A multifunction dancing universal toy
Through modular design and gear meshing transmission, the problems of inflexible toy structure and limited functionality have been solved, resulting in a multifunctional omnidirectional dancing toy with strong motion coordination and interactivity, thus improving the user experience and ease of maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 蔡泽芸
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-03
AI Technical Summary
Existing toy designs are not flexible enough, making assembly and disassembly inconvenient, which leads to difficulties in repairing or replacing parts. They also have limited functionality, poor power transmission, insufficient motion stability, are prone to jamming, and lack durability, affecting user experience and cost.
Adopting a modular design, it utilizes gear meshing transmission, eccentric wheel and movable groove linkage, combined with tension spring and connecting arm to realize the swinging and omnidirectional movement of the tentacles, and the light strip lights up synchronously, enhancing the coordination and interactivity of the movements. The modular design facilitates disassembly and maintenance.
It achieves flexible and diverse toy movements, strong interactivity, good visual effects, compact structure, and multiple functions, improving the user experience and ease of maintenance.
Smart Images

Figure CN224442133U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of toy technology, and specifically relates to a multifunctional dancing omnidirectional toy. Background Technology
[0002] This multi-functional dancing toy is an educational toy for children that combines fun interaction and dynamic performance. Thanks to its omnidirectional wheels, it can move 360° flexibly, automatically turning when encountering obstacles, and adapting to various terrains. It features multiple built-in dynamic music tracks and colorful LED light effects, and can perform anthropomorphic dance movements such as head shaking, arm swinging, and spinning in sync with the music, creating an immersive play atmosphere. Made of environmentally friendly ABS material, with rounded and smooth edges, it is drop-resistant, impact-resistant, and odorless, ensuring safe play for children aged 3 and up. Simple to operate with a one-button start, it not only accompanies children in their dancing and playing but also helps develop their coordination and sense of rhythm through interaction. It's both a playmate for children and a great help for parent-child interaction, making it a suitable gift for children to grow up in joy.
[0003] Currently, toys on the market share many common problems. Structurally, the overall design is not flexible enough, and the combination and disassembly of various parts are inconvenient. Once damaged, it is often difficult to repair or replace parts individually, leading to increased usage costs. Functionally, most toys are monotonous, and there is a lack of effective coordination between different functions, making it difficult to continuously attract users' interest and resulting in a poor interactive experience. In terms of operation, some toys do not transmit power smoothly enough, have insufficient movement stability, and are prone to jamming, affecting normal use. At the same time, many toys lack durability and are prone to malfunction due to bumps and knocks during use, so their overall practicality needs to be improved. Utility Model Content
[0004] In response to the problems mentioned in the background art, the purpose of this utility model is to provide a multifunctional omnidirectional dancing toy to solve many common problems existing in toys on the market. In terms of structure, the overall design is not flexible enough, the combination and disassembly of various parts are inconvenient, and once damaged, it is often difficult to repair or replace parts individually, resulting in increased usage costs. In terms of function, most of them are simple in form, and there is a lack of effective cooperation between different functions, making it difficult to continuously attract users' interest and resulting in a poor interactive experience. In terms of operation, some toys have insufficient power transmission, insufficient movement stability, and are prone to jamming, which affects normal use.
[0005] The above-mentioned technical objective of this utility model is achieved through the following technical solution:
[0006] A multifunctional dancing omnidirectional toy includes a main shell, a gearbox installed on the inner wall of the main shell, a movable frame installed inside the main shell, a top shell installed inside the main shell, a base fixedly connected to the bottom of the main shell, a mounting seat threadedly connected to the bottom of the base, a tentacle installed at the bottom of the mounting seat, a rotating column fixedly connected to the top of the tentacle, the other end of the rotating column penetrating the mounting seat, a driven gear fixedly sleeved on the outer side of the rotating column, a transmission block fixedly sleeved on the outer wall of the output shaft at the bottom of the gearbox, a drive gear rotatably connected to the center of the top of the mounting seat, the drive gear having symmetrically spaced meshing grooves on its inner wall, the transmission block meshing with the meshing grooves, the diameter of the drive gear being larger than the diameter of the driven gear, the drive gear meshing with the driven gear, the meshing transmission of the gears allows the tentacle to swing flexibly, the structure is compact and the linkage is efficient, the cooperation of the drive gear and the driven gear improves the coordination of the movements and enhances the fun of the toy.
[0007] As a preferred technical solution, LED beads are symmetrically installed on one side of the gearbox, and a middle decorative shell is installed on one side of the main housing. The surface of the middle decorative shell has decorative grooves, which are hollowed out. An outer cover is installed on the other side of the middle decorative shell. The outer cover is made of transparent material. A pin is symmetrically fixedly connected to one side of the outer cover. A through hole is symmetrically opened on one side of the middle decorative shell. A socket is symmetrically opened inside the main housing. The pin passes through the through hole and the socket is inserted. An LED strip is installed on the top of the base. The light from the LED beads forms a unique light and shadow effect through the hollowed-out decorative grooves. The transparent outer cover enhances light transmission. The pin insertion structure is stable, easy to assemble, and improves the visual effect and ease of use.
[0008] As a preferred technical solution, a rotating seat is rotatably connected to one side of the main housing, and the output shaft on one side of the gearbox is fixedly connected to the rotating seat. Moving wheels are symmetrically installed on the other side of the rotating seat. The gearbox drives the rotating seat to drive the moving wheels to rotate, realizing flexible movement. The structure is highly efficient and improves the toy's mobility.
[0009] As a preferred technical solution, an eccentric wheel is fixedly connected to the output shaft on one side of the gearbox, and a movable slot can be opened on one side of the movable frame. The movable slot passes through the movable frame, and the eccentric wheel and the movable slot are plugged in. The plugging of the eccentric wheel and the movable slot drives the movable frame to move stably. The through design ensures smooth movement and improves transmission efficiency and structural coordination.
[0010] As a preferred technical solution, a movable block is fixedly connected to the bottom of the top shell. A square groove is opened on one side of the movable block. The inside of the square groove is threaded to the main shell. The bottom of the movable block fits into the top of the movable frame. The movable block is firmly connected to the main shell through the square groove. The fit with the movable frame drives the top shell to move together, and the structure is reliable.
[0011] As a preferred technical solution, connecting arms are symmetrically installed inside the main housing. A limit frame is threaded inside the main housing. One end of the connecting arm extends into the limit frame. A connecting block is fixedly connected to one side of the connecting arm. A tension spring is installed between the connecting blocks. The two ends of the tension spring are respectively sleeved on the outside of the connecting blocks. The bottom of the moving frame and the top of the connecting arm fit together. When the connecting arm is squeezed by the moving frame, the tension spring stretches and stores force before rebounding and resetting. The limit frame restricts the range of motion, ensuring stable and continuous movement and improving structural coordination and smoothness of action.
[0012] In summary, the present invention has the following main advantages:
[0013] In this invention, activating the switch causes the gearbox to rotate, and the bottom output shaft drives the transmission block to rotate. Because the transmission block meshes with the drive gear's meshing groove, the drive gear rotates accordingly. Furthermore, because the drive gear meshes with the driven gear, the driven gear drives the rotating column and the tentacles to swing. Simultaneously, the output shaft on one side of the gearbox drives the moving frame through an eccentric wheel and a movable groove. Combined with the connecting arm and tension spring, this allows the toy to perform dancing movements. The moving wheels allow the toy to move in all directions, and the LED strip lights up synchronously. The tentacles swing through the gearbox's drive gear transmission, and the eccentric wheel and moving frame drive the top shell to move. The connecting arm and tension spring enhance the flexibility of movement. The moving wheels enable omnidirectional movement, and the LED strip and transparent outer cover enhance the visual effect. The modular design facilitates disassembly and maintenance, and the overall structure is compact, multifunctional, and highly interactive, providing users with a rich and fun play experience. Attached Figure Description
[0014] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;
[0015] Figure 2 This is an exploded three-dimensional structural diagram of the present invention;
[0016] Figure 3 This is a three-dimensional structural diagram of the main shell of this utility model;
[0017] Figure 4 This is an exploded three-dimensional structural diagram of the base of this utility model;
[0018] Figure 5 This is a three-dimensional structural diagram of the mobile frame of this utility model;
[0019] Figure 6 This is a schematic diagram of the internal three-dimensional structure of the dental box of this utility model.
[0020] Reference numerals: 1. Main housing; 2. Intermediate decorative housing; 3. Outer cover; 4. Gearbox; 5. Base; 6. Mounting seat; 7. Drive gear; 8. Driven gear; 9. Rotating column; 10. Hand; 11. Transmission block; 12. Engaging groove; 13. LED strip; 14. Rotating seat; 15. Moving wheel; 16. Eccentric wheel; 17. Moving frame; 18. Movable groove; 19. Limiting frame; 20. Connecting arm; 21. Tension spring; 22. Connecting block; 23. LED bead; 24. Top shell; 25. Square groove; 26. Insert post; 27. Decorative pattern groove; 28. Through hole; 29. Insertion hole; 30. Movable block. Detailed Implementation
[0021] Example
[0022] refer to Figures 1 to 6 The multifunctional dancing omnidirectional toy described in this embodiment includes a main shell 1, a gearbox 4 installed on the inner wall of the main shell 1, a movable frame 17 installed inside the main shell 1, a top shell 24 installed inside the main shell 1, a base 5 fixedly connected to the bottom of the main shell 1, a mounting seat 6 threadedly connected to the bottom of the base 5, a tentacle 10 installed at the bottom of the mounting seat 6, a rotating column 9 fixedly connected to the top of the tentacle 10, the other end of the rotating column 9 penetrating the mounting seat 6, a driven gear 8 fixedly sleeved on the outer side of the rotating column 9, a transmission block 11 fixedly sleeved on the outer wall of the bottom output shaft of the gearbox 4, and a drive gear 7 rotatably connected to the center of the top of the mounting seat 6. The wall is symmetrically provided with meshing grooves 12 at equal intervals. The transmission block 11 meshes with the meshing grooves 12. The diameter of the drive gear 7 is larger than the diameter of the driven gear 8. The drive gear 7 and the driven gear 8 mesh with each other. The output shaft at the bottom of the gearbox 4 rotates, which drives the outer transmission block 11 to rotate synchronously. Because the transmission block 11 meshes with the meshing grooves 12 on the inner wall of the drive gear 7, the drive gear 7 rotates accordingly. Since the diameter of the drive gear 7 is larger than that of the driven gear 8 and the two mesh, when the drive gear 7 rotates, it drives the driven gear 8 to rotate. The driven gear 8 transmits power to the tentacles 10 through the rotating column 9, so that the tentacles 10 move together with the rotating column 9 to realize the swinging action.
[0023] refer to Figures 2 to 3The tooth box 4 has LED beads 23 symmetrically installed on one side, and a middle decorative shell 2 is installed on one side of the main shell 1. The surface of the middle decorative shell 2 has a decorative groove 27, which is hollowed out. An outer cover 3 is installed on the other side of the middle decorative shell 2. The outer cover 3 is made of transparent material. A pin 26 is symmetrically fixedly connected on one side of the outer cover 3. A through hole 28 is symmetrically opened on one side of the middle decorative shell 2. A socket 29 is symmetrically opened inside the main shell 1. The pin 26 passes through the through hole 28 and is inserted into the socket 29. A light strip 13 is installed on the top of the base 5. When the LED beads 23 on one side of the tooth box 4 are lit, the light penetrates the middle decorative shell 2 on one side of the main shell 1, forms a pattern of light and shadow through the hollowed-out decorative groove 27 on its surface, and then shines through the transparent outer cover 3. The pin 26 of the outer cover 3 passes through the through hole 28 of the middle decorative shell 2 and is inserted into the socket 29 of the main shell 1, so that the three are stably connected.
[0024] refer to Figure 1 and Figure 6 A rotating seat 14 is rotatably connected to one side of the main housing 1. The output shaft of the gearbox 4 is fixedly connected to the rotating seat 14. Moving wheels 15 are symmetrically installed on the other side of the rotating seat 14. When the output shaft of the gearbox 4 rotates, it drives the fixedly connected rotating seat 14 to rotate. The moving wheels 15 on the other side of the rotating seat 14 rotate accordingly, thus enabling the toy to move.
[0025] refer to Figures 5 to 6 An eccentric wheel 16 is fixedly connected to the output shaft on one side of the gearbox 4. A movable slot 18 can be opened on one side of the movable frame 17. The movable slot 18 passes through the movable frame 17. The eccentric wheel 16 and the movable slot 18 are inserted into each other. When the output shaft on one side of the gearbox 4 rotates, it drives the eccentric wheel 16 to rotate. Since the eccentric wheel 16 is inserted into the movable slot 18 of the movable frame 17, the eccentric wheel 16 slides in the slot when rotating, pushing the movable frame 17 to reciprocate along its eccentric trajectory. The through design of the movable slot 18 ensures that the movement is unobstructed.
[0026] refer to Figure 3 The bottom of the top shell 24 is fixedly connected to a movable block 30. A square groove 25 is provided on one side of the movable block 30. The inside of the square groove 25 is threadedly connected to the main shell 1. The bottom of the movable block 30 is in contact with the top of the movable frame 17. When the movable frame 17 moves, the movable block 30 that is in contact with its top is pushed. Because the movable block 30 is threadedly connected to the main shell 1 through the square groove 25, the movable block 30 drives the top shell 24 to move synchronously with the movable frame 17.
[0027] refer to Figures 5 to 6The main housing 1 has symmetrically installed connecting arms 20 inside. The main housing 1 has a threaded connection to a limit frame 19. One end of the connecting arm 20 extends into the limit frame 19. A connecting block 22 is fixedly connected to one side of the connecting arm 20. A tension spring 21 is provided between the connecting blocks 22. The two ends of the tension spring 21 are respectively sleeved on the outside of the connecting blocks 22. The bottom of the moving frame 17 is in contact with the top of the connecting arm 20. When the moving frame 17 moves, the bottom of the symmetrically installed connecting arm 20 is squeezed. One end of the connecting arm 20 moves within the limit frame 19. The tension spring 21 between the connecting blocks 22 on one side is stretched. When the moving frame 17 returns to its original position, the tension spring 21 rebounds and pulls the connecting arm 20 back to its original position, so that the top of the connecting arm 20 is always in contact with the bottom of the moving frame 17, ensuring continuous movement.
[0028] Operating principle and advantages: Upon activation of the switch, the gearbox 4 starts, and the bottom output shaft drives the transmission block 11 to rotate. The transmission block 11 meshes with the inner wall meshing groove 12 of the drive gear 7, causing the drive gear 7 to rotate accordingly. Because the drive gear 7 meshes with the driven gear 8 and has a larger diameter, the driven gear 8 drives the contact arm 10 to swing via the rotating column 9. Simultaneously, one side output shaft of the gearbox 4 drives the rotating seat 14 to rotate, causing the moving wheel 15 to rotate and move. The other side output shaft drives the eccentric wheel 16 to slide within the movable groove 18 of the moving frame 17, pushing the moving frame 17 to move. The bottom of the moving frame 17 presses against the connecting arm 20, and the tension spring 21 stretches and springs back to its original position, pushing the movable block 30 at the top, causing the top shell 24 to move in tandem. The LED bead 23 of the gearbox 4 illuminates, and light shines through the hollowed-out area of the middle decorative shell 27 and the transparent outer cover 3, creating a play of light and shadow.
[0029] This utility model uses a gearbox 4 to drive a gear 7 to enable the oscillation of the hand 10. The eccentric wheel 16 and the moving frame 17 drive the top shell 24 to move. The connecting arm 20 and the tension spring 21 enhance the flexibility of movement. The moving wheel 15 enables omnidirectional movement. The light strip 13 and the transparent outer cover 3 enhance the visual effect. The modular design facilitates disassembly and maintenance. The overall structure is compact, with diverse functions and strong interactivity, which can bring users a rich and interesting play experience.
Claims
1. A multi-functional dancing universal toy comprising a main housing (1), characterized in that: A gearbox (4) is installed on the inner wall of the main housing (1). A movable frame (17) is installed inside the main housing (1). A top shell (24) is installed inside the main housing (1). A base (5) is fixedly connected to the bottom of the main housing (1). A mounting seat (6) is threadedly connected to the bottom of the base (5). A tentacle (10) is installed at the bottom of the mounting seat (6). A rotating column (9) is fixedly connected to the top of the tentacle (10). The other end of the rotating column (9) passes through the mounting seat (6). A driven gear (8) is fixedly sleeved on the outside of the rotating column (9). A transmission block (11) is fixedly sleeved on the outer wall of the bottom output shaft of the gearbox (4). A drive gear (7) is rotatably connected to the center of the top of the mounting seat (6). A meshing groove (12) is symmetrically opened at equal intervals on the inner wall of the drive gear (7). The transmission block (11) meshes with the meshing groove (12).
2. A multi-functional dancing universal toy as claimed in claim 1, wherein: The diameter of the driving gear (7) is larger than the diameter of the driven gear (8), and the driving gear (7) and the driven gear (8) mesh with each other.
3. The multi-functional dancing universal toy according to claim 1, wherein: The tooth box (4) is symmetrically equipped with LED beads (23) on one side. The main housing (1) is equipped with a middle decorative shell (2) on one side. The middle decorative shell (2) has a decorative groove (27) on its surface. The decorative groove (27) is hollowed out. The middle decorative shell (2) is equipped with an outer cover (3) on the other side. The outer cover (3) is made of transparent material. The outer cover (3) is symmetrically fixed with a post (26) on one side. The middle decorative shell (2) has a through hole (28) symmetrically opened on one side. The main housing (1) has a symmetrical insertion hole (29) inside. The post (26) passes through the through hole (28) and the insertion hole (29) is inserted. The base (5) is equipped with a light strip (13) on the top.
4. The multi-functional dancing universal toy as claimed in claim 1, wherein: A rotating seat (14) is rotatably connected to one side of the main housing (1), and the output shaft of the gearbox (4) is fixedly connected to the rotating seat (14). Moving wheels (15) are symmetrically installed on the other side of the rotating seat (14).
5. The multi-functional dancing universal toy as claimed in claim 1, wherein: An eccentric wheel (16) is fixedly connected to the output shaft on one side of the gearbox (4). An movable slot (18) can be opened on one side of the movable frame (17). The movable slot (18) passes through the movable frame (17). The eccentric wheel (16) and the movable slot (18) are inserted into each other.
6. The multi-functional dancing universal toy as claimed in claim 1, wherein: The bottom of the top shell (24) is fixedly connected to a movable block (30). A square groove (25) is provided on one side of the movable block (30). The inside of the square groove (25) is threadedly connected to the main shell (1). The bottom of the movable block (30) is in contact with the top of the movable frame (17).
7. The multi-functional dancing universal toy as claimed in claim 1, wherein: The main housing (1) is symmetrically equipped with connecting arms (20). The main housing (1) is threadedly connected to a limiting frame (19). One end of the connecting arm (20) extends into the limiting frame (19). A connecting block (22) is fixedly connected to one side of the connecting arm (20). A tension spring (21) is provided between the connecting blocks (22). The two ends of the tension spring (21) are respectively sleeved on the outside of the connecting blocks (22). The bottom of the movable frame (17) is in contact with the top of the connecting arm (20).