CN-224201423-U - Adjusting assembly and display device

Abstract

The application is suitable for the technical field of electronic equipment, and provides an adjusting assembly and a display device. The adjusting assembly comprises an adjusting mechanism and a driving mechanism, the adjusting mechanism comprises a first adjusting structure and a second adjusting structure, the first adjusting structure and the second adjusting structure are respectively connected with two connecting structures with different positions on a part to be adjusted, the second adjusting structure can slide relative to the first adjusting structure, the driving mechanism comprises a driving piece and a transmission piece which are kept engaged, the driving piece is arranged on one of the first adjusting structure and the second adjusting structure, the transmission piece is arranged on the other one, and the second adjusting structure drives the transmission piece to slide relative to the first adjusting structure through the driving piece. The meshing transmission of the driving piece and the transmission piece has a fixed transmission ratio, compared with manual pushing, the meshing transmission can realize quantitative adjustment by controlling the motion parameters of the driving piece, and displacement deviation caused by manual pushing is effectively avoided.

Inventors

• KANG BINLIN
• LOU XIAOBO
• SHI CHANGJIN
• DING YANHUI

Assignees

• 深圳市艾比森光电股份有限公司
• 惠州市艾比森光电有限公司

Dates

Publication Date

20260505

Application Date

20250624

Claims (10)

1. 1. The adjusting assembly is characterized by comprising an adjusting mechanism and a driving mechanism, wherein the adjusting mechanism comprises a first adjusting structure and a second adjusting structure, the first adjusting structure and the second adjusting structure are respectively used for being connected with two connecting structures with different positions on a part to be adjusted, and the second adjusting structure can slide relative to the first adjusting structure; The driving mechanism comprises a driving piece and a transmission piece which are kept engaged, the driving piece is arranged on one of the first adjusting structure and the second adjusting structure, the transmission piece is arranged on the other, and the second adjusting structure drives the transmission piece to slide relative to the first adjusting structure through the driving piece.
2. 2. The adjustment assembly of claim 1, wherein the first adjustment structure is provided with a chute along a bending direction, and the second adjustment structure is slidably disposed within the chute along the bending direction to change the attitude of the member to be adjusted.
3. 3. The adjustment assembly of claim 2, wherein the drive mechanism further comprises a mounting member rotatably disposed in the first adjustment structure, and wherein the drive member is sleeved on the mounting member and rotates in unison with the mounting member.
4. 4. An adjustment assembly as claimed in claim 3, wherein the drive mechanism further comprises an operating member disposed on the mounting member for effecting synchronous rotation of the mounting member.
5. 5. The adjustment assembly of claim 4, wherein the operating member is provided with a first limit structure and the first adjustment structure is provided with a second limit structure; The operating piece is provided with a working state and a limiting state, when the operating piece is in the working state, the first limiting structure and the second limiting structure are separated, the operating piece can rotate relative to the first adjusting structure, and when the operating piece is in the limiting state, the operating piece is static relative to the first adjusting structure through the cooperation of the first limiting structure and the second limiting structure.
6. 6. The adjustment assembly of claim 5, wherein the operating member is arranged on the mounting member near or far from the second limit structure by sliding along a preset direction so as to switch the operating member between the working state and the limit state; the driving mechanism further comprises an adjusting piece, wherein the adjusting piece is arranged on the mounting piece and can push the operating piece to be close to the second limiting structure along the preset direction, so that the operating piece is switched from the working state to the limiting state.
7. 7. The adjustment assembly of claim 6, wherein the first limit structure is a limit tooth, the second limit structure is an annular rack, the operating member is stationary relative to the first adjustment structure by engagement of the first limit structure and the second limit structure, and/or, The operating part further comprises an operating body and an installation body, wherein the operating body is provided with a second connecting hole, one of the hole wall of the second connecting hole and the installation part is provided with a transmission convex part, the other one is provided with a transmission concave part, the operating body passes through the transmission convex part to be arranged in the transmission concave part to transmit power to the installation part, the first limiting structure is arranged on the installation body, the installation body is arranged on the operating body, and/or, The operation piece with be provided with the piece that resets between the first regulation structure, the piece that resets through with the operation piece contact to the operation piece is exerted and is directed against the thrust that deviates from the setting of second limit structure, so that the operation piece has the trend of orientation and deviates from the motion of second limit structure.
8. 8. The adjusting assembly according to claim 7, wherein the adjusting member comprises an adjusting body and a connecting body, the connecting body comprises a connecting section and a threaded section which are sequentially arranged, the connecting section is connected with the mounting member, and the adjusting body is rotatably sleeved on the threaded section and is in threaded fit with the threaded section; the mounting piece is static relative to the first adjusting structure in the preset direction, and the adjusting body is rotated on the threaded section to push the operating piece to be close to the second limiting structure along the preset direction.
9. 9. An adjustment assembly according to any one of claims 1-8, characterized in that the first adjustment structure is provided with a mounting recess, in which mounting recess the driving member is rotatably arranged, and/or, The adjusting mechanism further comprises a first linkage structure and a second linkage structure, the first adjusting structure is arranged on the first linkage structure, the second adjusting structure is arranged on the second linkage structure, the first linkage structure and the second linkage structure are respectively connected with two connecting structures with different positions on the to-be-adjusted component, and the second linkage structure can slide relative to the first linkage structure.
10. 10. A display device, characterized by comprising a plurality of installation boxes, a plurality of flexible display modules and a plurality of adjusting assemblies according to any one of claims 1 to 9, wherein the first adjusting structure and the second adjusting structure are respectively connected with two connecting structures with different positions on the installation boxes, the installation boxes are formed into the parts to be adjusted, and the flexible display modules are arranged on the installation boxes.

Description

Adjusting assembly and display device Technical Field The application belongs to the technical field of electronic equipment, and particularly relates to an adjusting assembly and a display device. Background In the related art, a part of the display screen comprises a flexible display module and an adjusting assembly, the adjusting assembly comprises a first adjusting structure and a second adjusting structure, the first adjusting structure and the second adjusting structure are respectively connected with two connecting structures on the flexible module, and the second adjusting structure is arranged on the first adjusting structure in a sliding manner along an arc-shaped guide groove on the first adjusting structure so that the flexible display module can realize bending deformation. The second adjusting structure usually slides on the first adjusting structure in a manual pushing manner, but the sliding displacement of the second adjusting structure is difficult to accurately control by manual adjustment, so that the bending curvature of the flexible display module has obvious deviation from a required value. Disclosure of utility model The embodiment of the application aims to provide an adjusting assembly and a display device, and aims to solve the technical problem that the sliding displacement of a second adjusting structure is difficult to accurately control in the related art. In order to achieve the above object, according to one aspect of the present application, there is provided an adjusting assembly including an adjusting mechanism including a first adjusting structure and a second adjusting structure respectively for connection with two connecting structures different in position on a member to be adjusted, the second adjusting structure being slidable relative to the first adjusting structure, and a driving mechanism including a driving member and a transmission member held in engagement, the driving member being provided in one of the first adjusting structure and the second adjusting structure, the transmission member being provided in the other, the second adjusting structure driving the transmission member to slide relative to the first adjusting structure by the driving member. On the one hand, the meshing transmission of the driving piece and the transmission piece has a fixed transmission ratio, the rotation angle or displacement of the driving piece can be accurately converted into the sliding displacement of the second adjusting structure relative to the first adjusting structure through the meshing relation, compared with manual pushing, the meshing transmission can realize quantitative adjustment through controlling the motion parameters of the driving piece, displacement deviation caused by manual pushing is effectively avoided, and the control precision of the sliding displacement of the second adjusting structure is obviously improved. On the other hand, the meshing transmission of the driving mechanism is rigidly connected by virtue of a mechanical structure, the influence of external force interference on the transmission process is obviously reduced, and compared with manual pushing, the transmission is more stable, and the influence of external interference on the adjustment precision is effectively reduced. Optionally, the first adjusting structure is provided with a chute along the bending direction, and the second adjusting structure is slidably arranged in the chute along the bending direction, so that the posture of the component to be adjusted is changed. The driving piece and the driving piece of the meshing transmission can drive the second adjusting structure to realize accurate sliding in the sliding groove of the first adjusting structure, so that accurate adjustment of the gesture of the component to be adjusted is realized, and the gesture adjustment requirement is met. Meanwhile, the driving piece and the transmission piece are uniformly stressed in the bending direction, and the guiding and limiting functions of the sliding grooves are used as the auxiliary materials, so that shaking and clamping stagnation in the sliding process can be effectively reduced, and smooth and stable adjustment process is ensured. Optionally, the driving mechanism further includes a mounting member rotatably disposed on the first adjusting structure, and the driving member is sleeved on the mounting member and synchronously rotates along with the mounting member. The mounting piece that sets up provides rigid support for the driving piece, not only ensures that the driving piece keeps steady when rotating, has still reduced the risk that takes place radial runout when the driving piece rotates simultaneously, ensures the stability of driving piece and driving piece meshing, has promoted the transmission precision. Optionally, the driving mechanism further includes an operating member, and the operating member is disposed on the mounting member and is used for driving the mounting