The present disclosure refers to a latex balloon with a particular finishing as its surface is highly reflective, and with metallized tones. The balloon of the present disclosure is manufactured in at least two layers. The instant disclosure provides a balloon with metallized mirrored finishing which may also be added with several colors. Additionally, the reflective power of the balloon surface is enhanced. In addition, methods for manufacturing the present balloon are provided.

The present disclosure refers to a latex balloon with a particular finishing as its surface is highly reflective, and with metallized tones. The balloon of the present disclosure is manufactured in at least two layers. The instant disclosure provides a balloon with metallized mirrored finishing which may also be added with several colors. Additionally, the reflective power of the balloon surface is enhanced. In addition, methods for manufacturing the present balloon are provided.

The innovation described herein generally pertains to a valve for use in allowing material to flow into a vessel. The valve can be constructed from a cylinder of thin-film plastic and can be inserted into and adhered to the inside of a neck of the vessel. Pressure inside of the vessel causes the outlet of the valve to constrict or collapse, preventing material from flowing back through the valve from within the vessel when inflation pressure is removed.

The current inventive technology described methods and apparatus for the production of a helium-free balloon having customizable reflective features.

A vent balloon for use over an air vent including an inflatable body operatively attached to a base on a proximal side, and a removable adhesive attached to a distal side of the base for attaching to an air vent. A method of using a vent balloon by removably adhering an inflatable body of the vent balloon through a base to an air vent, flowing air through the inflatable body, and inflating the inflatable body. A vent balloon for dispersing scent in a room, including an inflatable body operatively attached to a base on a proximal side, a removable adhesive attached to a distal side of the base for attaching to an air vent, and at least one scent mechanism operatively attached to the vent balloon for dispersing scent in the room. A method of dispersing scent in a room using the vent balloon.

A method of forming a self-sealing balloon by applying an adhesive to a balloon form, then applying material to the balloon form to create the balloon. The adhesive is applied forming an annular adhesive ring. The adhesive can be applied using a fiberization process. The balloon form can be rotated during the adhesive application process. The adhesive can be encapsulated within an adhesive staging segment formed within a neck segment of the balloon. Airflow can be directed to the interface between an unfinished lip of the balloon material and the surface of the balloon form to aid in at least one of a forming process and a release process. The adhesive ring can be at least partially encapsulated within an adhesive staging segment of the balloon neck segment.

Non-conductive films for constructing lighter than air balloons are provided. A non-conductive film may comprise multiple layers of gas barrier polymers. An outer surface printable layer and an interior heat or ultrasonically sealable layer may also be included. Each gas barrier film may comprise multiple (e.g., from 3 to approximately 75) barrier layers. A gas barrier core has a nano-layer structure. A gas barrier core may also comprise a biodegradable film or a bio-based film. A non-conductive film may comprise a metal layer for enhancing gas barrier properties. The metal layer may be discontinuous. The metal layer may be conductive and coated with an insulating top coat.

A formable biaxially-oriented film includes a first layer. The first layer includes from about 10 to about 90 wt. % crystalline polyester and from about 10 to about 90 wt. % of a formability enhancer to assist in increasing the polymeric chain flexibility. The formability enhancer has a melting point less than about 230 C. The film has a MD and a TD Young's Modulus of at least 10% lower than a crystalline polyester film in the absence of the formability enhancer. The film may further include a second layer, which includes an amorphous copolyester. The second layer may be adjacent to or attached to the first layer.

A vent balloon, including an inflatable body operatively attached to a molded plastic base on a proximal side, wherein the inflatable body is inflated by a mechanism of an air vent or a fan operatively attached to the molded plastic base, and including a scent mechanism operatively attached to the molded plastic base for dispersing scent in a room that relates to a design on the inflatable body. A method of using a vent balloon by flowing air through an inflatable body of a vent balloon through a molded plastic base, wherein the air comes from a source of an air vent or a fan operatively attached to the molded plastic base, inflating the inflatable body, and flowing air over at least one scent mechanism operatively attached to the molded plastic base that relates to a design on the inflatable body and releasing scent into the air.

Non-conductive films for constructing lighter than air balloons are provided. A non-conductive film may comprise multiple layers of gas barrier polymers. An outer surface printable layer and an interior heat or ultrasonically sealable layer may also be included. Each gas barrier film may comprise multiple (e.g., from 3 to approximately 75) barrier layers. A gas barrier core has a nano-layer structure. A gas barrier core may also comprise a biodegradable film or a bio-based film. A non-conductive film may comprise a metal layer for enhancing gas barrier properties. The metal layer may be discontinuous. The metal layer may be conductive and coated with an insulating top coat.