A launching system for launching light weight articles into air comprising an elongated hollow tube or cannon filled with at least one light weight article such as confetti, a female quick disconnect member, a ball valve, a male extrusion, a reservoir and a source of compressed gas. The female quick
A launching system for launching light weight articles into air comprising an elongated hollow tube or cannon filled with at least one light weight article such as confetti, a female quick disconnect member, a ball valve, a male extrusion, a reservoir and a source of compressed gas. The female quick disconnect member having at least one cam lock lever at proximal end facilitates quick connection and disconnection of the elongated hollow tube and the distal end of the female quick disconnect member is connected to one end of the ball valve via a male extrusion, further the ball valve having one handle which acts as a trigger. Further top end of the reservoir is connected to other end of the ball valve and a source of compressed gas such as compressed CO2 gas cartridge which is connected to bottom end of the reservoir, wherein the source supplies compressed gas that is stored in the reservoir until the trigger of the ball valve is turned to open position allowing the compressed gas to escape from the reservoir into the elongated hollow tube, thereby launching the light weight articles into the air. The device provides single shot or multiple shots of confetti from the cannon with a single cartridge in a more safe and controlled manner.
대표청구항▼
1. A launching system for launching light weight articles into air, comprising: an elongated hollow tube, wherein the elongated tube comprising at least one light weight article;a female quick disconnect member having at least one cam lock lever at proximal end of the female quick disconnect member,
1. A launching system for launching light weight articles into air, comprising: an elongated hollow tube, wherein the elongated tube comprising at least one light weight article;a female quick disconnect member having at least one cam lock lever at proximal end of the female quick disconnect member, so as to quickly connect and disconnect the elongated hollow tube;a ball valve having one handle which acts as a trigger, wherein distal end of the female quick disconnect member is connected to one end of the ball valve via a male extrusion;a reservoir, wherein top end of the reservoir is connected to other end of the ball valve; anda source of compressed gas which is connected to bottom end of the reservoir, wherein the source supplies compressed gas that is stored in the reservoir until the trigger of the ball valve is turned to open position allowing the compressed gas to escape from the reservoir into the elongated hollow tube, thereby launching the light weight articles into the air; andwherein the reservoir is a cylindrical aluminum pipe having length ranging between 4 to 8 inch. 2. The launching system of claim 1, wherein the top end of the reservoir is ¾ inch threaded and bottom end is tapered to ⅝ of an inch outer diameter with a ⅜ inch inside thread. 3. A confetti launching system for launching confetti into air, comprising: an elongated hollow tube, wherein the elongated tube comprising at least one confetti;a female quick disconnect member having at least one cam lock lever at a proximal end of the female quick disconnect member, so as to quickly connect and disconnect the elongated hollow tube;a ball valve, which is a ¾ inch manually turned quarter-turn valve having one handle which acts as a trigger, wherein a distal end of the female quick disconnect member is connected to one end of the ball valve via a threaded male extrusion;a reservoir, which is a long aluminum pipe having ¾ inch threaded top end is connected to another end of the ball valve, wherein a bottom end of the reservoir is tapered to ⅝ of an inch outer diameter with an ⅜ inch inside thread of ⅜ of an inch; anda compressed CO2 gas cartridge or the like which is screwed to the inside thread of the reservoir at the bottom end, wherein a central hollow steel shaft at the bottom end of the reservoir pierce the cartridge when screwed tightly and a rubber O ring at the bottom end of the reservoir to make an airtight seal, thereby allowing the compressed CO2 gas to flow into the reservoir and is stored there until the trigger of the ball valve is turned to open position allowing the compressed CO2 gas to escape from the reservoir into the elongated hollow tube, thereby launching the confetti into the air. 4. The launching system of claim 3, wherein the compressed CO2 gas cartridge is a 16 gram Co2 cylinder. 5. The launching system of claim 3, wherein the aluminum pipe is cylindrical in shape and having length ranging between 4 to 8 inch. 6. The launching system of claim 3, wherein the ball valve having a pivoting ball with a hole, thereby allowing flow of compressed gas when the hole is in line with the flow and closed when the ball is pivoted by turning the handle of the ball valve through 90 degrees, thus the handle lies flat in alignment with the flow when open, and is perpendicular to it when close assisting easy visual confirmation of the valve's status. 7. A method for launching confetti into air, comprising: loading an elongated hollow tube with at least one confetti;connecting a female quick disconnect member having at least one cam lock lever at a proximal end to one end of the elongated hollow tube, wherein the cam lock lever facilitates in quick connection and disconnection of the elongated hollow tube;connecting one end of a ball valve to a distal end of the female quick disconnect member via a threaded male extrusion, wherein the ball valve is a ¾ inch manually turned quarter-turn valve having one handle which acts as a trigger for launching the confetti;connecting a long aluminum pipe having ¾ inch threaded top end to other end of the ball valve, wherein a bottom end of the aluminum pipe is tapered to ⅝ of an inch outer diameter with an inch inside thread of ⅜ of an inch; andconnecting a compressed CO2 gas cartridge or the like to the inside thread of the aluminum pipe at the bottom end, wherein a central hollow steel shaft at the bottom end of the aluminum pipe pierce the cartridge when screwed tightly and a rubber O ring at the bottom end of the aluminum pipe to make an airtight seal, thus allowing the compressed CO2 gas to flow into the aluminum pipe which acts as a reservoir to store the compressed gas until the trigger of the ball valve is turned to open position, thereby allowing the compressed CO2 gas to escape from the reservoir into the elongated hollow tube to launch the loaded confetti into the air. 8. The method of claim 7, wherein the aluminum pipe is cylindrical in shape and having length ranging between 4 to 8 inch. 9. The method of claim 7, wherein the ball valve having a pivoting ball with a hole, thereby allowing flow of compressed gas when the hole is in line with the flow and closed when the ball is pivoted by turning the handle of the ball valve through 90 degrees, thus the handle lies flat in alignment with the flow when open, and is perpendicular to it when close assisting easy visual confirmation of status of the valve.
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