CN-224203663-U - Operating structure

Abstract

An operating structure comprises a shell, a first operating piece, a second operating piece, a first elastic piece, a second elastic piece, a third elastic piece, a locking piece and a flat pushing piece. The first operating member is rotatable and positioned in either the first or second position by the first resilient member. The locking piece is separated from the first operating piece at the buckling position, is abutted against the first operating piece at the unbuckling position, and moves towards the buckling position under the thrust of the second elastic piece. The second operation piece can rotate in the folding direction and the unfolding direction through the first rotating shaft, in the folding state, the locking piece is arranged at the buckling position and stops the second operation piece from being at the folding position, in the unfolding state, the locking piece is arranged at the buckling position or the unbuckling position, and the second operation piece is separated from the folding position and can rotate towards the folding and unfolding directions. The flat pushing piece can linearly move and is abutted against the second operating piece positioned at the receiving position, and the second operating piece is forced to be in the unfolding direction by the aid of the third elastic piece. The operation structure of the utility model can provide different operation modes with force feedback hand feeling in a limited space.

Inventors

• ZENG ZHENGUANG
• YAN YONGZENG
• LI BAIRU
• CAI YOULI
• Ye Qirong
• LI JINGANG
• LI BAOCANG

Assignees

• 佳能企业股份有限公司

Dates

Publication Date

20260505

Application Date

20250506

Claims (10)

1. 1. An operating structure, comprising: A housing; The first operating piece is rotatably arranged on the shell and can move between a first position and a second position; The first elastic piece is connected with the shell and the first operating piece, and the first operating piece is arranged at the first position or the second position through the first elastic piece; The locking piece is movable between a locking position and an unlocking position, and in the locking position, the first operating piece is separated from the locking piece; The second elastic piece is connected with the shell and the locking piece and applies force to the locking piece towards the buckling position; The second operating piece can rotate in a folding direction and a unfolding direction through a first rotating shaft, and in a folding state, the locking piece is arranged at the locking position and stops the second operating piece at a folding position; in an unfolding state, the locking piece is arranged at the buckling position or the unbuckling position, and the second operation piece is separated from the folding position and can rotate towards the folding direction and the unfolding direction; a flat pushing member arranged on the housing in a linear movement manner and abutting against the second operating member at the folding position, and And the third elastic piece is connected with the shell and the flat pushing piece, and the flat pushing piece applies force to the second operation piece towards the unfolding direction by virtue of the third elastic piece.
2. 2. The operating structure of claim 1, wherein the first operating member comprises a first knob and a first linkage member, and the first operating member is connected to the first elastic member through the first linkage member.
3. 3. The operating structure of claim 2, wherein the first linkage moves in a circumferential direction of the first shaft, and the first knob is interlocked with the first linkage.
4. 4. The operating structure of claim 1, wherein the second operating member comprises a second knob and a second linkage, and the second operating member is connected to the push member through the second linkage.
5. 5. The operating structure of claim 4, wherein the second knob and the second linkage are interlocked.
6. 6. The operating structure of claim 4, wherein the second linkage member comprises a fin portion having an inclined surface and a plane surface, the inclined surface being disposed on a side of the fin portion facing the folding direction, the plane surface being disposed on a side of the fin portion facing the unfolding direction.
7. 7. The operating structure of claim 1, further comprising a fourth elastic member connecting the housing and the second operating member, wherein in the expanded state, the fourth elastic member biases the second operating member in the closing direction.
8. 8. The operating structure of claim 7, wherein in the extended state, the second operating member is balanced to an extended initial position by the push-flat member and the fourth elastic member.
9. 9. The operating structure of claim 8, wherein in the deployed state, the second operating member is rotatable away from the push-flat member from the deployment initial position and in the deployment direction.
10. 10. The operating structure of claim 1, wherein the locking member is rotatably disposed on the housing with a second shaft as an axis.

Description

Operating structure Technical Field The present utility model relates to an operating structure, and more particularly, to a rotatable operating structure. Background The touch screen is clicked to perform the function switching, which is a convenient and intuitive operation, and is a mainstream way of controlling the electronic device in the market. However, such operations lack feedback feel, and when the user clicks the touch screen, the user must continuously monitor the screen to briefly watch the screen click effect, but also because the user's finger slides upstream on the smooth screen, the user often has excessive or insufficient operation due to lack of toggle feel, so that the user cannot quickly and accurately complete the operation, and thus cannot provide a good operation experience. Disclosure of Invention The utility model relates to an operation structure, which can provide different operation modes in a limited space, and various operation modes also have force feedback handfeel. The utility model provides an operation structure which comprises a shell, a first operation piece, a first elastic piece, a locking piece, a second elastic piece, a second operation piece, a flat pushing piece and a third elastic piece. The first operating member is rotatably disposed on the housing and movable between a first position and a second position. The first elastic piece is connected with the shell and the first operating piece, and the first operating piece is arranged at the first position or the second position through the first elastic piece. The locking piece is movable between a locking position and an unlocking position, wherein the first operating piece is separated from the locking piece in the locking position, and the first operating piece is abutted with the locking piece in the unlocking position. The second elastic piece is connected with the shell and the locking piece and applies force to the locking piece towards the locking position. The second operation piece can rotate in the folding direction and the unfolding direction through the first rotating shaft. In the unfolding state, the locking piece is arranged at the locking position or the unlocking position, and the second operation piece is separated from the folding position and can rotate towards the folding direction and the unfolding direction. The flat pushing piece is arranged on the shell in a linear moving way and is abutted against the second operating piece positioned at the receiving position. The third elastic piece is connected with the shell and the flat pushing piece, and the flat pushing piece applies force to the second operation piece towards the unfolding direction through the third elastic piece. For a better understanding of the above and other aspects of the utility model, reference will now be made in detail to the following examples, which are illustrated in the accompanying drawings: Drawings Fig. 1A is a top view of an operating structure according to an embodiment of the present utility model. Fig. 1B is a bottom view of the operating structure of fig. 1A. Fig. 2A is a top view of the operating structure of fig. 1A, showing the first operating member rotated from the first position of fig. 1A to the second position, and the second operating member switched from the retracted state of fig. 1A to the extended state. Fig. 2B is a bottom view of the operational structure of fig. 2A. Fig. 3A is a top view of the operating structure of fig. 1A, showing the first operating member in the second position, and the second operating member further rotating in the expanding direction in the expanded state. Fig. 3B is a bottom view of the operating structure of fig. 3A. Fig. 4A is a top view of the operating structure of fig. 1A, showing the first operating member located at the first position, and the second operating member located at the initial position in the unfolded state. Fig. 4B is a bottom view of the operational structure of fig. 4A. Detailed Description Embodiments of the present utility model will be described in detail below, with reference to the accompanying drawings as examples. In addition to these details, the present utility model may be widely practiced in other embodiments, and easy alternatives, modifications, and equivalents of any of the described embodiments are included within the scope of the present utility model and subject to the claims. In the description of the present utility model, numerous specific details and examples are provided to provide a thorough understanding of the present utility model, however, such specific details and examples should not be construed as limiting the utility model. Furthermore, well-known steps or elements have not been described in detail in order to not unnecessarily obscure the present utility model. Fig. 1A is a top view of an operating structure 100 according to an embodiment of the present utility model, and fig. 1B is a bottom view of the operating