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CN-224219674-U - Mirror body and cosmetic mirror

CN224219674UCN 224219674 UCN224219674 UCN 224219674UCN-224219674-U

Abstract

The embodiment of the utility model discloses a mirror body and a cosmetic mirror, wherein the mirror body comprises a shell, a lens, an outer light guide piece and an action detection module, wherein the lens and the outer light guide piece are arranged on the front side surface of the shell, the outer light guide piece is arranged on the periphery of the lens, the action detection module is arranged in the shell, corresponds to the outer light guide piece and is arranged avoiding the lens, so that signals of the action detection module can be transmitted through the outer light guide piece. The lens body of the utility model ensures the integrity and the aesthetic property of the lens while realizing the efficient and sensitive work of the motion detection module.

Inventors

  • YE HONGXIN
  • LIU JIANRONG
  • LIU BIXIA

Assignees

  • 深圳术叶创新科技有限公司

Dates

Publication Date
20260512
Application Date
20241230

Claims (10)

  1. 1. A mirror body is characterized by comprising a shell, a lens, an outer light guide piece and an action detection module, wherein, The lens and the outer light guide piece are arranged on the front side surface of the shell; The outer light guide piece is arranged on the periphery of the lens; The action detection module is arranged in the shell, corresponds to the outer light guide piece and avoids the lens, so that signals of the action detection module can be transmitted through the outer light guide piece.
  2. 2. The mirror of claim 1, further comprising an inner light guide mounted within the housing, the inner light guide disposed corresponding to the light emitting side of the light strip; The inner light guide piece is positioned between the outer light guide piece and the action detection module, and the wall surface of the inner light guide piece corresponding to the action detection module is coated with light guide paint.
  3. 3. The mirror according to claim 1, wherein the housing includes a bottom plate and a mounting ring protruding from an inner wall surface of the bottom plate, and the motion detection module is mounted to the inner wall surface of the bottom plate and located on an outer peripheral side of the mounting ring; The lens body further comprises a control board and a lamp belt, wherein the control board is connected to the bottom plate and is positioned on the inner peripheral side of the mounting ring, and the lamp belt is mounted on the mounting ring; The mounting ring is provided with a first wire passing groove, the first wire passing groove is arranged corresponding to the action detection module, and a wire of the action detection module penetrates through the first wire passing groove to be connected with the control board.
  4. 4. A mirror according to claim 3, wherein the light strip is spaced from the base plate to form a wire passing space through which the wires pass.
  5. 5. A mirror body according to claim 3, wherein a wire harness structure is protruding from an inner wall surface of the bottom plate corresponding to the first wire passing groove, the wire harness structure is located on an inner side of the mounting ring, and wires of the motion detection module sequentially penetrate through the first wire passing groove and the wire harness structure to be connected with the control board.
  6. 6. The lens body of claim 5, wherein the inner wall surface of the bottom plate is further provided with a supporting ring in a protruding manner, and the lens is lapped on the supporting ring; the control board is located the inboard of holding ring, the wire harness structure is located the collar with between the holding ring, the holding ring corresponds the wire harness structure has seted up the confession the wire harness structure wears to establish the second and crosses the wire casing.
  7. 7. A lens body according to claim 3, wherein the motion detection module includes a connection terminal, and the connection terminal and the bottom plate are disposed at intervals along a thickness direction of the lens to form a component mounting position for accommodating components connected to the connection terminal.
  8. 8. A mirror body according to claim 3, wherein a limit structure is convexly arranged on an inner wall surface of the bottom plate, the limit structure comprises a first limit block and two second limit blocks, the first limit block and the two second limit blocks are respectively positioned on two opposite sides of the motion detection module in the radial direction, and the first limit block is abutted against the side wall of the motion detection module; The two second limiting blocks are respectively positioned at two opposite sides of the motion detection module in the circumferential direction, and the motion detection module is embedded at the top of the second limiting blocks so as to limit the motion detection module in the circumferential direction and the radial direction.
  9. 9. A mirror according to any one of claims 1 to 8, wherein the motion detection module is a radar module.
  10. 10. A cosmetic mirror comprising a base and a mirror body according to any one of claims 1 to 9, said base being connected to said mirror body.

Description

Mirror body and cosmetic mirror Technical Field The application relates to the technical field of cosmetic mirrors, in particular to a mirror body and a cosmetic mirror. Background With the continuous improvement of life quality requirements of people, the cosmetic mirror gradually becomes one of the indispensable personal care tools in daily life. Cosmetic mirrors typically include a lens and a light strip that supplements light to enhance the visibility of the cosmetic mirror. In order to improve the interactivity between the cosmetic mirror and the user, an action detection module for detecting whether the user has micro-action is usually arranged in the cosmetic mirror, when the user does not have micro-action, the action detection module can automatically cut off a power supply, when the user has micro-action, the user is in front of the mirror, the action detection module wakes up to turn on a lamp, and therefore the purpose that the user does not need to manually switch on the lamp is achieved. However, the motion detection module is typically disposed on the inside of the lens, and since the lens is typically coated to enhance its scratch resistance and protection, the metal coating in the coating may weaken the signal detection performance of the motion detection module. Therefore, a notch is formed in the lens to avoid the influence of the coating on the action detection module, however, the integrity of the lens is affected by the arrangement, and the use experience of a user is reduced. The foregoing is merely provided to facilitate an understanding of the principles of the utility model and is not admitted to be prior art. Disclosure of utility model In view of the above problems, the present utility model provides a lens body, which aims to solve the technical problem that the conventional motion detection module cannot be provided with both high signal strength and lens integrity. In order to achieve the above object, the present utility model provides a lens body comprising a housing, a lens, an outer light guide member and an action detection module, wherein, The lens and the outer light guide piece are arranged on the front side surface of the shell; The outer light guide piece is arranged on the periphery of the lens; The action detection module is arranged in the shell, corresponds to the outer light guide piece and avoids the lens, so that signals of the action detection module can be transmitted through the outer light guide piece. In an embodiment, the mirror body further includes an inner light guide installed in the housing, and the inner light guide is disposed corresponding to the light emitting side of the light band; The inner light guide piece is positioned between the outer light guide piece and the action detection module, and the wall surface of the inner light guide piece corresponding to the action detection module is coated with light guide paint. In one embodiment, the housing comprises a bottom plate and a mounting ring protruding from the inner wall surface of the bottom plate, and the motion detection module is mounted on the inner wall surface of the bottom plate and located on the outer periphery side of the mounting ring; The lens body further comprises a control board and a lamp belt, wherein the control board is connected to the bottom plate and is positioned on the inner peripheral side of the mounting ring, and the lamp belt is mounted on the mounting ring; The mounting ring is provided with a first wire passing groove, the first wire passing groove is arranged corresponding to the action detection module, and a wire of the action detection module penetrates through the first wire passing groove to be connected with the control board. In an embodiment, the lamp strip is spaced from the base plate to form a wire passing space through which the wire passes. In an embodiment, the inner wall surface of the bottom plate is provided with a wire harness structure in a protruding manner corresponding to the first wire passing groove, the wire harness structure is located at the inner side of the mounting ring, and the wires of the motion detection module sequentially penetrate through the first wire passing groove and the wire harness structure to be connected with the control board. In an embodiment, the inner wall surface of the bottom plate is further provided with a supporting ring in a protruding mode, and the lens is lapped on the supporting ring; the control board is located the inboard of holding ring, the wire harness structure is located the collar with between the holding ring, the holding ring corresponds the wire harness structure has seted up the confession the wire harness structure wears to establish the second and crosses the wire casing. In an embodiment, the motion detection module includes a connection terminal, where the connection terminal and the bottom plate are disposed at intervals along a thickness direction of the lens, so as to form a compo