Underwater vehicles are frequently propelled by means of a single thruster that is pivoted to control the vehicle in pitch and yaw. U.S. Pat. No. 6,572,422 (the contents of which are fully incorporated herein by reference) teaches one such arrangement in which the motor driving the propeller is housed in an oil-filled, water-tight housing that is then pivoted about the pitch and yaw axis by two servomotors that are themselves housed in separate oil-filled, water-tight housings, all controlled by electronics which are themselves mounted in their own oil-filled, water-tight housings. This system requires a large pressure compensator consisting of a pressurized oil reservoir and associated plumbing to accommodate the changes in oil volume due to pressure and temperature variation. This results in a large number of hoses and waterproof cables and connectors and a heavy, bulky assembly.
An object of an invention hereof is to contain the thruster motor, the two servomotors, the electronics, and the pressure compensation in a single oil-filled housing. This results in a smaller, lighter package.
An invention hereof is directed to a propulser suitable for use in all types of underwater vehicles. Such a propulser contains the means for propelling the vehicle (the thruster), the means for directing the vehicle (the actuators), the means of maintaining an internal pressure slightly greater than the external pressure (the compensators), and the control electronics to drive the thruster motor and the two actuator motors, all housed in a single, pressure housing filled with oil or a similar inert fluid. In addition to several static o-ring seals, such a propulser uses a spherical rolling seal, which allows the thruster to be pivoted about two axes while still maintaining a pressure-tight seal.
The rolling spherical seal is a thin flexible membrane. The main part of the seal is formed as a section of a sphere, approximately symmetrical about its equator. The two ends of the seal are cast in the form of a bead to provide a means of securing the ends of the seal and to provide surfaces to seal against. When installed, the seal is folded back on itself as shown in
Underwater vehicles need to propel themselves and control their direction of travel. A common configuration for underwater vehicles is shown in
The spur-bevel gear assemblies 46A and 46B support a gimbal 39 through the bearings 32A and 32B. The gimbal assembly 39 supports a forward pressure housing 14 through forward pressure housing supports 24A and 24B, which rotate on bearings 32A and 32B. The forward pressure housing 14 supports the duct 4. The forward pressure housing 14 also supports the thruster motor gearbox assembly 28. The thruster motor-gearbox assembly 28 supports the propeller 6.
The bearings 42A, 42B, 32A, and 32B allow the forward pressure housing 14 and all components supported by it to rotate about the pitch and yaw axes. This rotation is controlled by a gear train that starts with spur gears 48A and 48B of servo-motor assemblies 50A and 50B. These spur gears drive the spur-bevel gear assemblies 46A and 46B, see
The ring bevel gear 20 also meshes with a pitch bevel gear 22. The pitch bevel gear is rigidly attached to the forward pressure housing support 24A, which, as already discussed, supports the forward pressure housing 14, so that the forward pressure housing 14 will move with the forward pressure housing support 24A.
When the spur gears 48A and 48B drive the spur gears 47A and 47B in the same direction as each other, as illustrated in
When the spur gears 48A and 48B drive the spur gears 47A and 47B in opposite directions, from each other, as depicted in
By driving the spur gears 47A and 47B by differing rotational amounts, any combination of rotations about the pitch and yaw axis is possible, within the mechanical limits of the device. Also, the orientation of the thruster assembly 2 is somewhat arbitrary and the thruster assembly 2 may be rotated so that the axis labeled yaw and pitch may point in any direction.
Another feature that is important to the function of the thruster assembly 2 is the rolling spherical seal 26. The rolling spherical seal 26 is illustrated in an unfolded configuration in
For a representative embodiment having a pressure housing that is approximately 9.5 in. (241.3 mm) long, with an oil volume of about 50 in3 (819 cm3), a silicone seal of 0.031 in. (0.787 mm) thick is reasonable. The pressure across such a seal can be approximately 3 psi. The seal gap can be on the order of between 0.09-0.125 in (2.3-3.18 mm). A reasonable motor to use for the servo motors 50A and 50B is available from MicroMo Electronics, Inc. of Clearwater, Fla., a member of the Faulhaber Group, 2444 motor series 30/1 415:1 reduction. A suitable thruster motor is available from AVEOX of Simi Valley, Calif., model 1817, combined with model 017P 10:1 planetary gearbox available from CGI, Inc., of Carson City, Nev. The deflection of the propeller and duct about the pitch and yaw axes is approximately ±15°.
On installation, the outer bead 26A is rolled back 90° and the seal is folded back on itself. When the seal 26 is at 0° deflection, i.e. the outer bead 26A is parallel to the inner bead 26B, the fold of the seal 26 is at approximately the equator of the spherical connecting skirt 26C. The seal in its installed shape is shown in
Many techniques and aspects of the inventions have been described herein. The person skilled in the art will understand that many of these techniques can be used with other disclosed techniques, even if they have not been described as being used together. Thus, the fact that a sub-combination of features that are described separately, may not be described in sub-combination, does not mean that the inventor does not regard any such sub-combination as an invention that is disclosed herein.
This disclosure describes and discloses more than one invention. The inventions are set forth in the claims of this and related documents, not only as filed, but also as developed during prosecution of any patent application based on this disclosure. The inventor intends to claim the various inventions to the limits permitted by the prior art, as it is subsequently determined to be. No feature described herein is essential to each invention disclosed herein. Thus, the inventor intends that no features described herein, but not claimed in any particular claim of any patent based on this disclosure, should be incorporated into any such claim.
An abstract is submitted herewith. It is emphasized that this abstract is being provided to comply with the rule requiring an abstract that will allow examiners and other searchers to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims, as promised by the Patent Office's rule.
The foregoing discussion should be understood as illustrative and should not be considered to be limiting in any sense. While the inventions have been particularly shown and described with references to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the inventions as defined by the claims.
The corresponding structures, materials, acts and equivalents of all means or step plus function elements in the claims below are intended to include any structure, material, or acts for performing the functions in combination with other claimed elements as specifically claimed.
Priority is hereby claimed to Provisional U.S. Patent Application Ser. No. 60/619,157, filed on Oct. 15, 2004, the entirety of which is hereby incorporated by reference.
Number | Date | Country | |
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60619157 | Oct 2004 | US |