The disclosures herein relate generally to offshore activities and more particularly to a system and method for personnel transfer to transfer personnel between offshore vessels.
Personnel nets are used in offshore activities to facilitate the transfer of personnel between entities involved in the offshore activities. These nets suffer from a host of problems, including inadequate protection for personnel in the net and instability of the net which can cause motion sickness for personnel being transferred.
Accordingly, it would be desirable to provide a system and method for transferring personnel absent the disadvantages found in the prior methods discussed above.
According to one aspect of the present invention, a personnel transfer system is provided that includes a base, a top, a plurality of lacings extending between the base and top, and an expander post coupled between the base and top and operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a base, a top, a plurality of outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, a plurality of inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a base, a top, an even number of at least four outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, an even number of at least four inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, a first set of cross lacings extending between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings, a second set of cross lacings extending between alternate pairs of the inner lacings corresponding to the alternate pairs of outer lacings with the first set of cross lacings extending between them, a set of radial lacings between the inner and outer lacings which have cross lacings extending between them, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a base, a top, a plurality of lacings extended between the base and the top, and an expander post coupled between the base and the top and operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a base, a top, a plurality of outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, a plurality of inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a base, a top, an even number of at least four outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, an even number of at least four inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, a first set of cross lacings extending between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings, a second set of cross lacings extending between alternate pairs of the inner lacings corresponding to the alternate pairs of outer lacings with the first set of cross lacings extending between them, a set of radial lacings between the inner and outer lacings which have cross lacings extending between them, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing a base, providing a top, providing a hoist connection coupled to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, coupling a hoist to the hoist connection, situating at least one personnel on the base, and moving the hoist.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing an offshore vessel, situating a hoist on the vessel, coupling the hoist to a hoist connection, coupling the top to the hoist connection, coupling a base to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, situating at least one personnel on the base, and moving the hoist.
According to another aspect of the present invention, a personnel transfer system is provided that includes a base, a top, a plurality of lacings extending between the base and top, and means coupled between the base and top for placing tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a method for manufacturing a personnel transfer system is provided that includes providing a base, providing a top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, and expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing a base, providing a top including a hoist connection, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, attaching a hoist to the hoist connection, situating at least one personnel on the base, moving the hoist, protecting the personnel from above with the top, and protecting the personnel from the sides with the plurality of lacings in tension.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base. periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of upper outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without upper outer cross-lacings, a plurality of lower outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without lower outer cross-lacings, an even number of at least four-inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of upper inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without upper inner cross-lacings, a plurality of lower inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without lower inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, at least one cargo net extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base coupled to the top, the base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising, a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of upper outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without upper outer cross-lacings, a plurality of lower outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without lower outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of upper inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without upper inner cross-lacings, a plurality of lower inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without lower inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, at least one cargo net extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing a base, providing a top, coupling a hoist connection to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, coupling a hoist to the hoist connection, situating at least one personnel on the base, protecting the at least one personnel with the plurality of lacings in tension, and moving the hoist.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing an offshore vessel, situating a hoist on the vessel, coupling the hoist to a hoist connection, coupling the top to the hoist connection, coupling a base to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, situating at least one personnel on the base, protecting the at least one personnel with the plurality of lacings in tension, and moving the hoist.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, means for attaching to a lifting mechanism coupled to the top, a top support structure coupled to the top, a first means for coupling coupled to the top support structure, means for providing buoyancy and shock absorption covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, means for providing buoyancy and shock absorption covering the base periphery, a second means for coupling coupled to the base support structure, a plurality of lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, and means for providing tension in the plurality of lacings coupled to the first means for coupling and the second means for coupling.
Referring to
The base 102 may include a base spreader ring 110 supporting a base coupler 112. The base spreader ring 110 has a circular shape with a periphery 114 having a diameter Db and the base coupler 112 is supported, centrally located on the base 102, by supports 116. A platform 118 is also provided extending at least partially between the base spreader ring 110 and the base coupler 112. The platform 118 is supported by the supports 116 and a base inner ring 116a. The periphery 114 of the base spreader ring 110 may be surrounded with a buoyant flotation padding 120. The padding 120 may be fastened to the base spreader ring 110 and covered with a durable protective covering 122.
The top 104 may also include a top spreader ring 124 supporting a top coupler 126. The top spreader ring 124 has a circular shape with a periphery 127 having a diameter Dt which is approximately equal to the base diameter Db. The coupler 126 is supported, centrally located on the top 104, by supports 128. A roof 130 is provided extending at least partially between the top spreader ring 124 and the coupler 126. The roof 130 is supported by the radial supports 128 and a top inner ring 128a. To provide added support, the radial supports 128 may be in the form of triangularly shaped plates. The periphery 127 may be surrounded with a buoyant flotation padding 132 attached to the top spreader ring 124 and covered with a durable protective covering 134.
The plurality of lacings 108 are attached between the base 102 and the top 104. The plurality of lacings 108 are positioned evenly spaced apart, with the lacings 108 attached at or near the periphery 114 of the base 102 and at or near the periphery 127 of the top 104. The lacings 108 may be flexible cords, lines, ropes, cable or like material having high strength and a low amount of stretch when placed in tension. The lacings 108 are securely fastened to the base spreader ring 110 at base attachment 136 and to the top spreader ring 124 at top attachment 138. The lacings 108 each have a length L1 between base attachment 136 and top attachment 138.
The attachments of the lacings 108, at the plurality of base attachments 136 and top attachments 138, may be formed with loops around the spreader rings 110 and 124, respectively. The attachment loops at base attachment 136 and at top attachment 138 may be formed at opposed ends of the lacings 108. In an exemplary embodiment, the lacings 108 may be high strength non-stretch lacings. For example, the lacings 108 may be constructed from a high strength multi-stranded fiber material known as AMSTEEL® twelve strand, {fraction (9/16)} inch diameter, high molecular weight polyethylene (12s, {fraction (9/16)}″, HMWPE) available from Samson Rope Company. The Samson Rope Company rates this material as having an average strength of 30,800 lbs. Lacings 108 attached at the periphery will become taught and substantially “rigid” when placed in tension and will thereby form a barrier against side impact.
The expander post 106 includes an upper portion 140 coupled to the top 104 by top coupler 126, a lower portion 142 coupled to the base 102 by base coupler 112, and an intermediate coupler 144 situated between, and coupled to, upper portion 140 and lower portion 142.
Referring to
The base coupler 112 includes an open end 112a and a closed end 112b opposite the end 112a, the closed end 112b coupled to the base 102. Open end 112a provides access to a cavity 160 defined by the base coupler 112, the cavity 160 for receiving lower portion 142. Base coupler 112 includes a friction reducing plate 162 adjacent end 112b, and defines base coupler holes 164 adjacent end 112a. Lower portion 142 includes an end 142a and a closed end 142b opposite end 142a. End 142b of lower portion 142 fits closely within cavity 160 in the base coupler 112 to provide coupling support while permitting relative rotation between the base coupler 112 and the lower portion 142. The friction reducing plate 162 facilitates relative rotation between the lower portion 142 and the base coupler 112. The friction reducing plate 162 may, for example, be constructed of a durable plastic or polymeric material or a Teflon disk. Lower portion 142 defines lower portion holes 170a adjacent end 142b which may align with base coupler holes 164 when lower portion 142 is situated in base coupler 112. A bolt 172 is operable to secure lower portion 142 to base coupler 112 by placing it in lower portion holes 170a and base coupler holes 112 when the lower portion 142 is situated in the base coupler 112 and the base coupler holes 164 are aligned with the lower portion holes 170a. Lower portion 142 also defines lower portion holes 170b adjacent end 142a which may align with intermediate coupler holes 154b when lower portion 142 is situated in cavity 144c on intermediate coupler 144. A bolt 174 is operable to secure lower portion 142 to intermediate coupler 144 by placing it in lower portion holes 170b and intermediate coupler holes 154b when the lower portion 142 is situated in the cavity 144c on intermediate coupler 144 and the intermediate coupler holes 154b are aligned with the lower portion holes 170b. While threading the top coupler 126 is desirable for permitting moisture to drain from the threads 146 in the top coupler 126, in an exemplary embodiment, the construction might be reversed, with base coupler 112 being threaded and the lower portion 142 of the expander post 106 being threaded, without departing from certain aspects of the present invention. Other means for expanding the expander post 106, that are equivalent to the means and function described, might also be employed without departing from certain aspects of the invention.
Referring to
The top spreader ring 124 and top inner ring 128a may also be constructed of rolled tubular metal connected together and to the centrally located top coupler 126 with radial supports 128.
The tubular spreader rings 110 and 124, connector bars 180, inner rings 116a and 128a, supports 116 and 128, couplers 112 and 126, platform 118, roof 130, and other structural components may all be constructed of aluminum to provide a strong, light weight and conveniently welded construction. For added strength, and particularly for strength at interconnecting segments, the tubular rings 176 and 178 may further be provided with reinforcement bars 182, rolled inside the tubular rings 176 and 178. The platform 118 may be a plate, grating, or screen material to facilitate non-slip standing by personnel being transferred thereon, and in an exemplary embodiment, the platform 118 may include an aluminum floor plate with a rubber shock absorbing floor mat. The roof 130 may be a plate, grating, or screen material to provide protection from above for personnel in the system.
The base spreader ring 110 includes an attachment mechanism 184, which may be a variety of attachment mechanisms such as a weld, as illustrated in
Referring to
In an exemplary embodiment, during operation of the system 100, as illustrated in
Referring to
Referring to
The lacings 108 are of substantially equal length L1 so that the base 102 and top 104 will be substantially parallel to each other when the plurality of lacings 108 are placed in tension. The lacings 108 are attached at corresponding base and top attachments 136 and 138 such that the lacings 108 are substantially parallel to each other when tension is applied to them. The lacings 108 are flexible when relaxed and become substantially rigid when tension is applied. The expander post 106 is activated to expand the space between the base 102 and the top 104 and to thereby apply tension to the lacings 108. The expander post 106 is sufficiently strong to impart a rigid connection between the base and the top and to impart significant tension to the lacings 108. For example, an aluminum tube having a nominal size of 4″ schedule 80 has been found to work in one exemplary construction.
Referring to
Referring to
Referring now to
In an exemplary embodiment, during operation of the system 500, as illustrated in
Referring to
Referring to
The lacings 108 are attached at corresponding base attachments 136 and 506a and top attachments 138 and 506b such that the lacings 108 are substantially parallel to each other when tension is applied to them. The lacings 108 are flexible when relaxed and become substantially rigid when tension is applied. The expander post 106 is activated to expand the space between the base 102 and the top 104 and to thereby apply tension to the lacings 108. The expander post 106 is sufficiently strong to impart a rigid connection between the base and the top and to impart significant tension to the lacings 108. For example, an aluminum tube having a nominal size of 4″ schedule 80 has been found to work in one exemplary construction.
Referring to
Referring to
Referring now to
In an exemplary embodiment, during operation of the system 600, as illustrated in
Referring to
Referring to
The lacings 108 are attached at corresponding base attachments 136 and 506a and top attachments 138 and 506b such that the lacings 108 are substantially parallel to each other when tension is applied to them. The lacings 108 are flexible when relaxed and become substantially rigid when tension is applied. The expander post 106 is activated to expand the space between the base 102 and the top 104 and to thereby apply tension to the lacings 108. The expander post 106 is sufficiently strong to impart a rigid connection between the base and the top and to impart significant tension to the lacings 108. For example, an aluminum tube having a nominal size of 4″ schedule 80 has been found to work in one exemplary construction.
Referring to
Referring to
Referring now to
In an exemplary embodiment, during operation of the system 700, as illustrated in
Referring to
Referring to
The lacings 108 are attached at corresponding base attachments 136 and 506a and base attachments 138 and 506b such that the lacings 108 are substantially parallel to each other when tension is applied to them. The lacings 108 are flexible when relaxed and become substantially rigid when tension is applied. The expander post 106 is activated to expand the space between the base 102 and the top 104 and to thereby apply tension to the lacings 108. The expander post 106 is sufficiently strong to impart a rigid connection between the base and the top and to impart significant tension to the lacings 108. For example, an aluminum tube having a nominal size of 4″ schedule 80 has been found to work in one exemplary construction.
Referring to
Referring to
Referring now to
In an exemplary embodiment, during operation of the system 800, as illustrated in
Referring to
At step 854, the expander post 802 is expanded by rotating the expander post 802 by the handles 822 on intermediate coupler 812. Rotation of expander post 802 such that end 810a on upper portion 810 is distanced from end 804a on top coupler 804 causes upper portion 810 to push top coupler 804 against top 104 due to the interaction of the threads 824 and 816 on the top coupler 804 and upper portion 810, respectively. Continued rotation of expander post 802 increases the distance between the base 102 and the top 104 through contact of the expander post 802 with the top coupler 804 and the base coupler 806. The lacings 108 are attached at fixed length L1, resulting in tension being placed in the lacings 108 due to the expanding of expander post 802. By rotating the threaded portion 814 on upper portion 810 of the expander post 802, the distance between the base 102 and the top 104 may then either be increased or decreased depending upon the direction of rotation.
The lacings 108 are of substantially equal length L1 so that the base 102 and top 104 will be substantially parallel to each other when the plurality of lacings 108 are placed in tension. The lacings 108 are attached at corresponding base and top attachments 136 and 138 such that the lacings 108 are substantially parallel to each other when tension is applied to them. The lacings 108 are flexible when relaxed and become substantially rigid when tension is applied. The expander post 802 is activated to expand the space between the base 102 and the top 104 and to thereby apply tension to the lacings 108. The expander post 802 is sufficiently strong to impart a rigid connection between the base and the top and to impart significant tension to the lacings 108. For example, an aluminum tube having a nominal size of 4″ schedule 80 has been found to work in one exemplary construction.
Referring to
Referring to
Referring now to
In an exemplary embodiment, the plurality of lacings 910, as illustrated in
Base attachments 906 and top attachments 908 are the same and are provided on the top spreader ring 124, top inner ring 128a, base spreader ring 110, and base inner ring 116a in spaced apart locations for attachment of the lacings 910. In an exemplary embodiment, the top attachment 908, as illustrated in
In an exemplary embodiment, during operation of the system 900, as illustrated in
Referring to
Referring to
The lacings 910 are attached at corresponding base attachments 136 and 506a and top attachments 138 and 506b such that the lacings 910 are substantially parallel to each other when tension is applied to them. The lacings 910 are flexible when relaxed and become substantially rigid when tension is applied. The expander post 106 is activated to expand the space between the base 102 and the top 104 and to thereby apply tension to the lacings 910. The expander post 106 is sufficiently strong to impart a rigid connection between the base and the top and to impart significant tension to the lacings 910. For example, an aluminum tube having a nominal size of 4″ schedule 80 has been found to work in one exemplary construction.
Referring to
Referring to
A personnel transfer system has been described that includes a base, a top, a plurality of lacings extending between the base and top, and an expander post coupled between the base and top and operable to place tension in the plurality of lacings extending between the base and the top. In an exemplary embodiment, the system includes a hoist connection for attachment of the system to a hoist so that the system may be lifted to transfer personnel thereon. In an exemplary embodiment, the system includes a first coupling attached to the base for coupling of the expander post to the base, a second coupling attached to the top for coupling of the expander post to the top, and threads formed between at least one of the couplings and the expander post so that rotation of a portion of the expander post in one direction increases the distance between the base and the top to place tension on the lacings. In an exemplary embodiment, the base includes at least one base spreader ring and a support structure extending at least partially between the base spreader ring and the first coupling to support the first coupling from the base spreader ring. In an exemplary embodiment, the top includes at least one top spreader ring and a support structure extending at least partially between the top spreader ring and the second coupling to support the second coupling from the top spreader ring. In an exemplary embodiment, the plurality of lacings include at least three flexible lacings attached to the base and to the top at corresponding spaced apart locations, each lacing having substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base. In an exemplary embodiment, the plurality of lacings include a set of outer flexible lacings attached to the base and to the top at corresponding spaced apart locations and being attached toward the periphery of the base and the periphery of the top, and a set of inner flexible lacings attached to the base and the top at corresponding locations and being attached toward the center of the base and the top. In an exemplary embodiment, the outer flexible lacings have substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base, and the inner flexible lacings have a length between the base attachment location and the top attachment location that is at least as long as the length of the outer flexible lacings so that the base and the top remain parallel when any of the inner flexible lacings is also placed in tension. In an exemplary embodiment, the plurality of lacings include a set of outer lacings comprising an even number of at least four flexible lacings attached to the base and to the top at corresponding spaced apart locations toward the periphery of the base and the top, and a set of inner lacings comprising flexible lacings attached to the base and the top at corresponding locations being spaced toward the center of the base and the top. In an exemplary embodiment, the system includes each of the at least four outer lacings has substantially equal length between the base attachment location and the top attachment location so that tension in the outer lacings causes the top to be substantially parallel to the base, and each inner lacings has a length between the base attachment location and the top attachment location that is at least as long as the substantially equal length of the at least four outer lacings so that the base and the top remain parallel when any of the second set of lacings is also placed in tension. In an exemplary embodiment, the system includes cross-lacings between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings. In an exemplary embodiment, the set of inner lacings include an even number of at least four flexible lacings equal to the number of outer lacings and are attached adjacent to the outer lacings with cross-lacings between alternate pairs of inner lacings and radial-lacings between the inner and outer lacings so that personnel may enter the system through the pairs of outer lacings without cross-lacings and between the radial-lacings. In an exemplary embodiment, the system includes at least one cargo basket coupled to the plurality of lacings. In an exemplary embodiment, the system includes at least one lanyard coupled to the top. In an exemplary embodiment, the system includes a foot support coupled to the base.
A personnel transfer system has been described that includes a base, a top, a plurality of outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, a plurality of inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top. In an exemplary embodiment, the system includes a hoist connection for attachment of the system to a hoist so that the system may be lifted to transfer personnel thereon. In an exemplary embodiment, the system includes a first coupling attached to the base for coupling of the expander post to the base, a second coupling attached to the top for coupling of the expander post to the top, and threads formed between at least one of the couplings and the expander post so that rotation of a portion of the expander post in one direction increases the distance between the base and the top to place tension on the lacings. In an exemplary embodiment, the base includes at least one base spreader ring and a support structure extending at least partially between the base spreader ring and the first coupling to support the first coupling from the base spreader ring. In an exemplary embodiment, the top includes at least one top spreader ring and a support structure extending at least partially between the top spreader ring and the second coupling to support the second coupling from the top spreader ring. In an exemplary embodiment, the plurality of outer lacings include at least three flexible lacings attached to the base and to the top at corresponding spaced apart locations, each lacing having substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base. In an exemplary embodiment, the outer flexible lacings have substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base, and the inner flexible lacings have a length between the base attachment location and the top attachment location that is at least as long as the length of the outer flexible lacings so that the base and the top remain parallel when any of the inner flexible lacings is also placed in tension. In an exemplary embodiment, the plurality of outer lacings include an even number of at least four flexible lacings attached to the base and to the top at corresponding spaced apart locations toward the periphery of the base and the top. In an exemplary embodiment, the at least four outer lacings has substantially equal length between the base attachment location and the top attachment location so that tension in the outer lacings causes the top to be substantially parallel to the base, and each inner lacings has a length between the base attachment location and the top attachment location that is at least as long as the substantially equal length of the at least four outer lacings so that the base and the top remain parallel when any of the second set of lacings is also placed in tension. In an exemplary embodiment, the system includes cross-lacings between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings. In an exemplary embodiment, the set of inner lacings include an even number of at least four flexible lacings equal to the number of outer lacings and are attached adjacent to the outer lacings with cross-lacings between alternate pairs of inner lacings and radial-lacings between the inner and outer lacings so that personnel may enter the system through the pairs of outer lacings without cross-lacings and between the radial-lacings. In an exemplary embodiment, the system includes at least one cargo basket coupled to the plurality of lacings. In an exemplary embodiment, the system includes at least one lanyard coupled to the top. In an exemplary embodiment, the system includes a foot support coupled to the base.
A personnel transfer system has been described that includes a base, a top, an even number of at least four outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, an even number of at least four inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, a first set of cross lacings extending between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings, a second set of cross lacings extending between alternate pairs of the inner lacings corresponding to the alternate pairs of outer lacings with the first set of cross lacings extending between them, a set of radial lacings between the inner and outer lacings which have cross lacings extending between them, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top. In an exemplary embodiment, the system includes a hoist connection for attachment of the system to a hoist so that the system may be lifted to transfer personnel thereon. In an exemplary embodiment, the system includes a first coupling attached to the base for coupling of the expander post to the base, a second coupling attached to the top for coupling of the expander post to the top, and threads formed between at least one of the couplings and the expander post so that rotation of a portion of the expander post in one direction increases the distance between the base and the top to place tension on the lacings. In an exemplary embodiment, the base includes at least one base spreader ring and a support structure extending at least partially between the base spreader ring and the first coupling to support the first coupling from the base spreader ring. In an exemplary embodiment, the top includes at least one top spreader ring and a support structure extending at least partially between the top spreader ring and the second coupling to support the second coupling from the top spreader ring. In an exemplary embodiment, the outer flexible lacings have substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base, and the inner flexible lacings have a length between the base attachment location and the top attachment location that is at least as long as the length of the outer flexible lacings so that the base and the top remain parallel when any of the inner flexible lacings is also placed in tension. In an exemplary embodiment, the system includes at least one cargo basket coupled to the plurality of lacings. In an exemplary embodiment, the system includes at least one lanyard coupled to the top. In an exemplary embodiment, the system includes a foot support coupled to the base.
An offshore vessel has been described that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a base, a top, a plurality of lacings extended between the base and the top, and an expander post coupled between the base and the top and operable to place tension in the plurality of lacings extending between the base and the top. In an exemplary embodiment, the vessel includes a first coupling attached to the base for coupling of the expander post to the base, a second coupling attached to the top for coupling of the expander post to the top, and threads formed between at least one of the couplings and the expander post so that rotation of a portion of the expander post in one direction increases the distance between the base and the top to place tension on the lacings. In an exemplary embodiment, the base includes at least one base spreader ring and a support structure extending at least partially between the base spreader ring and the first coupling to support the first coupling from the base spreader ring. In an exemplary embodiment, the top includes at least one top spreader ring and a support structure extending at least partially between the top spreader ring and the second coupling to support the second coupling from the top spreader ring. In an exemplary embodiment, the plurality of lacings include at least three flexible lacings attached to the base and to the top at corresponding spaced apart locations, each lacing having substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base. In an exemplary embodiment, the plurality of lacings include a set of outer flexible lacings attached to the base and to the top at corresponding spaced apart locations and being attached toward the periphery of the base and the periphery of the top, and a set of inner flexible lacings attached to the base and the top at corresponding locations and being attached toward the center of the base and the top. In an exemplary embodiment, the outer flexible lacings have substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base, and the inner flexible lacings have a length between the base attachment location and the top attachment location that is at least as long as the length of the outer flexible lacings so that the base and the top remain parallel when any of the inner flexible lacings is also placed in tension. In an exemplary embodiment, the plurality of lacings include a set of outer lacings comprising an even number of at least four flexible lacings attached to the base and to the top at corresponding spaced apart locations toward the periphery of the base and the top, and a set of inner lacings comprising flexible lacings attached to the base and the top at corresponding locations being spaced toward the center of the base and the top. In an exemplary embodiment, each of the at least four outer lacings has substantially equal length between the base attachment location and the top attachment location so that tension in the outer lacings causes the top to be substantially parallel to the base, and each inner lacings has a length between the base attachment location and the top attachment location that is at least as long as the substantially equal length of the at least four outer lacings so that the base and the top remain parallel when any of the second set of lacings is also placed in tension. In an exemplary embodiment, the vessel includes cross-lacings between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings. In an exemplary embodiment, the set of inner lacings includes an even number of at least four flexible lacings equal to the number of outer lacings and are attached adjacent to the outer lacings with cross-lacings between alternate pairs of inner lacings and radial-lacings between the inner and outer lacings so that personnel may enter the system through the pairs of outer lacings without cross-lacings and between the radial-lacings. In an exemplary embodiment, the vessel includes at least one cargo basket coupled to the plurality of lacings. In an exemplary embodiment, the vessel includes at least one lanyard coupled to the top. In an exemplary embodiment, the vessel includes at least three foot supports coupled to the base. In an exemplary embodiment, the vessel is situated on a body of water.
An offshore vessel has been described that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a base, a top, a plurality of outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, a plurality of inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top. In an exemplary embodiment, the vessel includes a first coupling attached to the base for coupling of the expander post to the base, a second coupling attached to the top for coupling of the expander post to the top, and threads formed between at least one of the couplings and the expander post so that rotation of a portion of the expander post in one direction increases the distance between the base and the top to place tension on the lacings. In an exemplary embodiment, the base includes at least one base spreader ring and a support structure extending at least partially between the base spreader ring and the first coupling to support the first coupling from the base spreader ring. In an exemplary embodiment, the top includes at least one top spreader ring and a support structure extending at least partially between the top spreader ring and the second coupling to support the second coupling from the top spreader ring. In an exemplary embodiment, the plurality of outer lacings include at least three flexible lacings attached to the base and to the top at corresponding spaced apart locations, each lacing having substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base. In an exemplary embodiment, the outer flexible lacings have substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base, and the inner flexible lacings have a length between the base attachment location and the top attachment location that is at least as long as the length of the outer flexible lacings so that the base and the top remain parallel when any of the inner flexible lacings is also placed in tension. In an exemplary embodiment, the plurality of outer lacings include an even number of at least four flexible lacings attached to the base and to the top at corresponding spaced apart locations toward the periphery of the base and the top. In an exemplary embodiment, each of the at least four outer lacings has substantially equal length between the base attachment location and the top attachment location so that tension in the outer lacings causes the top to be substantially parallel to the base, and each inner lacings has a length between the base attachment location and the top attachment location that is at least as long as the substantially equal length of the at least four outer lacings so that the base and the top remain parallel when any of the second set of lacings is also placed in tension. In an exemplary embodiment, the vessel includes cross-lacings between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings. In an exemplary embodiment, the set of inner lacings include an even number of at least four flexible lacings equal to the number of outer lacings and are attached adjacent to the outer lacings with cross-lacings between alternate pairs of inner lacings and radial-lacings between the inner and outer lacings so that personnel may enter the system through the pairs of outer lacings without cross-lacings and between the radial-lacings. In an exemplary embodiment, the vessel includes at least one cargo basket coupled to the plurality of lacings. In an exemplary embodiment, the vessel includes at least one lanyard coupled to the top. In an exemplary embodiment, the vessel includes a foot support coupled to the base. In an exemplary embodiment, the vessel is situated on a body of water.
An offshore vessel has been described that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a base, a top, an even number of at least four outer lacings extending between the base and top, the outer lacings attached to the base and the top at corresponding spaced apart locations and toward the periphery of the base and the periphery of the top, an even number of at least four inner lacings extending between the base and the top, the inner lacings attached to the base and top at corresponding locations and toward the center of the base and the center of the top, a first set of cross lacings extending between alternate pairs of the outer lacings so that personnel may enter the system through pairs of outer lacings without cross-lacings, a second set of cross lacings extending between alternate pairs of the inner lacings corresponding to the alternate pairs of outer lacings with the first set of cross lacings extending between them, a set of radial lacings between the inner and outer lacings which have cross lacings extending between them, and an expander post coupled between the base and top and operable to place tension in the plurality of outer and inner lacings extending between the base and the top. In an exemplary embodiment, the vessel includes a first coupling attached to the base for coupling of the expander post to the base, a second coupling attached to the top for coupling of the expander post to the top, and threads formed between at least one of the couplings and the expander post so that rotation of a portion of the expander post in one direction increases the distance between the base and the top to place tension on the lacings. In an exemplary embodiment, the base includes at least one base spreader ring and a support structure extending at least partially between the base spreader ring and the first coupling to support the first coupling from the base spreader ring. In an exemplary embodiment, the top includes at least one top spreader ring and a support structure extending at least partially between the top spreader ring and the second coupling to support the second coupling from the top spreader ring. In an exemplary embodiment, the outer flexible lacings have substantially equal length between the base attachment location and the top attachment location so that tension in the lacings causes the top to be substantially parallel to the base, and the inner flexible lacings have a length between the base attachment location and the top attachment location that is at least as long as the length of the outer flexible lacings so that the base and the top remain parallel when any of the inner flexible lacings is also placed in tension. In an exemplary embodiment, the vessel includes at least one cargo basket coupled to the plurality of lacings. In an exemplary embodiment, the vessel includes at least one lanyard coupled to the top. In an exemplary embodiment, the vessel includes a foot support coupled to the base. In an exemplary embodiment, the vessel is situated on a body of water.
A method for transferring personnel has been described that includes providing a base, providing a top, providing a hoist connection coupled to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, coupling a hoist to the hoist connection, situating at least one personnel on the base, and moving the hoist. In an exemplary embodiment, the method includes protecting the at least one personnel with the plurality of lacings in tension.
A method for transferring personnel has been described that includes providing an offshore vessel, situating a hoist on the vessel, coupling the hoist to a hoist connection, coupling the top to the hoist connection, coupling a base to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, situating at least one personnel on the base, and moving the hoist. In an exemplary embodiment, the method includes protecting the at least one personnel with the plurality of lacings in tension.
A personnel transfer system has been described that includes a base, a top, a plurality of lacings extending between the base and top, and means coupled between the base and top for placing tension in the plurality of lacings extending between the base and the top. In an exemplary embodiment, the system includes a means for attachment of the system to a lifting means, the lifting means for lifting the system to transfer personnel thereon. In an exemplary embodiment, the system includes a means attached to the base for coupling the means for placing tension in the plurality of lacings to the base, and a means attached to the top for coupling of the means for placing tension in the plurality of lacings to the top. In an exemplary embodiment, the base includes at least one means for supporting the means attached to the base for coupling the means for placing tension in the plurality of lacings to the base. In an exemplary embodiment, the top includes at least one means for supporting the means attached to the top for coupling of the means for placing tension in the plurality of lacings to the top. In an exemplary embodiment, the plurality of lacings include at least three flexible lacings attached to the base and to the top at corresponding spaced apart locations, each lacing having a means for holding the top substantially parallel to the base when the plurality of lacings are put in tension. In an exemplary embodiment, the plurality of lacings include a set of outer flexible lacings attached to the base and to the top at corresponding spaced apart locations and being attached toward the periphery of the base and the periphery of the top, and a set of inner flexible lacings attached to the base and the top at corresponding locations and being attached toward the center of the base and the top. In an exemplary embodiment, the outer flexible lacings have a means for holding the top substantially parallel to the base when the outer flexible lacings are put in tension, and the inner flexible lacings have having a means for holding the top substantially parallel to the base when the plurality of lacings are put in tension. In an exemplary embodiment, the plurality of lacings include a set of outer lacings comprising an even number of at least four flexible lacings attached to the base and to the top at corresponding spaced apart locations toward the periphery of the base and the top, and a set of inner lacings comprising flexible lacings attached to the base and the top at corresponding locations being spaced toward the center of the base and the top. In an exemplary embodiment, each of the at least four outer lacings have a means for holding the top substantially parallel to the base when the plurality of lacings are put in tension, and each inner lacings have a means for holding the top substantially parallel to the base when the plurality of lacings are put in tension. In an exemplary embodiment, the system includes means for connecting alternate pairs of the outer lacings to allow personnel to enter the system through pairs of outer lacings without the means for connecting alternate pairs of the outer lacings. In an exemplary embodiment, the set of inner lacings include an even number of at least four flexible lacings equal to the number of outer lacings and include a means for connecting alternate pairs of inner lacings and a means for connecting pairs of the inner lacings to outer lacings. In an exemplary embodiment, the system includes means for storing cargo coupled to the plurality of lacings. In an exemplary embodiment, the system includes means for attaching a safety line coupled to the top. In an exemplary embodiment, the system includes means for supporting the system coupled to the base.
According to another aspect of the present invention, a method for manufacturing a personnel transfer system is provided that includes providing a base, providing a top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, and expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing a base, providing a top including a hoist connection, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, attaching a hoist to the hoist connection, situating at least one personnel on the base, moving the hoist, protecting the personnel from above with the top, and protecting the personnel from the sides with the plurality of lacings in tension.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of upper outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without upper outer cross-lacings, a plurality of lower outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without lower outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of upper inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without upper inner cross-lacings, a plurality of lower inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without lower inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, at least one cargo net extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base coupled to the top, the base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising, a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, an even number of at least four outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of upper outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without upper outer cross-lacings, a plurality of lower outer cross lacings extending between alternating pairs of the at least four outer lacings, whereby personnel may enter the system through pairs of outer lacings without lower outer cross-lacings, an even number of at least four inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, a plurality of upper inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without upper inner cross-lacings, a plurality of lower inner cross lacings extending between alternating pairs of the at least four inner lacings, whereby personnel may enter the system through pairs of inner lacings without lower inner cross-lacings, a plurality of radial lacings extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, an offshore vessel is provided that includes a hoist situated on the vessel and coupled to a hoist connection, and a personnel transfer system coupled to the hoist connection comprising a top including a roof and a top periphery, a hoist connection coupled to the top, a top support structure coupled to the top, a top coupler coupled to the top support structure, a buoyant padding covering the top periphery, a plurality of lanyards coupled to the top, a base including a platform and a base periphery, a base support structure coupled to the base, a buoyant padding covering the base periphery, a base coupler coupled to the base support structure, a plurality of outer lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, a plurality of inner lacings extending between the top and the base and attached to the top and the base at corresponding locations between the center of the top and between the center of the base, at least one cargo net extending between the inner lacings and the outer lacings, and an expander post coupled to the top coupler and the base coupler, the expander post operable to place tension in the plurality of lacings extending between the base and the top.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing a base, providing a top, coupling a hoist connection to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, coupling a hoist to the hoist connection, situating at least one personnel on the base, protecting the at least one personnel with the plurality of lacings in tension, and moving the hoist.
According to another aspect of the present invention, a method for transferring personnel is provided that includes providing an offshore vessel, situating a hoist on the vessel, coupling the hoist to a hoist connection, coupling the top to the hoist connection, coupling a base to the top, extending a plurality of lacings between the base and top, coupling an expander post between the base and top, expanding the expander post, whereby expansion of the expander post puts the plurality of lacings in tension, situating at least one personnel on the base, protecting the at least one personnel with the plurality of lacings in tension, and moving the hoist.
According to another aspect of the present invention, a personnel transfer system is provided that includes a top including a roof and a top periphery, means for attaching to a lifting mechanism coupled to the top, a top support structure coupled to the top, a first means for coupling coupled to the top support structure, means for providing buoyancy and shock absorption covering the top periphery, a base including a platform and a base periphery, a base support structure coupled to the base, means for providing buoyancy and shock absorption covering the base periphery, a second means for coupling coupled to the base support structure, a plurality of lacings extending between the top and the base and attached to the top and the base at corresponding spaced apart locations adjacent the periphery of the top and adjacent the periphery of the base, and means for providing tension in the plurality of lacings coupled to the first means for coupling and the second means for coupling.
It is understood that variations may be made in the foregoing without departing from the scope of the invention. For example, terms with directional connotations such as base, top, upper, lower, outer, and inner are used in context for purposes of relative positions and the device need not be limited to absolute directions in order to fall within the scope of the invention described and claimed. While various features and embodiments are described in certain combinations and sub-combinations selected features from one embodiment may be combined with features of other embodiments without departing from certain aspects of the invention.
The lacings 108 and 910 may alternatively be constructed of successive layers of polyurethane, fiberglass resin, and polypropylene rope, as described in U.S. Pat. No. 4,789,045, incorporated herein by reference. Other means for attachment and other types of lacings that are flexible when relaxed and strong and substantially “rigid” in tension may be employed without departing from certain aspects of the invention.
The expander post may be another means for expanding the distance between the base and the top to tension the lacings 108 and 910. In an alternative embodiment, the activation into expansion as described with regard to methods 300, 550, 650, 750, 850 and 950 as shown in
The securing means are shown as bolts but may be other removable fastener devices without varying from certain aspects of the invention.
The construction is shown as aluminum but could be other construction with sufficient strength and durability.
Although only a few exemplary embodiments of this invention have been described in detail above, those skilled in the art will readily appreciate that many other modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention. Accordingly, all such modifications are intended to be included within the scope of this invention as described and to which applicants may be entitled.
This application is a continuation in part of US Utility patent application Ser. No. 10/428,486, attorney docket number 33652.3, filed on May 2, 2003, the disclosure which is incorporated herein by reference. This application also claims the benefit of the filing date of U.S. provisional patent application Ser. No. 60/467,874, attorney docket number 33652.4, filed on May 5, 2003, the disclosure which is incorporated herein by reference.
Number | Date | Country | |
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60467874 | May 2003 | US |
Number | Date | Country | |
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Parent | 10428486 | May 2003 | US |
Child | 10839104 | May 2004 | US |