A rotating component for kinetic sculpture
By designing flange bearings and wear-resistant sleeves, the problems of welding breakage and noise in the rotating parts of the dynamic sculpture were solved, achieving stable rotation and noise reduction.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG RANGE ROVER WUJI CRAFTS GRP CO LTD
- Filing Date
- 2025-07-30
- Publication Date
- 2026-07-03
AI Technical Summary
Existing dynamic sculpture rotating parts are prone to breakage at the welded parts under the action of centrifugal force, torque and alternating stress, and generate strong noise interference when rotating.
It adopts a flange bearing structure, which is detachably connected to the flange via a U-shaped rod and a long lever. A wear-resistant sleeve is installed on the long lever, and bolt connection is used to avoid welding breakage and reduce metal friction noise.
This achieves long-term operational stability of the dynamic sculpture and reduces rotational noise, avoids the risk of welding breakage, and improves rotational stability and noise reduction.
Smart Images

Figure CN224447305U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a rotating component, and more particularly to a rotating component for dynamic sculpture, belonging to the field of dynamic rotation. Background Technology
[0002] The rotating components of a kinetic sculpture are the core of its dynamic effect, but due to their continuous movement, they have the following drawbacks: In existing technologies, the rotating components are connected to the sculpture by metal welding. During rotation, the welded parts are subjected to various forces such as centrifugal force, torque, and periodic alternating stress. Long-term use can cause the welded parts to break. Once a break occurs, the sculpture will instantly lose its balance and stop operating, directly restricting the long-term performance of the kinetic sculpture. When the metal welded parts rotate at high speed, the rigid contact and friction between the metals become more intense, creating a strong noise interference environment.
[0003] Therefore, it is necessary to design a rotating component for dynamic sculpture to solve the aforementioned technical problems. Utility Model Content
[0004] To address the shortcomings of the aforementioned technologies, this invention provides a rotating component for dynamic sculptures, solving the problems of unstable rotation and high noise in existing dynamic sculptures.
[0005] To solve the above technical problems, the technical solution adopted by this utility model is: a rotating component for dynamic sculpture, including a flange bearing, the flange bearing including a flange and a bearing located at the center of the flange, a connecting rod being detachably installed on the flange, and a sleeve being formed at the center of the bearing;
[0006] The connecting rod includes a U-shaped rod and a long lever distributed on the flange, and the long lever is provided with a wear-resistant sleeve.
[0007] Preferably, the open end of the U-shaped rod is bent downward to form two parallel vertical rods, and an angle of 45°-60° is formed between the U-shaped rod and the vertical rods.
[0008] Preferably, the U-shaped rod is connected to the flange via a vertical rod, and the vertical rod is threadedly connected to the flange via bolts.
[0009] Preferably, the end of the elongated lever is bent downward to form a threaded rod, and the elongated lever is connected to the flange through the threaded rod, with the threaded rod bolts connected to the flange threads.
[0010] Preferably, the vertical rod and the threaded rod are parallel to each other, and the vertical rod is installed vertically on the flange.
[0011] Preferably, the U-shaped rod and the long lever are located on the front and back of the flange, respectively.
[0012] Preferably, the centers of the two vertical rods and the center of the threaded rod are both located on the center line of the flange.
[0013] Preferably, an annular retaining ring is provided on the side of the elongated lever near the threaded rod, and the end of the wear-resistant sleeve abuts against the annular retaining ring.
[0014] This utility model proposes a rotating component for dynamic sculptures. By setting a U-shaped rod and a long lever on the flange bearing and using bolts to detachably connect the two to the flange bearing, the risk of breakage at the welded parts is avoided, the connection is more secure, and the long-term operation of the dynamic sculpture is guaranteed. By installing a wear-resistant sleeve, strong friction during rotation is avoided, which has a noise reduction effect. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0016] Figure 2 for Figure 1 A schematic diagram of the back structure.
[0017] Figure 3 for Figure 1 A schematic diagram of the side structure.
[0018] In the diagram: 1. Flange bearing; 2. Flange; 3. Bearing; 4. Sleeve; 5. U-shaped rod; 6. Long lever; 7. Wear-resistant sleeve; 8. Vertical rod; 9. Threaded rod; 10. Annular retaining ring. Detailed Implementation
[0019] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0020] like Figure 1 The rotating component shown is for dynamic sculpture, including a flange bearing 1, which includes a flange 2 and a bearing 3 located at the center of the flange. A connecting rod is detachably mounted on the flange 2, and a sleeve 4 is formed at the center of the bearing 3.
[0021] The rotation effect of the dynamic sculpture is achieved by using flange bearings. In use, the flange bearings are placed on the annular tube through a sleeve, and adjacent flange bearings are connected by a connecting rod. By rotating the annular tube, the flange bearings can be rotated, which in turn drives the sculpture mounted on the flange bearings to rotate.
[0022] Preferably, the connecting rod includes a U-shaped rod 5 and a long lever 6 distributed on the flange, and a wear-resistant sleeve 7 is provided on the long lever 6.
[0023] To enhance the connection effect, U-shaped rods 5 and long levers are installed on the flanges respectively, so as to facilitate the connection of adjacent flange bearings; by setting wear-resistant sleeves, noise is not generated due to metal friction during rotation, thus achieving a noise reduction effect.
[0024] Furthermore, such as Figure 3 As shown, the open end of the U-shaped rod 5 is bent downwards to form two parallel vertical rods 8, with an included angle of 45°-60° between the U-shaped rod 5 and the vertical rods 8. The U-shaped rod 5 is connected to the flange via the vertical rods 8, and the vertical rods 8 are connected to the flange via bolts and threads.
[0025] To facilitate the connection between the U-shaped rod and the flange, the end of the U-shaped rod is bent to form a vertical rod, which is then inserted into the flange. Finally, bolts are used to secure the vertical rod to the flange.
[0026] Furthermore, such as Figure 3 As shown, the end of the elongated lever 6 is bent downward to form a threaded rod 9. The elongated lever 6 is connected to the flange through the threaded rod 9, and the threaded rod 9 is bolted to the flange thread.
[0027] To achieve a stable connection between the long lever and the flange, its end is bent to form a threaded rod, which is then inserted into the flange. Finally, bolts are used to secure the threaded rod to the flange.
[0028] Preferably, the vertical rod 8 and the threaded rod 9 are parallel to each other, and the vertical rod 8 is installed vertically on the flange. Figure 3 As shown, the U-shaped rod 5 and the long lever 6 are located on the front and back of the flange, respectively.
[0029] To facilitate the connection of adjacent flange bearings, U-shaped rod 5 and long lever 6 are installed on both sides of the flange respectively. In use, the long lever of one flange bearing is inserted into the U-shaped rod of another flange bearing, and multiple flange bearings are connected in sequence. Since wear-resistant sleeves are installed on the long levers, no metal friction sound will be produced when rotating, thus achieving a noise reduction effect.
[0030] Furthermore, to improve stability during rotation, the centers of the two vertical rods 8 and the threaded rod 9 are both located on the centerline of the flange. This facilitates the installation of adjacent flange bearings and ensures stability during rotation.
[0031] like Figure 2 As shown, an annular retaining ring 10 is provided on the side of the elongated lever 6 near the threaded rod, and the end of the wear-resistant sleeve 7 abuts against the annular retaining ring. The annular retaining ring facilitates the installation of the wear-resistant sleeve.
[0032] The installation process of this utility model is as follows: When in use, first install the U-shaped rod and the long lever on the flange bearing with bolts, then place the flange bearings on the annular tube in sequence, insert the long lever of one flange bearing into the U-shaped rod of another flange bearing, and then connect multiple flange bearings in sequence by nesting.
[0033] The purpose of this invention is to provide a rotating component for dynamic sculpture. The U-shaped rod and the long lever are connected to the flange bearing by bolts, avoiding the risk of breakage caused by welding. The bolt connection is more secure and ensures the stability of rotation. The use of a wear-resistant plastic sleeve reduces noise during rotation, achieving a noise reduction effect.
[0034] The above embodiments are not intended to limit the present utility model, nor is the present utility model limited to the examples given above. Any changes, modifications, additions or substitutions made by those skilled in the art within the scope of the technical solution of the present utility model are also within the protection scope of the present utility model.
Claims
1. A rotating piece for dynamic sculpting, characterized by: Includes a flange bearing (1), the flange bearing (1) includes a flange (2) and a bearing (3) located at the center of the flange, a connecting rod is detachably installed on the flange (2), and a sleeve (4) is formed at the center of the bearing (3). The connecting rod includes a U-shaped rod (5) and a long lever (6) distributed on the flange, and a wear-resistant sleeve (7) is provided on the long lever (6).
2. A rotating element for dynamic sculpting according to claim 1, wherein: The open end of the U-shaped rod (5) is bent downward to form two parallel vertical rods (8), and there is an angle of 45°-60° between the U-shaped rod (5) and the vertical rods (8).
3. A rotating element for dynamic sculpting according to claim 2, wherein: The U-shaped rod (5) is connected to the flange via a vertical rod (8), and the vertical rod (8) is threadedly connected to the flange via bolts.
4. The rotating element for dynamic sculpting of claim 1, wherein: The end of the elongated lever (6) is bent downward to form a threaded rod (9). The elongated lever (6) is connected to the flange through the threaded rod (9). The threaded rod (9) is bolted to the flange thread.
5. The rotating element for dynamic sculpting of claim 2, wherein: The vertical rod (8) is parallel to the threaded rod (9), and the vertical rod (8) is installed vertically on the flange.
6. The rotating element for dynamic sculpting of claim 1, wherein: The U-shaped rod (5) and the long lever (6) are located on the front and back of the flange, respectively.
7. The rotating element for dynamic sculpting of claim 2, wherein: The centers of the two vertical rods (8) and the center of the threaded rod (9) are both located on the center line of the flange.
8. The dynamic sculpted spinner of claim 1, wherein: The elongated lever (6) is provided with an annular retaining ring (10) on the side near the threaded rod, and the end of the wear-resistant sleeve (7) abuts against the annular retaining ring.