EXPLOSIVE PROJECTILE LAUNCH SYSTEM RACK WITH FIBER AND ADHESIVE CONNECTION AND CONNECTION REINFORCEMENT INTERLOCKING MEMBERS MODULAR REPLACEMENT SHATTER RESISTANT MATERIAL AND LIGHT EMITTING MATERIAL

Abstract

The invention is an explosive projectile launch system rack device for improved safety, assembly, ease of use, operations, repair, and visibility, with fiber and adhesive connection, and connection reinforcement, interlocking members, modular replacement, shatter resistant material, and light emitting material.

Claims

1. A device for launching explosive projectiles, comprising engendering geometrically shaped members that are configured, and attached together, or reinforced, with adhesive and fiber.

2. The Invention in claim 1, comprising engendering geometrically shaped members, configured, and attached together by interlocking shaped joint connections, independent of external fasteners.

3. The Invention in claim 1, comprising engendering geometric frame members of shatter resistant material.

4. The Invention in claim 1, comprising engendering the application of a light emitting substance or device.

5. A device for launching explosive projectiles, comprising engendering geometrically shaped members, configured, and attached together by interlocking shaped joint connections, independent of external fasteners.

6. The Invention in claim 2, comprising engendering geometrically shaped members reinforced with adhesive.

7. The Invention in claim 2, comprising engendering geometrically shaped members reinforced with adhesive and fiber.

8. The invention in claim 2, comprising engendering geometrically shaped members of one or more modular, replaceable, or interchangeable sections, enabling member replacement.

9. The Invention in claim 2, comprising engendering geometric frame members of shatter resistant material.

10. The Invention in claim 2, comprising engendering the application of a light emitting substance or device.

11. A device for launching explosive projectiles comprising engendering geometric frame members of shatter resistant material.

12. The Invention in claim 3, comprising engendering a launch system and the application of a light emitting substance or device.

13. A device for launching an explosive projectile system in a low-light environment comprising engendering a launch system and the application of a light emitting substance or device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0052] The accompanying figures together illustrate the best mode currently contemplated for the present invention. The figures, in which like reference numerals refer to identical or functionally-similar elements throughout the separate views and which are incorporated in and form part of the specification, serve to illustrate the present invention and, together with the detailed description of the invention, explain the principles of the present invention.

FIG. 1:

[0053] FIG. 1 illustrates an angled, side, top, and front projection of the present invention in one of many possible methods and modes, and which can be implemented in accordance with the specifications herein. The invention proves an exemplary explosive projectile launching system frame in accordance with an embodiment of the present disclosure. For example, a fiber and adhesive reinforced explosive projectile launching device as shown generally at 10. The Explosive Projectile Launching device may be configured to have geometrically shaped members (displayed in the color tan) 200, configured and attached together with adhesive and fiber reinforcement (displayed in the color grey) 300, comprising engendering a connected and reinforced body frame.

FIG. 2:

[0054] FIG. 2 illustrates a side and top view of an explosive device launching rack system, with shaped, interlocking, joint connections, shown generally at 20. The illustration shows an explosive device launching rack system 100 with shaped joint connections for interlocking member attachment 410. The Figure illustrates and end plate 560, with a slotted-key-way system 410, to enable connections for the adjustment and replacement of launch frame member. This embodiment comprises a slot element 412, and an interconnecting key element 411. In the present embodiment, some of the launch frame member positions are adjustable 413, to enable different angles of projectile launch trajectory. This is a preferred embodiment of interlocking member attachments.

FIG. 3:

[0055] FIG. 3 illustrates a shaped joint connection for attaching explosive device launch rack system members, without other any other fasteners, shown generally at 30. The present embodiment is an interconnecting-key-way, with an interconnecting-key 421, and receiver-way 422, for interconnecting members.

FIG. 4:

[0056] FIG. 4 illustrates an interconnecting-T-Slot shaped joint connection for the attachment of explosive device launch system rack members, without the requirement of any other fasteners, shown generally at 40. The figure embodiment is with an interconnecting-T shaped member configuration 431, and receiver-slots 422, for interconnecting members.

FIG. 5:

[0057] FIG. 5 illustrates an alternative embodiment of interconnecting-T-Slot shaped joint connections, for the interconnection and attachment of explosive device launch rack system members, without the requirement of any other fasteners, shown generally at 50. The figure embodiment is with an interconnecting-T-shaped member configuration 441, and receiver-slots 442, for interconnecting members.

FIG. 6:

[0058] FIG. 6 illustrates a modular embodiment of an explosive projectile launch system rack, with multiple modular, replaceable, or interchangeable sections, shown generally at 60. The present embodiment illustrates a series of top horizontal plates with holes 510, middle horizontal plates with holes 520, bottom horizontal plates without holes 530, middle vertical plates 540, and end plates 550.

FIG. 7:

[0059] FIG. 7 illustrates a top, front, and side angled view of a device frame to launch explosive projectiles, shown generally at 70, comprising engendering the preferred embodiment of geometric frame members constructed of shatter resistant material 600, containing light emitting material 700 that is visible in the low and no light environments.

DETAILED DESCRIPTION OF THE INVENTION

[0060] The particular values and configurations discussed in these non-limiting examples incorporate the accompanying figures and descriptions cited above. They can be varied, and are cited merely to illustrate an embodiment of the present invention. They are not intended to limit the scope of the invention.

[0061] The Explosive Projectile Launch System Rack, with Fiber and Adhesive Connection & Connection Reinforcement, Interlocking Members, Modular Replacement, Shatter Resistant Material, and Light Emitting Material device enables the launch of pyrotechnics and other explosive projectiles in a wide variety of applications. It enables strong and reinforced rack member connections, with adhesive and fiber, to improve safety. Additionally, it enables interlocking rack member connections. Additionally, it enables rack member modularity for member replacement. Additionally it enables shatter resistance for rack member material to improve safety. And additionally, it enables light-emitting vision enhancement for improved safety and ease of use in low-light environments.

[0062] In the best mode, the exploding projectile launch system rack is comprising geometrically shaped members, variously interconnected with interlocking joint connections, having adjustable configurations, replaceable members or modules, the connections having fiber and adhesive reinforcement, replaceable member modules, and members comprising shatterproof thermoplastic, that is impregnated or coated with luminescent material.

[0063] It is appropriate to appreciate, however, that an explosive projectile launch system rack device may be comprised of one or more different parts, and that those parts may be of different materials or configurations.

[0064] It is also appropriate to appreciate that the present invention may be used as an explosive projectile launching system rack device for use in numerous and various applications, including, but not limited to launching fireworks for entertainment, and deployment in multiple industrial, commercial, military, geological, aerospace, and other applications.

[0065] It is appropriate to appreciate too, that the current configuration and application may be altered in part or in whole to utilize some or all of the various components, or by adding additional components, to effect a similar, yet alternative resulting explosive projectile launching system rack device.

[0066] FIG. 1 illustrates an angled, side, top, and front projection of the present invention in one of many possible methods and modes, and which can be implemented in accordance with the specifications herein. The invention proves an exemplary explosive projectile launching system frame in accordance with an embodiment of the present disclosure. For example, a fiber and adhesive reinforced explosive projectile launching device as shown generally at 10. The Explosive Projectile Launching device may be configured to have geometrically shaped members (displayed in the color tan) 200, configured and attached together with adhesive and fiber reinforcement (displayed in the color grey) 300, comprising engendering a reinforced body frame.

[0067] In the best mode, the exploding projectile launching system rack is comprising a geometrically shaped members, variously interconnected with interlocking joint connections, having adjustable configurations, replaceable members or modules, the connections having fiber and adhesive reinforcement, replaceable member modules, and members comprising shatterproof thermoplastic, that is impregnated or coated with luminescent material.

[0068] It is appropriate to appreciate, however, that an explosive projectile launch system rack device may be comprised of one or more different parts, and that those parts may be of different materials or configurations.

[0069] FIG. 2 illustrates a side and top view of an explosive device launching rack system, with shaped, interlocking, joint connections, shown generally at 20. The illustration shows an explosive device launching rack system 100 with shaped joint connections for interlocking member attachment 400. The Figure illustrates and end plate 560, with a slotted key way system 410, to enable connections for the adjustment and replacement of launch frame member. This embodiment comprises a slot element 411, and an interconnecting key element 411. In the present embodiment, some of the launch frame member positions are adjustable 413, to enable different angles of projectile launch trajectory. This is the preferred embodiment of interlocking member attachments.

[0070] It should be appreciated, however, that interlocking member attachments may be comprised of one or more different parts, and that those parts may be of different materials or configurations, or have different effects for attachment.

[0071] FIG. 3 illustrates a shaped joint connection for attaching explosive device launch rack system members, without other any other fasteners, shown generally at 30. The present embodiment is an interconnecting key way, with an interconnecting key 421, and receiver way 422, for interconnecting members.

[0072] It should be appreciated, however, that interlocking member attachments may be comprised of one or more different parts, and that those parts may be of different materials or configurations, or have different effects for attachment.

[0073] FIG. 4 illustrates an interconnecting T-Slot shaped joint connection for attaching explosive device launch rack system members, without the requirement of any other fasteners, shown generally at 40. The figure embodiment is with an interconnecting T shaped member configuration 431, and receiver slots 422, for interconnecting members.

[0074] It should be appreciated, however, that interlocking member attachments may be comprised of one or more different parts, and that those parts may be of different materials or configurations, or have different effects for attachment.

[0075] FIG. 5 illustrates an alternative embodiment of interconnecting T-Slot shaped joint connections, for attaching explosive projectile device launch rack system members, without the requirement of any other fasteners, shown generally at 50. The figure embodiment is with an interconnecting T shaped member configuration 441, and receiver slots 442, for interconnecting members.

[0076] It should be appreciated, however, that interlocking member attachments may be comprised of one or more different parts, and that those parts may be of different materials or configurations, or have different effects for attachment.

[0077] FIG. 6 illustrates a modular embodiment of an explosive projectile launch system rack, with multiple modular, replaceable, or interchangeable, member sections, shown generally at 60. The present embodiment illustrates a series of top horizontal plates with holes 510, middle horizontal plates with holes 520, bottom horizontal plates without holes 530, middle vertical plates 540, and end plates 550.

[0078] It should be appreciated, however, that the modular, replaceable, interchangeable, member sections may be comprised of one or more different parts, and that those parts may be of different materials or configurations, or have different effects for replacement, adjustment, or interchangeability.

[0079] FIG. 7 illustrates a top, front, and side angled view of a device to launch explosive projectiles, comprising engendering the preferred embodiment of geometric frame members constructed of shatter resistant material 600, with luminescent material 700, shown generally at 70.

[0080] It should be appreciated, however, that the shatter resistant material may be comprised of one or more different parts, and that those parts may be of different materials or configurations.

[0081] It should further be appreciated that luminescent material may be comprised of one or more different parts, or applications, or devices, and that those may be of different materials or configurations.

Conclusion

[0082] The explosive projectile device launch system rack system described here demonstrates a novel device for launching explosive projectiles that improves human safety and well-being, assembly, repair, and ease of use and operation.

[0083] The embodiments and examples set forth herein are presented to best explain the present invention and its practical application and to thereby enable those skilled in the art to make and utilize the invention. Those skilled in the art, however, will recognize that the foregoing description and examples are presented for the purpose of illustration and example only. Other variations and modifications of the present invention will be apparent to those of skill in the art, and it is the intent of the inventor that such variations and modifications be covered. The description as set forth is not intended to be exhaustive or limit the scope of the invention. Numerous variations and modifications are possible in light of the above teaching without departing from the spirit and scope of the specifications. It is contemplated that the use of the present invention can involve components having different characteristics, and intended that the scope of the present invention be defined by the claims included here, giving full cognizance to equivalents in all respects.