The present disclosure generally relates to a projectile launcher, and more specifically to an impact safe projectile launcher for use within an inflatable structure.
Projectile launchers for propelling impact-safe foam projectiles are generally known and used in participatory play structures. Known projectile launchers include a launch tube sized and configured to accommodate insertion of an impact-safe projectile with substantially little or no friction between the launch tube inner wall and the projectile. A nozzle is disposed at one end of the launch tube. The nozzle receives compressed air and discharges a stream of high-velocity air which impinges upon the projectile within the launch tube. The flow of air into the nozzle is controlled by a play-participant-actuated valve. Upon actuation of the valve the nozzle discharges a stream of high-velocity air which transfers momentum to the projectile, propelling it down the launch tube and into the air or at a selected target. Compressed air is typically supplied by a compressor having an operating pressure of about 40-60 PSI. Projectiles may be inserted into the launch tube through an inlet or a feed tube which intersects the launch tube at the rear end of the projectile launcher.
An impact-safe projectile launcher for use within an inflatable structure is presented. The projectile launcher comprises a launch tube having an inner end and an outer end. A mount connects the launch tube to the inflatable structure, e.g. a bounce house. An air inlet is provided at the inner end of the launch tube. A projectile inlet is provided downstream of the air inlet at the inner end of the launch tube. An air blower is connected to the inflatable structure and operatively connected such that air flows continuously from the air blower through the air inlet down the launch tube. The continuous flow of air propels impact-safe projectiles that are inserted into the projectile opening down the launch tube and out of the projectile launcher through the outer end of the launch tube.
The mount may be part of the inflatable structure and the air inlet may be an opening between the launch tube and the mount. A single air blower may supply air to the inflatable structure and the projectile launcher. Alternatively, a dedicated air blower may supply air to the launch tube or to the launch tube and the mount. A second air blower may then be used to supply air to the inflatable structure. In that case the dedicated air blower may be connected to the air inlet by an air duct which extends through and is sealed against the inflatable structure. This air duct may be a tube or a hose made of a flexible material.
The projectile launcher may be removably connected to the inflatable structure by a hook and loop fastener or by a zipper. The projectile launcher may be made of inflatable fabric.
The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding background or the following detailed description.
Referring to
As shown in
In use, air 2 continuously flows from an air duct 7 into the launch tube 8 through the air inlet 12. The air 2 continues to flow though the launch tube 8 and out of the open outer end 14 of the launch tube 8. Soft, impact-safe projectiles 11 may be inserted into the launch tube 8 through the projectile inlet 10. The continuous flow of air 2 through the launch tube 8 accelerates these projectiles 11 and propels them out of the outer end 14 of the launch tube 8.
As shown in
The projectile launcher 1 may be made of hard material such as metal, wood or plastic. The projectile launcher 1 may alternatively be made of inflatable air impervious material such as resin infused cloth or PVC coated polyester reinforced fabric. The projectile launcher 1 may be made of multiple pieces of inflatable air impervious material that are sawn together. The air duct 7 may be a tube or a hose made of flexible material such as PVC, plastic, rubber or the like. The air duct 7 may be made of the same material as walls of the inflatable structure 3.
The projectile launcher 1 may be removably attached to the inflatable structure 3, for example by a hook and loop attachment or by a zipper. If the projectile launcher 1 is inflated jointly with the inflatable structure 3 a cover may be attached to the inflatable structure 3 instead of the projectile launcher 1 when the projectile launcher 1 is not used. Also, the projectile launcher 1 may be added to an existing inflatable structure 3 as part of a retrofit.
As shown in
While the present invention has been described with reference to exemplary embodiments, it will be readily apparent to those skilled in the art that the invention is not limited to the disclosed or illustrated embodiments but, on the contrary, is intended to cover numerous other modifications, substitutions, variations and broad equivalent arrangements that are included within the spirit and scope of the following claims.
Number | Date | Country | Kind |
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202013104753.8 | Oct 2013 | DE | national |
202014100077.1 | Jan 2014 | DE | national |