Claims
- 1. An undersea vehicle having a buoyancy, glide and control system for underwater operation comprising:an outer hull of airfoil-like configuration, a variable buoyancy chamber in said hull longitudinally offset from the center of gravity of the vehicle, said chamber having a pair of axially aligned cylinders including a piston in each cylinder, with said pistons being axially connected in spaced relation, a face of one of said pistons being open through said hull to the sea, an operating system for actuating the other of said pistons, a control system for said piston operating system thereby to regulate the position of said pistons and the buoyancy of said chambers by admission or expulsion of seawater from the cylinder having said one piston, and thereby said vehicle as said pistons are moved, whereby the vehicle may ascend, descend, or hover in accordance with the relative buoyancy of said chamber and resultant change in the center of buoyancy of the vehicle.
- 2. The undersea vehicle of claim 1 further including a second said buoyancy chamber proximate said first chamber, and having said piston operation control systems therefor.
- 3. The undersea vehicle of claim 1 further including movable external horizontal axis planes at the rear of the vehicle to assist in upward gliding movement of said vehicle when said first cylinder exposed to the sea is substantially evacuated.
- 4. The undersea vehicle of claim 1 further including movable external horizontal axis planes at the rear of the vehicle to assist in downward gliding movement of said vehicle when said first cylinder exposed to the sea is substantially filled with sea water.
- 5. The undersea vehicle of claim 2 further including a compressed air supply, and connections therefrom to said first cylinder having said piston exposed to the sea, and wherein with said second piston advanced in its cylinder water is expelled from said first cylinder having its piston open to the sea.
- 6. The undersea vehicle of claim 1 wherein said face of said first piston is exposed to the sea through the upper surface of said hull.
- 7. The undersea vehicle of claim 2 wherein said face of said piston in each of said first cylinder of said buoyancy chambers is exposed to the sea through the upper surface of said hull.
- 8. The undersea vehicle of claim 1 wherein said axially aligned cylinders are in spaced relation each other to provide working access to said cylinders therebetween.
- 9. The undersea vehicle of claim 3 wherein said buoyancy chambers are disposed forwardly of the vehicle center of gravity for improved control and stability.
- 10. The undersea vehicle of claim 2 wherein said buoyancy chambers have a displacement on the order of 3% of that of the undersea vehicle, thereby to permit lifting of substantial weights from the sea floor.
- 11. The undersea vehicle of claim 1 wherein the hull of said vehicle is of generally streamline airfoil and lozenge-like form fore to aft with the width thereof substantially greater than the height thereof to facilitate upward and downward gliding of the vehicle in response to buoyancy chamber operation.
- 12. The undersea vehicle of claim 10 wherein said piston of said first cylinder is open to the sea at the top streamline surface of the hull.
- 13. The undersea vehicle of claim 3 further including interconnected substantially spherical work and equipment cells in said hull accessible to personnel in said vehicle during gliding ascent, gliding descent, hover, and sea travel operations of said vehicle.
- 14. An undersea vehicle having a buoyancy, glide, and hover control system for underwater operation comprising:an exterior streamline hull, a large capacity variable buoyancy chamber in said hull including a movable element open to the sea environment, said chamber being fully disposed forwardly of the center of gravity of the vehicle, a control system for moving said element to any point between an advanced position precluding entry of the sea into the said chamber, thereby to maximize the buoyancy of said vehicle for upward gliding movement, and a retracted position, maximizing entry of sea water into said chamber, thereby to reduce the buoyancy of said vehicle during descending gliding movement, whereby positioning of said movable element controls the relative buoyancy of said vehicle, thereby enabling gliding ascent, descent, and hover conditions of said vehicle in the sea.
- 15. The undersea vehicle of claim 14 further including an additional large capacity buoyancy chamber in proximate relation to said first chamber, and a said control system therefor.
- 16. The undersea vehicle of claim 14 further including a compressed air system connected to said element and on the other side thereof from the sea to assist in precluding seawater leakage into said buoyancy chamber.
CROSS-REFERENCE TO RELATED APPLICATION
This application is based upon a prior U.S. Provisional Application Ser. No. 60/199,835 filed Apr. 26, 2000.
US Referenced Citations (5)
Provisional Applications (1)
|
Number |
Date |
Country |
|
60/199835 |
Apr 2000 |
US |