Patent Application
20060288583
As an experienced diver, I have been fortunate to have had opportunities to explore many of the world's oceans. The undersea world is one of great mystery, beauty and history, but there are also potential dangers. The better equipped you are to handle these situations, the more rewarding an experience your dive will be.
One major concern to any diver is the possibility of an attack by an aggressive marine predator. This extremely hazardous situation is precisely why this knife was developed. As all divers know, the effects of compressed gases underwater are catastrophic. Our training teaches us that our lungs would burst from over-inflation if we held our breath with compressed gas and rose to the surface. This principal is key to the effectiveness of this invention.
This device uses a compressed gas cartridge (typically CO2) which is injected by a piercing device (i.e., Knife, Dart, etc.) The use of this system causes extreme damage to the organs and tissue of the target, thus disabling it instantly.
FIG. K1 Knife Blade
FIG. K2 Knife Handle
FIG. K3 Piercing Device
FIG. K4 Adapter
FIG. K10 Bushing
FIG. K11 Thumb Button
FIG. K12 Plug
The device is assembled by screwing an Adapter (FIG. K4) into the Knife Blade (FIG. K1). Then, you screw the Piercing Device (FIG. K3) into the Adapter (FIG. K4) before attaching the Compressed Gas Cartridge (FIG. K9) to the assembly. Once all the parts are assembled you screw the Knife Handle (FIG. K2) on to the Knife Blade (FIG. K1) and the device is armed. You now have a fully assembled knife which can be used to inject compressed gas into your target.
