Gas Inflatable Balloons
First Claim
Patent Images
1. A balloon inflation system for simultaneously inflating a plurality of balloons, the system comprising:
- a plurality of assemblies each comprising a balloon and a tether connected thereto, the tether of each balloon being flexible and hollow so as to define an inflation conduit for delivery of inflation gas to the balloon, each balloon having a spout and each tether has(a) a first end inserted into the balloon at the spout of said balloon and the balloon is bonded at the spout to the tether in a manner to ensure that inflation gas can enter the balloon only via the tether, and(b) a second end remote from the balloon, the second end of the tether being connected in fluid communication with a manifold,the manifold being adapted to receive the inflation gas for delivery of said inflation gas to each of said tethers and the respective balloons, each tether being adapted to be severed so that the balloon and tether assembly can be removed from the manifold after the balloon is inflated,wherein each tether further comprises a one-way valve to control the flow of gas through said tether, said one-way valve being adapted to prevent the inflation gas escaping from the balloon through the tether when gas pressure inside the balloon exceeds the gas pressure in the tether and wherein the tethers are connected to each other along at least a part of the lengths of said tethers to form a ribbon of tethers and connections between the tethers are severable so that the tethers can be separated from each other.
2 Assignments
0 Petitions
Accused Products
Abstract
A tethered balloon assembly the balloon, to be inflated via the tether which is to be subsequently closed by a one way valve to keep the balloon inflated and allow additional inflation as desired, controllable by its tether.
6 Citations
4 Claims
-
1. A balloon inflation system for simultaneously inflating a plurality of balloons, the system comprising:
-
a plurality of assemblies each comprising a balloon and a tether connected thereto, the tether of each balloon being flexible and hollow so as to define an inflation conduit for delivery of inflation gas to the balloon, each balloon having a spout and each tether has (a) a first end inserted into the balloon at the spout of said balloon and the balloon is bonded at the spout to the tether in a manner to ensure that inflation gas can enter the balloon only via the tether, and (b) a second end remote from the balloon, the second end of the tether being connected in fluid communication with a manifold, the manifold being adapted to receive the inflation gas for delivery of said inflation gas to each of said tethers and the respective balloons, each tether being adapted to be severed so that the balloon and tether assembly can be removed from the manifold after the balloon is inflated, wherein each tether further comprises a one-way valve to control the flow of gas through said tether, said one-way valve being adapted to prevent the inflation gas escaping from the balloon through the tether when gas pressure inside the balloon exceeds the gas pressure in the tether and wherein the tethers are connected to each other along at least a part of the lengths of said tethers to form a ribbon of tethers and connections between the tethers are severable so that the tethers can be separated from each other. - View Dependent Claims (2, 3)
-
-
4. A method of providing a plurality of simultaneously inflated balloons, wherein each balloon is connected to a flexible tether that also acts as an inflation conduit and is connected to a manifold, said method comprising the steps of
a) supplying an inflation gas into the manifold whereby the inflation gas is delivered through the respective inflation conduit to the respective balloon, and after each balloon has been inflated b) sealing each inflation conduit by utilising a duckbill valve for each inflation conduit in a manner to prevent deflation of the attached inflated balloon.
Specification