A multi-headed bubble toy
By designing a sliding bracket and a liquid-adhesive stick in the handle of the bubble toy, multiple bubbles can be generated simultaneously, solving the problems of structural stability and fun, and enhancing children's play experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO MERRY ART GLOW TECH CO LTD
- Filing Date
- 2025-06-18
- Publication Date
- 2026-06-23
AI Technical Summary
Traditional bubble toy handles typically use multiple bolts to connect the two shells. Frequent use or drops can easily cause the bolts to loosen, affecting structural stability. Furthermore, they can only blow a small number of bubbles at a time, reducing the fun of playing with them.
Design a multi-head bubble-generating toy. By setting a sliding bracket and a liquid-dispensing rod on the handle, and using a button to drive the sliding seat to move the sliding bracket axially, multiple liquid-dispensing rods can be deployed. Combining a one-way ratchet effect and spring return, structural stability and multi-bubble generation are ensured.
This design enables the simultaneous generation of multiple bubbles, enhancing the toy's visual spectacle and playability, solving structural stability issues, and increasing its appeal to children.
Smart Images

Figure CN224388065U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of bubble wand technology, specifically a multi-head bubble-producing toy. Background Technology
[0002] Bubble toys, a popular form of entertainment for children, traditionally consist of a bubble wand and bubble solution. However, with technological advancements and diversified consumer demands, bubble toys are constantly evolving. Traditional bubble toys, such as simple bubble wands or bubble guns, typically produce only a small number of bubbles at a time. This limited bubble production often fails to capture children's attention for extended periods, reducing the enjoyment of playing. Furthermore, the handles of bubble toys generally use multiple bolts to connect the two shells; frequent use or drops can easily loosen these bolts, affecting structural stability. Therefore, a multi-head bubble-producing toy that can simultaneously produce multiple bubbles of different shapes, while also being structurally stable and easy to use, is needed. Utility Model Content
[0003] This invention provides a multi-head bubble-producing toy that solves the problem that existing bubble toy handles typically use multiple bolts to connect two shells, which can easily lead to bolt loosening and affect structural stability due to frequent use or impact from drops.
[0004] To achieve the above objectives, this utility model provides the following technical solution: A multi-head bubble-eating toy, comprising a handle and a liquid reservoir, wherein the handle and the liquid reservoir are detachably connected; a connecting sleeve is fitted onto the outer side of the front end of the handle; a fixing sleeve is snapped into the front end of the handle; a sliding bracket is axially slidably mounted on one end of the fixing sleeve near the liquid reservoir; a sliding seat that can move back and forth is snapped into the rear part of the sliding bracket inside the handle; multiple liquid-dispensing rods arranged side by side are inserted into the end of the sliding bracket; a rotating shaft is threaded through one end of each liquid-dispensing rod and connected to the fixing sleeve; a button is movably mounted on the handle to drive the sliding seat axially; when the button is pressed down, the sliding seat moves... The sliding bracket moves axially away from the liquid reservoir, and the ends of the two dipping rods rotate around the pivot and unfold into a fan shape. By operating multiple dipping rods at once, multiple soap bubbles can be blown simultaneously, greatly increasing the number of bubbles and the visually spectacular effect, and greatly enhancing the toy's appeal to children. The handle includes a first housing and a second housing arranged opposite each other. The outer walls of the first housing and the second housing near the liquid reservoir are provided with corresponding grooves. A guide slope is provided on one side of the groove. The inner wall of the connecting sleeve is provided with a buckle that cooperates with the groove. The buckle of the connecting sleeve is engaged in the groove through the guide slope, fixing the first housing and the second housing and forming a one-way anti-detachment locking structure.
[0005] As a supplement to the technical solution described in this utility model, the bottom of the button is provided with a guide portion, the sliding seat is provided with a guide seat adapted to the guide portion, the side wall of the button is provided with a slot, and the first housing is provided with a guide protrusion that slides and engages with the slot vertically. The guide portion of the button and the guide seat of the sliding seat form an inclined surface engagement. The slot on the side wall of the button and the guide protrusion of the housing constitute a vertical stroke limiting mechanism to ensure axial movement of the sliding bracket.
[0006] As a supplement to the technical solution described in this utility model, the inner sidewalls of the first housing and the second housing are provided with a first baffle and a second baffle side by side, and the first baffle and the second baffle limit the sliding seat.
[0007] As a supplement to the technical solution described in this utility model, a sliding shaft is provided at the end of the sliding seat away from the liquid storage cylinder. The sliding shaft is located between two second baffles, which support the sliding shaft and ensure that the sliding seat can move horizontally.
[0008] As a supplement to the technical solution described in this utility model, a first locking block and a second locking block are provided at the end of the fixed sleeve away from the liquid storage cylinder. The first locking block and the second locking block are located on both sides of the first baffle to fix the fixed sleeve to the handle. A flexible gasket is provided on the side of the first locking block. The flexible gasket is annular. The outer side wall of the flexible gasket is in contact with the inner side wall of the handle, and the inner side wall of the flexible gasket is in contact with the outer side wall of the fixed sleeve. The flexible gasket prevents the bubble liquid from entering the handle.
[0009] As a supplement to the technical solution described in this utility model, the liquid stick includes a first bubble stick disposed in the middle, and a second bubble stick and a third bubble stick disposed on opposite sides of the first bubble stick. The ends of the second bubble stick and the third bubble stick are provided with protrusions, and the second bubble stick and the third bubble stick are expanded by driving the protrusions.
[0010] As a supplement to the technical solution described in this utility model, the first bubble stick is provided with multiple circular through holes, and the second and third bubble sticks are provided with an elliptical through hole. When children splash the sticks, a large number of bubbles of different sizes can be generated through the multiple circular and elliptical through holes.
[0011] As a supplement to the technical solution described in this utility model, the end of the sliding bracket is provided with an opening, and the inner wall of the opening is provided with teeth one and teeth two on both sides. The protrusion is located between teeth one and teeth two. The protrusion at the end of the second bubble stick and the third bubble stick forms a one-way ratchet effect with teeth one and teeth two in the opening of the sliding bracket. When the sliding bracket moves axially, teeth one pushes the protrusion to make the second bubble stick and the third bubble stick rotate around the pivot, and the second bubble stick and the third bubble stick unfold relative to each other.
[0012] As a supplement to the technical solution described in this utility model, a guide shaft is provided at the end of the sliding bracket away from the liquid storage cylinder. The guide shaft passes through the fixed sleeve and is engaged with the sliding seat. A spring is sleeved on the guide shaft inside the fixed sleeve, and the spring causes the sliding bracket to return to its original position.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] By operating the first, second, and third bubble wands simultaneously, multiple soap bubbles can be blown at the same time, greatly increasing the number of bubbles and the visual spectacle, significantly enhancing the toy's appeal to children. The automatic unfolding and retracting mechanical linkage design of the second and third bubble wands increases the toy's operational fun and interactivity, making it more attractive than simple single-headed bubble wands. It also solves the problem that existing bubble toy handles typically use multiple bolts to connect the two shells, which can easily lead to bolt loosening and affect structural stability due to frequent use or impacts from drops. Attached Figure Description
[0015] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0016] Figure 2 This is a schematic diagram of the liquid-adhesive rod of this utility model in the closed state;
[0017] Figure 3 This is a schematic diagram of the liquid-dispensing rod of this utility model in the open state;
[0018] Figure 4 This is a schematic diagram of the internal structure of the handle of this utility model;
[0019] Figure 5 This is a schematic diagram of the liquid-adhesive rod inside the fixed sleeve of this utility model in the open state.
[0020] Figure 6 This is an exploded view of the present invention;
[0021] Figure 7 This is a cross-sectional view of the present invention;
[0022] Figure 8This is a three-dimensional structural diagram of the sliding bracket of this utility model;
[0023] Figure 9 This is a three-dimensional structural diagram of the fixing sleeve of this utility model;
[0024] Figure 10 This is a schematic diagram of the structure of the first housing and the button of this utility model;
[0025] Figure 11 This is a three-dimensional structural diagram of the sliding seat of this utility model;
[0026] Figure 12 This is a three-dimensional structural diagram of the button of this utility model;
[0027] Figure 13 This is a schematic diagram of the handle portion and the handle portion structure of this utility model;
[0028] Figure 14 This is a schematic diagram of the structure of the liquid-adhesive rod inside the fixed sleeve of this utility model in the closed state.
[0029] Figure label:
[0030] 1. Handle, 2. Liquid reservoir, 3. Handle, 31. Buckle, 4. Fixing sleeve, 41. First snap-fit block, 42. Second snap-fit block, 5. Sliding bracket, 51. Guide shaft, 52. Spring, 53. Opening, 54. Tooth one, 55. Tooth two, 56. Slot, 6. Sliding seat, 61. Guide seat, 62. Sliding shaft, 63. Connecting post, 7. Dispensing rod, 71. First bubble stick, 72. Second bubble stick, 73. Third bubble stick, 74. Protrusion, 8. Rotating shaft, 9. Button, 91. Guide part, 92. Slot, 101. First housing, 102. Second housing, 103. Snap groove, 104. Guide slope, 105. Guide protrusion, 106. First baffle, 107. Second baffle, 108. Support part, 11. Flexible gasket. Detailed Implementation
[0031] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0032] The embodiments of this utility model relate to a multi-head bubble-eating toy, such as... Figure 1-14As shown, it includes a handle part 1 and a liquid storage cylinder 2. A connecting sleeve 3 is fitted onto the outer wall of the front end of the handle part 1. The liquid storage cylinder 2 is a simple cylindrical container made of transparent PP plastic to facilitate observation of the remaining bubble solution. The top opening is detachably connected to the bottom of the handle part 1 and screwed tightly. The handle part 1 is assembled from a first housing 101 and a second housing 102 to form a roughly grip-shaped whole. The first housing 101 and the second housing 102 are integrally molded and made of ABS material. The internal space of the first housing 101 and the second housing 102 is used to accommodate internal components such as a sliding seat 6, a button 9, a fixing sleeve 4, and a sliding bracket 5.On the outer side walls of the first housing 101 and the second housing 102 near the liquid storage cylinder 2, respectively, there are snap-fit grooves 103. Each snap-fit groove 103 has a guide slope 104 on one side, with an inclination angle of 15°, to facilitate the quick insertion of the connecting sleeve 3. The connecting sleeve 3 is made of ABS material, and the inner side wall of the connecting sleeve 3 is provided with a buckle 31 that cooperates with the snap-fit groove 103. During installation, the first housing 101 and the second housing 102 are connected. The first end of the first housing 101 is provided with a threaded hole, and the corresponding position of the second housing 102 is provided with a through hole. The bolt passes through the through hole and the threaded hole. The connection achieves coarse positioning by engaging the buckle 31 of the connecting sleeve 3 into the buckle groove 103 via the guide bevel 104, thus fixing the second ends of the first housing 101 and the second housing 102, forming an inverted fixing structure. The fixing sleeve 4 is engaged inside the front end of the handle part 1, with its axial position relatively fixed. A sliding bracket 5 is axially slidably provided at one end of the fixing sleeve 4 near the liquid storage cylinder 2. The rear part of the sliding bracket 5 is engaged with a sliding seat 6 that can move back and forth inside the handle part 1. Multiple dipping rods arranged side by side are inserted into the end of the sliding bracket 5. 7. One end of the dispensing rod 7 is connected to a rotating shaft 8, which is connected to the fixed sleeve 4. A button 9 is movably disposed on the handle 1 to drive the sliding seat 6 to move axially. A guide part 91 is disposed at the bottom of the button 9. A guide seat 61 adapted to the guide part 91 is disposed on the sliding seat 6. The guide part 91 and the guide seat 61 form an inclined surface fit. A groove 92 is disposed on the side wall of the button 9. A guide protrusion 105 is vertically disposed inside the first housing 101 to slide in the groove 92. The guide protrusion 105 is used to engage with the groove 92 on the side wall of the button 9 to guide the button. The up-and-down movement of button 9 and the prevention of its rotation: the guide part 91 of button 9 and the guide seat 61 of sliding seat 6 form an inclined surface fit. The slot 92 on the side wall of button 9 and the guide protrusion 105 of the housing constitute a vertical stroke limiting mechanism to ensure the axial movement of sliding bracket 5. When button 9 is pressed down, sliding seat 6 drives sliding bracket 5 to move axially away from liquid storage cylinder 2. The ends of the liquid sticks 7 on both sides rotate around the rotating shaft 8 and unfold into a fan shape. Through the operation of multiple liquid sticks 7 at one time, multiple soap bubbles can be blown at the same time, greatly increasing the number of bubbles and the visual spectacle, and greatly enhancing the attraction of the toy to children.
[0033] In this embodiment, as Figure 11 As shown, a sliding shaft 62 is provided at one end of the sliding seat 6 away from the liquid storage cylinder 2, and connecting posts 63 are provided on both sides of the sliding seat 6. The connecting posts 63 overlap the support part 108 of the shell. The sliding shaft 62 is located between two second baffles 107. When the sliding seat 6 moves, the second baffles 107 and the support part 108 support the sliding shaft 62 and the connecting posts 63.
[0034] In this embodiment, as Figure 9 As shown, the fixed sleeve 4 is provided with a first locking block 41 and a second locking block 42 at the end away from the liquid storage cylinder 2. The first locking block 41 and the second locking block 42 are located on both sides of the first baffle 106 to fix the fixed sleeve 4 to the handle part 1. A flexible gasket 11 is provided on the side of the first locking block 41. The flexible gasket 11 is annular. The outer side wall of the flexible gasket 11 is in contact with the inner side wall of the handle part 1, and the inner side wall of the flexible gasket 11 is in contact with the outer side wall of the fixed sleeve 4. The flexible gasket 11 prevents the bubble liquid from entering the handle part 1.
[0035] In this embodiment, as Figure 3 and Figure 6 As shown, the liquid stick 7 includes a first bubble stick 71 disposed in the middle, and a second bubble stick 72 and a third bubble stick 73 disposed on opposite sides of the first bubble stick 71. The ends of the second bubble stick 72 and the third bubble stick 73 are provided with protrusions 74. By driving the protrusions 74, the second bubble stick 72 and the third bubble stick 73 are unfolded.
[0036] In this embodiment, as Figure 5 As shown, the first bubble wand 71 is provided with multiple circular through holes, and the second bubble wand 72 and the third bubble wand 73 are provided with an elliptical through hole. When the child splashes the liquid wand 7, a large number of bubbles of different sizes can be generated through the multiple circular through holes and the elliptical through holes.
[0037] In this embodiment, as Figure 8 As shown, the sliding bracket 5 has an opening 53 at its end. The opening 53 has a slot 56 in the middle for mounting the first bubble stick 71. The inner wall of the opening 53 has teeth 1 54 and teeth 2 55 on both sides of the slot 56. The protrusion 74 is located between teeth 1 54 and teeth 2 55. The protrusion 74 at the end of the second bubble stick 72 and the third bubble stick 73 forms a one-way ratchet effect with teeth 1 54 and teeth 2 55 in the opening 53 of the sliding bracket 5. When the sliding bracket 5 moves axially, teeth 1 54 pushes the protrusion 74 to make the second bubble stick 72 and the third bubble stick 73 rotate around the pivot 8, and the second bubble stick 72 and the third bubble stick 73 unfold relative to each other.
[0038] In this embodiment, as Figure 8 As shown, a guide shaft 51 is provided at the end of the sliding bracket 5 away from the liquid storage cylinder 2. The guide shaft 51 passes through the fixed sleeve 4 and is locked to the sliding seat 6. A spring 52 is sleeved on the guide shaft 51 inside the fixed sleeve 4. The spring 52 causes the sliding bracket 5 to return to its original position.
[0039] Specifically, a first baffle 106 and a second baffle 107 are arranged side by side on the inner sidewalls of the first housing 101 and the second housing 102. The first baffle 106 is engaged with the fixed sleeve 4, and the second baffle 107 is located on the side of the first baffle 106 away from the liquid storage cylinder 2. The first baffle 106 and the second baffle 107 are used to limit the movement range of the sliding seat 6 and prevent the button 9 from being over-pressed, which could cause structural damage.
[0040] In this embodiment, as Figure 1 As shown, when the bubble toy is not in operation, under the action of the spring 52, the sliding seat 6 and the sliding bracket 5 move closer to the liquid reservoir 2. At this time, the first bubble stick 71 is located in the middle, while the second bubble stick 72 and the third bubble stick 73 are in a retracted state close to the first bubble stick 71 due to the restriction of the protrusion 74 and the end structure of the sliding bracket 5. The overall volume is small, making it convenient to insert into the bubble liquid for dipping. When playing, the user dips the liquid-dipping stick 7 at the front of the toy into the liquid reservoir 2 containing bubble solution. Since the bubble sticks are in a retracted state at this time, it is relatively easy to dip all the bubble sticks into the bubble solution at once. When unfolding the bubble sticks, the user presses down on the button 9 on the handle 1. The guide part 91 of the button 9 cooperates with the guide seat 61, driving the sliding seat 6 to move away from the liquid reservoir 2. The sliding seat 6 moves horizontally along the handle 1 through the sliding shaft 62 and the connecting post 63. The sliding seat 6 drives the guide shaft 51, which in turn drives the sliding bracket 5 to slide. As the sliding bracket 5 moves, the teeth 54 in the opening 53 at its end will contact the protrusions 74 at the ends of the second bubble stick 72 and the third bubble stick 73, and push the protrusions 74. Since the rotating shaft 8 is fixed on the sliding bracket 5, the second bubble stick 72 and the third bubble stick 73 are forced to rotate outward around the rotating shaft 8, and finally unfold into a fan shape. When waved in the air, multiple bubbles of different sizes can be blown at once, increasing the fun. After the user releases button 9, the sliding seat 6 and sliding bracket 5 will move back to their original positions under the pushing force of spring 52. The second bubble wand 72 and the third bubble wand 73 will retract to their initial positions under the guidance of tooth 1 54 and tooth 2 55, and the toy will return to its initial state, ready for the next dipping and blowing of bubbles.
[0041] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in this utility model embodiment are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.
[0042] Furthermore, in this utility model, the use of terms such as "first," "second," etc., is for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this utility model, "multiple" means at least two, such as two, three, etc., unless otherwise explicitly and specifically defined.
[0043] In this utility model, unless otherwise explicitly specified and limited, the terms "connection," "fixing," etc., should be interpreted broadly. For example, "fixing" can mean a fixed connection, a detachable connection, or an integral part; it can mean a mechanical connection or an electrical connection; it can mean a direct connection or an indirect connection through an intermediate medium; it can mean the internal communication of two components or the interaction between two components, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0044] Furthermore, the technical solutions of the various embodiments of this utility model can be combined with each other, but only if they are based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or cannot be implemented, it should be considered that such combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
Claims
1. A multi-head bubble-eating toy, comprising a handle (1) and a liquid reservoir (2), wherein the handle (1) and the liquid reservoir (2) are detachably connected, characterized in that: A connecting sleeve (3) is fitted onto the outer side wall of the front end of the handle part (1), and a fixing sleeve (4) is snapped into the front end of the handle part (1). A sliding bracket (5) is axially slidably provided at one end of the fixing sleeve (4) near the liquid storage cylinder (2), and a sliding seat (6) that can move back and forth is snapped into the rear part of the sliding bracket (5) inside the handle part (1). The sliding bracket (5) has multiple liquid-dispensing rods (7) arranged side by side inserted at its end. One end of each liquid-dispensing rod (7) is connected to a rotating shaft (8), which is connected to the fixed sleeve (4). The handle (1) is movably provided with a button (9) that drives the sliding seat (6) to move axially. When the button (9) is pressed down, the sliding seat (6) drives the sliding bracket (5) to move axially away from the liquid storage cylinder (2). The ends of the liquid-adhesive rods (7) on both sides rotate around the rotating shaft (8) and unfold into a fan shape. The handle part (1) includes a first housing (101) and a second housing (102) disposed opposite to each other. The first housing (101) and the second housing (102) have a locking groove (103) disposed opposite to each other on the outer side wall of the end near the liquid storage cylinder (2). A guide slope (104) is provided on one side of the locking groove (103). The inner side wall of the connecting sleeve (3) is provided with a buckle (31) that cooperates with the locking groove (103).
2. The multi-head bubble-eating toy according to claim 1, characterized in that: The bottom of the button (9) is provided with a guide part (91), the sliding seat (6) is provided with a guide seat (61) that is adapted to the guide part (91), the side wall of the button (9) is provided with a slot (92), and the first housing (101) is provided with a guide protrusion (105) that slides with the slot (92).
3. The multi-head bubble-eating toy according to claim 1, characterized in that: The inner walls of the first housing (101) and the second housing (102) are provided with a first baffle (106) and a second baffle (107) arranged side by side.
4. The multi-head bubble-eating toy according to claim 3, characterized in that: The sliding seat (6) is provided with a sliding shaft (62) at one end away from the liquid storage cylinder (2), and the sliding shaft (62) is located between the two second baffles (107).
5. The multi-head bubble-eating toy according to claim 3, characterized in that: The fixed sleeve (4) is provided with a first locking block (41) and a second locking block (42) at the end away from the liquid storage cylinder (2). The first locking block (41) and the second locking block (42) are located on both sides of the first baffle (106). A flexible gasket (11) is provided on the side of the first locking block (41).
6. The multi-head bubble-eating toy according to claim 1, characterized in that: The liquid stick (7) includes a first bubble stick (71) disposed in the middle, and a second bubble stick (72) and a third bubble stick (73) disposed on opposite sides of the first bubble stick (71). The ends of the second bubble stick (72) and the third bubble stick (73) are provided with protrusions (74).
7. The multi-head bubble-eating toy according to claim 6, characterized in that: The first bubble wand (71) has multiple circular through holes, and the second bubble wand (72) and the third bubble wand (73) have an elliptical through hole.
8. The multi-head bubble-eating toy according to claim 7, characterized in that: The sliding bracket (5) has an opening (53) at its end. The inner wall of the opening (53) has a tooth (54) and a tooth (55) on both sides. The protrusion (74) is located between the tooth (54) and the tooth (55). When the sliding bracket (5) moves axially, the tooth (54) pushes the protrusion (74) to make the second bubble rod (72) and the third bubble rod (73) rotate around the pivot (8).
9. The multi-head bubble-eating toy according to claim 1, characterized in that: The sliding bracket (5) has a guide shaft (51) at one end away from the liquid storage cylinder (2). The guide shaft (51) passes through the fixed sleeve (4) and is engaged with the sliding seat (6). A spring (52) is sleeved on the guide shaft (51) inside the fixed sleeve (4).