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CN-224209299-U - Rotary mechanism

CN224209299UCN 224209299 UCN224209299 UCN 224209299UCN-224209299-U

Abstract

The application provides a rotating mechanism, and relates to the technical field of electronic atomization device equipment. The rotating mechanism comprises a carrier, a carrier component, a calibration component and a driving component, wherein the carrier component is rotatably arranged on the carrier and can bear a plurality of products, the calibration component is arranged on the carrier and comprises a first calibration piece and a second calibration piece, the first calibration piece and the second calibration piece are respectively arranged on two sides of a rotating axis of the carrier component to limit the rotating angle of the carrier component, and the driving component is used for driving the carrier component to rotate and enabling the carrier component to be kept in abutting connection with the first calibration piece or the second calibration piece. According to the rotating mechanism, the carrier assembly is arranged to drive the products placed on the rotating mechanism to synchronously rotate to different states relative to the carrier, manual operation is reduced, and the rotating angle of the rotating mechanism is accurately controlled by means of the first calibration piece and the second calibration piece which are respectively abutted to the carrier assembly, so that machining precision is effectively improved.

Inventors

  • CHEN SONG

Assignees

  • 深圳市合元科技有限公司

Dates

Publication Date
20260508
Application Date
20250428

Claims (10)

  1. 1. A rotary mechanism, comprising: A carrier; a carrier assembly rotatably mounted on the carrier, the carrier assembly being capable of carrying a plurality of products; The calibration assembly is arranged on the carrier and comprises a first calibration piece and a second calibration piece, and the first calibration piece and the second calibration piece are respectively arranged on two sides of the rotation axis of the carrier assembly so as to limit the rotation angle of the carrier assembly; And the driving assembly is used for driving the carrier assembly to rotate and enabling the carrier assembly to be kept in abutting connection with the first calibration piece or the second calibration piece.
  2. 2. The rotary mechanism of claim 1, wherein the drive assembly comprises: the elastic piece is connected between the carrier assembly and the carrier platform and is used for driving the carrier assembly to rotate towards the first calibration piece and enabling the carrier assembly to keep abutting with the first calibration piece; And the pressing piece is movably arranged on the carrier, can be abutted with the carrier assembly and enables the carrier assembly to overcome the acting force of the elastic piece and rotate towards the second calibration piece.
  3. 3. The rotary mechanism of claim 2, wherein the carrier assembly, the calibration assembly and the elastic member are provided with a plurality of groups and are in one-to-one correspondence, and each carrier assembly is distributed along the circumferential direction of the pressing member.
  4. 4. The rotary mechanism of claim 3, wherein the carrier and the press-fit member are configured to rotate relative to each other to enable each of the carrier assemblies to movably abut the press-fit member, respectively; And/or the carrier assembly comprises a mounting seat and a rotating arm, wherein a positioning structure for positioning a plurality of products is arranged on the mounting seat, the mounting seat is rotationally connected with the carrier, the rotating arm is fixedly connected with the mounting seat, and the pressing piece is movably abutted to one side, away from the second calibration piece, of the rotating arm; and/or, the elastic piece is a tension spring.
  5. 5. The rotary mechanism of claim 1, wherein the drive assembly comprises a ram movably mounted on the carrier, the ram comprising first and second abutments spaced apart along a direction of movement of the ram, wherein during movement of the ram, The first abutting part abuts against the carrier assembly and drives the carrier assembly to rotate towards the first calibration piece to abut against the second calibration piece; Or the second abutting part abuts against the carrier assembly and drives the carrier assembly to rotate towards the second calibration piece until the second abutting part abuts against the second calibration piece.
  6. 6. The rotary mechanism of claim 5, wherein the carrier assemblies are provided with a plurality of sets of one-to-one correspondence with the calibration assemblies, and each carrier assembly is distributed along the circumferential direction of the pressing member.
  7. 7. The rotation mechanism of claim 5, wherein the carrier and the ram are configured to rotate relative to each other to enable each of the carrier assemblies to movably abut the ram, respectively; And/or, the driving assembly further comprises a fastening structure, and the fastening structure is arranged between the carrier platform and the carrier assembly and is used for fastening and fixing the carrier assembly on the carrier platform and keeping the carrier assembly in abutting connection with the first calibration piece; and/or, the carrier assembly comprises a mounting seat and a rotating arm, a positioning structure for positioning a plurality of products is arranged on the mounting seat, the mounting seat is rotationally connected with the carrier, and the first abutting part and the second abutting part of the pressing piece are movably abutted to the opposite sides of the rotating arm.
  8. 8. The rotation mechanism of any one of claims 1-7, wherein a length of the first indexing member and/or the second indexing member is adjustable to adjust an angle of rotation of the carrier assembly relative to the carrier.
  9. 9. The rotary mechanism of any one of claims 1 to 7, wherein a side of the first calibration member abutting the carrier assembly is a first contact surface, a side of the second calibration member abutting the carrier assembly is a second contact surface, and the first contact surface and the second contact surface are flat surfaces.
  10. 10. The rotating mechanism according to any one of claims 1-7, wherein the carrier assembly has a rotation angle in the range of 0-60 °.

Description

Rotary mechanism Technical Field The application relates to the technical field of electronic atomization device equipment, in particular to a rotating mechanism. Background Currently, many products require rotation to maintain different angles during processing, such as laser engraving of the electronic atomizer housing. In the laser engraving process, the product is usually rotated and fixed at a specific angle, so that the laser engraving head engraves the product one by one according to a program. However, under the prior art condition, the product position still needs to be manually calibrated when laser engraving is performed, which not only reduces the production efficiency, but also is difficult to ensure the accurate control of the product position. Disclosure of utility model The embodiment of the application provides a rotating mechanism which is used for accurately positioning the rotating angle of a product. In some embodiments, the rotating mechanism comprises a carrier, a carrier assembly, a calibration assembly and a driving assembly, wherein the carrier assembly is rotatably mounted on the carrier and can bear a plurality of products, the calibration assembly is arranged on the carrier and comprises a first calibration piece and a second calibration piece which are respectively arranged on two sides of a rotation axis of the carrier assembly to limit the rotation angle of the carrier assembly, and the driving assembly is used for driving the carrier assembly to rotate and enabling the carrier assembly to be kept in abutting connection with the first calibration piece or the second calibration piece. In some embodiments, the driving assembly comprises an elastic member and a pressing member, the elastic member is connected between the carrier assembly and the carrier, the elastic member is used for driving the carrier assembly to rotate towards the first calibration member and keeping the carrier assembly in abutting connection with the first calibration member, and the pressing member is movably mounted on the carrier and can abut against the carrier assembly and enable the carrier assembly to rotate towards the second calibration member against the acting force of the elastic member. In some embodiments, the carrier assemblies, the calibration assemblies and the elastic members are provided with a plurality of groups and are in one-to-one correspondence, and each carrier assembly is distributed along the circumferential direction of the pressing member. In some embodiments, the carrier and the pressing member are configured to rotate relatively so that each carrier assembly can be movably abutted against the pressing member respectively; And/or the carrier assembly comprises a mounting seat and a rotating arm, wherein a positioning structure for positioning a plurality of products is arranged on the mounting seat, the mounting seat is rotationally connected with the carrier, the rotating arm is fixedly connected with the mounting seat, and the pressing piece is movably abutted to one side, away from the second calibration piece, of the rotating arm; and/or, the elastic piece is a tension spring. In some embodiments, the drive assembly includes a ram movably mounted on the carrier, the ram including first and second abutments spaced apart along a direction of movement of the ram, wherein during movement of the ram, The first abutting part abuts against the carrier assembly and drives the carrier assembly to rotate towards the first calibration piece to abut against the second calibration piece; Or the second abutting part abuts against the carrier assembly and drives the carrier assembly to rotate towards the second calibration piece until the second abutting part abuts against the second calibration piece. In some embodiments, the carrier assemblies and the calibration assemblies are provided with a plurality of groups and are in one-to-one correspondence, and each carrier assembly is distributed along the circumferential direction of the pressing piece. In some embodiments, the carrier and the ram are configured to rotate relative to each other to enable each of the carrier assemblies to movably abut the ram, respectively; And/or, the driving assembly further comprises a fastening structure, and the fastening structure is arranged between the carrier platform and the carrier assembly and is used for fastening and fixing the carrier assembly on the carrier platform and keeping the carrier assembly in abutting connection with the first calibration piece; and/or, the carrier assembly comprises a mounting seat and a rotating arm, a positioning structure for positioning a plurality of products is arranged on the mounting seat, the mounting seat is rotationally connected with the carrier, and the first abutting part and the second abutting part of the pressing piece are movably abutted to the opposite sides of the rotating arm. In some embodiments, the length of the first calibration member and