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CN-121988045-A - Gyro fixing structure and gyro emission device

CN121988045ACN 121988045 ACN121988045 ACN 121988045ACN-121988045-A

Abstract

The application discloses a gyro fixing structure and a gyro emission device, wherein the gyro fixing structure comprises a mounting seat, a locking mechanism and an operating mechanism, the mounting seat is provided with a mounting cavity, the mounting cavity is suitable for a gyro to be mounted therein, the locking mechanism is suitable for locking the gyro to enable the gyro to be limited in the mounting cavity, the locking mechanism is suitable for unlocking the gyro to enable the gyro to be separated from the mounting cavity, the operating mechanism can move to a first position and a second position, the operating mechanism is suitable for driving the locking mechanism to lock the gyro when moving to the first position, and the operating mechanism is suitable for driving the locking mechanism to unlock the gyro when moving to the second position. The gyro fixing structure disclosed by the technical scheme of the application can be used for fixing the gyro on the gyro fixing structure, is convenient for carrying and storing the gyro, and reduces the risk of gyro loss.

Inventors

  • LIU JIAQIANG
  • HUANG ZIXUAN
  • Wu Manzhu

Assignees

  • 奥飞娱乐股份有限公司
  • 广州潮流无限创意文化有限公司

Dates

Publication Date
20260508
Application Date
20260302

Claims (20)

  1. 1. A gyro fixing structure, characterized in that the gyro fixing structure includes: A mounting base (100), wherein the mounting base (100) is provided with a mounting cavity (110), and the mounting cavity (110) is suitable for a top to be mounted therein; A locking mechanism (200), the locking mechanism (200) being adapted to lock the top such that the top is confined to the mounting cavity (110), and the locking mechanism (200) being adapted to unlock the top such that the top is detachable from the mounting cavity (110), and The operation mechanism (300) can move to a first position and a second position, the operation mechanism (300) is suitable for driving the locking mechanism (200) to lock the top when moving to the first position, and the operation mechanism (300) is suitable for driving the locking mechanism (200) to unlock the top when moving to the second position.
  2. 2. The top securement structure of claim 1, characterized in that the operating mechanism (300) and the locking mechanism (200) are separate components from each other.
  3. 3. The top securement structure of claim 1, wherein the locking mechanism (200) includes a first arm (210) and a second arm (220), the first arm (210) adapted to be positioned on one side of the top when the top is mounted to the mounting cavity (110), the second arm (220) adapted to be positioned on the other side of the top when the top is mounted to the mounting cavity (110), the first arm (210) and the second arm (220) adapted to clamp the top to lock the top when the operating mechanism (300) is moved to the first position, and adapted to release the top to unlock the top when the operating mechanism (300) is moved to the second position.
  4. 4. A top mount according to claim 3, wherein the operating mechanism (300) is adapted to abut the first arm (210) when moved to the first position to urge the first arm (210) towards the second arm (220) and to clear the first arm (210) when moved to the second position to return the first arm (210) away from the second arm (220); And/or the operating mechanism (300) is suitable for abutting the second support arm (220) when moving to the first position so as to push the second support arm (220) to approach the first support arm (210), and is suitable for avoiding the second support arm (220) when moving to the second position so as to enable the second support arm (220) to be far away from the first support arm (210) and reset.
  5. 5. The gyro-holding structure of claim 4, characterized in that the operating mechanism (300) includes a first operating portion (310) and a second operating portion (320), the first operating portion (310) being connected to the second operating portion (320) so as to be synchronously movable, the operating mechanism (300) being adapted to abut the first arm (210) through the first operating portion (310) and to abut the second arm (220) through the second operating portion (320).
  6. 6. The top securement structure of claim 4, wherein at least one of the first arm (210) and the second arm (220) is adapted to elastically deform when the operating mechanism (300) is moved to the first position, to be adapted to return when the operating mechanism (300) is moved to the second position.
  7. 7. The top securement structure according to claim 6, characterized in that the locking mechanism (200) is an integral piece; and/or, the locking mechanism (200) is of a U-shaped structure.
  8. 8. A top securing structure according to claim 3, characterized in that the first arm (210) extends in the circumferential direction of the top and the second arm (220) extends in the circumferential direction of the top.
  9. 9. The top fixture of any of claims 1-8, wherein the operating mechanism (300) is rotatably arranged to be movable to the first position and the second position.
  10. 10. The top securement structure of claim 9, characterized in that the top securement structure includes a gear mechanism (400), the gear mechanism (400) includes a detent (410), a first detent (421) and a second detent (422), the detent (410) is provided on one of the operating mechanism (300) and the mount (100), the first detent (421) and the second detent (422) are provided on the other of the operating mechanism (300) and the mount (100), the detent (410) is adapted to snap into the first detent (421) when the operating mechanism (300) is rotated to the first position, and is adapted to snap into the second detent (422) when the operating mechanism (300) is rotated to the second position.
  11. 11. The top securement structure according to claim 10, characterized in that said snap-on tab (410) is adapted to move elastically upon rotation of said operating mechanism (300); And/or the first clamping groove (421) and the second clamping groove (422) are suitable for elastic movement when the operating mechanism (300) rotates.
  12. 12. The gyro-holding structure of claim 1, characterized in that the operating mechanism (300) is connected to the locking mechanism (200) so as to be movable synchronously.
  13. 13. The top securement structure according to claim 12, characterized in that said operating mechanism (300) is integrally formed with said locking mechanism (200).
  14. 14. The top securing structure according to claim 1, characterized in that the locking mechanism (200) includes a support member (230) and a claw (240) provided to the support member (230), a plurality of the claws (240) being provided alternately in a circumferential direction of the installation cavity (110) so as to surround the top when the top is installed in the installation cavity (110); The operating mechanism (300) is suitable for driving the supporting piece (230) to rotate when moving towards the first position, so that the claw (240) is clamped on the top to form a stop in the direction that the top is separated from the mounting cavity (110) to lock the top; The operating mechanism (300) is suitable for driving the supporting piece (230) to rotate when moving towards the second position, so that the claw (240) is separated from the top, and avoidance is formed in the direction that the top is separated from the mounting cavity (110) to unlock the top.
  15. 15. The top securement structure of claim 14, wherein the mounting base (100) is provided with a thrust portion (120), the thrust portion (120) being adapted to abut the pawl (240) when the operating mechanism (300) is moved to the first position to urge the pawl (240) toward the top and to clear the pawl (240) when the operating mechanism (300) is moved to the second position to unseat the pawl (240) away from the top.
  16. 16. The top securing structure according to claim 14, characterized in that the support member (230) is provided in the mounting cavity (110), the operating mechanism (300) passing from the mounting cavity (110) through the mounting seat (100) to protrude outside; And/or the claw (240) is adapted to extend in the direction of extension of the centre axis of rotation of the top.
  17. 17. The top securement structure of claim 14, characterized in that the top securement structure includes a gear mechanism (400), the gear mechanism (400) including a detent (410), a first detent (421) and a second detent (422), the detent (410) being provided on one of the support (230) and the mount (100), the first detent (421) and the second detent (422) being provided on the other of the support (230) and the mount (100), the detent (410) being adapted to snap into the first detent (421) when the operating mechanism (300) is moved to the first position, and to snap into the second detent (422) when the operating mechanism (300) is moved to the second position.
  18. 18. The top securement structure according to claim 17, characterized in that said snap-on tab (410) is adapted to move elastically when said support (230) rotates; And/or the first clamping groove (421) and the second clamping groove (422) are suitable for elastic movement when the supporting piece (230) rotates.
  19. 19. The top securing structure according to claim 1, characterized in that the locking mechanism (200) and/or the operating mechanism (300) are provided to the mounting base (100).
  20. 20. A top launcher, characterized in that it comprises the top securing structure of any one of claims 1 to 19.

Description

Gyro fixing structure and gyro emission device Technical Field The application relates to the technical field of toys, in particular to a gyro fixing structure and a gyro emission device. Background Some gyroscopic toys include a main body and a gyroscopic, the main body and the gyroscopic are separate components, and need to cooperate to play, and the main body and the gyroscopic generally need to be carried respectively. Disclosure of Invention The present application aims to solve at least one of the technical problems in the related art to some extent. Therefore, the application provides a gyro fixing structure. To achieve the above object, a first aspect of the present application discloses a gyro fixing structure including: the installation seat is provided with an installation cavity which is suitable for installing the gyroscope therein; A locking mechanism adapted to lock the top such that the top is confined to the mounting cavity and unlock the top such that the top is detachable from the mounting cavity, and The operating mechanism can move to a first position and a second position, the operating mechanism is suitable for driving the locking mechanism to lock the top when moving to the first position, and the operating mechanism is suitable for driving the locking mechanism to unlock the top when moving to the second position. In some embodiments of the application, the operating mechanism and the locking mechanism are separate components from each other. In some embodiments of the application, the locking mechanism includes a first arm adapted to be located on one side of the top when the top is mounted to the mounting cavity and a second arm adapted to be located on the other side of the top when the top is mounted to the mounting cavity, the first arm and the second arm adapted to grip the top to lock the top when the operating mechanism is moved to the first position and adapted to release the top to unlock the top when the operating mechanism is moved to the second position. In some embodiments of the application, the operating mechanism is adapted to abut the first arm when moved to the first position to urge the first arm toward the second arm, and is adapted to clear the first arm when moved to the second position to reset the first arm away from the second arm; And/or the operating mechanism is suitable for abutting the second support arm when moving to the first position so as to push the second support arm to approach the first support arm, and is suitable for avoiding the second support arm when moving to the second position so as to enable the second support arm to be far away from the first support arm and reset. In some embodiments of the present application, the operating mechanism includes a first operating portion and a second operating portion, the first operating portion and the second operating portion are connected to be capable of moving synchronously, and the operating mechanism is adapted to abut the first support arm through the first operating portion and is adapted to abut the second support arm through the second operating portion. In some embodiments of the application, at least one of the first and second arms is adapted to elastically deform when the operating mechanism is moved to the first position, to be adapted to reset when the operating mechanism is moved to the second position. In some embodiments of the application, the locking mechanism is an integral piece; And/or, the locking mechanism is of a U-shaped structure. In some embodiments of the application, the first arm extends along a circumference of the top and the second arm extends along a circumference of the top. In some embodiments of the application, the operating mechanism is rotatably arranged to be movable to the first position and the second position. In some embodiments of the present application, the gyro fixing structure includes a gear mechanism, where the gear mechanism includes a locking protrusion, a first locking groove and a second locking groove, the locking protrusion is disposed on one of the operating mechanism and the mounting base, the first locking groove and the second locking groove are disposed on the other one of the operating mechanism and the mounting base, and the locking protrusion is adapted to be locked into the first locking groove when the operating mechanism rotates to the first position, and is adapted to be locked into the second locking groove when the operating mechanism rotates to the second position. In some embodiments of the application, the catch is adapted to move resiliently upon rotation of the operating mechanism; And/or the first clamping groove and the second clamping groove are suitable for elastic movement when the operating mechanism rotates. In some embodiments of the application, the operating mechanism is coupled to the locking mechanism to be synchronously movable. In some embodiments of the application, the operating mechanism is integrally fo