driving part through the first support piece, the filter assembly further comprises a second support piece used for supporting the second sub-filter, the second sub-filter is installed on the second support piece and movably connected with the transmission piece through the second support piece, a mounting bracket used for mounting the light emitting assembly is arranged in the shell, the first support piece is slidably installed on the mounting bracket and/or the inner wall of the shell along a first direction so that the first sub-filter can be movably arranged in the shell, the second support piece is slidably installed on the mounting bracket and/or the inner wall of the shell along the first direction so that the second sub-filter can be movably arranged in the shell, and/or the filter assembly comprises a plurality of light emitting assemblies, When the first sub-filter and the second sub-filter move to the filtering position, the first sub-filter and the second sub-filter are arranged in a coplanar manner or in an included angle manner, and/or, The optical filtering assembly comprises a first bracket and a fourth elastic piece, wherein the first sub-optical filter is arranged on the first bracket in a floating way through the fourth elastic piece, when the first sub-optical filter and the second sub-optical filter move to the optical filtering position, the first sub-optical filter can be pushed by the second sub-optical filter to compress the fourth elastic piece, and/or, The optical filtering assembly comprises a second bracket and a fifth elastic piece, the second sub-optical filter is arranged on the second bracket in a floating mode through the fifth elastic piece, and when the first sub-optical filter and the second sub-optical filter move to the optical filtering position, the second sub-optical filter can be pushed by the first sub-optical filter to compress the fifth elastic piece.
  10. 10. A skin care device, comprising: The shell is provided with a light outlet; The light emitting assembly is arranged in the shell and is used for generating light rays emitted from the light emitting hole to the skin to be treated; The light filtering assembly comprises a first light filter, a first sub-light filter and a second sub-light filter, wherein the first light filter comprises a first light-dividing filter and a second light-dividing filter, the first light-dividing filter and the second light-dividing filter are movably arranged in the shell and are provided with a light filtering position and an avoidance position, the first light-dividing filter and the second light-dividing filter are used for combining at the light filtering position to form the first light filter so as to be used for filtering light rays emitted by the light-emitting assembly to the light-emitting hole, the first light-dividing filter and the second light-dividing filter are used for avoiding at the avoidance position the light rays emitted by the light-emitting assembly to the light-emitting hole, and the light filtering assembly further comprises a second light filter, and when the first light-dividing filter and the second light-dividing filter are located at the light filtering position, the second light filter is located between the first light filter and the light-emitting hole so as to be used for filtering the light rays emitted by the light-emitting assembly to the light-emitting hole; the driving mechanism is at least partially arranged in the shell and is used for driving the first sub-filter and the second sub-filter to move oppositely so as to enable the first sub-filter and the second sub-filter to move to the avoiding position, The cooling device comprises a cooling component and a heat dissipation component, wherein the cooling component comprises a cooling part and a light transmission part arranged in a light outlet hole, the cooling surface of the cooling part is in heat conduction connection with the light transmission part, the heat dissipation component comprises a heat conduction part and a heat dissipation sheet component connected to the heat conduction part, one end of the heat conduction part is in heat conduction connection with the heat dissipation surface of the cooling part, a second optical filter is arranged at intervals with the light transmission part, the light filtering component further comprises a sealing part, at least part of the sealing part is arranged between the light transmission part and the second optical filter so as to seal a space between the light transmission part and the second optical filter, and/or the heat conduction part is arranged on one side of the light outlet component, the heat conduction part is a temperature equalizing plate, the temperature equalizing plate is provided with a second avoiding hole, and the first optical filter is movably arranged in the second avoiding hole; Wherein: The shell is internally provided with a bracket for installing the light emitting component, the bracket is provided with a first avoidance hole, the first sub-optical filter is movably arranged in the first avoidance hole, and/or, The skin care device is a depilatory or skin rejuvenation device, and/or, The driving mechanism comprises a connecting rod driving mechanism, a gear driving mechanism, a belt wheel driving mechanism, a chain wheel driving mechanism, a hydraulic driving mechanism and a pneumatic driving mechanism, wherein the connecting rod driving mechanism is used for driving the first sub-optical filter and the second sub-optical filter to move oppositely to the optical filtering position and the avoiding position, the gear driving mechanism comprises a first rack, a second rack and a driving gear, the first rack and the second rack are meshed with opposite sides in the circumferential direction of the driving gear, the first rack is connected with the first sub-optical filter, the second rack is connected with the second sub-optical filter, the gear is used for driving the first rack and the second rack to move in opposite directions so as to enable the first sub-optical filter and the second sub-optical filter to move to the optical filtering position and the avoiding position, the belt driving mechanism comprises a first belt wheel, a second belt wheel and a synchronous belt, the first belt wheel and the second belt wheel are arranged at intervals, the first belt wheel is meshed with the opposite sides in the circumferential direction of the driving gear, the first belt wheel is connected with the first belt wheel and the second belt, the first belt wheel is connected with the first belt and the second belt wheel and the second belt is connected with the optical filter in opposite directions, the optical filter is driven by the first belt and the optical filter is connected with the optical filter, the first sub-filter and the second sub-filter are respectively connected to different sides of the transmission chain in the circumferential direction, the transmission chain is used for driving the first sub-filter and the second sub-filter to move in opposite directions so that the first sub-filter and the second sub-filter move to the filtering position and the avoiding position, the hydraulic transmission mechanism is used for driving the first sub-filter and the second sub-filter to move to the filtering position and the avoiding position, and the pneumatic transmission mechanism is used for driving the first sub-filter and the second sub-filter to move to the filtering position and the avoiding position.

Description

Skin care equipment Technical Field The application relates to the technical field of skin care, in particular to skin care equipment. Background Depilatory devices, skin tendering devices, etc. are skin care devices commonly used in people's lives. These skin care devices irradiate the user's skin mainly by light of a specific wavelength, thereby having effects of depilating, photonics, rejuvenation, etc. on the user's skin. Skin care devices are also typically provided with filters for filtering light generated by the light source to obtain light of a specific wavelength. In the related art, in order to meet various skin care requirements of users, the optical filter is movably disposed in the skin care device, so that whether the optical filter filters light generated by the light source can be controlled by moving the optical filter. However, a large space is reserved in the skin care device for the optical filter to move, which is not beneficial to the miniaturized design of the dehairing instrument. Disclosure of utility model Embodiments of the present application provide a skin care device to facilitate a miniaturized design of the skin care device. In a first aspect, embodiments of the present application provide a skin care device comprising: The shell is provided with a light outlet; The light emitting assembly is arranged in the shell and is used for generating light rays emitted from the light emitting hole to the skin to be treated; The optical filtering assembly comprises a first optical filter, the first optical filter comprises a first sub-optical filter and a second sub-optical filter, the first sub-optical filter and the second sub-optical filter are movably arranged in the shell and provided with an optical filtering position and an avoidance position, the first sub-optical filter and the second sub-optical filter are used for combining at the optical filtering position to form the first optical filter so as to be used for filtering light rays emitted by the light emitting assembly towards the light emitting hole, the first sub-optical filter and the second sub-optical filter are used for avoiding light rays emitted by the light emitting assembly towards the light emitting hole at the avoidance position, The driving mechanism comprises a driving part and a transmission part, wherein the driving part is movably arranged on the shell, the driving part is connected with the first sub-optical filter to drive the first sub-optical filter to move, one end of the transmission part is movably connected with the driving part, the other end of the transmission part is movably connected with the second sub-optical filter, the driving part is used for driving the second sub-optical filter to move through the transmission part, and the driving part drives the first sub-optical filter and the second sub-optical filter to move in a direction away from each other when moving in a first direction so as to enable the first sub-optical filter and the second sub-optical filter to move from the optical filtering position to the avoiding position. In some embodiments, the first sub-filter and the second sub-filter are respectively movably disposed in the housing, and the driving part drives the first sub-filter and the second sub-filter to move in a direction away from each other when moving in the first direction, so that the first sub-filter and the second sub-filter move from the filtering position to the avoiding position. In some embodiments, the drive portion is movably mounted to the housing. In some embodiments, the driving part has a force application part exposed outside the housing for driving the driving part to move by the force application part, or the driving mechanism further comprises a driving piece for driving the driving part to move. In some embodiments, the driving part is fixedly connected with the first sub-filter to drive the first sub-filter to move along with the driving part. In some embodiments, the transmission member is rotatably mounted in the housing, one end of the transmission member is rotatably slidingly connected with the driving part through a first chute, the other end of the transmission member is rotatably slidingly connected with the second dichroic filter through a second chute, and the driving part is used for driving the second dichroic filter to move by driving the transmission member to rotate. In some embodiments, a first guide groove is formed in the housing, and the first sub-filter is slidably disposed in the first guide groove, so that the first sub-filter moves between the filtering position and the avoiding position corresponding to the first sub-filter. In some embodiments, a second guide groove is formed in the housing, and the second dichroic filter is slidably disposed in the second guide groove, so that the second dichroic filter moves between the filtering position and the avoiding position corresponding to the second dichroic filter. In some embodi