Bow clamp

We claim: 1. An underwater vehicle comprising a system for selectively securing components of the underwater vehicle, the underwater vehicle comprising: an access plate secured to the bow of the vehicle and having a flange, the flange of the access plate having intermittent solid portions and intermittent open portions; a nose cone having a flange; and a bow clamp configured to selectively attach the nose cone to the access plate, the bow clamp comprising: a circular body comprising two semi-circular parts joined by a hinge, the hinge being operable to open the bow clamp; a vehicle mating flange configured to integrate with the flange of the access plate, the vehicle mating flange having intermittent solid portions and intermittent open portions; a nose cone mating flange configured to integrate with the flange of the nose cone; a clamp configured to selectively secure the bow clamp to the access plate and the nose cone; wherein the intermittent solid portions and intermittent open portions are sized, shaped, and spaced so as to prevent the bow clamp from disengaging from the flange of the access plate. 2. The underwater vehicle of claim 1 , wherein the clamp further comprises an adjustable draw latch configured to selectively attach to a clip on the circular body of the bow clamp and a safety latch configured to prevent the draw latch from inadvertently disengaging the clip. 3. The underwater vehicle of claim 1 , wherein the vehicle mating flange comprises solid sections that are larger than open sections of the flange of the access plate. 4. The underwater vehicle of claim 1 , wherein the flange of the access plate comprises solid sections that are larger than open sections of the vehicle mating flange. 5. The underwater vehicle of claim 1 , wherein the nose cone mating flange comprises solid sections that are larger than open sections of the flange of the nose cone. 6. The underwater vehicle of claim 1 , wherein the bow clamp is at least partially constructed of titanium. 7. The underwater vehicle of claim 1 , wherein the nose cone is at least partially constructed of syntactic form foam comprised of hollow glass beads and urethane. 8. The underwater vehicle of claim 1 , wherein the nose cone comprises one or more openings allowing for emission and reception of sensor signals. 9. The underwater vehicle of claim 1 , wherein the nose cone comprises one or more solid portions that allow for emission and reception of sensor signals. 10. The underwater vehicle of claim 1 , wherein the access plate comprises a valve for vacuuming out a portion of the underwater vehicle. 11. The underwater vehicle of claim 1 , wherein the access plate comprises a valve for backfilling a portion of the underwater vehicle. 12. The underwater vehicle of claim 1 , wherein the access plate comprises an ethernet connector for coupling an external computing device to control computers inside of the underwater vehicle. 13. The underwater vehicle of claim 1 , wherein the access plate comprises one or more connectors for sensors to be implemented in the nose cone. 14. A method of attaching a nose cone to an underwater vehicle, the method comprising: attaching an access plate secured to a bow of the vehicle and having a flange, the flange of the access plate having intermittent solid portions and intermittent open portions, to a nose cone having a flange by using a bow clamp configured to selectively attach the nose cone to the access plate via the flanges, the bow clamp comprising: a circular body comprising two semi-circular parts joined by a hinge, the hinge being operable to open the bow clamp; a vehicle mating flange configured to integrate with the flange of the access plate, the vehicle mating flange having intermittent solid portions and intermittent open portions; a nose cone mating flange configured to integrate with the flange of the nose cone; a clamp configured to selectively secure the bow clamp to the access plate and the nose cone; wherein the intermittent solid portions and intermittent open portions are sized, shaped, spaced, and oriented so as to prevent the bow clamp from disengaging from the flange of the access plate. 15. The method of claim 14 , further comprising adjusting a draw latch configured to attach to a clip on the circular body of the bow clamp. 16. The method of claim 14 , wherein adjusting the draw latch comprises lengthening an adjustable arm length of the draw latch. 17. The method of claim 14 , wherein adjusting the draw latch comprises shortening an adjustable arm length of the draw latch. 18. The method of claim 14 , wherein one side of the bow clamp is heavier than an opposite side of the bow clamp, the method further comprising orienting the bow clamp to adjust balance of the underwater vehicle along a longitudinal axis. 19. The method of claim 14 , further comprising vacuuming out a portion of the underwater vehicle. 20. The method of claim 19 , further comprising backfilling a portion of the underwater vehicle. 21. The method of claim 14 , further comprising coupling an external computing device to control computers inside of the underwater vehicle.