US3776574A - Underwater hull inspection - Google Patents

Underwater hull inspection Download PDF

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US3776574A
US3776574A US00227496A US3776574DA US3776574A US 3776574 A US3776574 A US 3776574A US 00227496 A US00227496 A US 00227496A US 3776574D A US3776574D A US 3776574DA US 3776574 A US3776574 A US 3776574A
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hull
submerged
area
diver
discrete areas
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D Henderson
J Seitz
S Henderson
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B59/00Hull protection specially adapted for vessels; Cleaning devices specially adapted for vessels

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  • ABSTRACT There is described an improved method for directing a diver-inspector to a hull location of interest during the process of performing an inspection of the submerged surfaces of the hull of a floating ship.
  • the submerged surface area of the hull is visibly subdivided into a plurality of discrete areas.
  • a designating indicium for each discrete area is applied to each area to be visible from adjacent the area.
  • a map is provided, at an inspection control site, of the several discrete areas into which the hull submerged surface area is subdivided and of the designating indicia applied to the areas.
  • a communication path is provided to the diverinspector by which the diver, when submerged, may receive instructions from the inspection control site which preferably is located aboard the vessel.
  • an inspection controller may direct the diver-inspector to a designated hull location of interest for scanning of the hull by an underwater television camera, or by a plate sounding mechanism or the like.
  • This invention pertains to the field of marine hull maintenance and, more particularly, to procedures and apparatus for performing hull certification inspections while the hull is afloat.
  • vessels such as supertankers, because of their size and weight, may not be drydocked except at a few locations throughout the world, which locations may not be adjacent to the normal service routes of the vessel. Drydocking of such vessels requires a long voyage out of the normal operating route of the vessel solely for the purpose of a certification inspection.
  • Other vessels such as floating drill ships and the like, often operate in areas remote from adequate drydocking facilities. Thus, in all cases time is lost from'the nor mal operating schedule of the vessel during the drydocking interval and, depending upon the size and nature of the vessel, the time lost from the normal operation of the vessel may be quite extended.
  • wetdocking has been developed to enable shipowners to obtain and maintain US. Coast Guard and American Bureau of Shipping certification without requiring actual physical removal of the vessel from the water as by conventional drydocking.
  • the vessel is subjected to a certification inspection while the vessel is afloat, preferably at the same time that the vessel may be working cargo or the like as required by the regular commercial function of the vessel.
  • the wetdocking procedure may be as simple or as complex as is desired by the appropriate inspector, surveyor or shipowner.
  • the wetdocking process may include underwater hull cleaning, sea chest maintenance, overhaul of sea suction and overboard discharge valves, installation of corrosion inhibiting sacrificial anodes, hull plate thickness measurements, visual survey of the hull, seachests, shafts, propellers, rudders, and of welded plate seams and butts.
  • the desired visual survey may be obtained by the use of an underwater television camera operated by a diver to present a television picture aboard the vessel or at some other inspection control site for examination by the certifying inspector or surveyor.
  • the output from the underwater television camera may be supplied to a video tape recorder for recording and playback at a later and more convenient time.
  • Hull plate thickness measurements may be obtained by the use of an ultrasonic plate thickines meter operated by a diver.
  • the diver may be linked to the controlling inspector by two-way audio communication path and can readily understand requests made of him by the controlling inspector, the disorientation effect makes it difficult for the diver to move from one location on the hull to another location of interest promptly at the request of the controlling inspector.
  • wetdocking procedures may be improved by the provision of improved communications methods between the controlling inspector and the diver, and by which the diver can respond promptly and accruately to change-of-position requests made of him by the controlling inspector.
  • Wetdocking procedures can also be improved by the elimination or the reduction of the situations requiring the recheck or reexamination of particular hull areas. The more rapidly and efficiently a wetdocking inspection may be made, the more likely is the possibility that the entire wetdocking certification inspection may be made while the vessel is occupied at dockside during the performance of the normal commercial task assigned to the vessel at essentially any location of the vessel within the world.
  • This invention provides improved, simple, efficient, and economic procedures and equipment for directing a diver-inspector to a hull location of interest during the process of performing an inspection of the submerged surfaces of the hull of a floating ship.
  • the improved method of this invention includes the step of providing to a diverinspector a communication path by which the diver, when submerged, may receive instructions from an inspection control site.
  • the method also includes the steps of visibly subdividing the submerged surface area of the hull into a plurality of discrete areas and of ap- DESCRIPTION OF THE DRAWINGS
  • FIG. 1 is a portion of a locating map useful by a controlling inspector at an inspection control site aboard the vessel or otherwise;
  • FIG. 2 is a fragmentary elevation view showing a diver-inspector at work using the precedures of this invention.
  • the submerged surface area of the hull of a ship 11 is subdivided into a plurality of zones 12, 13 and 14; zones 12, 13 and 14 are representative of a greater number of zones into which the hull submerged surface area may be divided.
  • each zone extends from the waterline 15 of the hull to the keel 16 or to the centerline of the hull at its bottom.
  • the zonal subdivision of one side of the submerged surface area of ship 11 adjacent its stem is shown in FIG. 1.
  • FIG. 1 is illustrative of a portion of a locating map 17 which is provided to a controlling inspector at an inspection control site 18.
  • map 17 is provided as a modified shell expansion drawing.
  • a shell expansion drawing is one of the drawings which is normally provided by the naval architect or the shipbuilder.
  • a shell expansion drawing constitutes a transverse, but not longitudinal, development of the entire plated area of the hull. Since the shell expansion drawing conventionally is expanded transversely of the vessel, all dimensions taken vertically on a shell expansion drawing are true dimensions, whereas dimensions taken horizontally are not, in all cases, true dimensions but are apparent side elevation dimensions.
  • the shell expansion drawing can illustrate the location 20 where a propeller shaft extends through the hull, the location 21 where a rudder stock may penetrate the hull, and the location 22 at which propeller shaft support struts may be connected to the hull.
  • a shell expansion drawing also conventionally illustrates the location on the ship hull of the openings of sea chests 23 and 24, as well as the location of condenser overboard discharge opening 25, the engine cooling water overboard discharge opening 26, plumbing drain opening 27 and the locations 28 at which anchor stowage rack struts are connected to the hull.
  • the shell expansion drawing illustrates the extent of doubler plates 29, 30, 31, 32 and 33 provided within the hull around each of features 20, 21, 22, 23 and 24, respectively. Further, the shell expansion drawing shows the location of a bilge keel 34 on the exterior of the hull and the location within the hull of propulsion machinery foundations 35, watertight longitudinal bulkheads 36, oil tight transverse bulkheads 37, watertight transverse bulkheads 38, and tank tops 39.
  • features 20-39 are features which are of particular interest to a Coast Guard inspector or an American Bureau of Shipping surveyor.
  • a conventional shell expansion drawing shows other features of the hull structure which are not relevant to the purposes of map 17 and which preferably are deleted from the modified shell expansion drawing which constitutes map 17.
  • a map 17 preferably is provided for each of the port and starboard sides of the hull in view of the color of zones 12, 13, 14 etc. It is within the scope of this invention, however, that a single map 17 may be provided for the entire vessel and such is the case shown in FIG. 1 wherein both starboard and port features of the hull are depicted.
  • each zone 12, 13, 14, etc., into which the total submerged surface area of the hull is subdivided is painted a color which contrasts from the color of any zone abutting it.
  • the painting of zone 12 to have a yellow color is indicated by appropriate hatching around the margins of this zone in distinction to the hatching of the margins of zone 13 to represent the color red.
  • zone 12 may be painted yellow, but be painted red on the port side of the vessel; zone 13 may be painted red to starboard and yellow to port; and so on forwardly along the length of the entire ship.
  • Each zone is further subdivided into a plurality of discrete areas which are separated from each other by suitable grid lines 40 which are painted on the hull, over the appropriate zone color, in a color which corresponds with the underlying zone color.
  • each discrete area defined within zone is given a designated indicium 41 which also contrasts with the underlying zone color.
  • Each indicium 41 conveniently may be a large number painted within the boundries of the corresponding discrete area as defined by grid lines 40.
  • Grid lines 40 and the designating indicia should have sufficient contrast to the background zone color and should be sufficiently large to be readily visible by a diver working adjacent that location of the hull. As shown in FIG.
  • Map 17 therefore, constitutes an accurate plan or map of the colors, subdividing grid lines, and various designating indicia carried by the hull itself.
  • hull zonal designation colors, grid lines, and designating indicia are preferably applied to the hull of a new vessel as a part of the construction process.
  • the hull is painted with desired zonal designation colors, grid lines, and designating indicia as a part of a conventional certifying drydocking and inspection;
  • the vessel maybe inspected, surveyed and certified by practice of the present invention procedures without need for drydocking solely for the purposes of such inspections.
  • the inspection of the submerged surfaces and features of a floating vessel may be conveniently and expenditiously performed by a diver-inspector 44 who preferably is equipped with a self-contained underwater breathing apparatus 45 so that he may move readily and freely about, around, and under the vessel.
  • Diver-inspector 44 is placed in communication, preferably two-way communication, with inspection control site 18 by an audio communication system which includes a headphone 46 for the diver and a lightweight umbilical communications cable 47 which extends to a microphone 48 and a loudspeaker 49 at the inspection control site.
  • the necessary visual inspection of the submerged surfaces of the hull is implemented by use of an underwater television camera 50 which preferably is neutrally buoyant for convenient operation by the diver-inspector.
  • the television camera is connected to a suitable transmission cable 51 with which audio communication cable 47 preferably is linked.
  • Cable 51 extends to a television monitor 52 and a video tape recorder 53 at inspection control site 18.
  • diverinspector 44 may be provided with an ultransonic hull plating thickiness meter which may be connected by a suitable cable to appropriate recording equipment or the like at the inspection control site.
  • the inspection control site preferably is located aboard ship 11 but, if desired, may be located elsewhere, as aboard an inspection tender vessel or the like.
  • the underwater inspection process is greatly facilitated by the color coding and subdivision of the total submerged surface area of the hull into a plurality of discrete areas, each of which is given its appropriate designating indicium.
  • the designating indicium assigned to any discrete area of the hull need not be an indicium which is unique to the entire hull. Rather, it is sufficient for the purposes of this invention that the designating indicium applied to a particular discrete area, in association with the background color for the zone within which the descrete area lies, is unique to all of the zones within reasonable proximity to the particular discrete area of interest.
  • zone 14 on the starboard side of the vessel may be distinguished from starboard yellow zone 12 by generally designating starboard zone 14 as yellow starboard 2 and by designating starboard yellow zone 12 as starboard yellow 1.
  • diver-inspector 44 may be commanded to move from upper right 11 starboard yellow 1 to lower left starboard yellow 2; by reference to FIG. 1, such a command would be a command for the diver-inspector to move from a location adjacent to the upper right-hand comer of area 11 shown in zone 12 of map 17 on the starboard side of the vessel to a new location adjacent the lower left corner of area 15 appearing in zone 14 on the starboard side of the vessel.
  • an improved method for directing a diver-inspector to a hull location of interest comprising the steps of a. visibly subdividing the submerged surface area of the hull into a plurality of discrete areas,
  • map is provided as a shell expansion drawing for the hull, and including modifying the drawing to correspond to and indicating the hull area subdivision and the designating indicia.
  • each of said parts of the hull submerged area includes a plurality of said discrete areas, and including subdividing each said part into the corresponding discrete areas by painting over the part boundary lines for discrete areas in a color which contrasts with the color for the part.
  • indicia applied to the submerged surface of the hull and subdividing the submerged surface area into a plurality of discrete areas, said indicia including designating indicia applied to the hull within each discrete area to render that discrete area unique to all others of said discrete areas proximate thereto, and
  • b a map of the submerged hull surface area arranged to show all of the discrete areas, their location, and their designating indicia.

Abstract

There is described an improved method for directing a diverinspector to a hull location of interest during the process of performing an inspection of the submerged surfaces of the hull of a floating ship. The submerged surface area of the hull is visibly subdivided into a plurality of discrete areas. A designating indicium for each discrete area is applied to each area to be visible from adjacent the area. A map is provided, at an inspection control site, of the several discrete areas into which the hull submerged surface area is subdivided and of the designating indicia applied to the areas. Also, a communication path is provided to the diver-inspector by which the diver, when submerged, may receive instructions from the inspection control site which preferably is located aboard the vessel. By reference to the map, an inspection controller may direct the diverinspector to a designated hull location of interest for scanning of the hull by an underwater television camera, or by a plate sounding mechanism or the like.

Description

United States Patent [191 [11] 3,776,574 Henderson, deceased et ai. 1 Dec. 4, 1973 UNDERWATER HULL INSPECTION Primary Examiner-Lawrence Charles Inventors: Donald W. Henderson, --v mlate of Santa Barbara, Calif.; by Joseph A. Seitz, executor, Compton; Shirley W. Henderson, Santa Fe Springs, both of Calif. W W
Shirley W. Henderson, Santa Fe [73] Assignee:
Springs, Calif.
[22] Filed: Feb. 17, 1972 References Cited UNITED STATES PATENTS 12/1963 Senick 273/130 D 5/1970 Thomander... 273/130 D Att0rney-Robert L. Parker et al.
[57] ABSTRACT There is described an improved method for directing a diver-inspector to a hull location of interest during the process of performing an inspection of the submerged surfaces of the hull of a floating ship. The submerged surface area of the hull is visibly subdivided into a plurality of discrete areas. A designating indicium for each discrete area is applied to each area to be visible from adjacent the area. A map is provided, at an inspection control site, of the several discrete areas into which the hull submerged surface area is subdivided and of the designating indicia applied to the areas. Also, a communication path is provided to the diverinspector by which the diver, when submerged, may receive instructions from the inspection control site which preferably is located aboard the vessel. By reference to the map, an inspection controller may direct the diver-inspector to a designated hull location of interest for scanning of the hull by an underwater television camera, or by a plate sounding mechanism or the like.
5 Claims, 2 Drawing Figures PATENTED 4 SHEET 1 BF 2 1 UNDERWATER HULL INSPECTION FIELD OF THE INVENTION This invention pertains to the field of marine hull maintenance and, more particularly, to procedures and apparatus for performing hull certification inspections while the hull is afloat.
BACKGROUND OF THE INVENTION Description of the Prior Art: Shipowners, in order to maintain their vessels safe, seaworthy and insurable, are obliged to conform to certain certification rules and regulations promulgated, in the United States, by the US. Coast Guard and the American Bureau of Shipping, the latter being a certification agencyfor member marine insurance underwriters. A major part of the expense incurred by shipowners in meeting these requirements by drydocking of the vessels at certain minimum time intervals. Drydocking gives the appropriate Coast Guard inspector or ABS surveyor the opportunity to inspect hull shell plating for cracks, pitting, erosion, and weld deterioration and also-to examine the condition of hull penetrations such as propeller shafting, rudders, and the like. Drydocking, however, requires that the vessel be scheduled for a particular drydock months in advance. During the drydocking, the vessel is out of service from its normal function which is to earn money for the shipowner.
Also, some vessels, such as supertankers, because of their size and weight, may not be drydocked except at a few locations throughout the world, which locations may not be adjacent to the normal service routes of the vessel. Drydocking of such vessels requires a long voyage out of the normal operating route of the vessel solely for the purpose of a certification inspection. Other vessels, such as floating drill ships and the like, often operate in areas remote from adequate drydocking facilities. Thus, in all cases time is lost from'the nor mal operating schedule of the vessel during the drydocking interval and, depending upon the size and nature of the vessel, the time lost from the normal operation of the vessel may be quite extended.
Recently, a process known as wetdocking has been developed to enable shipowners to obtain and maintain US. Coast Guard and American Bureau of Shipping certification without requiring actual physical removal of the vessel from the water as by conventional drydocking. In the wetdocking process, the vessel is subjected to a certification inspection while the vessel is afloat, preferably at the same time that the vessel may be working cargo or the like as required by the regular commercial function of the vessel.
The wetdocking procedure may be as simple or as complex as is desired by the appropriate inspector, surveyor or shipowner. Thus, the wetdocking process may include underwater hull cleaning, sea chest maintenance, overhaul of sea suction and overboard discharge valves, installation of corrosion inhibiting sacrificial anodes, hull plate thickness measurements, visual survey of the hull, seachests, shafts, propellers, rudders, and of welded plate seams and butts. Conveniently, the desired visual survey may be obtained by the use of an underwater television camera operated by a diver to present a television picture aboard the vessel or at some other inspection control site for examination by the certifying inspector or surveyor. Also, if desired, the output from the underwater television camera may be supplied to a video tape recorder for recording and playback at a later and more convenient time. Hull plate thickness measurements may be obtained by the use of an ultrasonic plate thickines meter operated by a diver.
In prior wetdocking procedures, it has been difficult to coordinate the desires of the certifying inspector, at the inspection control site, to the movements of the diver handling the underwater television equipment or plate thickness meter. A principal cause of this difficulty has been the disorientation experienced by the diver working close to the submerged surfaces of the hull. That is, much of the submerged surface of a ship hull, when viewed closely by a diver, looks much the same as most other areas of the hull. For this reason it is difficult for the diver to know where he is at any given time relative to a particular location on the hull. Even though the diver may be linked to the controlling inspector by two-way audio communication path and can readily understand requests made of him by the controlling inspector, the disorientation effect makes it difficult for the diver to move from one location on the hull to another location of interest promptly at the request of the controlling inspector.
Prior attempts at overcoming these communications difficulties between the controlling inspector and the diver involved the use of hogging lines run around the girth of the hull at spaced locations along the length of the hull. Such hogging lines provide reference points for the diver, particularly when he is working directly below the hull, but such lines are difficult and time consuming to move from station to station along the hull. Also, the use of hogging lines does not provide an entirely satisfactory answer to the situation which arises when the controlling inspector wishes to go back and recheck a particular location of the hull, as after inspecting the video tape of the television scan of the entire hull made by the diver. The rechecking situation has arisen frequently in prior wetdocking procedures because of the difficulty experienced by the controlling inspector in identifying a particular hull area directly from the information presented on the television monitor either as the signal is generated originally or as played back from a video tape recording.
It is apparent, therefore, that the efficiency and efficacy of wetdocking procedures may be improved by the provision of improved communications methods between the controlling inspector and the diver, and by which the diver can respond promptly and accruately to change-of-position requests made of him by the controlling inspector. Wetdocking procedures can also be improved by the elimination or the reduction of the situations requiring the recheck or reexamination of particular hull areas. The more rapidly and efficiently a wetdocking inspection may be made, the more likely is the possibility that the entire wetdocking certification inspection may be made while the vessel is occupied at dockside during the performance of the normal commercial task assigned to the vessel at essentially any location of the vessel within the world.
SUMMARY OF THE INVENTION This invention provides improved, simple, efficient, and economic procedures and equipment for directing a diver-inspector to a hull location of interest during the process of performing an inspection of the submerged surfaces of the hull of a floating ship.
Generally speaking, the improved method of this invention includes the step of providing to a diverinspector a communication path by which the diver, when submerged, may receive instructions from an inspection control site. The method also includes the steps of visibly subdividing the submerged surface area of the hull into a plurality of discrete areas and of ap- DESCRIPTION OF THE DRAWINGS The above-mentioned and other features of this invention are more fully set forth in the following detailed description of a presently preferred embodiment of the invention, which description is presented with reference to the accompany drawing, wherein:
FIG. 1 is a portion of a locating map useful by a controlling inspector at an inspection control site aboard the vessel or otherwise; and
FIG. 2 is a fragmentary elevation view showing a diver-inspector at work using the precedures of this invention.
DESCRIPTION OF THE ILLUSTRATED EMBODIMENT As shown in the drawings, the submerged surface area of the hull of a ship 11 is subdivided into a plurality of zones 12, 13 and 14; zones 12, 13 and 14 are representative of a greater number of zones into which the hull submerged surface area may be divided. Preferably, each zone extends from the waterline 15 of the hull to the keel 16 or to the centerline of the hull at its bottom. The zonal subdivision of one side of the submerged surface area of ship 11 adjacent its stem is shown in FIG. 1. FIG. 1 is illustrative of a portion of a locating map 17 which is provided to a controlling inspector at an inspection control site 18.
Preferably, map 17 is provided as a modified shell expansion drawing. A shell expansion drawing is one of the drawings which is normally provided by the naval architect or the shipbuilder. A shell expansion drawing constitutes a transverse, but not longitudinal, development of the entire plated area of the hull. Since the shell expansion drawing conventionally is expanded transversely of the vessel, all dimensions taken vertically on a shell expansion drawing are true dimensions, whereas dimensions taken horizontally are not, in all cases, true dimensions but are apparent side elevation dimensions.
A single drawing, by suitable notes thereon, shows both port and starboard hull features. The shell expansion drawing, therefore, can illustrate the location 20 where a propeller shaft extends through the hull, the location 21 where a rudder stock may penetrate the hull, and the location 22 at which propeller shaft support struts may be connected to the hull. A shell expansion drawing also conventionally illustrates the location on the ship hull of the openings of sea chests 23 and 24, as well as the location of condenser overboard discharge opening 25, the engine cooling water overboard discharge opening 26, plumbing drain opening 27 and the locations 28 at which anchor stowage rack struts are connected to the hull. Further, the shell expansion drawing illustrates the extent of doubler plates 29, 30, 31, 32 and 33 provided within the hull around each of features 20, 21, 22, 23 and 24, respectively. Further, the shell expansion drawing shows the location of a bilge keel 34 on the exterior of the hull and the location within the hull of propulsion machinery foundations 35, watertight longitudinal bulkheads 36, oil tight transverse bulkheads 37, watertight transverse bulkheads 38, and tank tops 39. Each of features 20-39 are features which are of particular interest to a Coast Guard inspector or an American Bureau of Shipping surveyor. A conventional shell expansion drawing shows other features of the hull structure which are not relevant to the purposes of map 17 and which preferably are deleted from the modified shell expansion drawing which constitutes map 17.
According to this invention, a map 17 preferably is provided for each of the port and starboard sides of the hull in view of the color of zones 12, 13, 14 etc. It is within the scope of this invention, however, that a single map 17 may be provided for the entire vessel and such is the case shown in FIG. 1 wherein both starboard and port features of the hull are depicted.
As shown in FIG. 1, each zone 12, 13, 14, etc., into which the total submerged surface area of the hull is subdivided, is painted a color which contrasts from the color of any zone abutting it. The painting of zone 12 to have a yellow color is indicated by appropriate hatching around the margins of this zone in distinction to the hatching of the margins of zone 13 to represent the color red. Thus, on the starboard side of the vessel zone 12 may be painted yellow, but be painted red on the port side of the vessel; zone 13 may be painted red to starboard and yellow to port; and so on forwardly along the length of the entire ship.
Each zone is further subdivided into a plurality of discrete areas which are separated from each other by suitable grid lines 40 which are painted on the hull, over the appropriate zone color, in a color which corresponds with the underlying zone color. Further, each discrete area defined within zone is given a designated indicium 41 which also contrasts with the underlying zone color. Each indicium 41 conveniently may be a large number painted within the boundries of the corresponding discrete area as defined by grid lines 40. Grid lines 40 and the designating indicia should have sufficient contrast to the background zone color and should be sufficiently large to be readily visible by a diver working adjacent that location of the hull. As shown in FIG. 1, the zonal designation colors, the pattern of grid lines 40 subdividing each of the zones into plural discrete areas, and the designating indicia for each descrete area within a zone are all set forth on map 17. Map 17, therefore, constitutes an accurate plan or map of the colors, subdividing grid lines, and various designating indicia carried by the hull itself.
Workers skilled in the art will readily appreciate that hull zonal designation colors, grid lines, and designating indicia are preferably applied to the hull of a new vessel as a part of the construction process. In the case of an existing vessel not painted in accord with this invention, the hull is painted with desired zonal designation colors, grid lines, and designating indicia as a part of a conventional certifying drydocking and inspection;
thereafter, the vessel maybe inspected, surveyed and certified by practice of the present invention procedures without need for drydocking solely for the purposes of such inspections.
According to this invention, the inspection of the submerged surfaces and features of a floating vessel may be conveniently and expenditiously performed by a diver-inspector 44 who preferably is equipped with a self-contained underwater breathing apparatus 45 so that he may move readily and freely about, around, and under the vessel. Diver-inspector 44 is placed in communication, preferably two-way communication, with inspection control site 18 by an audio communication system which includes a headphone 46 for the diver and a lightweight umbilical communications cable 47 which extends to a microphone 48 and a loudspeaker 49 at the inspection control site. The necessary visual inspection of the submerged surfaces of the hull is implemented by use of an underwater television camera 50 which preferably is neutrally buoyant for convenient operation by the diver-inspector. The television camera is connected to a suitable transmission cable 51 with which audio communication cable 47 preferably is linked. Cable 51 extends to a television monitor 52 and a video tape recorder 53 at inspection control site 18. In place of an underwater television camera, diverinspector 44 may be provided with an ultransonic hull plating thickiness meter which may be connected by a suitable cable to appropriate recording equipment or the like at the inspection control site. The inspection control site preferably is located aboard ship 11 but, if desired, may be located elsewhere, as aboard an inspection tender vessel or the like.
The underwater inspection process is greatly facilitated by the color coding and subdivision of the total submerged surface area of the hull into a plurality of discrete areas, each of which is given its appropriate designating indicium. The designating indicium assigned to any discrete area of the hull need not be an indicium which is unique to the entire hull. Rather, it is sufficient for the purposes of this invention that the designating indicium applied to a particular discrete area, in association with the background color for the zone within which the descrete area lies, is unique to all of the zones within reasonable proximity to the particular discrete area of interest. For example, zone 14 on the starboard side of the vessel may be distinguished from starboard yellow zone 12 by generally designating starboard zone 14 as yellow starboard 2 and by designating starboard yellow zone 12 as starboard yellow 1. Thus, diver-inspector 44 may be commanded to move from upper right 11 starboard yellow 1 to lower left starboard yellow 2; by reference to FIG. 1, such a command would be a command for the diver-inspector to move from a location adjacent to the upper right-hand comer of area 11 shown in zone 12 of map 17 on the starboard side of the vessel to a new location adjacent the lower left corner of area 15 appearing in zone 14 on the starboard side of the vessel. By reference to the basic zonal color code, to the presence of the grid lines within each zone, and to the designating indicia for the several discrete areas within each zone, it is a simple matter for the diver-inspector to respond to such a command. Prompt and accurate response of the diver-inspector to such commands means that the underwater inspection process may be carried out rapidly and efficiently to obtain all the information necessary to the certifying inspector or surveyor at inspection control site 18. Also, in the event that the certifying inspector requires additional information from any particular point on the submerged surface of the hull, it is a simple matter for the diver to go directly to the particular area of interest and to obtain the desired information by television or otherwise. All these advantages are obtained without the use of cumbersome hogging lines which are difficult to place in the first instance, and which are difficult and time consuming to move along the hull and to position accurately.
Workers skilled in the art to which this invention pertains will readily appreciate that the procedures and apparatus described above may be altered or modified without departing from the scope of this invention, while still realizing the benefits and advances provided by this invention. Accordingly, the foregoing description should not be considered as limiting the scope of this invention.
What is claimed:
1. In the process of performing an inspection of the submerged surfaces of the hull of a floating ship, an improved method for directing a diver-inspector to a hull location of interest, the method comprising the steps of a. visibly subdividing the submerged surface area of the hull into a plurality of discrete areas,
b. applying to the hull within each discrete area a designating indicium visible from adjacent the area,
0. providing to the diver a communication path by which the diver when submerged may receive instructions from an inspection control site,
d. providing a map at the inspection control site of the several discrete areas and the designating indicia thereof.
2. The method according to claim 1 wherein the map is provided as a shell expansion drawing for the hull, and including modifying the drawing to correspond to and indicating the hull area subdivision and the designating indicia.
3. The method according to claim 1 wherein the subdividing step includes painting different parts of the hull submerged area in different colors.
4. The method according to claim 3 wherein each of said parts of the hull submerged area includes a plurality of said discrete areas, and including subdividing each said part into the corresponding discrete areas by painting over the part boundary lines for discrete areas in a color which contrasts with the color for the part.
5. In apparatus for facilitating inspection of the submerged surfaces of the hull of a floating ship and the like by a diver and the like equipped with means for receiving directing signals from the ship, the improvement comprising:
a. indicia applied to the submerged surface of the hull and subdividing the submerged surface area into a plurality of discrete areas, said indicia including designating indicia applied to the hull within each discrete area to render that discrete area unique to all others of said discrete areas proximate thereto, and
b. a map of the submerged hull surface area arranged to show all of the discrete areas, their location, and their designating indicia.

Claims (5)

1. In the process of performing an inspection oF the submerged surfaces of the hull of a floating ship, an improved method for directing a diver-inspector to a hull location of interest, the method comprising the steps of a. visibly subdividing the submerged surface area of the hull into a plurality of discrete areas, b. applying to the hull within each discrete area a designating indicium visible from adjacent the area, c. providing to the diver a communication path by which the diver when submerged may receive instructions from an inspection control site, d. providing a map at the inspection control site of the several discrete areas and the designating indicia thereof.
2. The method according to claim 1 wherein the map is provided as a shell expansion drawing for the hull, and including modifying the drawing to correspond to and indicating the hull area subdivision and the designating indicia.
3. The method according to claim 1 wherein the subdividing step includes painting different parts of the hull submerged area in different colors.
4. The method according to claim 3 wherein each of said parts of the hull submerged area includes a plurality of said discrete areas, and including subdividing each said part into the corresponding discrete areas by painting over the part boundary lines for discrete areas in a color which contrasts with the color for the part.
5. In apparatus for facilitating inspection of the submerged surfaces of the hull of a floating ship and the like by a diver and the like equipped with means for receiving directing signals from the ship, the improvement comprising: a. indicia applied to the submerged surface of the hull and subdividing the submerged surface area into a plurality of discrete areas, said indicia including designating indicia applied to the hull within each discrete area to render that discrete area unique to all others of said discrete areas proximate thereto, and b. a map of the submerged hull surface area arranged to show all of the discrete areas, their location, and their designating indicia.
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US4644895A (en) * 1985-02-19 1987-02-24 Scipar, Inc. Marking arrangement for aiding aircraft mid-air refueling
US5526766A (en) * 1993-04-13 1996-06-18 Newport News Shipbuilding And Dry Dock Company Hull markings
US6317387B1 (en) 1997-11-20 2001-11-13 D'amaddio Eugene R. Method and apparatus for inspecting a submerged structure
WO2001089921A1 (en) * 2000-05-24 2001-11-29 Tapiren Survey System Ab Method and arrangement relating to inspection
FR2849390A1 (en) * 2002-12-26 2004-07-02 Alain Marc Dinis UNDERWATER DIVING SIMULATOR
US20060060123A1 (en) * 2000-05-24 2006-03-23 Tapiren Survey System Ab Method and arrangement for inspection of an object
US20060114748A1 (en) * 2004-06-04 2006-06-01 Hull Underwater Imaging Systems, Inc. Underwater exterior ship hull imaging system employing a remote microprocessor controlled acoustic transducer array
EP2067695A1 (en) 2007-12-07 2009-06-10 Becker Marine Systems GmbH & Co. KG System and method for analysing and/or determining the properties or condition of a ship's hull
US8200074B1 (en) * 2010-02-05 2012-06-12 Paige Melancon Apparatus for murky water camera inspection of under-water construction features
CN102818773A (en) * 2011-06-08 2012-12-12 波音公司 Laser surveillance system
US10011145B2 (en) 2013-11-27 2018-07-03 Em&I (Martime) Limited Apparatus and method for inspecting flooded cavities in a floating offshore installation
US20190248454A1 (en) * 2016-06-17 2019-08-15 CleanSubSea Operations Pty Ltd A vessel hull cleaning system

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Cited By (26)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4644895A (en) * 1985-02-19 1987-02-24 Scipar, Inc. Marking arrangement for aiding aircraft mid-air refueling
US5526766A (en) * 1993-04-13 1996-06-18 Newport News Shipbuilding And Dry Dock Company Hull markings
US6317387B1 (en) 1997-11-20 2001-11-13 D'amaddio Eugene R. Method and apparatus for inspecting a submerged structure
EP1770006A2 (en) * 2000-05-24 2007-04-04 Tapiren Survey System AB Method and arrangement relating to inspection
WO2001089921A1 (en) * 2000-05-24 2001-11-29 Tapiren Survey System Ab Method and arrangement relating to inspection
JP2003534202A (en) * 2000-05-24 2003-11-18 タピレン サーヴェイ システム アーベー Inspection methods and arrangements
US6712017B2 (en) 2000-05-24 2004-03-30 Tapiren Survey System Ab Method and arrangement relating to inspection
EP1770006A3 (en) * 2000-05-24 2007-06-06 Tapiren Survey System AB Method and arrangement relating to inspection
US20060060123A1 (en) * 2000-05-24 2006-03-23 Tapiren Survey System Ab Method and arrangement for inspection of an object
US7044074B2 (en) 2000-05-24 2006-05-16 Tapiren Survey System Ab Method and arrangement for inspection of an object
FR2849390A1 (en) * 2002-12-26 2004-07-02 Alain Marc Dinis UNDERWATER DIVING SIMULATOR
EP1434187A3 (en) * 2002-12-26 2004-08-25 Alain Dinis Scuba diving simulator
US7072244B2 (en) 2004-06-04 2006-07-04 Hull Underwater Imaging Systems, Inc. Underwater exterior ship hull imaging system employing a remote microprocessor controlled acoustic transducer array
US20060114748A1 (en) * 2004-06-04 2006-06-01 Hull Underwater Imaging Systems, Inc. Underwater exterior ship hull imaging system employing a remote microprocessor controlled acoustic transducer array
SG152968A1 (en) * 2007-12-07 2009-06-29 Becker Marine Sys Gmbh & Co Kg System and method for investigating and/or determining the condition or state of a shipæs hull
US20090147270A1 (en) * 2007-12-07 2009-06-11 Dirk Lehmann System and method for investigating and/or determining the condition or state of a ship's hull
JP2009137563A (en) * 2007-12-07 2009-06-25 Becker Marine Systems Gmbh & Co Kg System and method for investigating and/or deciding condition or state of hull of ship
EP2067695A1 (en) 2007-12-07 2009-06-10 Becker Marine Systems GmbH & Co. KG System and method for analysing and/or determining the properties or condition of a ship's hull
US8200074B1 (en) * 2010-02-05 2012-06-12 Paige Melancon Apparatus for murky water camera inspection of under-water construction features
CN102818773A (en) * 2011-06-08 2012-12-12 波音公司 Laser surveillance system
JP2013047665A (en) * 2011-06-08 2013-03-07 Boeing Co:The Laser monitoring system
US8395779B2 (en) * 2011-06-08 2013-03-12 The Boeing Company Laser surveillance system
CN102818773B (en) * 2011-06-08 2017-04-19 波音公司 Laser surveillance system
US10011145B2 (en) 2013-11-27 2018-07-03 Em&I (Martime) Limited Apparatus and method for inspecting flooded cavities in a floating offshore installation
US20190248454A1 (en) * 2016-06-17 2019-08-15 CleanSubSea Operations Pty Ltd A vessel hull cleaning system
US11753123B2 (en) 2016-06-17 2023-09-12 CleanSubSea Operations Pty Ltd Vessel hull cleaning system

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