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CN-224228390-U - Locking mechanism and storage device

CN224228390UCN 224228390 UCN224228390 UCN 224228390UCN-224228390-U

Abstract

The application provides a locking mechanism and a storage device, and relates to the technical field of vehicle-mounted equipment. The locking mechanism comprises a mounting main body, a movable assembly and a driving mechanism, wherein the driving mechanism is arranged on the mounting main body, the movable assembly comprises a movable support and a sliding piece, the movable support is movably arranged on the mounting main body, the sliding piece is movably arranged on the movable support, the driving mechanism is connected with the sliding piece to drive the sliding piece to move, the sliding piece is used for driving the movable support to move in the moving process and locking the movable support on the mounting main body, and the locking mechanism can enable the storage device to be kept in a closed state stably.

Inventors

  • TANG YUCHENG

Assignees

  • 上海延锋金桥汽车饰件系统有限公司

Dates

Publication Date
20260512
Application Date
20250415

Claims (16)

  1. 1. The locking mechanism is characterized by comprising a mounting main body, a movable assembly (200) and a driving mechanism (300), wherein the driving mechanism (300) is arranged on the mounting main body, the movable assembly (200) comprises a movable support (210) and a sliding piece (220), the movable support (210) is movably arranged on the mounting main body, the sliding piece (220) is movably arranged on the movable support (210), the driving mechanism (300) is connected with the sliding piece (220) to drive the sliding piece (220) to move, and the sliding piece (220) is used for driving the movable support (210) to move and locking the movable support (210) on the mounting main body in the moving process.
  2. 2. The locking mechanism of claim 1, wherein the movable bracket (210) has a first limit position during movement, the slider (220) being movable relative to the movable bracket (210) when the movable bracket (210) is in the first limit position to lock the movable bracket (210) to the mounting body; When the movable bracket (210) is not in the first limit position, the slider (220) and the movable bracket (210) remain relatively stationary.
  3. 3. The locking mechanism according to claim 2, wherein the movable bracket (210) is movably provided with a locking member (213), and the sliding member (220) is configured to drive the locking member (213) to move and lock the movable bracket (210) to the mounting body or unlock the movable bracket (210) from the mounting body during movement relative to the movable bracket (210).
  4. 4. A locking mechanism according to claim 3, characterized in that one of the slider (220) and the locking member (213) is provided with a first guiding structure, the other of the slider (220) and the locking member (213) is provided with a guiding portion (2131) cooperating with the first guiding structure, the guiding portion (2131) being adapted to move relative to the first guiding structure during movement of the slider (220) relative to the movable bracket (210) so as to move the locking member (213) relative to the movable bracket (210).
  5. 5. The locking mechanism of claim 4, wherein the first guiding structure is a first guiding groove (223), and wherein at least part of the first guiding groove (223) extends in a direction that forms an angle with the moving direction of the slider (220).
  6. 6. The locking mechanism of claim 2, wherein the movable bracket (210) is provided with a first elastic restoring member (201), the first elastic restoring member (201) is abutted against the sliding member (220), the first elastic restoring member (201) can be compressed when the movable bracket (210) is in a first limit position so as to enable the sliding member (220) to move relative to the movable bracket (210), The first elastic restoring element (201) can keep the sliding element (220) and the movable bracket (210) relatively static when the movable bracket (210) is not in the first limit position.
  7. 7. The locking mechanism according to claim 2, wherein the mounting body is provided with a first stopper (140) and a second stopper (150) which are opposed to each other in a moving direction of the movable bracket (210), the movable bracket (210) is in the first limit position in a state of abutting against the first stopper (140), and the movable bracket (210) is in the second limit position in a state of abutting against the second stopper (150).
  8. 8. A locking mechanism according to claim 3, characterized in that the locking member (213) is movably arranged on the movable bracket (210), the locking member (213) being adapted to be locked to or unlocked from the mounting body during movement.
  9. 9. The locking mechanism of claim 8, wherein a second guiding structure is provided on one of the movable bracket (210) and the locking member (213), and a mating structure that mates with the second guiding structure is provided on the other of the movable bracket (210) and the locking member (213) to slide the locking member (213) relative to the movable bracket (210).
  10. 10. A locking mechanism according to claim 3, characterized in that the locking member (213) is rotatably provided on the movable bracket (210), the locking member (213) being adapted to be locked to or unlocked from the mounting body during rotation.
  11. 11. The locking mechanism of claim 10, wherein a second elastic restoring member (216) is provided on the movable bracket (210), the second elastic restoring member (216) being connected with the locking member (213) so that the locking member (213) has a tendency to be unlocked from the mounting body.
  12. 12. The locking mechanism of claim 10, wherein one of the movable bracket (210) and the locking member (213) is provided with a rotating shaft (215), and the other of the movable bracket (210) and the locking member (213) is provided with a shaft hole (2132), and the rotating shaft (215) is matched with the shaft hole (2132).
  13. 13. The locking mechanism of any one of claims 1-12, wherein the drive mechanism (300) comprises a motor (310) and a cable mechanism (320) coupled to the motor (310), the cable mechanism (320) coupled to the slider (220).
  14. 14. A storage device comprising a locking mechanism according to any one of claims 1-13, wherein the mounting body is provided with a storage opening, and wherein the movable assembly (200) further comprises a closure member (400) connected to the movable support (210), the closure member (400) being adapted to close or open the storage opening during movement.
  15. 15. The storage device according to claim 14, wherein the movable bracket (210) has a first limit position in the moving process, the mounting body is provided with a first travel switch (160) electrically connected with the driving mechanism (300), the closure member (400) abuts against the first travel switch (160) when the movable bracket (210) is in the first limit position, and the closure member (400) can be separated from the first travel switch (160) under the action of an external force.
  16. 16. The storage device according to claim 14, wherein the movable bracket (210) has a second limit position in the moving process, the mounting body is provided with a second travel switch (170) electrically connected with the driving mechanism (300), the closure member (400) abuts against the second travel switch (170) when the movable bracket (210) is in the second limit position, and the closure member (400) can be separated from the second travel switch (170) under the action of an external force.

Description

Locking mechanism and storage device Technical Field The application relates to the technical field of vehicle-mounted equipment, in particular to a locking mechanism and a storage device. Background The existing sliding storage devices are generally opened or closed through movement of a sliding door or a drawer, wherein some storage devices adopt a motor without a self-locking function to drive the sliding door or the drawer to move, and when the storage devices are in a closed state, once the sliding door or the drawer is subjected to acceleration impact or larger external force for opening, the stress of the sliding door or the drawer can be converted into reverse driving force of the motor, so that the closed state of the storage devices is invalid. Disclosure of utility model Objects of the present application include, for example, providing a locking mechanism that enables a storage device to be stably maintained in a closed state. The object of the present application is also, for example, to provide a storage device capable of stably maintaining a closed state. Embodiments of the application may be implemented as follows: In a first aspect, an embodiment of the present application provides a locking mechanism, including a mounting main body, a movable assembly and a driving mechanism, where the driving mechanism is disposed on the mounting main body, the movable assembly includes a movable support and a sliding member, the movable support is movably disposed on the mounting main body, the sliding member is movably disposed on the movable support, and the driving mechanism is connected with the sliding member to drive the sliding member to move, and the sliding member is used to drive the movable support to move and lock the movable support on the mounting main body in a moving process. Optionally, the movable bracket has a first limit position in the moving process, the sliding piece can move relative to the movable bracket when the movable bracket is in the first limit position, so that the movable bracket is locked on the mounting main body, and when the movable bracket is not in the first limit position, the sliding piece and the movable bracket are kept relatively static. Optionally, the movable support is movably provided with a locking piece, and the sliding piece is used for driving the locking piece to move in the process of moving relative to the movable support and locking the movable support on the installation main body or unlocking the movable support and the installation main body. Optionally, a first guiding structure is arranged on one of the sliding piece and the locking piece, a guiding part matched with the first guiding structure is arranged on the other one of the sliding piece and the locking piece, and the guiding part is used for moving relative to the first guiding structure in the process that the sliding piece moves relative to the movable bracket, so that the locking piece moves relative to the movable bracket. Optionally, the first guiding structure is a first guiding groove, and at least part of the extending direction of the first guiding groove and the moving direction of the sliding piece form an included angle. Optionally, a first elastic reset piece is arranged on the movable bracket, the first elastic reset piece is abutted against the sliding piece, and the first elastic reset piece can be compressed when the movable bracket is in a first limit position so as to enable the sliding piece and the movable bracket to move relatively; The first elastic reset piece can keep the sliding piece and the movable support to be relatively static when the movable support is not in a first limit position. Optionally, the locking piece is movably arranged on the movable bracket, and the locking piece is used for locking the mounting main body or unlocking the mounting main body in the moving process. Optionally, one of the movable support and the locking piece is provided with a second guiding structure, and the other one of the movable support and the locking piece is provided with a matching structure matched with the second guiding structure, so that the locking piece slides relative to the movable support. Optionally, the locking piece is rotatably disposed on the movable support, and the locking piece is used for locking the installation main body or unlocking the installation main body in the rotating process. Optionally, one of the movable support and the locking piece is provided with a rotating shaft, the other one of the movable support and the locking piece is provided with a shaft hole, and the rotating shaft is matched with the shaft hole. Optionally, a second elastic reset piece is arranged on the movable support, and the second elastic reset piece is connected with the locking piece, so that the locking piece has a tendency of unlocking with the installation main body. Optionally, the installation main body is provided with a first stop piece and a second stop pi