Dinosaur egg bubble machine structure
By designing a dinosaur egg bubble machine that closely resembles an egg shape, with a built-in bubble blowing device and display stand, the problems of traditional bubble machines being inconvenient to carry and having poor decorative effects have been solved, resulting in a portable and decorative dinosaur egg bubble machine.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 陈瑾烨
- Filing Date
- 2025-06-10
- Publication Date
- 2026-06-19
AI Technical Summary
Traditional bubble machines are not portable, have poor decorative effects, exposed liquid tanks, lack creativity, and fail to provide consumers with a sense of novelty.
Design an egg-shaped shell with a built-in bubble blowing device and display stand, combined with a transparent panel and a shield. The display stand can hold ornaments, and the light source enhances the fun. The shell has a built-in liquid storage tank combined with the shield to improve portability and decorative effect.
While achieving portability, it enhances the decorative effect, increases fun, hides the liquid storage tank to prevent damage, and gives consumers a sense of novelty.
Smart Images

Figure CN224370658U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of toy bubble machines, and more particularly to the structure of a dinosaur egg bubble machine. Background Technology
[0002] Bubble machines use a peristaltic pump to apply bubble solution from a reservoir to a bubble-generating frame, and then blow bubbles using fan blades for children to play with. Traditional bubble machines are not convenient for children to carry, and besides blowing bubbles, their decorative effect is poor. In addition, the reservoir of traditional bubble machine toys is exposed, making it easy for consumers to recognize them as bubble machine toys. Overall, they lack creativity and fail to provide consumers with a sense of novelty. Utility Model Content
[0003] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a dinosaur egg bubble machine structure that is easy for children to carry and has a decorative effect.
[0004] To achieve the above objectives, the present invention adopts the following technical solution: a dinosaur egg bubble machine structure, comprising a shell nearly shaped like an egg, a bubble blowing device, and a display section. The bubble blowing device is disposed inside the shell, and a bubble outlet connected to the bubble blowing device is provided at the top of the shell. The display section includes a display stand and a transparent plate. An opening for the display section is provided on the side of the shell, and the display stand is installed inside the opening of the display section. The transparent plate is installed on the opening of the display section, and the display stand is used to install ornaments.
[0005] Furthermore, the bottom of the display stand is provided with an interface for inserting ornaments, and the top of the display stand is provided with a light outlet.
[0006] Furthermore, a shielding part is provided between the back side of the display stand and the shell, and a limiting port is provided on the shielding part. The liquid storage tank includes a top cover and a tank body. The top cover is fixed on the limiting port, and the tank body is threadedly connected to the top cover. An inlet is provided at the bottom of the shell.
[0007] Furthermore, the bottom of the can is recessed inward to form several gripping parts.
[0008] Furthermore, the bubble blowing device includes a liquid storage tank, a drive motor, a peristaltic pump, a fan blade, a bubble spreading frame, and a bubble generating frame. The bubble generating frame is installed at the bubble outlet, the bubble spreading frame is located below the bubble generating frame, the bubble spreading frame has a shaft opening in the middle, and a rotating shaft is provided on the bubble generating frame and inserted into the shaft opening. The bubble generating frame can rotate around the rotating shaft. The liquid storage tank is provided with an infusion pipe, and the infusion pipe is connected to the bubble spreading frame through the peristaltic pump.
[0009] Furthermore, the foaming frame is provided with a liquid inlet on its side, the infusion tube is connected to the liquid inlet, the foaming frame is provided with a liquid outlet on the side facing the foaming frame, the foaming frame is provided with a plurality of foaming holes, and when the foaming frame rotates, the foaming holes sweep directly above the liquid outlet.
[0010] Furthermore, the drive motor is a dual-shaft motor, the fan blades are mounted on the output shaft above the drive motor, a worm gear is provided on the output shaft below the drive motor, a turbine is provided between the peristaltic pump and the worm gear, the worm gear meshes with the turbine, a main gear is provided on the turbine, and the outer periphery of the peristaltic pump is provided with rotating teeth that mesh with the main gear.
[0011] Furthermore, the outer periphery of the bubble frame is provided with gear teeth, which mesh with the upper end of a gear rod. The lower end of the gear rod is provided with an end face gear, which meshes with a double gear, and the double gear meshes with the rotating teeth of the peristaltic pump.
[0012] Furthermore, the housing is provided with several irregular linear through holes.
[0013] Furthermore, a battery compartment is provided on the side of the housing away from the transparent panel, and a switch is provided on the housing.
[0014] The beneficial effects of this utility model are as follows: 1. The shell is equipped with a bubble blowing device and a display stand, which can not only blow bubbles for children to play with, but also display the ornaments on the display stand, enhancing the fun and decorative effect; 2. The shell is egg-shaped, round and compact, making it less likely to be bumped by children and easy for children to carry; 3. The dinosaur egg shape combined with the ornaments on the display stand makes it difficult for consumers to directly identify it as a bubble machine toy, giving consumers a sense of novelty; 4. The shell is equipped with a shielding part, which can not only cover the internal components when adding bubble liquid, but also enhance the strength of the shell, effectively preventing damage to the product during drops. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall design of this utility model.
[0016] Figure 2 This is a schematic diagram of the internal structure of the shell.
[0017] Figure 3 This is a schematic diagram of a bubble blowing device.
[0018] Figure 4 This is a schematic diagram of the display stand.
[0019] Figure 5 This is a schematic diagram of the bottom of the casing.
[0020] In the diagram: 1. Shell; 11. Bubble outlet; 12. Display opening; 13. Loading inlet; 14. Through hole; 2. Display stand; 21. Transparent panel; 22. Ornament; 23. Insertion interface; 24. Light outlet; 3. Bubble blowing device; 31. Storage tank; 311. Infusion pipe; 312. Tank body; 313. Top cover; 314. Gripper; 315. Wing; 32. Drive motor; 321. Fan blade; 322. Worm gear 33. Bubble holder; 331. Liquid inlet; 332. Liquid outlet; 333. Shaft opening; 34. Bubble frame; 341. Bubble opening; 342. Gear teeth; 343. Rotating shaft; 35. Peristaltic pump; 351. Peristaltic pump mounting cavity; 36. Gear rod; 361. End face gear; 37. Turbine; 38. Main gear; 39. Double gear; 4. Switch; 5. Shielding part; 51. Limiting port; 52. Limiting channel. Detailed Implementation
[0021] The present invention will be further described below with reference to the accompanying drawings.
[0022] refer to Figure 1 A dinosaur egg bubble machine structure includes a shell 1 that is nearly egg-shaped, a bubble-blowing device 3, and a display section. Specifically, the shell 1 is generally egg-shaped with the lower part removed to facilitate the placement of the inlet and to allow the shell to stand upright when stationary. The bubble-blowing device 3 is located inside the shell 1, and the top of the shell 1 has a bubble outlet 11 connected to the bubble-blowing device 3. When in use, bubbles are generated by the bubble-blowing device 3 and blown out from the bubble outlet 11 for children to play with. The display section includes a display stand 2 and a transparent panel 21. The side of the shell 1 has a display section opening 12, and the display stand 2 is installed inside the display section opening 12. The transparent panel 21 is installed on the display section opening 12. The display stand 2 is used to install ornaments 22, which consumers can see through the transparent panel to enhance the fun and decorative effect when blowing bubbles. It can also be used as a decorative display when not blowing bubbles. The ornaments 22 preferably include dinosaur ornaments, which, combined with the egg-shaped shell, present the theme of a dinosaur egg.
[0023] Further reference Figure 4 The bottom of the display stand 2 is provided with an interface 23. A plug-in matching the interface can be set under the ornament 22. The plug-in 22 is inserted into the interface. The top of the display stand 2 is provided with a light port 24. LED beads can be installed on the light port 24. When blowing bubbles, the LED beads illuminate the ornament inside the display stand, imitating a real display stand and further enhancing the fun.
[0024] Further reference Figure 5A shielding part 5 is provided between the back side of the display stand 2 and the shell. Specifically, the shielding part is composed of a portion extending from the back of the display stand and a portion extending from the shell. The shielding part 5 is used to prevent the internal structure from being exposed when the liquid storage tank 31 is removed, and can also strengthen the overall support strength in the middle, effectively preventing damage to the product during the drop process. A limiting port 51 is provided on the shielding part 5. The liquid storage tank includes a top cover 313 and a tank body 312. The top cover 312 is fixed on the limiting port 51. Specifically, in this embodiment, refer to... Figure 5 The top cover has winglets on both the left and right sides. The shielding part 5 is recessed upward to form a limiting channel. The winglets are located in the limiting channel to prevent the top cover from rotating left and right or moving upward. (See reference) Figure 3 The diameter of the limiting port is slightly smaller than the diameter of the bottom of the top cover to prevent the top cover from moving downward. Both of these factors prevent the top cover from moving up and down or rotating. The tank body 312 is threadedly connected to the top cover 313. An inlet 13 is provided at the bottom of the shell 1, and the liquid storage tank 31 is placed into the shell 1 through the inlet 13.
[0025] Furthermore, the bottom of the can body 312 is recessed inward to form several gripping parts 314, which are used to assist in rotating the can body 312 to remove the can body from the top cover 313.
[0026] Further reference Figure 2 , 3 The bubble blowing device includes a liquid storage tank 31, a drive motor 32, a peristaltic pump 35, a fan blade 321, a bubble-spreading frame 33, and a bubble-generating frame 34. The bubble-generating frame 34 is installed at the bubble outlet 11, and the bubble-spreading frame 33 is located below the bubble-generating frame 34. The bubble-spreading frame 33 has a shaft opening 333 in the middle, and a rotating shaft 343 is installed on the bubble-generating frame 331 and inserted into the shaft opening 333. The bubble-generating frame 34 can rotate around the rotating shaft 343. The liquid storage tank 31 is provided with a liquid delivery pipe 311, which is connected to the bubble-spreading frame 33 via the peristaltic pump 35. The peristaltic pump 35 is a commonly used device in the bubble machine field and can deliver the bubble liquid in the liquid storage pipe to the bubble-spreading frame.
[0027] Furthermore, the foaming rack 33 has a liquid inlet 331 on its side, and the infusion tube 311 is connected to the liquid inlet 331. The foaming rack 33 has a liquid outlet 332 on the side facing the foaming frame 34. The foaming frame 34 has a plurality of foaming ports 341. When the foaming frame 34 rotates, the foaming ports 341 sweep over the liquid outlet 332, and the foaming liquid is applied from the liquid outlet 332 to the foaming ports 341.
[0028] Furthermore, the drive motor 32 is a dual-shaft motor. The fan blade 321 is mounted on the output shaft above the drive motor 32. The drive motor 32 drives the fan blade 321 to run, and the fan blade 321 can blow the bubble liquid on the foaming port 341 into bubbles. A worm gear 322 is provided on the output shaft below the drive motor 32. A turbine 37 is provided between the peristaltic pump 35 and the worm gear 322. The worm gear 322 meshes with the turbine 37. A main gear 38 is provided on the turbine 37. The peristaltic pump 36 has rotating teeth on its outer periphery that mesh with the main gear 38. The drive motor 32 drives the peristaltic pump 35 to run and transport the bubble liquid. (Refer to the attached diagram.) Figure 3 When using, please include Figure 3 The outer casing on the left is installed, and the peristaltic pump is located in the peristaltic pump mounting cavity 351 on the lower side of the outer casing.
[0029] Furthermore, the outer periphery of the foaming frame 34 is provided with gear teeth 342, which mesh with the upper end of a gear rod 36. The lower end of the gear rod 36 is provided with an end face gear 361, which meshes with a double gear 39. The double gear 39 meshes with the rotating teeth of the peristaltic pump 35. When the peristaltic pump 35 is running, it drives the foaming frame 34 to rotate through the gear rod 36, so that the foaming openings 341 on the foaming frame 34 can be coated with foam liquid in sequence.
[0030] Furthermore, the housing 1 is provided with several irregular linear through holes 14, which can not only imitate the irregular crack patterns on dinosaur eggs to enhance the aesthetics, but also serve as an air inlet when the fan blades 321 are running.
[0031] Furthermore, a battery compartment is provided on the side of the housing away from the transparent plate. The battery compartment is used to install a battery that provides power. A switch 4 is provided on the housing 1. The battery, switch 4, drive motor 32, and LED beads are electrically connected.
[0032] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended embodiments and their equivalents.
Claims
1. A dinosaur egg bubble machine structure, characterized in that The device includes an egg-shaped shell, a bubble blowing device, and a display section. The bubble blowing device is located inside the shell, and the top of the shell has a bubble outlet connected to the bubble blowing device. The display section includes a display stand and a transparent panel. The side of the shell has an opening for the display section, the display stand is installed inside the opening, and the transparent panel is installed on the opening. The display stand is used to mount decorative items.
2. The dinosaur egg bubble machine structure of claim 1, wherein The bottom of the display stand is equipped with an interface for inserting ornaments, and the top of the display stand is equipped with a light outlet.
3. The dinosaur egg bubble machine structure of claim 1, wherein A shielding part is provided between the back side of the display stand and the shell, and a limiting port is provided on the shielding part. The liquid storage tank includes a top cover and a tank body. The top cover is fixed on the limiting port, and the tank body is threadedly connected to the top cover. An inlet is provided at the bottom of the shell.
4. The dinosaur egg bubble machine structure of claim 3, wherein The bottom of the can is recessed inward to form several gripping parts.
5. The dinosaur egg bubble machine structure of claim 1, wherein The bubble blowing device includes a liquid storage tank, a drive motor, a peristaltic pump, a fan blade, a bubble spreading frame, and a bubble generating frame. The bubble generating frame is installed at the bubble outlet, and the bubble spreading frame is located below the bubble generating frame. A shaft opening is provided in the middle of the bubble spreading frame, and a rotating shaft is provided on the bubble generating frame and inserted into the shaft opening. The bubble generating frame can rotate around the rotating shaft. An infusion tube is provided on the liquid storage tank, and the infusion tube is connected to the bubble spreading frame through the peristaltic pump.
6. The dinosaur egg bubble machine structure of claim 5, wherein The foaming frame has a liquid inlet on its side, and the infusion tube is connected to the liquid inlet. The foaming frame has a liquid outlet on the side facing the foaming frame. The foaming frame has several foaming holes. When the foaming frame rotates, the foaming holes sweep directly above the liquid outlet.
7. The structure of a dinosaur egg bubble machine according to claim 6, characterized in that... The drive motor is a dual-shaft motor. The fan blades are mounted on the output shaft above the drive motor. A worm gear is provided on the output shaft below the drive motor. A turbine is provided between the peristaltic pump and the worm gear. The worm gear meshes with the turbine. A main gear is provided on the turbine. Rotary teeth are provided on the outer periphery of the peristaltic pump and mesh with the main gear.
8. The structure of a dinosaur egg bubble machine according to claim 7, characterized in that... The outer periphery of the bubble frame is provided with gear teeth, which mesh with the upper end of a gear rod. The lower end of the gear rod is provided with an end face gear, which meshes with a double gear, and the double gear meshes with the rotating teeth of the peristaltic pump.
9. The structure of a dinosaur egg bubble machine according to claim 1, characterized in that... The housing is provided with several irregular linear through holes.