In-line cable retriever
First Claim
1. A retriever for a marine tool, the retriever comprising:
- a housing having a first end and a second end, at least one of said first and second ends being coupled in-line with the marine tool;
a gas canister within said housing adapted to retain a quantity of pressurized gas;
an inflatable bag within said housing; and
an actuator mechanism for creating fluid communication between said gas canister and said inflatable bag such that said inflatable bag is inflated at a sensed pressure in response to a selected water depth.
1 Assignment
0 Petitions
Accused Products
Abstract
A retriever is provided for a marine seismic cable or other tool. The retriever first comprises a housing. Disposed within the housing is a canister for containing gas under pressure. An inflatable bag is fluidly connected to the gas canister within the housing. Gas is prohibited from exiting the gas canister and inflating the bag until hydrostatic pressure acting upon the retriever exceeds a designated amount. If the cable sinks to a certain depth within a water body, the corresponding hydrostatic pressure acting upon the cable will exceed the preset pressure level. An actuating mechanism is then actuated, causing gas to exit the gas canister and to inflate the inflatable bag. In one arrangement, a pop-open cover is provided on the housing. As the bag inflates, it acts to release the pop-open cover from the housing and to further inflate outside of the housing of the retriever. The inflated bag will cause the cable to be buoyantly lifted to the surface of the water body.
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Citations
34 Claims
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1. A retriever for a marine tool, the retriever comprising:
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a housing having a first end and a second end, at least one of said first and second ends being coupled in-line with the marine tool;
a gas canister within said housing adapted to retain a quantity of pressurized gas;
an inflatable bag within said housing; and
an actuator mechanism for creating fluid communication between said gas canister and said inflatable bag such that said inflatable bag is inflated at a sensed pressure in response to a selected water depth. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
a gas conduit for placing said gas canister and said inflatable bag in fluid communication, said gas conduit having a first end sealingly connected to said gas canister, and a second end sealingly connected to a port within said inflatable bag;
a membrane for prohibiting the flow of gas from said canister through said gas conduit; and
wherein said actuator mechanism acts upon said membrane upon activation so as to open said membrane and to allow gas to travel from said gas canister through said gas conduit and into said inflatable bag.
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5. The retriever of claim 4, wherein said housing further comprises a pop-open cover, said pop-open cover opening due to the force of gas inflating said inflatable bag so as to allow said bag to exit said housing in response to inflation.
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6. The retriever of claim 5, wherein said pop-open cover comprises:
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an arcuate plate having a first end and a second end, said pop-open cover being disposed over said inflatable bag;
a pivoting connection at said first end of said pop-open cover for pivotally connecting said pop-open cover with said housing; and
a connector for releasably connecting said second end of said pop-open cover from said housing.
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7. The retriever of claim 5, wherein said actuator mechanism comprises:
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a pressure sensitive switch; and
a penetrator for penetrating through said membrane.
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8. The retriever of claim 7, wherein said membrane is proximate to said first end of said gas conduit.
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9. The retriever of claim 7, wherein said pressure sensitive switch defines a pressure transducer.
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10. The retriever of claim 9, wherein said pressure transducer is battery powered.
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11. The retriever of claim 9, wherein said penetrator defines an explosive penetrator actuated in response to actuation of said pressure transducer.
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12. The retriever of claim 7, wherein each of said first and second ends of said housing comprises a coupling for connecting said retriever to a section of seismic cable.
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13. The retriever of claim 12, wherein each of said first and second ends of said housing further comprises electrical connectors between said retriever and said section of seismic cable;
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wherein said retriever further comprises an electrical conduit within said housing for providing a continuous channel for electrical signals through said retriever during marine seismic operations.
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14. An in-line retriever for a marine seismic streamer, the streamer having electrically connected seismic sensors therein, the in-line retriever comprising:
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a substantially cylindrical housing having a first end and a second end, each of said first and second ends of said housing comprising a coupling for connecting said retriever in-line to a section of seismic streamer;
a gas canister disposed within said housing adapted to retain a quantity of pressurized gas;
an inflatable bag within said housing;
a gas conduit for placing said gas cylinder and said inflatable bag in fluid communication, said gas conduit having a first end sealingly connected to said canister, and a second end sealingly connected to said inflatable bag;
a membrane disposed within the path of fluid communication between said gas canister and said gas conduit;
an actuator mechanism for penetrating said membrane at a sensed pressure in response to a selected water depth, thereby creating fluid communication between said gas canister and said inflatable bag such that said inflatable bag is inflated; and
a pop-open cover disposed on said housing, said pop-open cover opening due to the force of gas inflating said inflatable bag so as to allow said bag to exit said housing in response to inflation. - View Dependent Claims (15, 16, 17, 18, 19)
an arcuate plate having a first end and a second end, said pop-open cover being disposed over said inflatable bag;
a pivoting connection at said first end of said pop-open cover for pivotally connecting said pop-open cover with said housing; and
a connector for releasably connecting said second end of said pop-open cover from said housing.
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16. The in-line retriever of claim 15, wherein said actuator mechanism comprises:
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a battery-powered pressure-sensitive switch defining a pressure transducer; and
an explosive penetrator for penetrating through said membrane in response to a signal from said pressure-sensitive switch.
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17. The in-line retriever of claim 16, wherein said membrane is proximate to said first end of said gas conduit.
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18. The in-line retriever of claim 17, wherein each of said first and second ends of said housing further comprises electrical connectors between said retriever and said section of seismic cable;
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wherein said retriever further comprises an electrical conduit within said housing for providing a continuous channel for electrical signals through said retriever during marine seismic operations.
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19. The in-line retriever of claim 18, further comprising a tether for connecting said inflatable bag to said housing.
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20. A method of retrieving a marine seismic cable, the cable having electrical conductors therein, comprising the steps of:
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mounting at least one retriever in-line in the marine seismic cable, the retriever conducting electrical signals from the cable therethrough;
detecting hydraulic pressure on the buoyancy device indicative of water depth; and
upon detecting a predetermined pressure, activating the retriever, thereby causing the cable to rise substantially to the surface of the water body. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34)
a housing having a first end and a second end, at least one of said first and second ends being coupled in-line with the seismic cable;
a gas canister within said housing adapted to retain a quantity of pressurized gas;
an inflatable bag within said housing; and
an actuator mechanism for creating fluid communication between said gas canister and said inflatable bag such that said inflatable bag is inflated at a sensed pressure in response to a selected water depth.
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23. The method of retrieving a marine seismic cable of claim 22, wherein said housing is substantially cylindrical in configuration.
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24. The method of retrieving a marine seismic cable of claim 23, wherein said retriever further comprises:
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a gas conduit for placing said gas canister and said inflatable bag in fluid communication, said gas conduit having a first end sealingly connected to said gas canister, and a second end sealingly connected to a port within said inflatable bag;
a membrane for prohibiting the flow of gas from said canister through said gas conduit; and
wherein said actuator mechanism acts upon said membrane upon activation so as to open said membrane and to allow gas to travel from said gas canister through said gas conduit and into said inflatable bag.
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25. The method of retrieving a marine seismic cable of claim 24, wherein said housing further comprises a pop-open cover, said pop-open cover opening due to the force of gas inflating said inflatable bag so as to allow said bag to exit said housing in response to inflation.
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26. The method of retrieving a marine seismic cable of claim 25, wherein said pop-open cover comprises:
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an arcuate plate having a first end and a second end, said pop-open cover being disposed over said inflatable bag;
a pivoting connection at said first end of said pop-open cover for pivotally connecting said pop-open cover with said housing; and
a connector for releasably connecting said second end of said pop-open cover from said housing.
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27. The method of retrieving a marine seismic cable of claim 25, wherein said actuator mechanism comprises:
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a pressure sensitive switch; and
a penetrator for penetrating through said membrane.
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28. The method of retrieving a marine seismic cable of claim 27, wherein said membrane is proximate to said first end of said gas conduit.
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29. The method of retrieving a marine seismic cable of claim 27, wherein said pressure sensitive switch defines a pressure transducer.
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30. The method of retrieving a marine seismic cable of claim 29, wherein said pressure transducer is battery powered.
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31. The method of retrieving a marine seismic cable of claim 29, wherein said penetrator defines an explosive penetrator actuated in response to actuation of said pressure transducer.
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32. The method of retrieving a marine seismic cable of claim 27, wherein each of said first and second ends of said housing comprises a coupling for connecting said retriever to a section of seismic cable.
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33. The method of retrieving a marine seismic cable of claim 32, wherein each of said first and second ends of said housing further comprises electrical connectors between said retriever and said section of seismic cable;
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wherein said retriever further comprises an electrical conduit within said housing for providing a continuous channel for electrical signals through said retriever during marine seismic operations.
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34. The method of retrieving a marine seismic cable of claim 25, wherein said predetermined pressure is the hydrostatic pressure acting upon the cable in a body of water at a depth of approximately 100 feet.
Specification