A child squeeze water toy
By combining the elastomer water storage component with the rigid positioning component and the spray component, the problem of maintaining a negative pressure state due to gaps in existing children's water squeezing toys is solved, achieving a stable water absorption and spraying effect, improving the play experience, and providing a massage function.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HAPE INTERNATIONAL (NINGBO) LTD
- Filing Date
- 2025-08-02
- Publication Date
- 2026-07-14
Smart Images

Figure CN224484909U_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of toy technology, and more specifically to a children's squeezing toy. Background Technology
[0002] Children's water-squeezing toys are a popular type of safe and fun toy designed specifically for children's bath time in recent years. They combine the physical principle of atmospheric pressure with children's entertainment needs. By pressing the toy, the air inside is expelled. At this time, the air pressure inside the toy is significantly lower than the external atmospheric pressure. The external atmospheric pressure forces the water into the toy. After the water is sucked in, squeezing the toy again will release the water, creating a spraying effect and adding more fun to bath time.
[0003] Currently, most children's water-squeezing toys on the market consist of two opposing elastic components. Both elastic components are hollow bowl-shaped structures. When they are facing each other, their internal spaces are interconnected, forming a water storage cavity. The two elastic components are fixed together by threads machined on their inner and outer peripheral walls. One of the elastic components has a water passage hole. When the elastic component is squeezed, it deforms under pressure, causing the air in the water storage cavity to be expelled and water to be absorbed. When squeezed again, water is sprayed out through the water passage hole.
[0004] The above-mentioned children's water-squeezing toys have the following technical defects: due to the softness of the elastic material itself, when the elastic element is squeezed to absorb water, the entire toy will deform unevenly. This deformation causes gaps to appear at the threaded mating parts. The water storage cavity can be directly connected to the external space through these gaps, making it difficult to maintain the necessary negative pressure state inside. Ultimately, the water absorption performance of the toy will be greatly reduced, and the expected water spraying effect cannot be achieved, which seriously affects the play experience. Summary of the Invention
[0005] To address the above issues, and to overcome the problem that current children's squeezing toys composed of two opposing elastic elements will have gaps at the mating points of the two elastic elements when squeezing and absorbing water, making it difficult to maintain a negative pressure state inside the water storage cavity, affecting the toy's water absorption performance, failing to achieve the expected water spraying effect, and seriously impacting the play experience, the purpose of this utility model is to provide a squeezing toy with good connection sealing, which can stably maintain a negative pressure environment in the water storage cavity when squeezing and absorbing water, ensuring smooth water absorption, thereby achieving the expected water spraying effect and providing children with a better play experience.
[0006] To achieve the above objectives, the technical solution of the present invention is:
[0007] A children's water-squeezing toy includes a water-storing component that is an elastomer, a rigid positioning component, and a spraying component. The water-storing component has a water-storing cavity inside and a first mounting port at the bottom that communicates with the water-storing cavity. The positioning component is embedded in the first mounting port and forms an interference fit with the water-storing component. The positioning component has a second mounting port that communicates with the water-storing cavity and an external space. The spraying component is embedded in the second mounting port and is fixedly connected to the positioning component. The spraying component has spray holes that are opposite to the second mounting port and communicate with the water-storing cavity and an external space.
[0008] Preferably, the positioning component includes a first central connecting portion and a first supporting portion located on its outer peripheral wall. A first mounting port is located at the first central connecting portion, and a first step is formed between the first central connecting portion and the first supporting portion. The first central connecting portion is inserted into the first mounting port and forms an interference fit with the water storage component. The first step abuts against the outer edge of the first mounting port.
[0009] Preferably, the inner peripheral wall of the second mounting port has a limiting protrusion that abuts against the spray component and forms an interference fit.
[0010] Preferably, the spray component includes a second central connecting part and a second supporting part located on its outer peripheral wall. The spray hole is located on the second supporting part. A second step is formed between the second central connecting part and the second supporting part. The second central connecting part is inserted into the second mounting port. The second step abuts against the positioning member. The outer peripheral wall of the second central connecting part has a locking block. The locking block abuts against the outer edge of the second mounting port vertically.
[0011] Preferably, the number of card blocks is three, and the three card blocks are distributed at equal angles around the center of the second support.
[0012] Preferably, the bottom of the second support is provided with massage protrusions, the free ends of which are hemispherical.
[0013] Preferably, the water storage component has a head and a skirt, the head and the skirt converge towards each other on their proximal sides and are connected as one piece, the skirt flares outward and the bottom is provided with notches in sequence along the direction, the water storage cavity is located at the head and the first installation port is located at the skirt.
[0014] Preferably, the bottom of the skirt has a recessed cavity that protrudes towards the water storage chamber, and the positioning element and the spraying element are both built into the recessed cavity.
[0015] Preferably, the water storage component is made of PVC.
[0016] Preferably, the positioning element and the spraying element are made of plastic.
[0017] Compared with the prior art, the advantages of the present invention are as follows:
[0018] This utility model discloses a children's water-squeezing toy comprising a water-storing component made of an elastomer, a rigid positioning component, and a spraying component. The water-storing component has a water-storing cavity inside and a first mounting port at the bottom that connects to the water-storing cavity. The positioning component is embedded in the first mounting port, and the diameter of the first mounting port is smaller than that of the positioning component. This forces the first mounting port to expand, causing the water-storing component to deform. The water-storing component portion at the outer edge of the first mounting port can form an interference fit with the positioning component. When the water-storing component is deformed under pressure or recovers its deformation, due to the stable shape and structure of the positioning component and the elasticity of the material of the water-storing component, the outer edge of the first mounting port will continuously apply radial contact pressure to the positioning component, thereby maintaining the interference fit without creating gaps, achieving dynamic sealing, preventing changes in the negative pressure state of the water-storing cavity when absorbing water, greatly improving the water absorption performance, achieving the expected water spraying effect, and enhancing the children's play experience. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the overall structure of the children's water-squeezing toy of this utility model;
[0020] Figure 2 This is a schematic diagram of the overall structure of the children's water-squeezing toy from another perspective;
[0021] Figure 3 This is a cross-sectional structural diagram of the children's water-squeezing toy of this utility model;
[0022] Figure 4 This is a utility model Figure 3 A magnified structural diagram of part A;
[0023] Figure 5 This is an exploded structural diagram of the children's water-squeezing toy of this utility model;
[0024] Figure 6 This is a schematic diagram of the overall structure of the water storage component of the children's water-squeezing toy of this utility model;
[0025] Figure 7 This is a schematic diagram of the overall structure of the positioning component for the children's wringer toy of this utility model;
[0026] Figure 8 This is a schematic diagram of the overall structure of the spray component of the children's water-squeezing toy of this utility model.
[0027] As shown in the figure:
[0028] 1. Water storage component; 1a. Head; 1b. Skirt; 101. Water storage cavity; 102. First mounting port; 103. Notch; 104. Recess; 2. Positioning component; 2a. First central connection; 2b. First support; 201. Second mounting port; 202. First step; 203. Limiting protrusion; 3. Spray component; 3a. Second central connection; 3b. Second support; 301. Spray hole; 302. Second step; 302a. Locking block; 303. Massage protrusion. Detailed Implementation
[0029] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0030] In the description of this utility model, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship that the utility model product is usually placed in during use. They are only for the purpose of simplifying the description and do not indicate or imply that the orientation is a specific orientation or specific orientation structure and operation. Therefore, they should not be construed as limiting this utility model.
[0031] like Figures 1 to 5As shown, a children's water-squeezing toy includes a water storage component 1, a positioning component 2, and a spraying component 3. The water storage component 1 is an elastomer, which can be made of elastic materials such as PVC, silicone, or rubber. The water storage component 1 has a water storage cavity 101 inside. When subjected to pressure from human squeezing or other external objects, the water storage component 1 will undergo elastic deformation, causing the water storage cavity 101 to contract. Upon recovery of deformation, it will expand and return to its original shape, thus changing its volume. The positioning component 2 and the spraying component 3 are molded from rigid materials such as metal or conveyor, resulting in a stable structure that is not easily deformed under external forces. The water storage component 1 has a first mounting port 102 at its bottom that connects to the water storage cavity 101. The water storage cavity 101 communicates with the external space through the first mounting port 102, thereby allowing the water storage cavity 101 to... During contraction, air is expelled outwards, creating negative pressure inside, or external water or air enters the water storage component 1, causing it to recover its deformation or simultaneously complete the water absorption action. The positioning component 2 is embedded in the first mounting opening 102, the diameter of which is smaller than that of the positioning component 2. This forces the first mounting opening 102 to expand, causing the water storage component 1 to deform. The portion of the water storage component 1 at the outer edge of the first mounting opening 102 can form an interference fit with the positioning component 2. When the water storage component 1 deforms under pressure or recovers its deformation, due to the stable shape and structure of the positioning component 2 and the resilience of the material of the water storage component 1, the outer edge of the first mounting opening 102 continuously applies radial contact pressure to the positioning component 2, thereby maintaining the interference fit without creating gaps, achieving dynamic sealing, and preventing water absorption. The change in negative pressure in the water storage chamber 101 significantly improves water absorption and achieves the expected spraying effect, enhancing the children's play experience. The positioning component 2 has a second mounting port 201, which connects the water storage chamber 101 to the external space, preventing the water storage chamber 101 from being blocked by the positioning component 2 installed in the first mounting port 102. The spray component 3 is embedded in the second mounting port 201 and fixedly connected to the positioning component 2. This embedded method serves as a detachable fixed connection, allowing the positioning component 2 and the spray component 3 to be molded separately, thus reducing manufacturing difficulty and providing a lower assembly difficulty advantage. It also facilitates independent cleaning; after cleaning, it can be reassembled. The spray component 3 has spray holes 301, and the number of spray holes 301 is not particularly limited. Ideally, the number of spray holes 301 is large. Multiple spray holes 301 will increase the number of water columns formed during water absorption and spraying, and enhance the water absorption and spraying effect. Each spray hole 301 is opposite to the second mounting port 201 and connects the water storage cavity 101 to the external space. The spray holes 301 establish a communication channel between the water storage cavity 101 and the external space. Water and air can flow to both sides through the spray holes 301. When the water storage component 1 is squeezed into an elastic body, the water storage component 1 will undergo elastic deformation, causing the water storage cavity 101 to contract. The air in the water storage cavity 101 is discharged outward through the spray holes 301 of the spray component 3, creating a negative pressure inside the water storage cavity 101. After releasing the water storage component 1, the water storage component 1 recovers its deformation by its own elasticity, and the water storage cavity 101 expands and returns to its original state.Under atmospheric pressure, water is forced from the spray nozzle 301 into the water storage chamber 101, filling the chamber and completing the water intake process. Finally, squeezing the water storage component 1 again causes the water storage chamber 101 to contract, spraying water out of the spray nozzle 301 and completing the water spraying action. Children can repeat these steps to play.
[0032] like Figures 3 to 7 As shown, the positioning component 2 includes a first central connecting part 2a and a first supporting part 2b. The first supporting part 2b is located on the outer peripheral wall of the first central connecting part 2a and is annular in shape. The first central connecting part 2a has a certain thickness, so that the positioning component 2 can be embedded into the first mounting port 102 through the first central connecting part 2a and have an interference fit with the outer edge of the first mounting port 102, forming a large contact surface area. At the same time, a first step position 202 is formed between the first central connecting part 2a and the first supporting part 2b. The first step position 202 abuts against the outer edge of the first mounting port 102 to provide support for the water storage component 1. It can be understood that the first step position 202 has an annular orientation, so the contact surface between the outer edge of the first mounting port 102 and the first step position 202 is continuously distributed, realizing a stable connection between the positioning component 2 and the water storage component 1.
[0033] like Figures 3 to 5 as well as Figure 7 and Figure 8 As shown, the inner peripheral wall of the second mounting port 201 has a limiting protrusion 203. The limiting protrusion 203 of this utility model is also annular in shape. The limiting protrusion 203 abuts against the spraying component 3, so that the contact surface between the limiting protrusion 203 and the spraying component 3 is continuously distributed and forms an interference fit. Under the clamping action of the limiting protrusion 203, the spraying component 3 can be stably held in the second mounting port 201.
[0034] like Figures 3 to 5 as well as Figure 7 and Figure 8As shown, the spray component 3 includes a second central connecting portion 3a and a second supporting portion 3b. Similar to the positioning component 2, the second supporting portion 3b is located on the outer peripheral wall of the second central connecting portion 3a, and the shape of the second supporting portion 3b is annular. The spray hole 301 is located on the second supporting portion 3b. A second step 302 with an annular shape is formed between the second central connecting portion 3a and the second supporting portion 3b. The second central connecting portion 3a is inserted into the second mounting port 201, and it abuts against the limiting protrusion 203 on the inner peripheral wall of the second mounting port 201 to form a transition. With proper fit, the second step 302 abuts against the bottom of the positioning member 2, providing support for the positioning member 2. At this time, the contact surfaces between the second step 302 and the positioning member 2 will also be continuously distributed. Meanwhile, the outer peripheral wall of the second central connecting part 3a has a locking block 302a, which abuts against the outer edge of the second mounting port 201. More specifically, the locking block 302a abuts against the top of the first central connecting part 2a. With the cooperation of the second step 302, the positioning member 2 and the spraying member 3 will form a limiting relationship with each other, achieving a more stable connection.
[0035] Furthermore, there are three locking blocks 302a, and the three locking blocks 302a are distributed at equal angles around the center of the second support part 3b. That is, the included angle between the lines connecting the three locking blocks 302a to the center of the second central connecting part 3a is 120°. Based on the above settings, it is ensured that the contact points between the locking blocks 302a and the second central connecting part 3a of the positioning member 2 are evenly distributed, and the stability of the connection between the positioning member 2 and the spraying member 3 is further enhanced by balancing the force.
[0036] like Figures 1 to 5 As shown, the children's water-squeezing toy of this utility model also has a special massage function. Massage protrusions 303 are arranged at the bottom of the second support part 3b of the spray component 3. The free ends of the massage protrusions 303 are hemispherical. When in contact with the skin, the massage protrusions 303 can provide children with a gentle massage sensation through the rounded curved surfaces of their respective free ends, thereby obtaining a comfortable experience. The number of massage protrusions 303 can be flexibly adjusted according to actual needs to meet the needs of different massage intensities.
[0037] like Figure 1 and Figure 2As shown, the water storage component 1 has a head 1a and a skirt 1b. The head 1a and the skirt 1b converge towards each other on their proximal sides and are connected as one piece. The skirt 1b flares outward, and notches 103 are sequentially opened along the bottom direction. A protrusion is formed between adjacent notches 103. The water storage cavity 101 is located in the head 1a, and the first mounting port 102 is located in the skirt 1b. Since the water storage component 1 is the main part of the children's squeezing toy of this utility model, the entire toy is given the shape of a jellyfish. The rounded lines of the head 1a correspond to the head 1a of the jellyfish, and the outer surface of the head has cute expression patterns (not shown in the figure). The protrusion between adjacent notches 103 in the skirt 1b corresponds to the tentacles of the jellyfish. The rounded and cute shape will bring a sense of psychological comfort to children. Combined with the elastic material and cute expression, it can increase the comforting effect.
[0038] like Figures 2 to 4 As shown, the bottom of the skirt portion 1b has a recess 104 that protrudes towards the water storage cavity 101. The positioning member 2 and the spraying member 3 are both built into the recess 104. From an external perspective, only the massage protrusion 303 of the spraying member 3 is exposed outside the recess 104; the remaining parts of the positioning member 2 and the spraying member 3 are hidden, thus making the shape of this children's water-squeezing toy more closely resemble the shape of a jellyfish.
[0039] Furthermore, the water storage component 1 is made of PVC. Firstly, the resilience of PVC meets the requirement that the water storage component 1 needs to form a negative pressure in the internal water storage cavity 101 through deformation to complete the water absorption and spraying action. Secondly, PVC is non-toxic and heat-resistant, which can avoid the risk of children accidentally biting it, and it is also suitable for playing in hot water.
[0040] Furthermore, the positioning component 2 and the spray component 3 are made of plastic. Plastic has the advantages of low cost and easy molding, and its structure and shape are stable, which can effectively maintain an interference fit with the first installation port 102 when the water storage component 1 is deformed.
[0041] Combination Figures 1 to 8 When children play with this water-squeezing toy, the entire toy is first placed in water and then squeezed into a PVC water storage component 1. The water storage component 1 will undergo elastic deformation, causing the water storage cavity 101 to contract. The air inside the water storage cavity 101 is discharged outward through the spray hole 301 of the spray component 3, creating negative pressure inside the water storage cavity 101. Then, the water storage component 1 is released, and it recovers its deformation due to its own elasticity. The water storage cavity 101 expands and returns to its original shape. Under the action of atmospheric pressure, water will be forced into the water storage cavity 101 from the spray hole 301, filling the water storage cavity 101 and completing the water absorption action. Finally, the water storage component 1 is squeezed again to cause the water storage cavity 101 to contract again, and the water will be sprayed out from the spray hole 301, completing the water spraying action. Children can repeat the above steps to play. In addition, children can also use the massage protrusions 303 to massage their skin, providing a comfortable play experience for water play.
[0042] The embodiments and descriptions above are merely illustrative of the principles and preferred embodiments of this utility model. Various changes and modifications may be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of this utility model as claimed.
Claims
1. A children's water-squeezing toy, characterized in that, It includes a water storage component (1) made of an elastomer, a rigid positioning component (2) and a spray component (3). The water storage component (1) has a water storage cavity (101) inside and a first mounting port (102) connected to the water storage cavity (101) is formed at the bottom. The positioning component (2) is embedded in the first mounting port (102) and forms an interference fit with the water storage component (1). The positioning component (2) has a second mounting port (201) which connects the water storage cavity (101) and the external space. The spray component (3) is embedded in the second mounting port (201) and is fixedly connected to the positioning component (2). The spray component (3) has a spray hole (301) which is opposite to the second mounting port (201) and connects the water storage cavity (101) and the external space.
2. The children's water-squeezing toy according to claim 1, characterized in that, The positioning component (2) includes a first central connecting part (2a) and a first supporting part (2b) located on its outer peripheral wall. The first mounting port (102) is located in the first central connecting part (2a). A first step (202) is formed between the first central connecting part (2a) and the first supporting part (2b). The first central connecting part (2a) is inserted into the first mounting port (102) and forms an interference fit with the water storage component (1). The first step (202) abuts against the outer edge of the first mounting port (102).
3. A children's water-squeezing toy according to claim 2, characterized in that, The inner peripheral wall of the second mounting port (201) has a limiting protrusion (203), which abuts against the spray component (3) and forms an interference fit.
4. A children's water-squeezing toy according to any one of claims 1 to 3, characterized in that, The spray component (3) includes a second central connecting part (3a) and a second supporting part (3b) located on its outer peripheral wall. The spray hole (301) is located on the second supporting part (3b). A second step (302) is formed between the second central connecting part (3a) and the second supporting part (3b). The second central connecting part (3a) is inserted into the second mounting port (201). The second step (302) abuts against the positioning component (2). The outer peripheral wall of the second central connecting part (3a) has a locking block (302a). The locking block (302a) abuts against the outer edge of the second mounting port (201) vertically.
5. A children's water-squeezing toy according to claim 4, characterized in that, The number of the card blocks (302a) is three, and the three card blocks (302a) are distributed at equal angles around the center of the second support (3b).
6. A children's water-squeezing toy according to claim 5, characterized in that, The bottom of the second support (3b) is provided with massage protrusions (303), and the free end of the massage protrusions (303) is hemispherical.
7. A children's water-squeezing toy according to any one of claims 1, 2, 3, 5 or 6, characterized in that, The water storage component (1) has a head (1a) and a skirt (1b). The head (1a) and the skirt (1b) converge towards each other on their proximal sides and are connected as one unit. The skirt (1b) is flared outward and has notches (103) sequentially opened along its bottom direction. The water storage cavity (101) is located in the head (1a), and the first mounting port (102) is located in the skirt (1b).
8. A children's water-squeezing toy according to claim 7, characterized in that, The bottom of the skirt (1b) has a recess (104) that protrudes toward the water storage chamber (101), and the positioning member (2) and the spraying member (3) are both built into the recess (104).
9. A children's water-squeezing toy according to any one of claims 1, 2, 3, 4, 6 or 8, characterized in that, The water storage component (1) is made of PVC.
10. A children's water-squeezing toy according to any one of claims 1, 2, 3, 4, 6 or 8, characterized in that, The positioning component (2) and the spraying component (3) are made of plastic.