EP0214134A1 - Subsea acoustic relocation system - Google Patents

Subsea acoustic relocation system

Info

Publication number
EP0214134A1
EP0214134A1 EP19850901667 EP85901667A EP0214134A1 EP 0214134 A1 EP0214134 A1 EP 0214134A1 EP 19850901667 EP19850901667 EP 19850901667 EP 85901667 A EP85901667 A EP 85901667A EP 0214134 A1 EP0214134 A1 EP 0214134A1
Authority
EP
European Patent Office
Prior art keywords
line
canister
anchor
buoy
acoustic
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP19850901667
Other languages
German (de)
French (fr)
Inventor
Douglas A. Cochrane, Jr.
Fred W. Styer
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
COCHRANE SUBSEA ACOUSTICS Inc
Original Assignee
COCHRANE SUBSEA ACOUSTICS Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by COCHRANE SUBSEA ACOUSTICS Inc filed Critical COCHRANE SUBSEA ACOUSTICS Inc
Publication of EP0214134A1 publication Critical patent/EP0214134A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63CLAUNCHING, HAULING-OUT, OR DRY-DOCKING OF VESSELS; LIFE-SAVING IN WATER; EQUIPMENT FOR DWELLING OR WORKING UNDER WATER; MEANS FOR SALVAGING OR SEARCHING FOR UNDERWATER OBJECTS
    • B63C7/00Salvaging of disabled, stranded, or sunken vessels; Salvaging of vessel parts or furnishings, e.g. of safes; Salvaging of other underwater objects
    • B63C7/26Means for indicating the location of underwater objects, e.g. sunken vessels

Definitions

  • the present invention relates to undersea relocation systems and more particularly relates to a system for relocating an underwater object by means of a retrievable marker buoy which is released to the surface responsive to a received acoustic signal, carrying with it the free end of a contained canister line and preferably an acoustic signal receptive release transponder.
  • U.S. Patent 3,889,307 issued to Georges Houot is entitled "Remote-Controlled Underwater Buoy.”
  • the '307 patent provides remote-controlled, immersed buoy which allegedly makes it possible to connect an object placed on the ocean floor to the surface by means of a wire rope and includes a body member kept in the immersed position by a latching assembly which is capable of being freed by a beacon upon reception of an acoustic signal.
  • a wire rope attached to an anchoring element winds on a drum as the buoy is raised.
  • a removable electric motor is used to wind the wire rope on its drum to bring the buoy to the immersed position.
  • U.S. Patent 3,487,486 is of a type which is normally immersed and which can be raised to the surface in response to a remote control signal.
  • This type of buoy comprises a body element connected by a cable to an anchoring element lying on the sea bottom and a thrust device bringing the body member to the surface under the action of a release mechanism remotely controlled from the surface. When the buoy floats, a wire rope is used for linking the anchoring element with the surface.
  • a current recorder on or near the ocean bottom for the monitoring of various parameters such as water temperatures, salinity, p.h., flow rates, and to collect this recorded data at the end of a desired time interval.
  • SEA LINK digital acoustic command system which is marketed under the trademark "SEA LINK.”
  • SEA LINK a digital acoustic command system which is marketed under the trademark "SEA LINK.”
  • SEA LINK a digital acoustic command system which is marketed under the trademark "SEA LINK.”
  • SEA LINK a digital acoustic command system which is marketed under the trademark "SEA LINK.”
  • SEA LINK digital acoustic command system which is marketed under the trademark "SEA LINK.”
  • SEA LINK digital acoustic command system which is marketed under the trademark "SEA LINK.”
  • Such a system is based on an acoustic code from a ship board or surface vessel that is transmitted through the water to an underwater unit. If the code or codes are accepted by the unit a command function is actuated.
  • This command function may be a mechanical release of the underwater unit, a command to shut down or turn on the underwater unit or an external control signal to actuate a
  • Such systems as- the "SEA LINK" consist of a shipboard unit with a transducer and one or more underwater units.
  • the standard underwater units incorporate a transponder with a release mechanism and can have additional commands available.
  • Underwater units can contain various command decoders for external command functions.
  • Such underwater units known as release/transponders can be used at depths of up to, for example, twenty thousand (20,000) feet.
  • U.S. Patent 3,775,736 entitled “Acoustical Underwater Control Apparatus” provides an apparatus for controlling the operation of underwater equipment from the surface by wireless signals and monitoring the status of underwater equipment.
  • a power source is provided for continuously supplying power to the underwater system.
  • a minimal number of hard line connections are provided between the surface and underwater units.
  • a "System for Activating a Remote Underwater Device” is the subject of U.S. Patent 3,742,440.
  • a frequency coded acoustic wave generator is used having at least one notch frequency in the transmission spectrum.
  • the generator is adapted to transmit simultaneous assertion and negation frequencies.
  • An acoustic responsive receiver is located at the remote underwater device.
  • the receiver includes a code validation logic arrangement responsive to each received acoustic wave verifying the simultaneous presence and absence of the assertion and negation frequencies.
  • a utilization circuit also in the receiver is responsive only to a verification signal from the validation logic.
  • the present invention provides a subsea acoustic relocation apparatus having a portion for anchoring a line canister at the seabed which canister has an opening through which a contained canister line can pay out.
  • the canister line is placed within the line canister and is anchored at one end to the canister, the other end being a free end which dispenses from the canister during operation.
  • An acoustic transponder release detachably affixes to the frame at a provided removable connection which can be broken by an acoustic signal.
  • the acoustic transponder having attached thereto the free end of the canister line with the temporary connection affixing the free end to the seabed at a provided anchor.
  • a buoyant float is provided for carrying the free end of the canister line to the water surface responsive to a breaking of the removable connection.
  • a weighted frame supports a canister and the transponder/release.
  • a cradle on the frame supports the buoy on the frame prior to release of the removable connection, thus providing a structurally integral, self-contained apparatus that can be easily transported.
  • the buoy is of a sufficient buoyancy value to lift the free end of the canister line (and preferably the attached acoustic transponder), but its buoyancy value is insufficient to overcome the provided seabed anchor.
  • a -flexible sling can be provided connecting the buoy with the frame allowing the buoy to tether a distance above the canister once the buoy is submerged.
  • the line canister and the acoustic transponder release means can be placed side-by-side within the casing bore with their longitudinal axes generally parallel.
  • the cradle can comprise a plurality of struts extending upwardly from the frame and supporting at their uppermost ends, the buoy.
  • the buoy can be a spherical buoy with each of the struts supporting the spherical buoy at its lower half so as not to interfere with upward movement of the buoy when desired.
  • the apparatus can provide a pressure sensitive strob light carried by the buoy for emitting a lighted signal responsive to movement of the buoy to the water surface.
  • the buoy and the acoustic transponder release assembly can rise together to the water surface when the removable connection is broken. In such an embodiment, the buoy would have sufficient buoyancy to lift both the free end of the canister line and the acoustic transponder release assembly.
  • the assembly is anchored at or near a desired object to be relocated at a future designated relocation time.
  • a line canister having a canister line therein with one end of the canister line anchored to the seabed area and the other end being a free end which is attached to a buoyed structure which can lift the canister line free end but not overcome the anchor.
  • the buoyed structure is secured at the seabed with a removable connection that can be broken with an acoustic signal.
  • An acoustic signal is emitted by a surface vessel, for example, at the designated relocation time causing the buoy and the free end of the canister line to rise to the water surface area.
  • Figure 1 is a perspective view of the preferred embodiment of the subsea acoustic relocation system of the present invention prior to an acoustic release of the buoy and its attached acoustic transponder release assembly;
  • FIG 2 is a perspective view of the subsea acoustic relocation system of the present invention after buoy release has occurred illustrating relocation by a diver;
  • Figure 3 is a schematic illustration of the preferred embodiment of the apparatus of the present invention s used in anchor pennant line relocation;
  • Figure 4 is a sectional elevational view of one embodiment of the apparatus of the present invention using a weighted, self-contained transportable frame.
  • FIGS 1 and 2 show an underwater wellhead 12, for example, or any other object which would be desirably relocated as will be described more fully hereinafter.
  • seabed 14 Under sea wellhead 12 or object lies upon seabed 14 which is a distance below the water surface 16.
  • a surface vessel 18 occupies water surface 16 and is equipped with a transponder 20 for emitting an acoustic signal 22.
  • weighted fr-ame 24 On seabed 14 is placed in one embodiment of the present invention, weighted fr-ame 24 having as part thereof casing 25 which is preferably cylindrical and open-ended as will be discussed more fully hereinafter.
  • Casing 25 affixes by welding, for example, to base plate 39 at 38 which is affixed to frame 24.
  • a plurality of buoy cradle legs 28 comprise a cradle for supporting buoy 30.
  • a plurality of rubber pads 29 form an interface between- cradle legs 28 and buoy 30.
  • Buoy 30 can be equipped with a pressure responsive strob light 31 which activates upon surfacing of buoy 30 to water surface "WS.”
  • a line 40 is shown in figure 2 connecting buoy 30 and canister 26 (figure 4) as seabed 14 after release has taken place (as will be described more fully hereinafter) responsive to the emission of acoustic signal 22.
  • Diver 100 can descend line 40 and easily relocate object 12 adjacent the bottom of line 40 as is desirable. Such relocation can taken place many years into the future as the apparatus of the present invention is dependable, rugged, and equipped to operate for a long period of time in its underwater environment even after prolonged marine exposure.
  • Figure 4 shows more particularly the construction of buoy 30, acoustic release/transponder 50, line canister 26 and the means for retaining the line canister 26 at the seabed 14 adjacent object 12 to be relocated.
  • frame 24 is exemplary of an anchoring means which would attach to buoy 30 at shackle 32 and to acoustic transponder release unit 50 at shackle 34.
  • sleeve 48 for housing during shipment and prior to use sling 46.
  • Line 40 is anchored to frame 24 at line anchor 42, and is coiled within canister 26 and pays out therefrom. This prevents tangling of line 40 during ascent of buoy 30 and its attached acoustic transponder release assembly 50 as shown in figure 2, since the line canister remains static in its position at the seabed.
  • FIG 3 shows schematically the use of the present system for anchor pennant line relocation.
  • a floater rig 60 occupies a position at water surface 16 with a rig anchor line 62 descending from floater rig 60 to. anchor 64.
  • Anchor pennant line 66 attaches anchor 60 to supplemental anchor pennant line 66S (phantom lines) which in turn attaches to sinker weight 68.
  • Line canister 70 is .attached to sinker weight 68 by means of sling 69 while the uppermost portion of line canister 70 dispenses from an opening provided thereon the free end 72 of a contained canister line (not shown) which is similar in structure and operation to canister line 40 of figures 1, 2 and 4.
  • Acoustic release/transponder 50 affixes at the uppermost portion or free end 72 of canister line 40, and also removably connects by sling 74 to the removable connection portion of acoustic release transponder 50.
  • buoy 30 and acoustic release/transponder 50 Upon receipt of an acoustic signal, buoy 30 and acoustic release/transponder 50 would rise as connected by sling 76 carrying the free end of line 40 therewith.
  • Sling 74 would connect acoustic release transponder 50 to canister 70 so that once the detachable connection which is provided on acoustic release/transponder 50 were released and the assembly of buoy 30 and acoustic release/transponder 50 could rise to the surface carrying free end 72 of the canister line with them.
  • supplemental pennant line 66s can be used as an intermediate line.
  • Supplemental line 66s could be, fore example, one inch to one and one-half inch diameter rope. This allows a smaller canister line to be used which can be contained within a canister 70 of reasonable size.
  • Line 40 would preferably be, for example, a non-hockling type single braid nylon which could be randomly packed in canister 70, such as is manufactured by Samson Ocean Systems.
  • Line 40 is preferably a non-locking type line such as, for example, a nylon strand, single braid-type line which can be randomly packed into canister 26 and yet still pay out neatly.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Measurement Of Velocity Or Position Using Acoustic Or Ultrasonic Waves (AREA)

Abstract

Un système de localisation acoustique sous-marine utilise un appareil qui comprend, dans un mode de réalisation, une ancre (64) et dans un autre mode de réalisation, un châssis lesté (24) ayant en partie un boîtier (25) qui possède un alésage interne avec une partie supérieure ouverte. Une enceinte métallique (70, 26) recevant un câble connecté à l'ancre (64) ou disposé dans l'alésage (25) du boîtier possède une ouverture au travers de laquelle un câble (40) peut être déroulé. Le câble (40) est placé dans l'enceinte (70, 26) et est attaché à une extrémité à l'ancre (64) ou au châssis (24), l'autre extrémité du câble (40) étant une extrémité libre qui sort de l'enceinte en cours d'utilisation. Un assemblage de libération du répondeur acoustique (50) est fixé de manière libérable à l'ancre (64) ou au châssis (24) (dans l'alésage du boîtier) à une connexion amovible pouvant être cassée par un signal acoustique. L'extrémité libre du cadre est attachée à l'assemblage de libération du répondeur acoustique (50) formant une connexion temporaire de l'extrémité libre entre le câble et le châssis. Un flotteur (30) est prévu pour porter l'extrémité libre du câble à la surface de l'eau et est sensible à une cassure de la connexion amovible. Le flotteur possède une valeur de flottabilité suffisante pour faire monter l'extrémité libre du câble (40) mais cette force de flottabilité est insuffisante pour faire monter l'ancre (64) ou le châssis lesté (24). La valeur de la force de flottabilité du flotteur est de préférence suffisante pour que l'assemblage de libération du répondeur acoustique (50) monte à la surface de l'eau.An underwater acoustic location system uses an apparatus which includes, in one embodiment, an anchor (64) and in another embodiment, a weighted chassis (24) having in part a housing (25) which has a internal bore with open top. A metal enclosure (70, 26) receiving a cable connected to the anchor (64) or disposed in the bore (25) of the housing has an opening through which a cable (40) can be unwound. The cable (40) is placed in the enclosure (70, 26) and is attached at one end to the anchor (64) or to the chassis (24), the other end of the cable (40) being a free end which leaves the enclosure during use. An acoustic responder release assembly (50) is releasably attached to the anchor (64) or chassis (24) (in the housing bore) at a removable connection that can be broken by an acoustic signal. The free end of the frame is attached to the release assembly of the acoustic responder (50) forming a temporary connection of the free end between the cable and the chassis. A float (30) is provided to bring the free end of the cable to the surface of the water and is sensitive to a break in the removable connection. The float has a sufficient buoyancy value to raise the free end of the cable (40) but this buoyancy force is insufficient to raise the anchor (64) or the weighted chassis (24). The value of the buoyancy force of the float is preferably sufficient for the release assembly of the acoustic responder (50) to rise to the surface of the water.

Description

Application for Patent
SUBSEA ACOUSTIC RELOCATION SYSTEM
Specification
Background of the Invention 1. Field of the Invention
The present invention relates to undersea relocation systems and more particularly relates to a system for relocating an underwater object by means of a retrievable marker buoy which is released to the surface responsive to a received acoustic signal, carrying with it the free end of a contained canister line and preferably an acoustic signal receptive release transponder. 2. General Background
It is frequently desirable to relocate an object underwater such as, for example, an abandoned oil well, a subsea wellhead or "Christmas tree" as well as pipeline valves, pipeline crossings, completions and the like. In addition, it is desirable to be able to repeatedly relocate anchor pennant lines for retrieval as these lines are used with floating rigs, dredges, etc.
Often times objects to be relocated are in water which is of low visibility and which can be very deep. In addition, the relocation may need to be performed during a time in which the water surface is rough complicating relocation efforts. Many systems have been patented attempting to solve the problem of undersea relocation. Some such devices have used an explosive charge to disengage a buoyed system from its anchor. Other devices have used an explosive charge to inflate a bag-type buoyancy module to provide the needed uplifting force to cause a system to ascend. Such explosive devices are both unreliable and can cause environmental damage in the form of, for example, fish kills. Other devices have used a search or tag line that is wound around that portion of the buoyant component which ascends to the surface. This method of paying out the search line can be unreliable as the line must unwind from the buoyancy component which is in motion and the line can often fowl and/or get tangled as it is paid out from the erratically wiggling buoy.
As an example of such previously patented devices, note for example, U.S. Patent 3,722,014 issued to Hill, et al, entitled "Retrievable Buoy." That patent provides a retrievable submersible buoy which is anchored at an underwater location and includes an explosive charge release mechanism which releases the buoy from its anchor in response to a remotely actuated signal.
U.S. Patent 3,889,307 issued to Georges Houot is entitled "Remote-Controlled Underwater Buoy." The '307 patent provides remote-controlled, immersed buoy which allegedly makes it possible to connect an object placed on the ocean floor to the surface by means of a wire rope and includes a body member kept in the immersed position by a latching assembly which is capable of being freed by a beacon upon reception of an acoustic signal. A wire rope attached to an anchoring element winds on a drum as the buoy is raised. A removable electric motor is used to wind the wire rope on its drum to bring the buoy to the immersed position.
U.S. Patent 3,487,486 is of a type which is normally immersed and which can be raised to the surface in response to a remote control signal. This type of buoy comprises a body element connected by a cable to an anchoring element lying on the sea bottom and a thrust device bringing the body member to the surface under the action of a release mechanism remotely controlled from the surface. When the buoy floats, a wire rope is used for linking the anchoring element with the surface. In oceanography, it is known to set up a current recorder on or near the ocean bottom for the monitoring of various parameters such as water temperatures, salinity, p.h., flow rates, and to collect this recorded data at the end of a desired time interval. In order to do this, it is necessary to retrieve the recorder after the desired time period and to disassemble the recorder in order to get the information contained within. One device which has been used in the past for the undersea placement of such recorders is a digital acoustic command system which is marketed under the trademark "SEA LINK." Such a system is based on an acoustic code from a ship board or surface vessel that is transmitted through the water to an underwater unit. If the code or codes are accepted by the unit a command function is actuated. This command function may be a mechanical release of the underwater unit, a command to shut down or turn on the underwater unit or an external control signal to actuate a valve, for example. Such systems as- the "SEA LINK" consist of a shipboard unit with a transducer and one or more underwater units. The standard underwater units incorporate a transponder with a release mechanism and can have additional commands available. Underwater units can contain various command decoders for external command functions. Such underwater units known as release/transponders can be used at depths of up to, for example, twenty thousand (20,000) feet.
U.S. Patent 3,775,736 entitled "Acoustical Underwater Control Apparatus" provides an apparatus for controlling the operation of underwater equipment from the surface by wireless signals and monitoring the status of underwater equipment. A power source is provided for continuously supplying power to the underwater system. A minimal number of hard line connections are provided between the surface and underwater units.
An "Oceanographic Apparatus" is the subject of U.S. Patent 3,287,753. That patent relates to oceanographic devices and more particularly to an underwater buoy having a floatable portion which may be released in response to sonic signals from a remote transmitter.
A "System for Activating a Remote Underwater Device" is the subject of U.S. Patent 3,742,440. A frequency coded acoustic wave generator is used having at least one notch frequency in the transmission spectrum. The generator is adapted to transmit simultaneous assertion and negation frequencies. An acoustic responsive receiver is located at the remote underwater device. The receiver includes a code validation logic arrangement responsive to each received acoustic wave verifying the simultaneous presence and absence of the assertion and negation frequencies. A utilization circuit also in the receiver is responsive only to a verification signal from the validation logic.
An underwater "Hydraulic Latch" is the subject of U.S. Patent 3,553,795 issued to D.E. McDougal.
An "Underwater Transponder Calibration Arrangement" is the subject of U.S. Patent 4,097,837. These devices are aforementioned frequently use explosive charges to disengage the system. Some are very complex and can be unreliable. Some are not easily operated and are prone to malfunction.
While some attempt to provide a float which carries a line to the surface, many are not self-contained and rugged enough to be left for long periods of time beside a desired object to be located later and then still operate after such time without extraneous complex connections being necessarily made first by a diver. 3. General Discussion of the Present Invention
The present invention provides a subsea acoustic relocation apparatus having a portion for anchoring a line canister at the seabed which canister has an opening through which a contained canister line can pay out. The canister line is placed within the line canister and is anchored at one end to the canister, the other end being a free end which dispenses from the canister during operation. An acoustic transponder release detachably affixes to the frame at a provided removable connection which can be broken by an acoustic signal. The acoustic transponder having attached thereto the free end of the canister line with the temporary connection affixing the free end to the seabed at a provided anchor. A buoyant float is provided for carrying the free end of the canister line to the water surface responsive to a breaking of the removable connection. In one embodiment a weighted frame supports a canister and the transponder/release. In that embodiment, a cradle on the frame supports the buoy on the frame prior to release of the removable connection, thus providing a structurally integral, self-contained apparatus that can be easily transported.
The buoy is of a sufficient buoyancy value to lift the free end of the canister line (and preferably the attached acoustic transponder), but its buoyancy value is insufficient to overcome the provided seabed anchor. A -flexible sling can be provided connecting the buoy with the frame allowing the buoy to tether a distance above the canister once the buoy is submerged. The line canister and the acoustic transponder release means can be placed side-by-side within the casing bore with their longitudinal axes generally parallel.
With the frame embodiment, the cradle can comprise a plurality of struts extending upwardly from the frame and supporting at their uppermost ends, the buoy. The buoy can be a spherical buoy with each of the struts supporting the spherical buoy at its lower half so as not to interfere with upward movement of the buoy when desired. The apparatus can provide a pressure sensitive strob light carried by the buoy for emitting a lighted signal responsive to movement of the buoy to the water surface. The buoy and the acoustic transponder release assembly can rise together to the water surface when the removable connection is broken. In such an embodiment, the buoy would have sufficient buoyancy to lift both the free end of the canister line and the acoustic transponder release assembly. In the method of the present invention, the assembly is anchored at or near a desired object to be relocated at a future designated relocation time. Provided is a line canister having a canister line therein with one end of the canister line anchored to the seabed area and the other end being a free end which is attached to a buoyed structure which can lift the canister line free end but not overcome the anchor. The buoyed structure is secured at the seabed with a removable connection that can be broken with an acoustic signal. An acoustic signal is emitted by a surface vessel, for example, at the designated relocation time causing the buoy and the free end of the canister line to rise to the water surface area. BRIEF DESCRIPTION OF THE DRAWINGS For a further understanding of the nature and objects of the present invention, reference should be had to the following detailed description, taken in conjunction with the accompanying drawings, in which like parts are given like reference numerals and wherein: Figure 1 is a perspective view of the preferred embodiment of the subsea acoustic relocation system of the present invention prior to an acoustic release of the buoy and its attached acoustic transponder release assembly;
Figure 2 is a perspective view of the subsea acoustic relocation system of the present invention after buoy release has occurred illustrating relocation by a diver; Figure 3 is a schematic illustration of the preferred embodiment of the apparatus of the present invention s used in anchor pennant line relocation; and
Figure 4 is a sectional elevational view of one embodiment of the apparatus of the present invention using a weighted, self-contained transportable frame. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
Figures 1 and 2 show an underwater wellhead 12, for example, or any other object which would be desirably relocated as will be described more fully hereinafter.
Under sea wellhead 12 or object lies upon seabed 14 which is a distance below the water surface 16. A surface vessel 18 occupies water surface 16 and is equipped with a transponder 20 for emitting an acoustic signal 22. On seabed 14 is placed in one embodiment of the present invention, weighted fr-ame 24 having as part thereof casing 25 which is preferably cylindrical and open-ended as will be discussed more fully hereinafter. Casing 25 affixes by welding, for example, to base plate 39 at 38 which is affixed to frame 24.
A plurality of buoy cradle legs 28 comprise a cradle for supporting buoy 30. A plurality of rubber pads 29 form an interface between- cradle legs 28 and buoy 30. Buoy 30 can be equipped with a pressure responsive strob light 31 which activates upon surfacing of buoy 30 to water surface "WS."
A line 40 is shown in figure 2 connecting buoy 30 and canister 26 (figure 4) as seabed 14 after release has taken place (as will be described more fully hereinafter) responsive to the emission of acoustic signal 22. Diver 100 can descend line 40 and easily relocate object 12 adjacent the bottom of line 40 as is desirable. Such relocation can taken place many years into the future as the apparatus of the present invention is dependable, rugged, and equipped to operate for a long period of time in its underwater environment even after prolonged marine exposure. Figure 4 shows more particularly the construction of buoy 30, acoustic release/transponder 50, line canister 26 and the means for retaining the line canister 26 at the seabed 14 adjacent object 12 to be relocated. It should be understood that frame 24 is exemplary of an anchoring means which would attach to buoy 30 at shackle 32 and to acoustic transponder release unit 50 at shackle 34. Provided at the uppermost portion of canister 26 is sleeve 48 for housing during shipment and prior to use sling 46. Line 40 is anchored to frame 24 at line anchor 42, and is coiled within canister 26 and pays out therefrom. This prevents tangling of line 40 during ascent of buoy 30 and its attached acoustic transponder release assembly 50 as shown in figure 2, since the line canister remains static in its position at the seabed.
Figure 3 shows schematically the use of the present system for anchor pennant line relocation. In that figure, a floater rig 60 occupies a position at water surface 16 with a rig anchor line 62 descending from floater rig 60 to. anchor 64. Anchor pennant line 66 attaches anchor 60 to supplemental anchor pennant line 66S (phantom lines) which in turn attaches to sinker weight 68. Line canister 70 is .attached to sinker weight 68 by means of sling 69 while the uppermost portion of line canister 70 dispenses from an opening provided thereon the free end 72 of a contained canister line (not shown) which is similar in structure and operation to canister line 40 of figures 1, 2 and 4. Acoustic release/transponder 50 affixes at the uppermost portion or free end 72 of canister line 40, and also removably connects by sling 74 to the removable connection portion of acoustic release transponder 50. Upon receipt of an acoustic signal, buoy 30 and acoustic release/transponder 50 would rise as connected by sling 76 carrying the free end of line 40 therewith. Sling 74 would connect acoustic release transponder 50 to canister 70 so that once the detachable connection which is provided on acoustic release/transponder 50 were released and the assembly of buoy 30 and acoustic release/transponder 50 could rise to the surface carrying free end 72 of the canister line with them. Once line 72 reaches surface "WS," the anchor pennant line would be raised using supplemental pennant line 66s. Normally pennant line 66 would be very heavy, such s several pounds per foot, as wire rope is often used. In such a case, supplemental pennant line 66s can be used as an intermediate line. Supplemental line 66s could be, fore example, one inch to one and one-half inch diameter rope. This allows a smaller canister line to be used which can be contained within a canister 70 of reasonable size. Line 40 would preferably be, for example, a non-hockling type single braid nylon which could be randomly packed in canister 70, such as is manufactured by Samson Ocean Systems.
Line 40 is preferably a non-locking type line such as, for example, a nylon strand, single braid-type line which can be randomly packed into canister 26 and yet still pay out neatly.
Because many varying and different embodiments may be made within the scope of the invention concept herein taught, and because many modifications may be made in the embodiments herein detailed in accordance with the descriptive requirement of the law, it is to be understood that the details herein are to be interpreted as illustrative and not in a limiting sense. What is claimed as invention is:

Claims

CLAIMS :
1. A subsea acoustic relocation apparatus comprising: a. line canister means disposed during operation at the seabed near an object to be relocated and having an opening through which is contained canister line can pay out, said canister means normally remaining at the seabed during payout of the line; b. a canister line placed within the line canister and anchored at one end to the frame, the other end being a free end which dispenses first from the canister during operation; c. anchor means positioned t the seabed near an object to be relocated for retaining the line canister at the object to be relocated at least during payout of the canister line; d. acoustic transponder release means, detachably affixed to the line canister/anchor means assembly at a provided removable connection which can be broken by an acoustic signal, said means having attached thereto the free end of the canister line; and e. buoyant float means for carrying the free end of the canister line to the water surface responsive to a breaking of the removable connection, said float means having a buoyant force value sufficient to lift said acoustic transponder canister line free end upwardly but an insufficient buoyant force to overcome the force exerted on the canister by said anchor means.
2. The apparatus of claim 1 further comprising a flexible sling connecting the buoy means with the acoustic transponder release means, allowing the buoy means to tether a distance above the anchor means and when the anchor means and buoy means are submerged.
3. The apparatus of claim 1, wherein the line canister and the acoustic transponder release means are placed vertically one above the other above the anchor means.
4. The apparatus of claim 1, wherein said anchor means comprises a frame providing in part a casing having an inner bore open at the top and further providing cradle means comprising a plurality of struts extending from said frame and supporting respectively at their ends, said buoy means.
5. The apparatus of claim 4, wherein said buoy means is a spherical buoy and each of said struts supports said spherical buoy on its lower half.
6. The apparatus of claim 1 further comprising a pressure sensitive strobe light means carried by said buoy means for emitting a lighted signal responsive to movement of said buoy means to the water surface.
7. The apparatus of claim 4, wherein the line canister is attached to the frame at least at the casing.
8. The apparatus of claim 7, wherein the frame provides at its lower end portion a skid.
9. The apparatus of claim 1, wherein said buoy means and said acoustic transponder release means rise together to the water surface area when said removable connection is broken.
10. The apparatus of claim 1, wherein the canister line is a non-hockling line and randomly packed in the canister.
11. A method of undersea relocation comprising the steps of: a. positioning an anchor near a desired object to be relocated at a future designated relocation time; b. providing a line canister having a canister line therein with one end held by the anchor and the other free end attached to a buoyed structure which can lift the canister line free end, but having a buoyancy value insufficient to overcome the anchors hold on the line canister; c. securing the buoyed structure to the anchor with a removable connection that can be broken with an acoustic signal; and d. emitting an acoustic signal at the designated relocation time, causing the buoy and the free end of the canister line to rise to the water surface area.
12. The method of claim 11, wherein in step "a" the object to be relocated is an anchor pennant line.
13. The method of claim 12, wherein the anchor pennant line is attached- to the canister line by an intermediate anchor pennant line having a weight per foot greater than the weight per foot of the canister line but less than the weight per foot of the pennant line.
14. The method of claim 11, wherein in step "a" the anchor is positioned adjacent an anchor pennant line with the anchor being connected to an intermediate pennant line with the opposite end portion of the supplemental anchor pennant line affixing directly to the anchor pennant line to be relocated.
15. The method of claim 11, wherein in step "c" an acoustic transponder provided with a removable connection is secured between the buoyed structure and the anchor and, in step "d," responsive to an emitting of the acoustic signal, the buoy, the transponder, and the free end of the canister line all rise to the water surface area.
EP19850901667 1985-02-19 1985-02-19 Subsea acoustic relocation system Withdrawn EP0214134A1 (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/US1985/000241 WO1986004873A1 (en) 1985-02-19 1985-02-19 Subsea acoustic relocation system

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EP0214134A1 true EP0214134A1 (en) 1987-03-18

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GB2222805B (en) * 1988-09-02 1992-04-29 Lawborough Consultants Improvements in or relating to underwater communication devices
FR3026087B1 (en) 2014-09-23 2017-12-08 Institut Francais De Rech Pour L’Exploitation De La Mer – Ifremer OCEANOGRAPHIC SYSTEM AND CONTROL METHOD
CN108238220B (en) * 2016-12-27 2023-08-11 中国科学院沈阳自动化研究所 Long-term fixed-point observation device for deep sea ecological process
CN107472485B (en) * 2017-07-25 2023-07-28 西安思坦仪器股份有限公司 Acoustic releaser and release method thereof

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US889024A (en) * 1907-10-17 1908-05-26 Oliver W Obarr Indicator for locating sunken vessels.
US1136608A (en) * 1914-06-29 1915-04-20 Allie Weatherhead Device for raising sunken vessels.
US3618150A (en) * 1969-03-04 1971-11-09 James V Anselmi Beacon buoy marker containing lifesaving and signaling devices
US4067282A (en) * 1976-10-04 1978-01-10 Guinn David C Releasable and retrievable mooring system
US4136415A (en) * 1977-04-29 1979-01-30 Blockburger James E Underwater release mechanism

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