A junction unit adapted for use in a lighting balloon apparatus is provided. The junction unit comprises a body, a first attachment region disposed on the body to couple to one or more lighting modules, and a second attachment region disposed on the body to couple to a header cable that provides power to the one or more lighting modules.

The present disclosure provides a lighting device for use with inflatable products, such as balloons. Specifically, the lighting device may be configured to utilize external audio to produce a pattern of light corresponding with the external audio. The lighting device is able to couple to a balloon to light up the interior of the balloon without the significant loss of gas or other inflating fluid from the balloon.

An automatically opening and closing inflatable holiday ornament includes a box that has a base, a plurality of side panels hingedly connected to the base, and a top portion connected to each of the plurality of side panels. The ornament further includes a motor, a plurality of pull cables, such that each of the plurality of pull cables has a first end operatively connected to the motor and a second end connected to one of the plurality of side panels. The ornament also includes a first blower, an inflatable disposed in the box and surrounding the first blower such that operation of the first blower blows air into the inflatable to inflate the inflatable, and a controller operatively connected to the motor and to the first blower such that the controller controls operation of the motor and the blower.

In order to provide a temporary lighting solution in extreme weather or lighting conditions, this application has been conceived. A set of blowers will continuously operate to inflate a long cylindrical tube in which a light has been placed to illuminate a designated area. The means of illumination for the device will be an LED light that is mounted to a plate on the top of an inflatable tube. Ventilation holes on the plate to mount the LED light and heat sinks are incorporated to dissipate the heat that is generated by this light.

In an aspect, an apparatus is provided and includes an air-tight object having an outer layer, an inner layer, and a cover, and a light module. The opacity of the outer layer is greater than the opacity of the inner layer. The outer layer defines a first aperture and a second aperture. The inner layer and the cover define a first interior region. The inner layer defines a second interior region. The light module is encapsulated within the first interior region and is configured to send light through the inner layer, through the second interior region of the air-tight object, and through the second aperture of the outer layer, wherein the cover is disposed between the light module and the outer layer.

The present invention relates to an inflatable, moveable structure comprising: a fluid source; at least one chamber comprising a substantially inelastic outer membrane defining a cavity extending therebetween, in which the or each cavity is in fluid communication with the fluid source, and in which the or each chamber further comprises at least one first valve located on and extending through the outer membrane thereof; and a control system. The control system comprises at least one of: a plurality of pressure sensors, each pressure sensor located within a corresponding chamber and operable to determine the pressure of the fluid within the corresponding chamber and/or the pressure ratio of fluid within at least two chambers; and/or at least one spatial orientation sensor configured to determine the spatial orientation of the at least one chambers; in which the control system is operable to independently control operation of the at least one first and/or second valve in communication with the at least one chamber in response to one or more of the determined spatial orientation of the structure as determined by the spatial orientation sensor(s) and/or fluid pressure within the corresponding chamber(s) and/or pressure ratio of fluid within at least two chambers as determined by the pressure sensor(s).

An inflatable solar-powered light is provided. The solar-powered light includes a bladder and a solar-powered light assembly disposed entirely within the bladder. The solar-powered light assembly includes a solar panel, a rechargeable battery in electrical communication with the solar panel, and at least one light-emitting diode in electrical communication with the rechargeable battery. The bladder is substantially transparent, flexible, inflatable, and collapsible.

An illuminated inflatable decoration comprises a base unit including a housing. The inflatable decoration includes a rechargeable battery located in the housing. In addition, a fan and a light source are arranged to draw power from the rechargeable battery. An inflatable element is removably connected to the base unit and configured to be expanded into a semi-rigid shape when filled with pressurized air from the fan. The inflatable decoration includes a controller configured to receive commands from a remote-control unit and control the operation of the fan and the light source. With this arrangement, customers will be able to incorporate illuminated inflatable elements into their event design décor scheme without the need for a power feed.

In an aspect, an apparatus is provided and includes an air-tight object having an outer layer, an inner layer, and a cover, and a light module. The opacity of the outer layer is greater than the opacity of the inner layer. The outer layer defines a first aperture and a second aperture. The inner layer and the cover define a first interior region. The inner layer defines a second interior region. The light module is encapsulated within the first interior region and is configured to send light through the inner layer, through the second interior region of the air-tight object, and through the second aperture of the outer layer, wherein the cover is disposed between the light module and the outer layer.

A low wattage balloon work light includes an illumination unit with a light-emitting diode (LED) light bank in the range of 30 watts to 300 watts, an inflatable balloon, and a power cord to power the low wattage balloon work light.