A multi-functional beverage machine toy
By designing an independent water and ice dispensing transmission system in the children's beverage machine toy, the problems of easy aging and high cost of traditional structures are solved, realizing multi-functional water and ice dispensing effects and enhancing the fun and interactivity of the toy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NANJING TOI TOY CO LTD
- Filing Date
- 2025-07-02
- Publication Date
- 2026-06-26
AI Technical Summary
Existing children's beverage machine toys have limited functionality, traditional drainage structures are prone to aging and have poor sealing, high production costs and complex assembly, and lack fun and interactivity.
An independent water and ice discharge transmission system was designed, using soft rubber and guide columns in conjunction with a spring structure to simulate the functions of water and ice dispensing, simplifying the structure and reducing production costs.
It improves the playability and fun of toys, reduces production costs, meets children's demand for multifunctional and interactive toys, and stimulates children's imagination and creativity.
Smart Images

Figure CN224404355U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of children's interactive toy technology, specifically a multi-functional beverage machine toy. Background Technology
[0002] Most children's beverage dispensers on the market are limited in function, with many featuring cartoon designs and serving only as drinking water dispensers, lacking any real playability. The drainage mechanisms of existing products mostly rely on pressing silicone components to create gaps for water flow; besides T-shaped silicone components, this requires silicone conduits, fixing structures, etc. Pressing these components deforms the silicone, creating gaps with the fixing structures for water flow. However, traditional T-shaped silicone component gap-type drainage structures require frequent pressing, leading to aging and a decrease in sealing performance over time. Relying on specifically shaped silicone components and multiple fixing structures, such as clips and brackets, results in high production costs and complex, inefficient assembly of the entire structure. Summary of the Invention
[0003] In view of the shortcomings of the prior art, this utility model discloses a multifunctional beverage machine toy to solve the problems mentioned in the background art.
[0004] To achieve the above objectives, this utility model provides the following technical solution: a multifunctional beverage machine toy, comprising a water tank, an upper shell, a lower shell, a water-feeding structure assembly, and an ice-feeding structure assembly. The water tank is internally divided by a partition, including cavities on the left and right sides for filling water and ice components, respectively. The water tank is located at the upper end of the upper shell, which is connected to the lower shell. The water-feeding structure assembly is located on the left side of the lower shell and corresponds to the left cavity of the water tank. The ice-feeding structure assembly is located on the right side of the lower shell and corresponds to the right cavity of the water tank.
[0005] The drainage structure assembly includes a soft rubber, a drainage sleeve, a drainage support, and a water outlet. The lower left side of the water tank is connected to the soft rubber. The upper end of the soft rubber is fitted into the first circular hole on the upper left side of the upper housing, and the lower end of the soft rubber is inserted above the drainage sleeve. The drainage support is fixedly installed inside the lower housing on the left side, and the lower end of the drainage sleeve slides inside the drainage support. The lower end of the drainage support has a water outlet. The front end of the drainage sleeve has a drainage button. By pressing the drainage button downwards, the lower end of the soft rubber and the upper end of the drainage sleeve are separated to create a gap. The water in the left part of the water tank flows downwards from the drainage sleeve and flows out from the water outlet.
[0006] The ice-feeding structure component includes an ice-feeding button, an ice-feeding moving block, and an ice outlet. The ice-feeding moving block is located inside the right side of the lower housing. The upper right side of the upper housing has a second circular hole. The lower right side of the water tank connects to the second circular hole and is aligned with the ice outlet on the right side of the lower housing. A baffle is provided at the upper end of the ice-feeding moving block. The baffle passes between the upper end of the ice outlet and the lower end of the water tank. By pressing the ice-feeding button at the front end of the ice-feeding moving block, the ice-feeding moving block moves backward inside the lower housing, and drives the baffle to move backward synchronously, thereby opening the channel between the ice outlet and the water tank. The ice block components filled on the right side of the water tank fall down along the ice outlet.
[0007] Preferably, the drain sleeve is provided with first guide posts on both sides, and the drain support is provided with cylinders on the upper ends of both sides. The first guide posts are inserted into the cylinders on the corresponding sides, and the drain sleeve moves vertically by sliding the first guide posts and the cylinders.
[0008] Preferably, a first spring is sleeved on the first guide post. The first guide post and the first spring cooperate with each other so that the drain sleeve can return to its initial position after being pressed by the first spring.
[0009] Preferably, the drain button extends out of the front wall of the lower housing and is located on the outside of the lower housing. Pressing the drain button controls the movement of the drain sleeve.
[0010] Preferably, the back of the lower housing is provided with a back housing, and the inner vertical end of the back housing is provided with a second guide post. The back wall of the lower ice moving block is provided with a circular groove in the vertical direction. The second guide post is inserted into the circular groove. The lower ice moving block moves in the forward and backward direction by sliding between the second guide post and the circular groove.
[0011] Preferably, a second spring is sleeved on the second guide post. The second guide post and the second spring cooperate with each other so that the ice-down button returns to its initial position after being pressed by the spring.
[0012] Preferably, the water tank is provided with a water tank cover at the top, which provides airtight protection for the inside of the water tank.
[0013] Compared with existing technologies, the beneficial effects of this utility model are as follows: By setting up two independent water and ice-dropping transmission systems, this utility model achieves multi-functionality, enabling both water collection and the placement of ice blocks and other accessories, greatly improving the toy's playability. Its innovative water and ice-dropping structure design not only simplifies the overall structural components and reduces production costs, but also meets the market demand for children's toys that combine fun and interactivity. It provides children with a fun-filled simulated beverage-making scenario, stimulating their imagination and creativity, and accompanying them through joyful playtime. Attached Figure Description
[0014] The accompanying drawings are provided to further understand the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention and do not constitute a limitation thereof.
[0015] In the attached diagram:
[0016] Figure 1 This is a schematic diagram of the overall structure of the multifunctional beverage machine toy of this utility model;
[0017] Figure 2 This is a structural schematic diagram of the drainage structure component of this utility model;
[0018] Figure 3 This is a side sectional view of the drainage structure component of this utility model;
[0019] Figure 4 This is an internal cross-sectional view of the ice-reducing structure component of this utility model;
[0020] Labels in the diagram: 1. Water tank cover; 2. Water tank; 3. Upper shell; 4. Soft rubber; 5. Water discharge button; 6. First spring; 7. Water outlet; 8. Ice discharge button; 9. Second spring; 10. Ice outlet; 11. Lower shell; 12. Back shell; 13. Water discharge sleeve; 14. Water discharge support; 15. First guide post; 16. Cylinder; 17. Second guide post; 18. Circular groove; 19. Baffle; 20. Ice discharge moving block. Detailed Implementation
[0021] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention.
[0022] Example: Figure 1As shown, this utility model provides a multifunctional beverage machine toy with an ingenious design and excellent comprehensive performance. Whether simulating the fun experience of real water or ice dispensing, it can bring endless joy to children. Specifically, it includes a water tank 2, an upper shell 3, a lower shell 11, a water dispensing structure component, and an ice dispensing structure component. The interior of the water tank 2 is divided into two independent cavities by a partition, which respectively serve to fill the water flow and ice cube components. A water tank cover 1 is provided at the top of the water tank 2 to achieve airtight protection of the internal space, effectively preventing accidental leakage of water flow and ice cube components during play and ensuring the normal use of the toy. The water tank 2 is located at the top of the upper shell 3, and the upper shell 3 is closely connected to the lower shell 11 to form the overall frame of the toy. The water dispensing structure component is located on the left side of the lower shell 11 and corresponds to the left cavity of the water tank 2. The ice dispensing structure component is located on the right side of the lower shell 11 and corresponds to the right cavity of the water tank 2.
[0023] like Figures 2-3 As shown, the drainage structure assembly includes a soft rubber 4, a drainage sleeve 13, a drainage support 14, and a water outlet 7. The lower left side of the water tank 2 is connected to the soft rubber 4. The upper end of the soft rubber 4 is fitted into the first round hole on the upper left side of the upper housing 3, and the lower end of the soft rubber 4 is inserted above the drainage sleeve 13. The drainage support 14 is fixedly installed inside the lower housing 11 on the left side by a fixed post, and the lower end of the drainage sleeve 13 slides inside the drainage support 14. A water outlet 7 is provided, and a water dispensing button 5 is provided at the front end of the water dispensing sleeve 13. The water dispensing button 5 extends out of the front wall of the lower housing 11 and is located on the outside of the lower housing 11. Pressing the water dispensing button 5 controls the movement of the water dispensing sleeve 13. By pressing the water dispensing button 5 downward, the lower end of the soft rubber 4 and the upper end of the water dispensing sleeve 13 are separated to create a gap. The water flow located on the left side of the water tank 2 flows downward from the water dispensing sleeve 13 and finally flows out from the water outlet 7, simulating the water dispensing effect of a real beverage machine. The device includes a first guide post 15 on each side of the drain sleeve 13, and a cylinder 16 on each side of the upper end of the drain support 14. The first guide post 15 is inserted into the corresponding cylinder 16. The drain sleeve 13 moves vertically by sliding the first guide post 15 and the cylinder 16. A first spring 6 is fitted on the first guide post 15. The length of the first spring 6 is longer than the first guide post 15. The first guide post 15 and the first spring 6 work together to allow the drain sleeve 13 to return to its initial position after being pressed by the first spring 6. In the initial position, the drain structure assembly remains sealed, ensuring that the drain structure assembly remains sealed when not in operation, preventing water leakage and maintaining the water storage capacity inside the toy.
[0024] like Figure 4As shown, the ice-feeding structure includes an ice-feeding button 8, an ice-feeding moving block 20, and an ice outlet 10. The ice-feeding moving block 20 is located inside the right side of the lower housing 11. The upper right side of the upper housing 3 has a second round hole. The lower right side of the water tank 2 is connected to the second round hole and is connected to the ice outlet 10 on the right side of the lower housing 11. The ice outlet 10 is fixed to the right side of the lower housing 11 by a fixed post. The upper end of the ice-feeding moving block 20 has a baffle 19. The baffle 19 is inserted between the upper end of the ice outlet 10 and the lower end of the water tank 2. By pressing the ice-feeding button 8 at the front end of the ice-feeding moving block 20, the ice-feeding moving block 20 moves backward inside the lower housing 11, and drives the baffle 19 to move backward in sync, thereby opening the channel between the ice outlet 10 and the water tank 2. The ice block accessories filled on the right side of the water tank 2 fall down along the ice outlet 10, bringing a fun ice-feeding experience. A back shell 12 is located on the back of the lower shell 11. A second guide post 17 is provided on the vertical end of the inner side of the back shell 12. A circular groove 18 is provided vertically on the back wall of the lower ice moving block 20. The second guide post 17 is inserted into the circular groove 18. The sliding between the second guide post 17 and the circular groove 18 allows the lower ice moving block 20 to move back and forth. A second spring 9 is fitted on the second guide post 17. The second spring 9 is longer than the second guide post 17. Through the interaction of the second guide post 17 and the second spring 9, the lower ice button 8 returns to its initial position after being pressed. In the initial position, the lower ice structure assembly remains sealed, closing the ice outlet 10 channel and ensuring that the ice block accessories will not accidentally fall out when not in use. This ensures sufficient ice block accessories are stored inside the toy for repeated play by children. In this embodiment, the ice block accessories are simulated ice block toy accessories.
[0025] Furthermore, the appearance of the water entry button 5 and the ice entry button 8 can be customized and changed according to needs to increase their fun.
[0026] When using this multi-functional beverage machine toy:
[0027] 1) Water dispensing function:
[0028] First, fill the left cavity of water tank 2 with water and ensure that the water tank cover 1 is sealed to prevent water leakage. Press the drain button 5, which is located on the outer side of the front wall of the lower housing 11. The pressing action causes the drain sleeve 13 to slide downward inside the drain support 14. At this time, the lower end of the soft rubber 4 separates from the upper end of the drain sleeve 13, creating a gap. The water in the left cavity of water tank 2 can flow into the drain sleeve 13 through the gap and flow out through the outlet 7 at the lower end of the drain support 14. Release the drain button 5. Under the action of the first spring 6 on the first guide post 15, the drain sleeve 13 springs back to its initial position. At this time, the drain structure assembly remains sealed, preventing water from continuing to flow out.
[0029] 2) Ice dispensing function:
[0030] First, fill the ice components into the right cavity of water tank 2, and protect the interior using water tank cover 1. Press the ice-dropping button 8, located at the front end of the ice-dropping moving block 20 on the outer front of the lower housing 11. When the ice-dropping moving block 20 is pressed, it moves backward inside the lower housing 11, simultaneously moving the upper baffle 19 to open the ice outlet 10. The ice components filled in the right cavity of water tank 2 fall down along the ice outlet 10. Release the ice-dropping button 8, and the ice-dropping moving block 20 returns to its initial position under the action of the second spring 9 on the second guide post 17 inside the back housing 12. The ice-dropping structure remains sealed, preventing the ice components from falling further.
[0031] When it is necessary to stop using the water supply and ice supply components, ensure that both are sealed to prevent accidental leakage of water and ice. The water tank cap 1 can be opened to empty any remaining water and ice for later refilling.
[0032] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A multi-functional beverage machine toy, characterized in that: The device includes a water tank, an upper shell, a lower shell, a water drainage structure assembly, and an ice drainage structure assembly. The water tank is internally divided by a partition. The water tank is located at the upper end of the upper shell, which is connected to the lower shell. The water drainage structure assembly is located on the left side of the lower shell and corresponds to the left cavity of the water tank. The ice drainage structure assembly is located on the right side of the lower shell and corresponds to the right cavity of the water tank. The drainage structure assembly includes a soft rubber, a drainage sleeve, a drainage support, and a water outlet. The lower left side of the water tank is connected to the soft rubber. The upper end of the soft rubber is fitted into the first circular hole on the upper left side of the upper housing, and the lower end of the soft rubber is inserted above the drainage sleeve. The drainage support is fixedly installed inside the lower housing on the left side, and the lower end of the drainage sleeve slides inside the drainage support. The lower end of the drainage support has a water outlet. The front end of the drainage sleeve has a drainage button. By pressing the drainage button downwards, the lower end of the soft rubber and the upper end of the drainage sleeve are separated to create a gap. The water in the left part of the water tank flows downwards from the drainage sleeve and flows out from the water outlet. The ice-feeding structure component includes an ice-feeding button, an ice-feeding moving block, and an ice outlet. The ice-feeding moving block is located inside the right side of the lower housing. The upper right side of the upper housing has a second circular hole. The lower right side of the water tank connects to the second circular hole and is aligned with the ice outlet on the right side of the lower housing. A baffle is provided at the upper end of the ice-feeding moving block. The baffle passes between the upper end of the ice outlet and the lower end of the water tank. By pressing the ice-feeding button at the front end of the ice-feeding moving block, the ice-feeding moving block moves backward inside the lower housing, and drives the baffle to move backward synchronously, thereby opening the channel between the ice outlet and the water tank. The ice block components filled on the right side of the water tank fall down along the ice outlet.
2. The multifunctional beverage machine toy according to claim 1, characterized in that: The drain sleeve is provided with first guide posts on both sides, and the drain support is provided with corresponding cylinders on the upper ends of both sides. The first guide posts are inserted into the cylinders on the corresponding sides. The drain sleeve moves vertically by sliding the first guide posts and the cylinders.
3. The multifunctional beverage machine toy according to claim 2, characterized in that: A first spring is fitted on the first guide post. The first guide post and the first spring cooperate with each other so that the drain sleeve can be returned to its initial position by the spring after being pressed.
4. The multifunctional beverage machine toy according to claim 1, characterized in that: The drain button extends out of the front wall of the lower housing and is located on the outside of the lower housing. Pressing the drain button controls the movement of the drain sleeve.
5. A multi-functional beverage machine toy according to claim 1, characterized in that: The lower housing has a back housing on its back side. The inner vertical end of the back housing is provided with a second guide post. The back wall of the lower ice moving block is provided with a corresponding circular groove in the vertical direction. The second guide post is inserted into the circular groove. The lower ice moving block moves forward and backward by sliding between the second guide post and the circular groove.
6. A multi-functional beverage machine toy according to claim 5, characterized in that: A second spring is fitted on the second guide post. The second guide post and the second spring work together to allow the ice-drop button to return to its initial position after being pressed.
7. A multi-functional beverage machine toy according to claim 1, characterized in that: The water tank is equipped with a water tank cover at the top, which seals and protects the inside of the water tank.