CN211676307U - Swinging bubble-discharging type bubble machine - Google Patents

Abstract

The utility model relates to an amusement apparatus field, concretely relates to throw bubble formula papaw machine, this papaw machine can produce the papaw and use or supply children to play when stage cloth imitates. The whipping bubble-discharging type bubble machine is provided with a fan, an air path and a bubble outlet, wherein air blown out by the fan reaches the bubble outlet through the air path to blow a liquid film at the bubble outlet to form bubbles maintained at the bubble outlet, and a check valve is arranged in the air path. The utility model provides a do not need to open the fan all the time just can make the papaw maintain the whipping play bubble formula papaw machine in a bubble mouth department for a long time.

Description

Swinging bubble-discharging type bubble machine

Technical Field

The utility model relates to an amusement apparatus field, concretely relates to throw bubble formula papaw machine, this papaw machine can produce the papaw and use or supply children to play when stage cloth imitates.

Background

In the swing bubble-discharging type bubble machine, the air of the fan blows to the bubble outlet through the air path and forms bubbles at the bubble outlet, and because no liquid smearing piece for cutting the bubbles is arranged at the bubble outlet of the bubble machine, and the air blown out by the fan is small, the bubbles can be maintained at the bubble outlet after being formed at the bubble outlet, and the bubbles cannot be separated from the bubble outlet unless a user swings. If the user does not throw the bubbles in time, the bubbles are maintained at the bubble outlet, once the user turns off the fan, a pressure difference is formed between the inside of the bubbles and the atmosphere, and the bubbles gradually shrink and disappear in order to reach the pressure balance. If the bubbles are required to be maintained at the bubble outlet all the time, the fan needs to be started all the time, and the power consumption is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a do not need to open the fan all the time just can make the papaw maintain the whipping play bubble formula papaw machine in a bubble mouth department for a long time.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a swinging bubble-discharging type bubble machine is provided with a fan, an air path and a bubble outlet, wherein air blown out by the fan reaches the bubble outlet through the air path to blow a liquid film at the bubble outlet to form bubbles maintained at the bubble outlet, and a check valve is arranged in the air path.

Furthermore, an atomization module is arranged in the air path.

Further, an installation cavity for detachably installing the atomization module is arranged between the fan and the bubble outlet.

Further, the mounting chamber is provided with a cover.

Further, the atomization module is included.

Further, the check valve is arranged between the fan and the atomization module.

Further, be equipped with the power supply contact in the installation cavity, the atomizing module is equipped with and gets the electric contact piece with power supply contact alignment in the installation cavity.

Further, a blocking piece for operation is arranged to block the bubble outlet.

Further, the plugging piece is a plug.

Furthermore, the atomization module comprises a shell, an atomization channel and an atomization liquid container, wherein the atomization channel is used for being connected between the fan and the bubble outlet, the atomization liquid container can supply atomization liquid to the atomization channel, and the atomization channel and the atomization liquid container are both wrapped by the shell.

Further, the housing and/or the atomized liquid container realize the encapsulation of the atomized liquid.

Furthermore, the atomized liquid container realizes the encapsulation of atomized liquid, it has the notes liquid mouth to open on the atomized liquid container, and the shell blocks and annotates the liquid mouth.

Has the advantages that: the air path is provided with the check valve, and due to the one-way conductivity of the check valve, even if the fan is closed, the air pressure in the bubbles cannot be changed, and the air pressure difference between the interior of the bubbles and the atmosphere cannot be formed, so that the bubbles can be maintained at the bubble outlet for a long time without being reduced and disappeared.

Drawings

FIG. 1 is a block diagram of a whipping bubble-generating bubble machine;

FIG. 2 is a block diagram of the bubble producing mechanism;

FIG. 3 is a block diagram of the whipping bubble generating machine with the atomizing module removed by opening the cover of the mounting chamber;

FIG. 4 is a block diagram of an atomizing module;

FIG. 5 is a block diagram of the atomizing module with the housing removed;

FIG. 6 is a partial schematic view of an atomizing channel;

fig. 7 is a structural view of the plug.

Detailed Description

The specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting of the invention.

Referring to fig. 1, the whipping bubble generator is in the shape of a stick and includes a housing 1 and a bubble generating mechanism 2 mounted in the housing 1. As shown in fig. 2, the foam discharging mechanism 2 includes a fan 3 and a foam discharging unit 4 having a foam discharging opening (invisible due to shielding), and air blown by the fan 3 passes through an air duct 5 and reaches the foam discharging opening. In order to realize the whipping bubble-discharging effect, the fan 3 is a low-speed fan 3, the air blown by the fan 3 reaches the bubble-discharging opening through the air path 5, and blows a liquid film at the bubble-discharging opening (the bubble-discharging piece 4 is dipped in the liquid film formed by the bubble-discharging water, and the bubble-discharging piece 4 is the prior art), so that bubbles maintained at the bubble-discharging opening are formed, and a user can shake the bubble machine to separate the bubbles from the bubble-discharging opening. The air passage 5 is provided with a check valve 6: the casing of the fan 3 extends toward the bubble generating member 4 to form an air passage 31, and a check valve 6 is installed at a front end portion of the air passage 31 so that wind energy blown by the fan 3 is blown toward the bubble generating port through the check valve 6 without being returned. Due to the one-way conduction characteristic of the check valve 6, after the fan 3 blows bubbles maintained at the bubble outlet, even if the fan 3 is closed, if the bubbles are not swung, the bubbles can still maintain the size of the bubbles at the bubble outlet for a long time when the fan 3 is closed. The check valve 6 is prior art and its specific structure and principle are not described in detail herein.

As shown in fig. 3, an installation cavity 11 for detachably installing the atomizing module 7 is formed in the air path 5 (see fig. 2), the atomizing module 7 is installed in the installation cavity 11, the installation cavity 11 is provided with a cover 12, the atomizing module 7 needs to be replaced, the original atomizing module 7 is detached, and a new atomizing module 7 is replaced. As shown in fig. 4, the atomizing module 7 includes a housing 71, an atomizing passage 72, and an atomizing liquid container 73 (see fig. 5), and both the atomizing passage 72 and the atomizing liquid container 73 are enclosed by the housing 71, but both ports of the atomizing passage 72 are not covered by the housing 71, so that wind can flow from one end of the atomizing passage 72 to the other end. As shown in fig. 5, the atomizing passage 72 is partially covered by the atomizing liquid container 73, the atomizing liquid container 73 contains the atomizing liquid, and two through holes 721 (see fig. 6) are formed in the atomizing passage 72 and located in the atomizing liquid container 73. There is the imbibition cotton (not shown) in the atomizing passageway 72, and the both ends of imbibition cotton pass two through-holes 721 respectively and stretch into the atomizing liquid container 73 for the atomizing liquid can be absorbed by the imbibition cotton, and spread the transmission to the middle part along the both ends of imbibition cotton, thereby reach the effect of supplying atomizing liquid to atomizing passageway 72. After the two ends of the liquid absorbing cotton respectively penetrate through the two through holes 721, the liquid absorbing cotton just fills up the through holes 721, so that atomized liquid in the atomized liquid container 73 can only enter the atomizing channel 72 along the liquid absorbing cotton, and the problem that the atomized liquid possibly leaks from the two ends of the atomizing channel 72 when entering the atomizing channel 72 too much is avoided. A heating wire (not shown) serving as a heating device is wound around the portion of the absorbent cotton located in the atomizing passage 72. As shown in fig. 2, a power supply chamber 8 for mounting a battery is provided below the blower 3 and the atomizing module 7. A power supply contact 13 (see fig. 3) electrically connected with a battery in the power supply cavity 8 is arranged in the mounting cavity 11, a power taking contact piece 74 (see fig. 4) aligned with the power supply contact 13 in the mounting cavity 11 is arranged on the atomization module 7, and the power taking contact piece 74 is electrically connected with the heating wire. When the atomization module 7 is installed in the installation cavity 11, the battery in the power supply cavity 8 supplies power to the heating wire through the power supply contact 13 and the power taking electric shock, so that the heating wire can be heated to atomize the atomized liquid in the atomization passage 72, and smoke is formed. In the embodiment, the atomized liquid container 73 encapsulates the atomized liquid, a liquid injection port 731 (see fig. 4) is formed in the atomized liquid container 73, and the manufacturer fills the atomized liquid into the atomized liquid container 73 from the liquid injection port 731 and blocks the liquid injection port 731. After the atomized liquid module is manufactured, the housing 71 blocks the liquid injection port 731, so that a user cannot add atomized liquid by himself or herself to ensure safety. If the atomized liquid is used up, the user only needs to integrally change the atomization module 7, the changed atomization module 7 can be directly discarded, and if a manufacturer has requirements, the atomized liquid can be recycled by the manufacturer.

The encapsulation to the atomized liquid is realized to atomized liquid container 73 in this embodiment, can also change shell 71 into and realize the encapsulation to the atomized liquid, as long as shell 71 keeps apart atomized liquid and user to do not set up atomized liquid inlet on the shell 71, make the user can not inwards add the atomized liquid by oneself.

As shown in fig. 2, the atomizing module 7 is disposed in front of the check valve 6, and when the atomizing module 7 is installed in the installation cavity 11, the atomizing channel 72 is communicated with the air duct 31, so that wind energy blown by the fan 3 passes through the atomizing channel 72 and blows the mist in the atomizing channel 72 to the bubble outlet to form bubbles wrapped with the mist.

The inventor finds that when the bubble machine is not used, air in the air enters the atomizing passage 72 through the bubble outlet, so that the atomized liquid is accelerated to spread from the atomized liquid container 73 to the atomizing passage 72 along the liquid absorbing cotton, and a small amount of atomized liquid may leak out after the bubble machine is placed for a long time. To solve this problem, as shown in fig. 7, the bubble machine is further provided with a plug 9 as a blocking member for the user to operate, and the plug 9 can be inserted into the bubble outlet from the front end of the bubble machine to block the bubble outlet when the bubble machine is not in use. After the bubble outlet of the bubble machine is blocked, an environment basically without air flow is formed in the bubble machine, particularly in the atomizing module 7, so that the problem that when the bubble machine is not used for a long time, the atomizing liquid in the atomizing module 7 is excessively transferred into the atomizing channel 72, and the generated atomizing liquid possibly leaks in a small amount can be avoided.

The above is only the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, there may be local minor structural modification in the implementation process, if it is right that various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, and belong to the claims and the equivalent technical scope of the present invention, then the present invention is also intended to include these modifications and variations.

Claims (12)

1. A swinging bubble-discharging type bubble machine is provided with a fan, an air path and a bubble outlet, wherein air blown out by the fan reaches the bubble outlet through the air path to blow a liquid film at the bubble outlet to form bubbles maintained at the bubble outlet.

2. The whipping bubble generating bubble machine of claim 1, wherein an atomizing module is provided in the air path.

3. The whipping bubble generating machine of claim 1, wherein a mounting chamber for detachably mounting the atomizing module is provided between the blower and the bubble outlet.

4. The whipping bubble machine of claim 3, wherein the mounting chamber is fitted with a lid.

5. The whipping bubble machine of claim 3, comprising said atomizing module.

6. The whipping bubble machine of claim 2 or 5, wherein the check valve is disposed between the fan and the atomizing module.

7. The whipping bubble generating machine of claim 5, wherein power contacts are provided in the mounting chamber and the atomizing module is provided with power take-off contacts aligned with the power contacts in the mounting chamber.

8. The whipping bubble machine of claim 2 or 5, wherein a stopper is provided for operation to block the bubble outlet.

9. The whipping bubble generating machine of claim 8, wherein the closure is a latch.

10. The whipping bubble machine of any one of claims 2, 5, 7 and 9, wherein the atomizing module comprises a housing including an atomizing channel for connection between the blower and the bubble outlet, and an atomizing fluid container for supplying atomizing fluid to the atomizing channel, the atomizing channel and the atomizing fluid container being enclosed by the housing.

11. The whipping bubble machine of claim 10, wherein the housing and/or the atomized liquid container effect encapsulation of the atomized liquid.

12. The whipping bubble generating machine as claimed in claim 10, wherein the container for atomized liquid is adapted to enclose the atomized liquid, and the container for atomized liquid has a liquid inlet and the housing blocks the liquid inlet.

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