阅读说明：本技术 一种旋转式自动泡泡玩具 (Rotary automatic bubble toy ) 是由 黄文佳 于 2019-11-22 设计创作，主要内容包括：本发明属于玩具技术领域,公开了一种旋转式自动泡泡玩具。包括用于储存泡泡液的储液柄、转动安装在所述储液柄上端的连接盖；所述连接盖上固定连接有连接管；所述连接管的端部固定连接有具有弹性的可闭合的出泡嘴以及吹泡组件；所述连接管在垂直于所述储液柄的平面转动使所述吹泡组件用于控制所述出泡嘴开闭；所述储液柄内的泡泡液随着连接盖的转动进入到连接管中。本发明在使用过程中能够通过持储液柄转动而持续产生泡泡,不需要额外的电能等；吹泡组件绕通过连接管绕储液柄转动使泡泡液自动进入至连接管中用于吹泡；用于产生泡膜的结构均位于旋转壳内部,能够对固定架、滑动架等进行有效的防护。(The invention belongs to the technical field of toys, and discloses a rotary automatic bubble toy. Comprises a liquid storage handle for storing bubble liquid and a connecting cover rotatably arranged at the upper end of the liquid storage handle; the connecting cover is fixedly connected with a connecting pipe; the end part of the connecting pipe is fixedly connected with an elastic closable bubble outlet nozzle and a bubble blowing assembly; the connecting pipe rotates on a plane vertical to the liquid storage handle, so that the bubble blowing assembly is used for controlling the bubble outlet to open and close; bubble liquid in the liquid storage handle enters the connecting pipe along with the rotation of the connecting cover. The liquid storage handle can continuously generate bubbles by rotating the liquid storage handle in the using process, and additional electric energy and the like are not needed; the bubble blowing assembly rotates around the liquid storage handle through the connecting pipe to enable bubble liquid to automatically enter the connecting pipe for blowing bubbles; a structure for producing the bubble membrane all is located rotatory shell inside, can carry out effectual protection to mount, carriage etc..)

1. A rotary automatic bubble toy is characterized in that: comprises a liquid storage handle for storing bubble liquid and a connecting cover rotatably arranged at the upper end of the liquid storage handle; the connecting cover is fixedly connected with a connecting pipe; the end part of the connecting pipe is fixedly connected with an elastic closable bubble outlet nozzle and a bubble blowing assembly; the connecting pipe rotates on a plane vertical to the liquid storage handle, so that the bubble blowing assembly is used for controlling the bubble outlet to open and close; a liquid feeding assembly is arranged in the liquid storage handle; the drive blows bubble subassembly and drives the connecting cover rotation through the connecting pipe when rotating around the axis of stock solution handle, makes and send liquid subassembly to carry the papaw liquid in the stock solution handle to the connecting pipe in.

2. The rotary automated bubble toy of claim 1, wherein: the bubble blowing assembly comprises a rotary shell which is rotatably connected to the connecting pipe; a bubble outlet for the bubble outlet to penetrate through is formed at one end of the rotary shell, and a guide vane for enabling the rotary shell to rotate is formed at the other end of the rotary shell; the rotary shell is positioned at one end of the guide vane and is also provided with an air inlet hole for air flow to enter; a worm is fixedly connected to one end, located at the guide vane, of the rotating shell; a fixing frame is fixedly connected to the end part of the connecting pipe, which is positioned at the worm; a worm wheel in transmission connection with the worm is mounted on the fixed frame; a sliding frame is connected to one side, far away from the worm, of the fixing frame on the connecting pipe in a sliding manner; a connecting rod is arranged between the sliding frame and the worm wheel; one side of the sliding frame facing the foam outlet nozzle is fixedly connected with two clamping rods for opening and closing the foam outlet nozzle.

3. The rotary automated bubble toy of claim 1 or 2, wherein: the connecting cover comprises a liquid collecting cover and a rotating cover; the rotating cover is connected with the liquid storage handle in a sealing and rotating way; the liquid conveying assembly comprises a spiral liquid guide rod which is rotatably connected to the top of the inner cover of the rotating cover; the spiral liquid guide rod comprises a spiral blade for transmitting bubble liquid to the rotating cover; the spiral liquid guide rod is positioned at the eccentric position of the rotating cover; a through hole for bubble liquid to pass through is formed on the rotating cover corresponding to the spiral liquid guide rod; one end of the spiral liquid guide rod, which is far away from the rotating cover, is fixedly connected with a ratchet wheel; an inner ratchet wheel in transmission connection with the ratchet wheel is formed on the inner wall of the liquid storage handle; the spiral liquid guide rod is positioned on the periphery of the spiral blade and is provided with a liquid guide cylinder extending to the ratchet wheel; and a liquid inlet hole for bubble liquid to enter is formed on the ratchet wheel.

4. The rotary automated bubble toy of claim 3, wherein: the two spiral liquid guide rods are arranged, and rotating shafts of the two spiral liquid guide rods are centrosymmetric with the axis of the rotating cover; the spiral blades of the two spiral liquid guide rods have opposite rotating directions; the outer diameters of the two ratchet wheels are different, and the ratchet wheel with the smaller outer diameter is farther away from the rotating cover; the inner ratchet wheel is respectively meshed with the two ratchet wheels; the transmission directions of the two ratchet wheels are opposite.

5. The rotary automated bubble toy of claim 3, wherein: a flexible liquid storage bag is fixedly connected in the liquid storage handle; the liquid storage bag is positioned on one side of the inner ratchet wheel far away from the rotating cover.

6. The rotary automated bubble toy of claim 4, wherein: and a positioning guide rod which is respectively tangent to the two liquid guide cylinders is formed in the center of the rotating cover.

7. The rotary automated bubble toy of claim 4, wherein: the transmission ratio between the two ratchet wheels and the inner ratchet wheel is equal.

8. A rotary automatic bubble toy is characterized in that: comprises a liquid storage handle for storing bubble liquid and a connecting cover rotatably arranged at the upper end of the liquid storage handle; the connecting cover is fixedly connected with a connecting pipe; the end part of the connecting pipe is fixedly connected with an elastic closable bubble outlet nozzle and a bubble blowing assembly; the connecting pipe rotates on a plane vertical to the liquid storage handle, so that the bubble blowing assembly is used for controlling the bubble outlet to open and close; the bubble liquid is filled in the connecting pipe in the initial state, and when the bubble blowing assembly rotates around the liquid storage handle through the connecting cover and the connecting pipe, the bubble liquid in the liquid storage handle enters the connecting pipe under the action of centrifugal force.

Technical Field

The invention belongs to the technical field of toys, and particularly relates to a rotary automatic bubble toy.

Background

Bubble blowing is one of indispensable entertainment activities in children's careers, and a conventional bubble blowing tool is to pack bubble liquid in a tubular container, extend into the container through a rod or the like with a bubble outlet to generate a bubble film, and then blow the bubble film with a nozzle to generate bubbles; the bubble blowing tool is single in operation method and not enough in interestingness, two hands are required to respectively hold the container and the rod piece with the bubble outlet, children, particularly infants, easily ignore the container with bubble liquid in the hands when playing and overturn the container, the bubble liquid is easily scattered on the hands, and then the hands rub eyes and the like, so that clothes are polluted and the health of the body is affected.

Chinese utility model patent No. CN205867602U discloses a toy papaw gun, which comprises a housing, a liquid storage tank, a bubble-discharging gun head, a transfusion mechanism, a blower mechanism, a motor and a film-drawing mechanism, wherein the bubble-discharging gun head, the transfusion mechanism, the blower mechanism, the motor and the film-drawing mechanism are arranged in the housing; the rotating motion of the gear transmission mechanism is converted into the linear motion of the sliding block through the first gear of the infusion mechanism, and then the bag-shaped water pump is pushed to convey the bubble liquid through the pipeline assembly. However, in the patent, the blower mechanism is driven by the motor to convey air to generate bubbles, a battery or a rechargeable storage battery needs to be installed, and the hidden danger of environmental pollution or repeated charging is needed.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects that in the prior art, a container with bubble liquid in the hand is easy to be overlooked and overturned, so that clothes are polluted, the body health is influenced, the environment is polluted or the bubble toy needs to be charged repeatedly, the rotary automatic bubble toy is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a rotary automatic bubble toy comprises a liquid storage handle for storing bubble liquid, and a connecting cover rotatably mounted at the upper end of the liquid storage handle; the connecting cover is fixedly connected with a connecting pipe; the end part of the connecting pipe is fixedly connected with an elastic closable bubble outlet nozzle and a bubble blowing assembly; the connecting pipe rotates on a plane vertical to the liquid storage handle, so that the bubble blowing assembly is used for controlling the bubble outlet to open and close; a liquid feeding assembly is arranged in the liquid storage handle; the drive blows bubble subassembly and drives the connecting cover rotation through the connecting pipe when rotating around the axis of stock solution handle, makes and send liquid subassembly to carry the papaw liquid in the stock solution handle to the connecting pipe in.

As a preferable scheme: the bubble blowing assembly comprises a rotary shell which is rotatably connected to the connecting pipe; a bubble outlet for the bubble outlet to penetrate through is formed at one end of the rotary shell, and a guide vane for enabling the rotary shell to rotate is formed at the other end of the rotary shell; the rotary shell is positioned at one end of the guide vane and is also provided with an air inlet hole for air flow to enter; a worm is fixedly connected to one end, located at the guide vane, of the rotating shell; a fixing frame is fixedly connected to the end part of the connecting pipe, which is positioned at the worm; a worm wheel in transmission connection with the worm is mounted on the fixed frame; a sliding frame is connected to one side, far away from the worm, of the fixing frame on the connecting pipe in a sliding manner; a connecting rod is arranged between the sliding frame and the worm wheel; one side of the sliding frame facing the foam outlet nozzle is fixedly connected with two clamping rods for opening and closing the foam outlet nozzle.

As a preferable scheme: the connecting cover comprises a liquid collecting cover and a rotating cover; the rotating cover is connected with the liquid storage handle in a sealing and rotating way; the liquid conveying assembly comprises a spiral liquid guide rod which is rotatably connected to the top of the inner cover of the rotating cover; the spiral liquid guide rod comprises a spiral blade for transmitting bubble liquid to the rotating cover; the spiral liquid guide rod is positioned at the eccentric position of the rotating cover; a through hole for bubble liquid to pass through is formed on the rotating cover corresponding to the spiral liquid guide rod; one end of the spiral liquid guide rod, which is far away from the rotating cover, is fixedly connected with a ratchet wheel; an inner ratchet wheel in transmission connection with the ratchet wheel is formed on the inner wall of the liquid storage handle; the spiral liquid guide rod is positioned on the periphery of the spiral blade and is provided with a liquid guide cylinder extending to the ratchet wheel; and a liquid inlet hole for bubble liquid to enter is formed on the ratchet wheel.

As a preferable scheme: the two spiral liquid guide rods are arranged, and rotating shafts of the two spiral liquid guide rods are centrosymmetric with the axis of the rotating cover; the spiral blades of the two spiral liquid guide rods have opposite rotating directions; the outer diameters of the two ratchet wheels are different, and the ratchet wheel with the smaller outer diameter is farther away from the rotating cover; the inner ratchet wheel is respectively meshed with the two ratchet wheels; the transmission directions of the two ratchet wheels are opposite.

As a preferable scheme: a flexible liquid storage bag is fixedly connected in the liquid storage handle; the liquid storage bag is positioned on one side of the inner ratchet wheel far away from the rotating cover.

As a preferable scheme: and a positioning guide rod which is respectively tangent to the two liquid guide cylinders is formed in the center of the rotating cover.

As a preferable scheme: the transmission ratio between the two ratchet wheels and the inner ratchet wheel is equal.

As a preferable scheme: comprises a liquid storage handle for storing bubble liquid and a connecting cover rotatably arranged at the upper end of the liquid storage handle; the connecting cover is fixedly connected with a connecting pipe; the end part of the connecting pipe is fixedly connected with an elastic closable bubble outlet nozzle and a bubble blowing assembly; the connecting pipe rotates on a plane vertical to the liquid storage handle, so that the bubble blowing assembly is used for controlling the bubble outlet to open and close; the bubble liquid is filled in the connecting pipe in the initial state, and when the bubble blowing assembly rotates around the liquid storage handle through the connecting cover and the connecting pipe, the bubble liquid in the liquid storage handle enters the connecting pipe under the action of centrifugal force.

Compared with the prior art, the invention has the beneficial effects that: before use, a proper amount of bubble liquid is injected into the liquid storage bag, air is discharged by lifting the bottom surface of the liquid storage bag, the rotating cover and the liquid storage handle are closed, the liquid storage handle is held by hand to enable the connecting pipe to rotate around the axis of the liquid storage handle under the action of the bubble blowing assembly, the connecting pipe is straightened under the action of centrifugal force, and the bubble liquid in the connecting pipe flows to the bubble outlet under the pushing action of subsequent bubble liquid and the action of the centrifugal force; when the connecting pipe rotated, the air passed through it produces the bubble to going out the bubble nozzle to blow in the guide vane gets into rotatory shell, along with the rotation of rotatory shell, the carriage to go out bubble nozzle direction reciprocating motion, make a bubble nozzle department intermittent type nature produce the bubble membrane and be used for the blown bubble.

The liquid storage handle can rotate to continuously generate bubbles in the using process, extra electric energy and the like are not needed, the bubble blowing nozzle does not need to be intermittently extended into the tube for storing the bubble liquid to generate a bubble film, and the situation that a bottle body filled with the bubble liquid is held by a hand to be overturned is avoided; the bubble blowing assembly rotates around the liquid storage handle through the connecting pipe to enable bubble liquid to automatically enter the connecting pipe for blowing bubbles; because the air in the liquid storage bag is discharged when the liquid storage bag is used, the liquid storage handle can be used at any angle in the using process, bubbles can be generated along a circle formed by the connecting pipe, and the entertainment and the interest are increased; a structure for producing the bubble membrane all is located rotatory shell inside, can carry out effectual protection to mount, carriage etc..

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of an exploded structure of the spiral liquid guide rod.

Figure 3 is an exploded view of the bubble unit.

FIG. 4 is a schematic cross-sectional view of a cartridge holder.

FIG. 5 is a schematic sectional view of two spiral liquid guide rods.

Fig. 6 is a schematic view of the structure of the rotating cover.

Fig. 7 is a schematic view of the structure of the rotating case.

Fig. 8 is a schematic structural view of the fixing frame.

Fig. 9 is a schematic view of the sliding frame.

Fig. 10 is a schematic view of the construction of the spout.

1. A liquid storage handle; 11. a seal ring; 12. an external thread; 13. an inner ratchet wheel; 14. a liquid storage bag;

2. a bubble blowing assembly; 21. rotating the housing; 211. a foam outlet; 212. a guide vane; 213. an air inlet; 214. a worm; 215. a drainage ring; 216. a baffle ring; 22. a fixed mount; 221. a worm gear; 222. a counterbalance; 23. a carriage; 231. a clamping bar; 24. a connecting rod;

3. a connecting cover; 31. a connecting pipe; 311. positioning rings; 32. a liquid collecting cover; 33. rotating the cover; 331. a limiting ring; 332. a through hole; 333. positioning the guide rod;

4. a spiral liquid guide rod; 41. a helical blade; 42. a ratchet wheel; 421. a liquid inlet hole; 43. a liquid guide cylinder;

5. a foam outlet; 51. a connecting end; 52. a foam outlet part; 53. a notch; 54. liquid outlet seams are formed; 55. a catheter;

6. and (4) a threaded cap.

Detailed Description