Controlling buoyancy of an underwater vehicle using a dual-internal-reservoir configuration to enhance efficiency of inflating and deflating an external chamber
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B63G-008/22
G05D-001/02
출원번호
US-0413241
(2017-01-23)
등록번호
US-10000265
(2018-06-19)
발명자
/ 주소
Dufour, James Edward
Newville, Brian Kenneth
출원인 / 주소
MRV Systems, LLC
대리인 / 주소
Sheppard Mullin Richter & Hampton LLP
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
An underwater vehicle may include a buoyancy control system configured to use a dual-internal-reservoir configuration to enhance efficiency of changing buoyancy of the underwater vehicle. The buoyancy control system may utilize an incompressible fluid (e.g., oil or water) that is transferred between
An underwater vehicle may include a buoyancy control system configured to use a dual-internal-reservoir configuration to enhance efficiency of changing buoyancy of the underwater vehicle. The buoyancy control system may utilize an incompressible fluid (e.g., oil or water) that is transferred between a first internal reservoir and an external chamber to affect buoyancy of the underwater vehicle. In exemplary implementations, a compressible fluid (e.g., air) may be used to inflate or deflate a second internal reservoir. The second internal reservoir may be disposed within the buoyancy control system so that it can act on the first internal reservoir by applying a compressive force or a tensive force on the first internal reservoir, depending on the pressure differences between the two reservoirs.
대표청구항▼
1. Buoyancy control system for an underwater vehicle, configured to change buoyancy of the underwater vehicle, the system comprising: three or more reservoirs, wherein individual ones of the three or more reservoirs have (i) a volume that is alterable, (ii) a medium within the volume, and (iii) a fl
1. Buoyancy control system for an underwater vehicle, configured to change buoyancy of the underwater vehicle, the system comprising: three or more reservoirs, wherein individual ones of the three or more reservoirs have (i) a volume that is alterable, (ii) a medium within the volume, and (iii) a fluid pressure of the medium within the volume;one or more pumps configured to transfer one or more media between the three or more reservoirs, wherein the three or more reservoirs are configured and arranged such that changes in volume of the three or more reservoirs cause a change in buoyancy of the underwater vehicle;wherein two or more reservoirs of the three of more reservoirs are disposed such that force is applied to the two or more reservoirs responsive to differences between fluid pressures of the one or more media in the two or more reservoirs. 2. The system of claim 1, wherein at least one of the three or more reservoirs is an external chamber. 3. The system of claim 1, wherein the system comprises at least two pumps. 4. The system of claim 1, wherein the system comprises at least two different media having different viscosities. 5. The system of claim 1, wherein the system comprises at least two different media having different densities. 6. The system of claim 1, wherein the system comprises at least two different media having different levels of compressibility. 7. The system of claim 1, wherein the force applied is one or both of a compressive force and a tensive force. 8. The system of claim 1, wherein the three or more reservoirs include a first reservoir and a second reservoir, the system further comprising a plunger between the first reservoir and the second reservoir, wherein the plunger is movable such that an increase in volume of the first reservoir results in a decrease in volume of the second reservoir, and further such that an increase in volume of the second reservoir results in a decrease in volume of the first reservoir. 9. The system of claim 1, further comprising a bypass conduit with a bypass valve configured to circumvent an individual one of the one or more pumps so two of the three or more reservoirs are in direct fluid communication via the bypass conduit when the bypass valve is open. 10. An underwater vehicle comprising: buoyancy control system comprising: three or more reservoirs including a first reservoir, a second reservoir, and a third reservoir, wherein individual ones of the three or more reservoirs have (i) a volume that is alterable, (ii) a medium within the volume, and (iii) a fluid pressure of the medium within the volume;two or more pumps configured to transfer one or more media between the three or more reservoirs, wherein the two or more pumps include a first pump and a second pump, wherein the three or more reservoirs are configured and arranged such that changes in volume of the three or more reservoirs cause a change in buoyancy of the underwater vehicle,wherein the first pump is directly coupled with the first reservoir, andwherein the second pump is directly coupled only with the second reservoir and the third reservoir such that the second pump is not directly coupled with the first reservoir;wherein the three or more reservoirs are disposed such that force is applied to the two or more reservoirs responsive to differences between fluid pressures of the one or more media in the two or more reservoirs; anda sensor configured to provide a flow signal conveying information associated with a flow of the one or more media; andone or more processors configured to execute computer program instructions, the computer program instructions comprising: a buoyancy control component configured to control the transfer of the one or more media based on the flow signal. 11. A processor-implemented method for controlling buoyancy of an underwater vehicle having a first reservoir and a second reservoir separated by a movable plunger, wherein the movable plunger forms a shared boundary between the first reservoir and the second reservoir, wherein the movable plunger is configured such that an increase in volume of the first reservoir results in a decrease in volume of the second reservoir, and further such that an increase in volume of the second reservoir results in a decrease in volume of the first reservoir, the method being performed by one or more processors configured to execute computer program instructions, the method comprising: receiving a flow signal conveying information associated with a flow of one or more media in the first and second reservoirs;controlling, using one or more processors, transfers of the one or more media between the first and second reservoirs, and changing the volumes of the first and second reservoirs by moving the movable plunger, wherein changing the volumes of the first and second reservoirs causes a change in buoyancy of the underwater vehicle, and wherein the controlling and changing are based on the flow signal. 12. The method of claim 11, wherein the first reservoir, the second reservoir, and the movable plunger are arranged such that a combined volume of the first reservoir and the second reservoir is conserved. 13. The method of claim 11, wherein a combined volume of the first reservoir and the second reservoir is constant.
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