Formulations that, when suitably mixed, form edible liquid solutions suitable for blowing bubbles. These formulations contain water, a surfactant, a thickener, a pH adjusting agent/preservative, and optionally a sweetener. The formulations may be provided in either solid form or liquid form, either of which may form an edible bubble solution when mixed with a sufficient quantity of a beverage or similar liquid.

A bubble machine with an adjustable blowing angle comprises a machine body, an air supply mechanism arranged inside the machine body, and a film forming mechanism, wherein the air supply mechanism comprises a double-shaft motor, a fan cover arranged outside the double-shaft motor, and the film forming mechanism comprises a rotary table, a plurality of bubble rings uniformly arranged on the circumference of the rotary table, and a liquid storage tank arranged below the rotary table; one output shaft of the double-shaft motor is provided with a fan blade, and the other output shaft of the double-shaft motor drives the rotary table to rotate after being decelerated by a gear box; the bubble rings are arranged along the normal of the rotary table, and the fan cover is provided with a rotatable air duct at the position of the air outlet; the bubble rings are arranged along the normal of the rotary table, and then the air flow is output to the bubble rings through the action of the air duct. The air flow is strong, the wind force is sufficient, the bubbling effect is good, and the angle of the air duct is adjustable, which is suitable for more practical scenes.

A bubble machine with an adjustable blowing angle comprises a machine body, an air supply mechanism arranged inside the machine body, and a film forming mechanism, wherein the air supply mechanism comprises a double-shaft motor, a fan cover arranged outside the double-shaft motor, and the film forming mechanism comprises a rotary table, a plurality of bubble rings uniformly arranged on the circumference of the rotary table, and a liquid storage tank arranged below the rotary table; one output shaft of the double-shaft motor is provided with a fan blade, and the other output shaft of the double-shaft motor drives the rotary table to rotate after being decelerated by a gear box; the bubble rings are arranged along the normal of the rotary table, and the fan cover is provided with a rotatable air duct at the position of the air outlet; the bubble rings are arranged along the normal of the rotary table, and then the air flow is output to the bubble rings through the action of the air duct. The air flow is strong, the wind force is sufficient, the bubbling effect is good, and the angle of the air duct is adjustable, which is suitable for more practical scenes.

First and second rotational ring structures each include a plurality of individual circumferentially arranged rings. The structures are spaced from each other and situated in substantially the same plane. A fan creates an airflow through the housing. A liquid dispensing section has conduits which deliver bubble generating liquid onto rings of each of the rotational ring structures. A siphoning mechanism draws bubble generating liquid from a reservoir and to each of said first and second rotational ring structures. A drive mechanism rotates the rotational ring structures. A motor powers the siphoning mechanism, the drive mechanism, and the fan, such that separate continuous bubble streams are created simultaneously.

First and second rotational ring structures each include a plurality of individual circumferentially arranged rings. The structures are spaced from each other and situated in substantially the same plane. A fan creates an airflow through the housing. A liquid dispensing section has conduits which deliver bubble generating liquid onto rings of each of the rotational ring structures. A siphoning mechanism draws bubble generating liquid from a reservoir and to each of said first and second rotational ring structures. A drive mechanism rotates the rotational ring structures. A motor powers the siphoning mechanism, the drive mechanism, and the fan, such that separate continuous bubble streams are created simultaneously.

A bubble creation device is disposed in a sole of a shoe and include a soapy water container for storing soapy water, a bubble blowing module, and at least one tube having two ends connected to the soapy water container and the bubble blowing module respectively and being in fluid communication therewith. The bubble blowing module includes a channel in a housing and having an outlet open to the atmosphere, and an air inlet open to the atmosphere; a blowing unit in the housing for flowing air from the channel to the outlet; a film forming unit through the outlet and communicating with the at least one tube; a power unit in the housing for supplying power to the blowing unit; and an on/off switch on the sole for controlling an activation of the blowing unit.

A bubble creation device is disposed in a sole of a shoe and include a soapy water container for storing soapy water, a bubble blowing module, and at least one tube having two ends connected to the soapy water container and the bubble blowing module respectively and being in fluid communication therewith. The bubble blowing module includes a channel in a housing and having an outlet open to the atmosphere, and an air inlet open to the atmosphere; a blowing unit in the housing for flowing air from the channel to the outlet; a film forming unit through the outlet and communicating with the at least one tube; a power unit in the housing for supplying power to the blowing unit; and an on/off switch on the sole for controlling an activation of the blowing unit.

A bubble machine (200), relating to the technical field of children’s toys, comprising a core (100) and a housing (7), wherein part of the core (100) is located in the housing (7), the housing (7) is arranged on the core (100), a bubble outlet (9) of the core (100) is exposed outside the housing (7), and the housing (7) is a flexible inflatable housing (7). The housing (7) expands and becomes larger after inflated, and shrinks and becomes smaller after deflated. Therefore, the volume of the bubble machine (200) can be increased or reduced.

A bubble machine (200), relating to the technical field of children’s toys, comprising a core (100) and a housing (7), wherein part of the core (100) is located in the housing (7), the housing (7) is arranged on the core (100), a bubble outlet (9) of the core (100) is exposed outside the housing (7), and the housing (7) is a flexible inflatable housing (7). The housing (7) expands and becomes larger after inflated, and shrinks and becomes smaller after deflated. Therefore, the volume of the bubble machine (200) can be increased or reduced.

The present invention relates generally to the field of amusement toys, and may comprise a number of different potential embodiments. For example, a first embodiment may comprise a primary bowl and a secondary bowl that allows multiple bubbles to be formed. Other embodiments may be primarily comprised of a central rotating member, at least one bowl, and other components that provide stability and additional entertainment to the user. The device is flexible or semi-flexible, such that users may generate different shapes, patterns and styles with each use. The device is also comprised of at least one bowl that allows for multiple bubbles to be formed inside of already formed bubbles.