CN214913382U - Bubble-in-bubble bubbling device - Google Patents

Abstract

The utility model relates to a bubble-in-bubble bubbling device, which comprises a base, a bubbling liquid containing groove, a blower and a bubbler, wherein the bubbling liquid containing groove and the blower are both arranged on the base; the bubble blowing device comprises a rotating support, a rotating driving mechanism and at least one bubble blowing component, wherein the rotating driving mechanism can drive the rotating support to rotate, the rotating driving mechanism is installed on the base, the axis of the rotating support is arranged along the horizontal direction, the bubble blowing component is installed on the rotating support, the low point of the rotating peripheral surface of the bubble blowing component falls into the bubble liquid containing groove, and the air outlet of the blower faces the rotating peripheral surface of the bubble blowing component; the bubble blowing component comprises a large blowing head and at least one small blowing head, and the small blowing head is arranged in the range of the large blowing head. The bubble-in-bubble bubbling device can automatically and continuously blow bubbles with bubble-in-bubble structures, is novel and interesting in style, and can meet the entertainment requirements of children and is high in interestingness.

Description

Bubble-in-bubble bubbling device

Technical Field

The utility model relates to a bubble blowing toy field, concretely relates to bubble blowing device in bubble.

Background

Bubbling has been a favorite entertainment means for children. The existing electric bubble blowing device can continuously blow a plurality of bubbles, and is popular among children. For example, chinese utility model with application number 201620707010.3 discloses a papaw machine, including being the octagonal casing, be equipped with the baffle on the leading flank of casing, the baffle forms the container that holds that is used for holding the papaw liquid with the casing jointly, be equipped with the bubbler on one side of casing, the bubbler with the casing rotates to be connected, at least some of bubbler stretches into hold in the container, be equipped with the fan on the opposite side of casing, the fan is used for blowing the bubbler makes the bubbler produces the bubble. Because the baffle can form the holding container jointly with the casing, a part of bubbler can stretch into in the holding container, and can hold the papaw liquid again in the holding container, consequently, when partly soaking in the papaw liquid of bubbler, then the bubbler rotates for this part is changeed out from the papaw liquid, and later the fan blows this part and just can produce the bubble, and the bubble blows along with the direction that the fan was bloied. Although the bubble machine does not need to blow bubbles through mouth for playing, the operation is simple, but the bubbles blown out are single-layer bubbles, the style is single, and the interestingness is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a bubble bubbling device in bubble is provided, bubble bubbling device can blow off the papaw that has the bubble structure in the bubble automatically in succession in this kind of bubble, and the pattern is novel, interesting. The technical scheme is as follows:

the utility model provides a bubble bubbling device in bubble, includes that base, papaw liquid hold groove, hair-dryer and bubbler, and the papaw liquid holds groove, hair-dryer and all installs on the base, its characterized in that: the bubble blowing device comprises a rotating support, a rotating driving mechanism and at least one bubble blowing component, the rotating driving mechanism can drive the rotating support to rotate, the rotating driving mechanism is installed on the base, the axis of the rotating support is arranged along the horizontal direction, the bubble blowing component is installed on the rotating support, the low point of the rotating peripheral surface of the bubble blowing component falls into the bubble liquid containing groove, and the air outlet of the blower faces the rotating peripheral surface of the bubble blowing component; the bubble blowing component comprises a large blowing head and at least one small blowing head, and the small blowing head is arranged in the range of the large blowing head.

When the device works, the bubble liquid containing groove contains bubble liquid; the rotating driving mechanism drives the rotating bracket to rotate around the axis of the rotating bracket, and drives the bubble blowing assembly to alternately pass through the notch of the bubble liquid containing groove and the air outlet of the blower; when the bubble blowing assembly passes through the bubble liquid containing groove, a large blowing head and a small blowing head of the bubble blowing assembly extend into a notch of the bubble liquid containing groove and are immersed into the bubble liquid, and bubble films are formed on a blowing opening of the large blowing head and a blowing opening of the small blowing head; when the air outlet department of blowing bubble subassembly process hair-dryer, the hair-dryer is bloied through the rotatory global of air outlet orientation blowing bubble subassembly, make the bubble membrane on the big blowing head mouthpiece, the bubble membrane on the little blowing head mouthpiece forms big papaw respectively, the small bubble, because the small blowing head sets up in the scope of big blowing head, can make the small bubble hide in big papaw and fly out together, through repeating above-mentioned process, bubble blowing bubble device can automatically and continuously blow off the papaw that has the bubble structure in the bubble in the above-mentioned bubble, the pattern is novel, interesting, make the seven various dream world of bubble in the magical bubble, satisfy children's amusement demand, strong interest.

In a specific scheme, the number of the bubble blowing assemblies is multiple, and each bubble blowing assembly is installed on the rotating bracket and is uniformly arranged along the circumferential direction of the axis of the rotating bracket. With the structure, the bubble-in-bubble blowing device can blow a plurality of bubbles with the bubble-in-bubble structure every time the rotating bracket rotates for one circle.

In a preferred embodiment, the blower is located inside the rotating peripheral surface of the bubbling assembly; the small blowing head is arranged between the blower and the large blowing head, and the blowing opening of the small blowing head is over against the blowing opening of the large blowing head. When the blowing assembly passes through the air outlet of the blower, the blower blows towards the mouthpiece of the small blowing head and the mouthpiece of the large blowing head through the air outlet, so that a bubble film on the mouthpiece of the large blowing head and a bubble film on the mouthpiece of the small blowing head form a large bubble and a small bubble respectively.

More preferably, the outlet of the blower is directed toward a high point of the rotating peripheral surface of the bubbling assembly. Like this, can effectively increase the distance that the blowing bubble subassembly removed to the air outlet department of hair-dryer from the notch in bubble liquid holding groove, make and greatly blow head and little blowing head on can not detain too much bubble liquid, avoid causing the work of blowing bubble ware use dropping liquid or influence impeller.

In the preferred scheme, the hair-dryer includes casing, motor, pivot and impeller, and the casing is installed on the base, be equipped with the air intake on the casing with the air outlet, air intake, air outlet all communicate with the inner chamber of casing, the motor is installed on base or casing, the pivot rotatable mounting on the casing and with the output shaft transmission of motor be connected, impeller fixed mounting is in the inner chamber of casing in the pivot. When the blower works, the motor of the blower drives the rotating shaft to rotate, so as to drive the impeller to rotate in the inner cavity of the shell, and negative pressure is formed at the air inlet of the shell; the air forms airflow under the action of negative pressure, enters the inner cavity of the shell from the air inlet and is blown out from the air outlet.

In a more preferable scheme, an air outlet grille is installed at an air outlet of the blower. The air outlet grille can enable air blown out from the air outlet of the blower to be more uniform, so that the size of blown air bubbles is more uniform.

In a more preferable mode, the rotary driving mechanism comprises a driving shaft which is rotatably mounted on the shell and is arranged along the horizontal direction, and the driving shaft is in transmission connection with the rotating shaft or an output shaft of the motor; the rotating bracket is fixedly arranged on the driving shaft. The axis of the driving shaft is the axis of the rotating bracket. By adopting the structure, the motor power of the blower can be directly adopted as the power for driving the rotating bracket to rotate, the structure is simpler and more compact, and the cost is effectively reduced.

In a further more preferred aspect, the drive shaft is coaxially connected to the rotating shaft. Of course, the driving shaft and the rotating shaft can also be connected by adopting a transmission mechanism to realize the transmission of power. Under the condition that the driving shaft and the rotating shaft are parallel to each other, the transmission mechanism can comprise two transmission gears which are meshed with each other, and the two transmission gears are respectively arranged on the driving shaft and the rotating shaft; in the case of a drive shaft perpendicular to the axis of rotation, the transmission may comprise a worm wheel and a worm which mesh with each other, or two bevel gears which mesh with each other.

In a further more preferable scheme, the rotating bracket is in a wheel shape, and the central part of the rotating bracket is arranged on the driving shaft; the bubble blowing component is arranged on the edge of the rotating bracket.

In another more preferable scheme, the rotary driving mechanism comprises a driving shaft and a rotary motor, the driving shaft is rotatably mounted on the base and arranged along the horizontal direction, the rotary motor is mounted on the base, and an output shaft of the rotary motor is in transmission connection with the driving shaft; the rotating bracket is fixedly arranged on the driving shaft. The axis of the driving shaft is the axis of the rotating bracket. During operation, the rotating motor drives the driving shaft to rotate, and drives the rotating bracket to continuously rotate around the driving shaft.

The rotating peripheral surface of the bubbling assembly in the present specification is a peripheral surface formed by a track of one rotation of the bubbling assembly around the axis of the rotating bracket; the low point of the rotating circumferential surface is the lowest rotating position of the bubble blowing assembly; the high point of the rotating circumferential surface is the highest rotating position of the bubble blowing assembly.

The utility model discloses a bubble bubbling device can blow off big papaw and small bubble automatically in succession in the bubble to make the small bubble hide in big papaw and fly out together, form the papaw of bubble structure in the bubble, the pattern is novel, interesting, makes the seven various illusion worlds of bubble in the magical bubble, satisfies children's amusement demand, interesting strong.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Detailed Description

As shown in fig. 1, the bubble-in-bubble blowing device comprises a base (not shown), a bubble liquid containing tank 1, a blower 2 and a bubbler 3, wherein the bubble liquid containing tank 1 and the blower 2 are both mounted on the base, and the top of the bubble liquid containing tank 1 is provided with a notch 11; the bubble blowing device 3 comprises a rotating bracket 31, a rotating driving mechanism 32 capable of driving the rotating bracket 31 to rotate and a plurality of bubble blowing assemblies 33, wherein the rotating driving mechanism 32 is installed on a base, the axis of the rotating bracket 31 is arranged along the horizontal direction, and the bubble blowing assemblies 33 are all installed on the rotating bracket 31 and are sequentially arranged along the circumferential direction of the axis of the rotating bracket 31; the low point of the rotating peripheral surface of the bubbling assembly 33 falls in the bubble solution containing tank, and the air outlet 212 of the blower 2 faces the rotating peripheral surface of the bubbling assembly 33; the bubble assembly 33 includes a large blowing head 331 and a small blowing head 332, the small blowing head 332 being disposed within the large blowing head 331.

In this embodiment, the blower 22 includes a housing 21, a motor (not shown), a rotating shaft (not shown), and an impeller (not shown), the housing 21 and the motor are both mounted on a base, the housing 21 is provided with an air inlet 211 and an air outlet 212, the air inlet 211 and the air outlet 212 are both communicated with an inner cavity of the housing 21, the rotating shaft is rotatably mounted on the housing 21 and is in transmission connection with an output shaft of the motor, and the impeller is fixedly mounted on the rotating shaft and is located in the inner cavity of the housing 21; the rotary driving mechanism 32 includes a driving shaft 321, the driving shaft 321 is rotatably mounted on the housing 21 and coaxially connected with the rotating shaft; the rotating bracket 31 is in a wheel shape, and the central part of the rotating bracket 31 is fixedly arranged on the driving shaft 321; the number of the bubble assembly 33 is plural, and each of the bubble assemblies 33 is installed on the edge of the rotating bracket 31 and is uniformly arranged along the circumferential direction of the driving shaft 321. The axis of the driving shaft 321 is the axis of the rotating bracket 31. With this structure, the motor power of the blower 2 can be directly used as the power for driving the driving shaft 321 and the rotating bracket 31 to rotate, the structure is simpler and more compact, and the cost is effectively reduced.

In the present embodiment, an air outlet grille 22 is installed at the air outlet 212 of the blower 2. The air outlet grille 212 can make the air blown out from the air outlet 212 of the blower 2 more uniform, so that the size of the blown air bubbles is more uniform.

In the present embodiment, the blower 2 is located inside the rotating peripheral surface of the bubbling assembly 33, and the outlet 212 of the blower 2 faces the high point of the rotating peripheral surface of the bubbling assembly 33; the small blowing head 332 is arranged between the blower 2 and the large blowing head 331, and the blowing opening of the small blowing head 332 is opposite to the blowing opening of the large blowing head 331. Like this, can effectively increase the distance that the notch that blows bubble subassembly 33 followed bubble liquid and hold groove 1 removed to the air outlet 212 department of hair-dryer 2, can not detain too much bubble liquid on big blowing head 331 and the little blowing head 332, avoid causing the work of blowing bubble ware 3 use dropping liquid or influence impeller.

The working principle of the bubble blowing device in bubbles is briefly described as follows:

when the device works, the bubble liquid containing groove 1 contains bubble liquid; starting a motor of the blower 2, wherein the motor of the blower 2 drives a rotating shaft to rotate to drive an impeller to rotate, and negative pressure is formed at the air inlet 211 of the shell 21; air enters the inner cavity of the shell 21 from the air inlet 211 under the action of negative pressure to form air flow, and then is blown out from the air outlet 212 towards the rotating peripheral surface of the bubble blowing assembly 33; meanwhile, the driving shaft 321 is driven by the motor of the blower 2 to rotate, so as to drive the rotating bracket 31 to rotate around the axis thereof, and drive the bubble blowing assemblies 33 to alternately pass through the notch 11 of the bubble liquid containing tank 1 and the air outlet 212 of the blower 2; when the bubble component 33 passes through the bubble liquid containing groove 1, the large blowing head 331 and the small blowing head 332 of the bubble component 33 extend into the notch 11 of the bubble liquid containing groove 1 and are immersed in the bubble liquid, and bubble films are formed on the blowing opening of the large blowing head 331 and the blowing opening of the small blowing head 332; when the bubble blowing component 33 passes through the air outlet 212 of the blower 2, the blower 2 blows air towards the mouthpiece of the small blowing head 332 and the mouthpiece of the large blowing head 331 through the air outlet 212, so that a bubble film on the mouthpiece of the large blowing head 331 and a bubble film on the mouthpiece of the small blowing head 332 respectively form a large bubble and a small bubble, and the small bubble can fly out together in the large bubble because the small blowing head 332 is positioned between the blower 2 and the large blowing head 331 and the mouthpiece of the small blowing head 332 is opposite to the mouthpiece of the large blowing head 331; through repeating the process, the bubble blowing device in the bubbles can automatically and continuously blow out a plurality of bubbles with bubble structures in the bubbles, has novel and interesting style, creates a colorful dream world of the magic bubbles, and meets the entertainment requirements of children with strong interest.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a bubble bubbling device in bubble, includes that base, papaw liquid hold groove, hair-dryer and bubbler, and the papaw liquid holds groove, hair-dryer and all installs on the base, its characterized in that: the bubble blowing device comprises a rotating support, a rotating driving mechanism and at least one bubble blowing component, the rotating driving mechanism can drive the rotating support to rotate, the rotating driving mechanism is installed on the base, the axis of the rotating support is arranged along the horizontal direction, the bubble blowing component is installed on the rotating support, the low point of the rotating peripheral surface of the bubble blowing component falls into the bubble liquid containing groove, and the air outlet of the blower faces the rotating peripheral surface of the bubble blowing component; the bubble blowing component comprises a large blowing head and at least one small blowing head, and the small blowing head is arranged in the range of the large blowing head.

2. The bubble-in-bubble blowing apparatus according to claim 1, wherein: the number of the bubble blowing assemblies is multiple, and each bubble blowing assembly is installed on the rotating bracket and uniformly arranged along the circumferential direction of the axis of the rotating bracket.

3. The bubble-in-bubble blowing apparatus according to claim 1, wherein: the blower is positioned inside the rotating peripheral surface of the bubbling assembly; the small blowing head is arranged between the blower and the large blowing head, and the blowing opening of the small blowing head is over against the blowing opening of the large blowing head.

4. The bubble-in-bubble blowing apparatus of claim 3, wherein: the air outlet of the blower faces the high point of the rotating peripheral surface of the bubbling assembly.

5. The bubble-in-bubble blowing apparatus according to any one of claims 1-4, wherein: the hair-dryer includes casing, motor, pivot and impeller, and the casing is installed on the base, be equipped with the air intake on the casing with the air outlet, air intake, air outlet all communicate with the inner chamber of casing, the motor is installed on base or casing, the pivot is rotatable to be installed on the casing and be connected with the output shaft transmission of motor, impeller fixed mounting is in the inner chamber of casing in the pivot.

6. The bubble-in-bubble blowing apparatus of claim 5, wherein: an air outlet grid is installed at the air outlet of the blower.

7. The bubble-in-bubble blowing apparatus of claim 5, wherein: the rotary driving mechanism comprises a driving shaft, the driving shaft is rotatably arranged on the shell and is arranged along the horizontal direction, and the driving shaft is in transmission connection with the rotating shaft or an output shaft of the motor; the rotating bracket is fixedly arranged on the driving shaft.

8. The bubble-in-bubble blowing apparatus of claim 7, wherein: the driving shaft is coaxially connected with the rotating shaft.

9. The bubble-in-bubble blowing apparatus of claim 7, wherein: the rotary bracket is in a wheel shape, and the central part of the rotary bracket is arranged on the driving shaft; the bubble blowing component is arranged on the edge of the rotating bracket.

10. The bubble-in-bubble blowing apparatus according to any one of claims 1-4, wherein: the rotary driving mechanism comprises a driving shaft and a rotary motor, the driving shaft is rotatably arranged on the base and arranged along the horizontal direction, the rotary motor is arranged on the base, and an output shaft of the rotary motor is in transmission connection with the driving shaft; the rotating bracket is fixedly arranged on the driving shaft.

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