A tabletop dinosaur toy
By introducing rotating rods, rotating blocks, seesaws, and gear systems into the desktop dinosaur toy, the problem of insufficient fun in existing dinosaur toys has been solved, achieving dynamic interaction and volcanic eruption effects, thus enhancing the fun of playing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN SHIBANG PLASTIC PROD
- Filing Date
- 2025-07-25
- Publication Date
- 2026-07-14
AI Technical Summary
Existing dinosaur toys lack fun, interactivity, and dynamic effects.
A desktop dinosaur toy was designed, comprising a rotating rod, a rotating block, a seesaw, a gear system, and a spring mechanism. By twisting the rotating rod, the rotating block and gear system are driven to simulate a volcanic eruption effect, causing the dinosaur toy to shake and fall, thus increasing its fun.
It achieves dynamic interactive effects for dinosaur toys, simulating volcanic eruptions, increasing the fun and interactivity for multiple players.
Smart Images

Figure CN224484911U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of dinosaur toy technology, and specifically to a desktop dinosaur toy. Background Technology
[0002] Existing dinosaur toys generally only have a static display effect and lack sufficient fun. Therefore, based on the above-mentioned shortcomings of existing dinosaur toys, it is necessary to improve them. Utility Model Content
[0003] The purpose of this invention is to provide a desktop dinosaur toy that addresses the shortcomings of existing technologies, such as insufficient fun.
[0004] To achieve the above objectives, this utility model is implemented through the following technical solution.
[0005] A desktop dinosaur toy includes an upper body and a curved base. The upper body has a rotating rod and multiple dinosaur placement positions. The upper body has a rotating block and a middle seat inside. The bottom of the rotating rod is fixed to the rotating block.
[0006] The bottom of the intermediate seat has a middle sleeve, the middle has a support, the curved base has a central column, the middle sleeve is sleeved on the outside of the central column, and the middle sleeve and the central column are covered with an intermediate seat spring.
[0007] A seesaw is pivotally connected to the support frame. The bottom of the seesaw is equipped with a seesaw spring, and a rotating hook is pivotally connected to the middle.
[0008] The top of the central column has a crossbeam, and the seesaw has a through hole. The rotating hook passes through the through hole and rotates to hook onto the crossbeam.
[0009] The rotating block is driven by a rotating seat, which has an annular upper convex edge with a notch. The bottom of the seesaw has a contact part that makes active contact with the upper convex edge.
[0010] Furthermore, the seesaw has an upper sleeve at its bottom left side and a lower sleeve formed on the middle seat. The upper sleeve is located above the lower sleeve, and a seesaw spring is fitted between the upper and lower sleeves. The seesaw spring enables the seesaw to rotate, swing, and return to its original position.
[0011] Furthermore, the rotating block is coaxially connected to a connecting plate and a main gear. The connecting plate is located above the main gear. The main gear meshes with a left gear and a right gear. The left gear meshes with a middle gear, and the middle gear meshes with a large gear. The large gear is coaxially mounted with the rotating seat. The rotation of the rotating block drives the main gear to rotate, which in turn drives the large gear to rotate, thereby causing the rotating seat to rotate as well.
[0012] Furthermore, the bottom of the rotating base passes through the intermediate base and has an upper top post, while the curved base has a lower top post that mates with the upper top post. The bottom of the upper top post and the top of the lower top post are spiral-shaped. The mate between the upper and lower top posts increases the stability of the intermediate base's vertical movement.
[0013] Furthermore, the upper body has multiple limiting rods, and the curved base has multiple outer sleeves, with the limiting rods fitted inside the outer sleeves. This increases the stability of the upper body's vertical movement.
[0014] Furthermore, the rotating rod passes from the top of the upper body towards the center, and the top of the rotating rod has a pterosaur suspension position. This increases the variety of dinosaurs and adds to the fun.
[0015] Furthermore, the dinosaur placement area has a central pillar, which makes the dinosaur more stable when placed.
[0016] Furthermore, a counterweight basket is provided on the bottom surface of the upper body, and a counterweight ball is placed inside the counterweight basket. When the rotating hook disengages from the crossbeam and the upper body moves upward, the counterweight ball increases the overall shaking, causing more dinosaur toys to fall off, increasing the fun.
[0017] The beneficial effects of this utility model are as follows: by hooking the crossbeam with a rotating hook and twisting the rotating rod, the rotating block drives the rotating seat to rotate. When the contact part of the seesaw disengages from the upper convex edge of the rotating seat, the rotating hook is triggered to disengage from the crossbeam, and the upper body returns to its original position away from the curved base, thereby generating vibration, causing the dinosaur toy placed on the upper body to fall down, simulating the effect of a volcanic eruption. It is suitable for multiple people to play and is highly entertaining. Attached Figure Description
[0018] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0019] Figure 2 This is a schematic diagram of the structure of this utility model from another angle.
[0020] Figure 3 This is a schematic diagram of the internal partial structure of the present invention. Figure 1 .
[0021] Figure 4 This is a schematic diagram of the internal partial structure of the present invention. Figure 2 .
[0022] Figure 5 This is a schematic diagram of the internal partial structure of the present invention. Figure 3 .
[0023] Figure 6 for Figure 5 Rear view diagram.
[0024] Labels and explanations:
[0025] 1. Upper body, 2. Curved base, 3. Limiting rod, 4. Outer sleeve, 5. Dinosaur placement position, 6. Column, 7. Rotating rod, 8. Pterosaur suspension position, 9. Counterweight basket, 10. Rotating block, 11. Middle seat, 12. Bracket, 13. Seesaw, 14. Upper sleeve column, 15. Lower sleeve column, 16. Seesaw spring, 17. Linkage plate, 18. Main gear, 19. Left gear, 20. Right gear, 21. Middle gear, 22. Large gear, 23. Rotating seat, 24. Upper convex edge, 25. Notch, 26. Contact part, 27. Upper top column, 28. Lower top column, 29. Middle sleeve, 30. Middle column, 31. Middle seat spring, 32. Pivot, 33. Rotating hook, 34. Crossbeam. Detailed Implementation
[0026] The present invention will be further described below with reference to the accompanying drawings.
[0027] See Figure 1 —— Figure 6 This utility model discloses a desktop dinosaur toy, comprising: an upper body 1 and a curved base 2. The upper body 1 is designed in the shape of a volcano and has multiple limiting rods 3. The bottom surface of the curved base 2 is curved, and the curved base 2 will tilt on a flat surface. The curved base 2 has multiple outer sleeves 4, and the limiting rods 3 are fitted inside the outer sleeves 4. The upper body 1 has multiple dinosaur placement positions 5, and the center of each dinosaur placement position 5 has a pillar 6. The dinosaur toy can be placed on the dinosaur placement position 5 and easily positioned by the pillar 6.
[0028] The bottom surface of the upper body 1 of this utility model is provided with a counterweight basket 9, and a counterweight ball is placed inside the counterweight basket 9, so as to increase the shaking effect when the upper body 1 shakes.
[0029] The upper body 1 of this utility model is equipped with a rotating rod 7, which, as shown in the figure, passes through the top and middle of the upper body 1. The top of the rotating rod 7 has a pterosaur suspension position 8, which can be used to suspend a pterosaur and increase the fun. Inside the upper body 1, there is a rotating block 10. The bottom of the rotating rod 7 is fixed to the rotating block 10. Twisting the rotating rod 7 can drive the rotating block 10 to rotate.
[0030] The upper body 1 of this utility model has an internally fixed intermediate seat 11. The bottom of the intermediate seat 11 has a middle sleeve 29. The curved base 2 has a middle column 30. The middle sleeve 29 is sleeved on the outside of the middle column 30. An intermediate seat spring 31 is sleeved on the middle sleeve 29 and the middle column 30. When the upper body 1 is pressed down, the intermediate seat spring 31 is compressed, so that it has a restoring elastic force.
[0031] The middle seat 11 of this utility model has a support 12 in the middle. A seesaw 13 is pivotally connected to the support 12 via a pivot 32. The bottom left side of the seesaw 13 has an upper sleeve 14. A lower sleeve 15 is formed on the middle seat 11. The upper sleeve 14 is located above the lower sleeve 15. A seesaw spring 16 is sleeved between the upper sleeve 14 and the lower sleeve 15. The elastic force of the seesaw spring 16 can make the seesaw 13 return to its original position.
[0032] The top of the central column 30 of this utility model has a horizontally arranged crossbeam 34, and the middle of the seesaw 13 is pivotally connected to a rotating hook 33. The seesaw 13 has a through hole, and the hook part of the rotating hook 33 passes through the through hole and rotates to hook the crossbeam 34.
[0033] The rotating block 10 of this utility model is coaxially connected to a connecting plate 17 and a main gear 18. The connecting plate 17 is located above the main gear 18. The main gear 18 is meshed with a left gear 19 and a right gear 20. The left gear 19 is meshed with a middle gear 21. The middle gear 21 is meshed with a large gear 22. The large gear 22 is coaxially mounted with a rotating seat 23. The rotating seat 23 has an annular upper convex edge 24. The upper convex edge 24 has a notch 25. The bottom right side of the seesaw 13 has a contact part 26, which is in contact with the upper convex edge 24.
[0034] The bottom of the rotating base 23 of this utility model passes through the intermediate base 11 and has an upper top post 27. The curved base 2 has a lower top post 28 that cooperates with the upper top post 27. The bottom of the upper top post 27 and the top of the lower top post 28 are spiral-shaped.
[0035] Press down on the upper body 1, the rotating hook 33 hooks onto the crossbeam 34, rotate the rotating rod 7, the rotating block 10 rotates and drives the main gear 18 to rotate, which in turn drives the large gear 22 to rotate through the left gear 19 and the middle gear 21. When the contact part 26 of the seesaw 13 contacts the upper protruding edge 24 of the rotating seat 23, the upper body 1 remains stationary. When the contact part 26 falls into the notch 25, under the action of the seesaw spring 16, the left side of the seesaw 13 lifts up, the right contact part 26 disengages from the upper protruding edge 24 of the rotating seat 23, the rotating hook 33 disengages from the crossbeam 34, and the upper body 1 bounces up and resets under the action of the middle seat spring 31. The shaking of the upper body 1 causes the dinosaur in the dinosaur placement position 5 to shake and fall.
[0036] Of course, the above-described embodiments are merely preferred examples of this utility model and are not intended to limit the scope of implementation of this utility model. Therefore, all equivalent changes or modifications made to the structure, features and principles described in the claims of this utility model should be included within the scope of the claims of this utility model.
Claims
1. A desktop dinosaur toy, characterized in that: It includes an upper body and a curved base. The upper body has a rotating rod and multiple dinosaur placement positions. Inside the upper body, there is a rotating block and a middle seat. The bottom of the rotating rod is fixed to the rotating block. The bottom of the intermediate seat has a middle sleeve, the middle has a support, the curved base has a central column, the middle sleeve is sleeved on the outside of the central column, and the middle sleeve and the central column are covered with an intermediate seat spring. A seesaw is pivotally connected to the support frame. The bottom of the seesaw is equipped with a seesaw spring, and a rotating hook is pivotally connected to the middle. The top of the central column has a crossbeam, and the seesaw has a through hole. The rotating hook passes through the through hole and rotates to hook onto the crossbeam. The rotating block is driven by a rotating seat, which has an annular upper convex edge with a notch. The bottom of the seesaw has a contact part that makes active contact with the upper convex edge.
2. A desktop dinosaur toy according to claim 1, characterized in that: The seesaw has an upper sleeve at the bottom left side and a lower sleeve formed on the middle seat. The upper sleeve is located above the lower sleeve, and a seesaw spring is sleeved between the upper sleeve and the lower sleeve.
3. A desktop dinosaur toy according to claim 1 or 2, characterized in that: The rotating block is coaxially connected to a connecting plate and a main gear. The connecting plate is located above the main gear. The main gear meshes with a left gear and a right gear. The left gear meshes with a middle gear. The middle gear meshes with a large gear. The large gear is coaxially mounted with the rotating seat.
4. A desktop dinosaur toy according to claim 3, characterized in that: The bottom of the rotating base passes through the middle base and has an upper top post. The curved base has a lower top post that cooperates with the upper top post. The bottom of the upper top post and the top of the lower top post are spiral-shaped.
5. A desktop dinosaur toy according to claim 1, characterized in that: The upper body has multiple limiting rods, and the curved base has multiple outer sleeves, with the limiting rods fitted inside the outer sleeves.
6. A desktop dinosaur toy according to claim 1, characterized in that: The rotating rod passes through the top of the upper body towards the middle, and the top of the rotating rod has a pterosaur suspension position.
7. A desktop dinosaur toy according to claim 1, characterized in that: The dinosaur placement area has a pillar in the middle.
8. A desktop dinosaur toy according to claim 1, characterized in that: The bottom surface of the upper body is provided with a counterweight basket, and a counterweight ball is placed inside the counterweight basket.