A bubble maker simplifies the creation and distribution of bubbles. The bubble maker includes a mixing basin, a water-inlet tube, an air-inlet tube, a bubble outlet, and a water overflow outlet. The bubble maker does not require an external electric power source to drive the agitation for a mixture of the water and soap as Venturi effect is implemented via water pressure from an external water supply through the water-inlet tube into the air-inlet tube to aerate the water and soap mixture and produce bubbles. The bubble maintains a maximum water level within the mixing basin with a water overflow outlet that allows for sufficient headspace for bubbles to accumulate within the mixing basin. As the bubbles accumulate within the mixing basin, the bubbles flow out of the bubble maker through the bubble outlet.

The present invention is a bubble, fog, haze, and fog-filled bubble machine. In particular, the present invention is directed to a single unit machine that can produce bubbles, fog, fog-filled bubbles or haze. The machine preferably comprises a housing having a front portal, a bubble section, a fog section, and a control interface, where the housing is connected to a power source. The bubble section is located behind the front portal and has a bubble wand motor attached to a rotatable wheel with a number of bubble wands. The bubble wands pass through a bubble fluid reservoir. The fog section is located behind the bubble section and comprises a fog outlet in front of a fan, where the fog outlet is connected to a fog heater core and a fog pump is in turn connected to a fog fluid reservoir. The control interface controls the selection of effects.

The present invention is a bubble, fog, haze, and fog-filled bubble machine. In particular, the present invention is directed to a single unit machine that can produce bubbles, fog, fog-filled bubbles or haze. The machine preferably comprises a housing having a front portal, a bubble section, a fog section, and a control interface, where the housing is connected to a power source. The bubble section is located behind the front portal and has a bubble wand motor attached to a rotatable wheel with a number of bubble wands. The bubble wands pass through a bubble fluid reservoir. The fog section is located behind the bubble section and comprises a fog outlet in front of a fan, where the fog outlet is connected to a fog heater core and a fog pump is in turn connected to a fog fluid reservoir. The control interface controls the selection of effects.

A device creates a vapor filled bubble. The device includes a dispensing nozzle including a liquid retention formation for assisting bubble creation, an air displacement element; a vapor producing means, which includes a source of vapor producing liquid, and a means for heating the liquid. The air displacement element is arranged to provide airflow through the vapor producing means to produce vapor for delivery to the dispensing nozzle.

A bubble machine has a fan assembly that has a fan housing, and a fan coupled to the fan housing. A bubble dispenser is disposed above the fan housing, and has a mounting section that is secured inside the fan housing, and a bubble solution collection section covering the fan below. The housing, the mounting section and the bubble solution collection section define at least one space through which air generated by the fan can flow upwardly. A bubble wand assembly has a plurality of bubble wands that are disposed above the bubble dispenser in a manner such that each of the plurality of bubble wands is rotated over the bubble solution collection section to be coated with bubble solution, and then rotated over the at least one space so that air from below can be blown through the bubble wand to generate bubbles.

A bubble machine has a fan assembly that has a fan housing, and a fan coupled to the fan housing. A bubble dispenser is disposed above the fan housing, and has a mounting section that is secured inside the fan housing, and a bubble solution collection section covering the fan below. The housing, the mounting section and the bubble solution collection section define at least one space through which air generated by the fan can flow upwardly. A bubble wand assembly has a plurality of bubble wands that are disposed above the bubble dispenser in a manner such that each of the plurality of bubble wands is rotated over the bubble solution collection section to be coated with bubble solution, and then rotated over the at least one space so that air from below can be blown through the bubble wand to generate bubbles.

A bubble machine has a fan assembly that has a fan housing, and a fan coupled to the fan housing. A bubble dispenser is disposed above the fan housing, and has a mounting section that is secured inside the fan housing, and a bubble solution collection section covering the fan below. The housing, the mounting section and the bubble solution collection section define at least one space through which air generated by the fan can flow upwardly. A bubble wand assembly has a plurality of bubble wands that are disposed above the bubble dispenser in a manner such that each of the plurality of bubble wands is rotated over the bubble solution collection section to be coated with bubble solution, and then rotated over the at least one space so that air from below can be blown through the bubble wand to generate bubbles.

A bubble machine has a fan assembly that has a fan housing, and a fan coupled to the fan housing. A bubble dispenser is disposed above the fan housing, and has a mounting section that is secured inside the fan housing, and a bubble solution collection section covering the fan below. The housing, the mounting section and the bubble solution collection section define at least one space through which air generated by the fan can flow upwardly. A bubble wand assembly has a plurality of bubble wands that are disposed above the bubble dispenser in a manner such that each of the plurality of bubble wands is rotated over the bubble solution collection section to be coated with bubble solution, and then rotated over the at least one space so that air from below can be blown through the bubble wand to generate bubbles.

The automatic bubble dispensing wand is a portable and ergonomic apparatus that emits bubbles. The apparatus includes an elongated housing, at least one dispensing assembly, at least one fan mechanism, a motor, a pump, a solution reservoir, a microcontroller, and a power source. The elongated housing includes a handle portion, at least one dispensing end, at least one outlet, and an inlet. The handle portion is preferably positioned between a first dispensing end and a second dispensing end. The at least one dispensing assembly and the at least one fan mechanism are mounted within the at least one dispensing end. The motor, the pump, the solution reservoir, the microcontroller, and the power source are mounted within the handle portion. The at least one outlet traverses into the at least one dispensing end, and the inlet traverses into the handle portion.

The automatic bubble dispensing wand is a portable and ergonomic apparatus that emits bubbles. The apparatus includes an elongated housing, at least one dispensing assembly, at least one fan mechanism, a motor, a pump, a solution reservoir, a microcontroller, and a power source. The elongated housing includes a handle portion, at least one dispensing end, at least one outlet, and an inlet. The handle portion is preferably positioned between a first dispensing end and a second dispensing end. The at least one dispensing assembly and the at least one fan mechanism are mounted within the at least one dispensing end. The motor, the pump, the solution reservoir, the microcontroller, and the power source are mounted within the handle portion. The at least one outlet traverses into the at least one dispensing end, and the inlet traverses into the handle portion.