US3642152A - Equipment for highline transfer - Google Patents

Equipment for highline transfer Download PDF

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US3642152A
US3642152A US22120A US3642152DA US3642152A US 3642152 A US3642152 A US 3642152A US 22120 A US22120 A US 22120A US 3642152D A US3642152D A US 3642152DA US 3642152 A US3642152 A US 3642152A
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king post
pad eye
chains
attached
highline
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US22120A
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Stephen G Schneller
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Peacock Brothers Ltd
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Peacock Brothers Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B15/00Superstructures, deckhouses, wheelhouses or the like; Arrangements or adaptations of masts or spars, e.g. bowsprits
    • B63B15/0083Masts for sailing ships or boats
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B27/00Arrangement of ship-based loading or unloading equipment for cargo or passengers
    • B63B27/18Arrangement of ship-based loading or unloading equipment for cargo or passengers of cableways, e.g. with breeches-buoys

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  • ABSTRACT Apparatus for highline ship to ship transfer of loads comprises a king post with a pad eye mounted on the king post.
  • Means are provided for moving the pad eye vertically on the king post which include a linear driving member passing over guiding means on the king post to form an arrangement providing opposing forces and wherein the pad eye is attached to the highline by connecting means.
  • the said attachment points are situated both front and rear of the king post central axis.
  • the present invention relates to highline transfer systems for transferring loads along a highline extending, for example, between two ships at sea.
  • the invention is particularly concerned with equipment carried by a ship for receiving loads transferred along a highline.
  • Known equipment for receiving loads by highline transfer systems includes a mast, known as a king post, adapted to be held in erect position on the deck of a ship, and having a highline attachment member to which an end ofthehighline is attached when the ship is receiving a load.
  • the highline attachment member which is termed a pad eye, may be vertically movable on the king post to allow loads to be lowered onto the deck when they have traversed the highline.
  • a vertically movable attachment member used for this purpose is termed a sliding pad eye. 7
  • a mechanism for raising and lowering the pad eye on the king post is described in US. Pat. No. 3,350,820.
  • This mechanism includes a screw coaxial with the king post and rotatable by a motor located at the base of the king post, a nut nonrotatably mounted on the screw and movable vertically by rotation of the screw, and chains passing through pulley blocks held by the nut, which chains also pass over the pulleys at the top and bottom of the king post and are attached to the pad eye externally of the king post, so that the pad eye is caused to move by the chains on movement of the nut along the screw.
  • the king post may be raised from the deck by the reverse procedure.
  • the arrangement of chains attached to the pad eye must include both upper chains which extend upwardly from the pad eye and are normally tensioned by the weight of the pad eye and of the load on the highline, and lower chains extending downwardly from the pad eye which are tensioned by the weight of the king post while this is being lowered into or raised from the deck.
  • the highline tension may apply an upwards force to the pad eye, which force must also be withstood by the lower chains.
  • the chains are attached to the rear end of the pad eye, that is to say the end of the pad eye which is remote from the front end which faces the direction of highline delivery, and the highline is attached to link means associated with the front end of the pad eye. Consequently, the pad eye is subjected to considerable vertical turning moments by the opposed pulls of the highline and the supporting chains, and these turning moments may give rise to friction and cause difficulty in moving the pad eye smoothly on the king post.
  • apparatus for highline ship to ship transfer of loads comprises a king post adapted to be held in erect position on the deck of a ship, a pad eye mounting on the king post, and means for moving said pad eye vertically on the king post including chains passing over pulleys at the top of the king post and secured to the pad eye at attachment points which are situated both front and rear of the king post central axis, the pad eye being attached to the highline by link means including a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the said front and the rear attachment points of the said chains.
  • chains as used herein and in the claims is intended to include flexible elements which could be used in the same manner as chains.
  • the horizontal pivotal axis of the swivel arm on the pad eye lies approximately midway between the front and rear attachment points of the chains. This arrangement insures that the tensions in the chains connected to the front and rear ends of the pad eye are balanced.
  • the chains are used in pairs disposed front and rear of the pad eye, there being provided two upper pairs of chains extending upwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof for supporting the pad eye and loads thereon.
  • the chains of each pair are attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced.
  • the chains of each lower pair are preferably attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced.
  • FIG. 2 is a similar partly sectioned elevation of the king post taken along lines IIII of FIG. 1,
  • FIG. 4 is a rear view of the pad eye together with a portion of the king post
  • FIGS. 5a, 5b, and 5c are detailed sectional elevations of portions of the king post which are indicated in FIG. 2, and
  • FIG. 6 is a view on lines VIVI ofFIG. 5b.
  • a king post 10 is shown supported on a deck fitting 11 mounted on the deck 11a of a ship by mounting means which are indicated diagrammatically. Details of the mounting means are described hereinafter with reference to FIG. 50 but as shown in FIG. 1 a spigot or stem 12 of the king post is supported in a spherical bearing 13 which allows rotation of the king post and limited deflection thereof.
  • the king post When erected on the deck as shown the king post is maintained in the vertical position, against the considerable pull of the highline, by stays or guy lines attached to the top ofthe king post at lugs 14 and to the deck 11a.
  • a highline attachment member in the form of a pad eye 20 is arranged to slide vertically on the king post.
  • the pad eye which will be described in more detail with reference to FIGS. 3 and 4, includes rollers which engage with runners at the corners of the king post and allow smooth movement of the pad eye up and down the king post under the action of the screw and not operated chain system to be described.
  • the pad eye also includes link means for the highline in the form of a swivel arm 21, which is a U-shaped member extending from pivot points at the sides of the pad eye and having a runner member extending across the front face of the pad eye, namely the lefthand side of FIG. 1.
  • a screw and nut operated chain mechanism including a screw 25 extending coaxially of the king post and rotatable in an upper bearing 26 held by a crossmember 27 within the upper part of the king post, and in a lower hearing within the base of the king post (see FIG. 5c).
  • the screw 25 is driven by a reversible motor 24 attached to the base of the king post. Details of the motor drive arrangement and the bearings and couplings involved will be described in detail with reference to FIG. 5c.
  • a recirculating ball nut 28 is mounted on the screw 25, and means to be described are provided for preventing rotation of the nut so that as the screw 25 is rotated by the motor 24, the nut moves vertically up or down the screw.
  • the nut 28 holds a pulley block (to be described with reference to FIGS. 5b and 6) having freely rotatable upper and lower sprocket pulleys 29 and 30.
  • the pulleys 29 and 30 are arranged in four pairs, the pairs being symmetrically arranged above and below the nut 28 and on either side of the screw 25.
  • Additional freely rotatable sprocket pulleys 31 and 32 are rotatably mounted in the sides of the king post at the top and bottom thereof.
  • Four such pulleys 31 are situated at the top of the king post in pairs back and front, and four more pulleys 32 are similarly arranged in pairs at the bottom ofthe king post.
  • upper chains which are roller link chains, are in dicated at 33 and are each attached at one end to attachment points 35 on crossmember 27, and pass around upper pulleys 29 of the nut 28, and also around pulleys 31 at the top of the king post, having their outer ends attached to the pad eye by means shown in more detail in FIG. 4.
  • These upper chains 33 extending upwardly from the pad eye are those which normally support the weight of the pad eye and the vertically downwards component of the force applied by the highline.
  • the four upper chains 33 are individually identified by letters a, b, c and d.
  • Chains 33a and 33d form an outer pair which are attached to points 35a and 35d on the side of the member 27 nearest to the rear of the king post (see also FIG. 3).
  • These chains pass around the outermost two pulleys 29, namely pulleys 29a and 29d, and then around a widely spaced pair of upper pulleys 31a and 31d at the front of the king post, before being attached to the front of the pad eye.
  • the positioning of the pairs of pulleys 29a, 29d and 31a, 31d, and the attachment points 35a, 35d, is such that the spacing between the chains 33a and 33d remains constant from end to end thereof.
  • the chains 33b and 33c form an inner pair which are attached to attachment points 35b and 350 at the side of member 27 nearest the front face of the king post (see also FIG. 3), and extend around the inner two pulleys 29, namely 29b and 290, around a closely spaced pair of upper pulleys 31b and 310 at the rear of the king post, and have their ends attached to the rear end of the pad eye 20.
  • the attachment points 35b and 35c, the pulleys 29b and 290, and pulleys 31b and 310, are also all similarly spaced, so that the inner pair of chains 33b and 330 also have a constant spacing throughout their length. It can be seen from FIG, 2 that the inner chains 33b and 330 can readily pass between the outer chains 33a and 33d where these cross over, without any mutual interference. It will be understood that the crossmember 27 allows spaces for passage of the upper chains to pass therethrough.
  • lower chains 34 are provided which are attached at one end to attachment points 36 at the bottom of the king post, and pass therefrom around the sprocket pulleys 30 of the nut 28, and then around the lower sprocket pulleys 32 at the bottom of the king post, and are attached to the pad eye 20 by means described in detail with reference to FIG. 4.
  • These lower chains 34 are also identified by letters a, b, c and d.
  • the lower chains 34a and 34d form an outer pair attached at one end to attachment points 36a and 36d at the base of the king post near to the rear face thereof, and to the front end of the pad eye at their other ends, and passing over outer pulleys 30a and 30d attached to the nut 28 and around the lower pulleys 32a and 32d and maintaining a substantially constant spacing throughout their runs.
  • chains 34b and 34 c form an inner pair, these chains having one end attached to the attachment points 36b and 36c at the base of the king post near to the front face thereof and with their other ends attached to the rear end of the pad eye, passing over pulleys 30b and 300 attached to the nut 28 and over the lower pulleys 32b and 32c at the bottom of the king post, these inner chains also maintaining a constant spacing throughout their length, and being arranged so that these inner chains pass between the outer chains at points where crossover occurs.
  • FIG. 3 shows a detailed cross section through the king post and pad eye.
  • the king post is a hollow box structure formed on sideplates 15, the corners of which are stiffened by longitudinal ribs 16 which also form runners engaged by rollers of the pad eye to be described.
  • the crossmember 27 Within the sideplates 15 is mounted the crossmember 27, which carries the upper chain attachment points 35a, b, c and d and also the upper screw bearing 26. It will be seen that the attachment points 35a and 35d are spaced widely apart and are situated near the rear face of the king post, whereas the attachment points 35b and 350 are spaced more closely together and are near to the front face of the king post.
  • FIG. 3 also shows apertures in the crossmember 27 which allow the chains 33a, b, c, d to pass freely therethrough. It will be seen that there is ample space for chains 33b and 330 to pass between the outer pair of chains 33a and 33d without interference where crossover occurs.
  • the arrangement of the lower chains 34a, b, c, d is identical in plan view to that of the upper chains.
  • FIGS. 3 and 4 also show further details of the pad eye, which includes sideplates 40 connected together by end plates 41 and narrow top and bottom plates 42. Between the sideplates 40 there are supported four axles 44, each axle carrying two rollers 45 rotatable thereon, the rollers being in com tact with the main faces of the runners 16. In addition, eight.
  • rollers 46 are mounted on the sideplates 40, and these rollers engage the side faces of the runners 16. These rollers all lightly engage the runners in such manner as to ensure easy movement of the pad eye vertically on the king post.
  • the pad eye includes link means for attachment of the highline including the swivel arm 21, which as shown in FIG. 3 is a U-shaped member having two arms 48 pivoted at their ends to stub shafts 49 extending from the sideplates 40 of the pad eye.
  • the swivel arm is thus free to rotate about a horizontal axis through the center of the pad eye, and thus no turning moments in the vertical plane are applied to the pad eye by the swivel arm.
  • the two arms are attached by a curved runner 50 on which a shackle (not shown) constituting the end of the highline is slidable, this arrangement being described in our copending US. Pat. application No. 787,174.
  • each such means includes a central beam 52, the ends of which engage in slots in blocks 53 welded to the sideplates 40, the ends of beam 52 being releasably secured in these slots by bolts 53a.
  • Each beam 52 has welded thereto a central stub shaft 54 which extends inwardly towards the king post. This stub shaft 54 is associated with a sleeve 54a, this sleeve having mounted thereon two centrally pivoted members including an upper pivot plate 55 and a lower pivot plate 56, FIG.
  • Each lower pivot plate 56 is thick enough to carry two tongues embracing a single tongue attached to the relatively thin upper plate 55.
  • Each upper plate 55 is of triangular form and that plate shown at the rear of the pad eye carries at its upper comers terminal fittings of the chains 33b and 33 c.
  • the rear lower pivot plate 56 includes two lateral flanges with holes therein through which pass screwed rods attached to the ends of lower chains 34b and 34c, the outer ends of these screwed rods having locknuts 57 for securing the ends of the chains to the pivot plates.
  • the end attachments of the chains to the pivot plates are such as to enable the chains to support the pad eye both when loaded by the highline, and when the pad eye is itself supporting the king post. Since any stretching of one chain of either of the pairs connected by a single pivot plate is accompanied by slight pivoting of the respective plate, the tensions in the chains of each pair remains equal.
  • the front end of the pad eye is provided with an arrangement of pivot plates which is the same as that shown for the rear end of the pad eye in FIG. 4, except in that since the chains 33a, 33d, and 34a and 34d associated with the front end are spaced more widely apart than those shown attached to the rear end, the pivot plates for the front end of the pad eye are wider than those shown in FIG. 4.
  • the chain attachment points on the pad eye are readily accessible through the spaces provided between the roller axles, and also that the locknuts 57 provides readily accessible means for adjusting the tensions in the chains, in case any stretching occurs in use. Furthermore, if it becomes necessary to lower the pad eye, for example by hoist means, when the chain operating means becomes inoperable for any reason, the pad eye can be released by removal of the bolts 53a holding the beams 52, with subsequent withdrawal of the beams 52 together with the stub shafts 54. The chains then remain in position, since the plates 55 and 56 are held together by sleeve 54a.
  • FIGS. 5a, 5b and 50 show further details of the upper and lower bearings of the screw 25 (FIG. 5a) of the sprocket pulley mountings on the nut 28 (FIG. 5b and FIG. 6), and of the drive transmission to the screw (FIG. 5c).
  • FIG. 5a shows the upper end of screw 25 held by the bearing '26, which is mounted in crossmember 27.
  • the inner attachment points 35 for the upper chains are also shown.
  • the crossmember 27 is a thick plate held between two reinforcing ribs 60 welded within the king post, the crossmember being held by means of bolts 61 inserted through the king post sideplates and the ribs 60.
  • the crossmember 27 is thus removable so that if the screw 25 is released at its lower end, and the upper chains 33 are also detached, the member 27 together with the screw and the upper bearing can be removed through the top of the king post.
  • the bearing 26 is a spherical roller-type self-aligning bearing, arranged to withstand a tensile force in the screw 25.
  • the self-aligning feature of the bearing enables the screw to remain straight even if the king post becomes bent under the heavy side loads applied by the highline.
  • an aperture normally covered by the plate 63 is provided in the adjacent part of the sideplate 15 of the king post.
  • FIG. 5b together with FIG. 6, shows in more detail the recirculating ball nut 28 and the sprocket pulley mountings attached thereto.
  • the nut 28 carries a yoke member 70, having two stub shafts 71 extending from opposite sides of the yoke member transversely of the king post axis.
  • the yoke member 71 also carries an arm 73, shown in FIG. 6, which extends perpendicular to the stub shafts 71 and has at its outer end a roller 74 engaging in a guideway 75 attached to the inside of the king post. This arrangement prevents rotation of the nut 28 on the screw 25 so that the screw rotation is accompanied by positive vertical movement ofthe nut.
  • Each of the stub shafts 71 carries an upper and a lower pulley block each comprising a clevis 77, 78 supporting respectively the freely rotatable sprocket pulleys 29 and 30. All the four pulley blocks can swivel as necessary on the stub shafts 71, so that no bending force can be applied to the screw in the plane of the pulleys.
  • Each upper clevis 77 has two bored tongues fitting onto the respective stub shafts 71 and holding between them similarly bored tongues attached to the respective lower clevis 78. As can be seen from FIG.
  • the four pulleys 29a, b, c, a are generally coaxial and the same applies to the four pulleys 30a, b, c, d. It can readily be seen that vertical movement of the nut 28 causes all the pulleys 29 and 30 to move vertically together to pull in either the upper or the lower chains.
  • FIG. 50 The lowermost part of the king post is shown in FIG. 50.
  • the ends of the connector shaft 91 can be detached from the adjacent ends of thescrew 25 and shaft 92 by removal of bolts 93, whereupon the screw 25 can be removed from the king post together with the crossmember 27, assuming that this has been detached in the manner hereinbefore described.
  • FIG. 5c also shows details of the king post spigot 12 carried by the spherical bearing 13, which bearing is held by-a base member 102.
  • the base member 102 is in turn releasably secured to the deck fitting 11 by means of rotatable cams 103.
  • This deck fitting is the subject of our copending US. Pat. application No. 787,164.
  • the base support arrangement allows the king post to be rotated (in bearing 13) to face either side of the ship depending on the direction of highline transfer, and the releasable feature of the deck fitting allows the king post to be lowered and stowed below the deck in trunking indicated at 105 when not in use.
  • the bearing 105 is similar to the top bearing 26, though inversely mounted, and similarly allows for some bending of the king post while the screw, which is solidly held to the end of shaft 92 via the connector shaft 91, remains straight.
  • the bearing 105 takes only tensile loads in the screw and the bearings 26 and 105 are initially adjusted so that the screw is just slightly under tension. With this arrangement an axial load applied to the screw can only cause tension in the screw, and since no compression force can be communicated to either 'end bearing there is no buckling load applied to the screw.
  • an axial bore is provided having at its upper end a tapered roller bearing and at its lower end a ball bearing 111. These bearings hold the upper part of a drive shaft 112, which is coupled to the end shaft 92 by means of a flexible coupling 1 14.
  • the flexible coupling 114 is arranged at the center of curvature of the outer spherical surface of bearing 105, so that movement of the end shaft 92 relative to the spigot 12 of the king post (for example during bending of the king post) produces only angular misalignment (without parallel displacement) at the center of th coupling 114.
  • a geai housing Attached to the lower end of the spigot 12 is a geai housing which in turn carries the motor 24.
  • the motor shaft is provided with a pinion 121 which meshes with a gear wheel 122 keyed to the drive shaft 112, thereby rotating the screw 25 through the coupling 114, end shaft 92, and the connector shaft 91.
  • the motor 24 is a two speed 900/1 ,800 rpm. motor. In normal use the motor runs at the fastest speed, but means are provided in the form of limit switches situated within the king post for automatic switching of the motor from high to low speed as the nut 28 approaches points which correspond to the limits of the pad eye run. These limit switches are indicated at in FIGS. 5a and 50. By this means the positioning of the pad eye near to the limits of its run can be precisely controlled.
  • the motor circuit is provided with a cutout which deenergizes the motor as soon as an increase in current indicates that the motor has stalled.
  • This electrical cutout serves the same purpose as the mechanical slipping clutch of earlier designs, for example that of US. Pat. No. 3,350,820.
  • the base member 102 holding the lower end of the king post is securedto the deck by means of deck fitting l1, and the king post is rotated in the bearing 13 to face the desired side of highline delivery.
  • Guy lines or stays are then connected to the lugs 14 at the top of the king post to maintain this in an erect position, and it is to be understood that the king post is held by the spherical bearing 13 in a simply supported manner enabling it to deflect slightly.
  • the pad eye With the highlineattached to swivel arm 21, the pad eye is raised to a suitable height near the top of the king post by operation of the motor 24 in such direction as to cause the nut 28 to descend the screw 25, so causing the sprocket pulleys 29 to pull down the chains 3311, b, c, and d thus raising the pad eye. After a load has been received along the highline, this can be lowered to the deck by operation of the motor 24 in the opposite sense to lower the pad eye. During these raising and lowering operations, it may be noted that:
  • the pad eye For stowing the king post below the deck, the pad eye is lowered onto the deck fitting 11 and secured thereto by means indicated at 131, in which position it supports the king post.
  • the deck fitting 11 is then operated to release the base member 102, and the motor 24 is operated in the up direction this being the direction which normally raises the pad eye on the post. In this case however the pad eye remains at deck level and the king post sinks therethrough into the deck with the pad eye acting as a guide. In this operation, the
  • the chain arrangement according to this invention allows four chains to be accommodated in both the upper and lower parts of the king post without requiring much more space than that required by previously known two-chain arrangements, and the arrangement also ensures that all the chains take a substantially equal amount of tension.
  • the king post according to the invention is thus able to deal with heavier loads than previous otherwise similar king posts, and the chain arrangement also allows for easy and steady movement of the pad eye up and down the king post, since there are no torques applied to the king post which would give rise to excessive friction.
  • Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post,
  • means for moving said pad eye vertically on the king post including 0. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. said attachment points being situated both front and rear of the king post central axis.
  • Apparatus according to claim 3 wherein the motor drivably connected to the screw is a variable speed motor, and wherein limit switches are included in the king post automatically to switch the motor from fast to slow speeds as the nut approaches the positions corresponding to the limits of the pad eye movements on the king post.
  • Apparatus according to claim 3 wherein the motor is connected to a power supply via an overload protection device which acts to cut off the power supply to the motor if the 1 motor becomes stalled.
  • Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post, b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein I d. the pad eye is attached to the highline by connecting means e. a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the attachment points.
  • Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post,
  • b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. including two upper pairs of chains extending upwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof for supporting the pad eye and loads attached thereto, and wherein the chains of each pair are attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced.
  • Apparatus according to claim 9 including two lower pairs of chains extending downwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof and wherein the chains of each lower pair are attached to opposite ends of .a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each lower pair are balanced.
  • Apparatus according to claim 10 wherein the respective pairs of chains each have substantially constant spacing throughout their lengths, the spacing of each pair of chains connected to the front of the pad eye being different from the spacing of each pair of chains connected to the rear of the pad eye, and the arrangement being such that the chains of a closely spaced pair pass between the chains of the more widely spaced pair at points where crossover occurs without mutual interference.
  • Apparatus according to claim 9 wherein the attachment means connecting the chains to the pivoted members of the pad eye include adjustment means for tensioning the chains.
  • Apparatus for highline ship to ship transfer of loads comprising a. a king post adapted to be held in erect position on the deck ofa ship,
  • c. means for moving said pad eye vertically on the king post including chains passing over pulleys at the top of the king post and secured to the pad eye at attachment points which are situated both front and rear of the king post central axis, and in which the pad eye is attached to the highline by link means including a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the said front and rear attachment points of the said chainsv 14.
  • Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post,
  • means for moving said pad eye vertically on the king post including 0. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. said linear driving member being comprised of chains adapted to pass over pulleys f. said chains being movable by means attached to a nut mounted for nonrotational vertical movement along a motor-driven screw extending longitudinally of the king post, and wherein the upper bearing of the said screw is mounted on a crossmember within the king post which crossmember is detachable for removal from the king post g. wherein the screw is attached to a lower end shaft by a connector, access means being provided to allow disengagement of the connector from within the king post whereby the screw may be withdrawn upwardly through the king post simultaneously with the removal of the said crossmember.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Transmission Devices (AREA)

Abstract

Apparatus for highline ship to ship transfer of loads comprises a king post with a pad eye mounted on the king post. Means are provided for moving the pad eye vertically on the king post which include a linear driving member passing over guiding means on the king post to form an arrangement providing opposing forces and wherein the pad eye is attached to the highline by connecting means. The said attachment points are situated both front and rear of the king post central axis.

Description

United States Patent Schneller 1 Feb. 15, 1972 [54] EQUIPMENT FOR HIGHLIN TRANSFER [72] Inventor: Stephen G. Schneller, Laval, Quebec,
Canada [73] Assignee: Peacock Brothers Limited, La Salle,
Quebec, Canada [22] Filed: Mar. 31, 1970 [21] Appl.No.: 22,120
Related U.S. Application Data [63] Continuation of Ser. No. 787,165, Dec. 26, 1968,
abandoned.
[30] Foreign Application Priority Data Oct. 28, 1968 Canada ..33725 U.S. Cl ..2l4/l3, 104/116 ..B65g67/58 Field ofSearch ..104/112, 113, 114, 115, 116, 104/117; 254/148; 214/13; 212/72 [56] 7 References Cited UNITED STATES PATENTS 3,350,820 11/1967 Stonely ..2l4/13 Primary Examiner-Gerald M. Forlenza Assistant ExaminerFrank E. Werner Atto rneyStevens, Davis, Miller & Mosher [5 7] ABSTRACT Apparatus for highline ship to ship transfer of loads comprises a king post with a pad eye mounted on the king post. Means are provided for moving the pad eye vertically on the king post which include a linear driving member passing over guiding means on the king post to form an arrangement providing opposing forces and wherein the pad eye is attached to the highline by connecting means. The said attachment points are situated both front and rear of the king post central axis.
14 Claims, 8 Drawing Figures EQUIPMENT FOR HIGI-ILINE TRANSFER This application is a continuation of application Ser. No. 787,l65 filed Dec. 26, 1968, now abandoned.
The present invention relates to highline transfer systems for transferring loads along a highline extending, for example, between two ships at sea. The invention is particularly concerned with equipment carried by a ship for receiving loads transferred along a highline.
Known equipment for receiving loads by highline transfer systems includes a mast, known as a king post, adapted to be held in erect position on the deck of a ship, and having a highline attachment member to which an end ofthehighline is attached when the ship is receiving a load. The highline attachment member, which is termed a pad eye, may be vertically movable on the king post to allow loads to be lowered onto the deck when they have traversed the highline. A vertically movable attachment member used for this purpose is termed a sliding pad eye. 7
In this specification, reference to vertical or horizontal will be understood to mean, respectively, perpendicular and parallel to the deck of the ship, irrespective of the orientation of the deck at any instant.
A mechanism for raising and lowering the pad eye on the king post is described in US. Pat. No. 3,350,820. This mechanism includes a screw coaxial with the king post and rotatable by a motor located at the base of the king post, a nut nonrotatably mounted on the screw and movable vertically by rotation of the screw, and chains passing through pulley blocks held by the nut, which chains also pass over the pulleys at the top and bottom of the king post and are attached to the pad eye externally of the king post, so that the pad eye is caused to move by the chains on movement of the nut along the screw.
The same screw and nut operated chain mechanism may also be used for raising and lowering the king post out of or into trunking below the deck level, so that the king post can be stowed when not in use. For this purpose the base of the king post is arranged to be releasably engaged by a deck fitting. In order to stow the king post, the pad eye is lowered to the deck fitting, in which position it supports the king post, and is secured thereto. Subsequently, the base of the king post is released from the deck fitting, and the king post is lowered into the trunking through the pad eye and through the deck by operation of the screw mechanism in the same manner as this would be operated to raise the pad eye on the post. The king post may be raised from the deck by the reverse procedure. Accordingly, the arrangement of chains attached to the pad eye must include both upper chains which extend upwardly from the pad eye and are normally tensioned by the weight of the pad eye and of the load on the highline, and lower chains extending downwardly from the pad eye which are tensioned by the weight of the king post while this is being lowered into or raised from the deck. In some circumstances, for example when the highline is attached to a dispatch point much higher than the pad eye, the highline tension may apply an upwards force to the pad eye, which force must also be withstood by the lower chains.
In the arrangement described in US. Pat. No. 3,350,820, the chains are attached to the rear end of the pad eye, that is to say the end of the pad eye which is remote from the front end which faces the direction of highline delivery, and the highline is attached to link means associated with the front end of the pad eye. Consequently, the pad eye is subjected to considerable vertical turning moments by the opposed pulls of the highline and the supporting chains, and these turning moments may give rise to friction and cause difficulty in moving the pad eye smoothly on the king post.
According to the present invention, apparatus for highline ship to ship transfer of loads comprises a king post adapted to be held in erect position on the deck of a ship, a pad eye mounting on the king post, and means for moving said pad eye vertically on the king post including chains passing over pulleys at the top of the king post and secured to the pad eye at attachment points which are situated both front and rear of the king post central axis, the pad eye being attached to the highline by link means including a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the said front and the rear attachment points of the said chains.
The term chains as used herein and in the claims is intended to include flexible elements which could be used in the same manner as chains.
Preferably, the horizontal pivotal axis of the swivel arm on the pad eye lies approximately midway between the front and rear attachment points of the chains. This arrangement insures that the tensions in the chains connected to the front and rear ends of the pad eye are balanced.
In a preferred embodiment, the chains are used in pairs disposed front and rear of the pad eye, there being provided two upper pairs of chains extending upwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof for supporting the pad eye and loads thereon. The chains of each pair are attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced. There may also be provided two lower pairs of chains extending downwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof, for supporting the king post when this is being lowered into or raised from the deck. Again, the chains of each lower pair are preferably attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced.
A particular embodiment of the present invention will now be described with reference to the accompanying drawings in which:
FIG. 1 is a diagrammatic sectional elevation taken along the central axis of the king post,
FIG. 2 is a similar partly sectioned elevation of the king post taken along lines IIII of FIG. 1,
FIG. 3 is a cross-sectional plan view taken through the pad eye and showing details of the pad eye and king post,
FIG. 4 is a rear view of the pad eye together with a portion of the king post,
FIGS. 5a, 5b, and 5c are detailed sectional elevations of portions of the king post which are indicated in FIG. 2, and
FIG. 6 is a view on lines VIVI ofFIG. 5b.
Referring to FIGS. 1 and 2 of the drawings, a king post 10 is shown supported on a deck fitting 11 mounted on the deck 11a of a ship by mounting means which are indicated diagrammatically. Details of the mounting means are described hereinafter with reference to FIG. 50 but as shown in FIG. 1 a spigot or stem 12 of the king post is supported in a spherical bearing 13 which allows rotation of the king post and limited deflection thereof. When erected on the deck as shown the king post is maintained in the vertical position, against the considerable pull of the highline, by stays or guy lines attached to the top ofthe king post at lugs 14 and to the deck 11a.
A highline attachment member in the form of a pad eye 20 is arranged to slide vertically on the king post. The pad eye, which will be described in more detail with reference to FIGS. 3 and 4, includes rollers which engage with runners at the corners of the king post and allow smooth movement of the pad eye up and down the king post under the action of the screw and not operated chain system to be described. The pad eye also includes link means for the highline in the form of a swivel arm 21, which is a U-shaped member extending from pivot points at the sides of the pad eye and having a runner member extending across the front face of the pad eye, namely the lefthand side of FIG. 1.
For raising and lowering the pad eye a screw and nut operated chain mechanism is provided including a screw 25 extending coaxially of the king post and rotatable in an upper bearing 26 held by a crossmember 27 within the upper part of the king post, and in a lower hearing within the base of the king post (see FIG. 5c). The screw 25 is driven by a reversible motor 24 attached to the base of the king post. Details of the motor drive arrangement and the bearings and couplings involved will be described in detail with reference to FIG. 5c.
A recirculating ball nut 28 is mounted on the screw 25, and means to be described are provided for preventing rotation of the nut so that as the screw 25 is rotated by the motor 24, the nut moves vertically up or down the screw. The nut 28 holds a pulley block (to be described with reference to FIGS. 5b and 6) having freely rotatable upper and lower sprocket pulleys 29 and 30. As apparent from FIG. 2, the pulleys 29 and 30 are arranged in four pairs, the pairs being symmetrically arranged above and below the nut 28 and on either side of the screw 25.
Additional freely rotatable sprocket pulleys 31 and 32 are rotatably mounted in the sides of the king post at the top and bottom thereof. Four such pulleys 31 are situated at the top of the king post in pairs back and front, and four more pulleys 32 are similarly arranged in pairs at the bottom ofthe king post.
Four upper chains, which are roller link chains, are in dicated at 33 and are each attached at one end to attachment points 35 on crossmember 27, and pass around upper pulleys 29 of the nut 28, and also around pulleys 31 at the top of the king post, having their outer ends attached to the pad eye by means shown in more detail in FIG. 4. These upper chains 33 extending upwardly from the pad eye are those which normally support the weight of the pad eye and the vertically downwards component of the force applied by the highline.
The four upper chains 33 are individually identified by letters a, b, c and d. Chains 33a and 33d form an outer pair which are attached to points 35a and 35d on the side of the member 27 nearest to the rear of the king post (see also FIG. 3). These chains pass around the outermost two pulleys 29, namely pulleys 29a and 29d, and then around a widely spaced pair of upper pulleys 31a and 31d at the front of the king post, before being attached to the front of the pad eye. The positioning of the pairs of pulleys 29a, 29d and 31a, 31d, and the attachment points 35a, 35d, is such that the spacing between the chains 33a and 33d remains constant from end to end thereof.
Conversely, the chains 33b and 33c form an inner pair which are attached to attachment points 35b and 350 at the side of member 27 nearest the front face of the king post (see also FIG. 3), and extend around the inner two pulleys 29, namely 29b and 290, around a closely spaced pair of upper pulleys 31b and 310 at the rear of the king post, and have their ends attached to the rear end of the pad eye 20. The attachment points 35b and 35c, the pulleys 29b and 290, and pulleys 31b and 310, are also all similarly spaced, so that the inner pair of chains 33b and 330 also have a constant spacing throughout their length. It can be seen from FIG, 2 that the inner chains 33b and 330 can readily pass between the outer chains 33a and 33d where these cross over, without any mutual interference. It will be understood that the crossmember 27 allows spaces for passage of the upper chains to pass therethrough.
In addition, four lower chains 34 are provided which are attached at one end to attachment points 36 at the bottom of the king post, and pass therefrom around the sprocket pulleys 30 of the nut 28, and then around the lower sprocket pulleys 32 at the bottom of the king post, and are attached to the pad eye 20 by means described in detail with reference to FIG. 4. These lower chains 34 are also identified by letters a, b, c and d. In a manner similar to that of the upper chains, the lower chains 34a and 34d form an outer pair attached at one end to attachment points 36a and 36d at the base of the king post near to the rear face thereof, and to the front end of the pad eye at their other ends, and passing over outer pulleys 30a and 30d attached to the nut 28 and around the lower pulleys 32a and 32d and maintaining a substantially constant spacing throughout their runs. Conversely, chains 34b and 34 c form an inner pair, these chains having one end attached to the attachment points 36b and 36c at the base of the king post near to the front face thereof and with their other ends attached to the rear end of the pad eye, passing over pulleys 30b and 300 attached to the nut 28 and over the lower pulleys 32b and 32c at the bottom of the king post, these inner chains also maintaining a constant spacing throughout their length, and being arranged so that these inner chains pass between the outer chains at points where crossover occurs.
FIG. 3 shows a detailed cross section through the king post and pad eye. As shown, the king post is a hollow box structure formed on sideplates 15, the corners of which are stiffened by longitudinal ribs 16 which also form runners engaged by rollers of the pad eye to be described. Within the sideplates 15 is mounted the crossmember 27, which carries the upper chain attachment points 35a, b, c and d and also the upper screw bearing 26. It will be seen that the attachment points 35a and 35d are spaced widely apart and are situated near the rear face of the king post, whereas the attachment points 35b and 350 are spaced more closely together and are near to the front face of the king post. FIG. 3 also shows apertures in the crossmember 27 which allow the chains 33a, b, c, d to pass freely therethrough. It will be seen that there is ample space for chains 33b and 330 to pass between the outer pair of chains 33a and 33d without interference where crossover occurs. The arrangement of the lower chains 34a, b, c, d is identical in plan view to that of the upper chains.
FIGS. 3 and 4 also show further details of the pad eye, which includes sideplates 40 connected together by end plates 41 and narrow top and bottom plates 42. Between the sideplates 40 there are supported four axles 44, each axle carrying two rollers 45 rotatable thereon, the rollers being in com tact with the main faces of the runners 16. In addition, eight.
small rollers 46 are mounted on the sideplates 40, and these rollers engage the side faces of the runners 16. These rollers all lightly engage the runners in such manner as to ensure easy movement of the pad eye vertically on the king post.
The pad eye includes link means for attachment of the highline including the swivel arm 21, which as shown in FIG. 3 is a U-shaped member having two arms 48 pivoted at their ends to stub shafts 49 extending from the sideplates 40 of the pad eye. The swivel arm is thus free to rotate about a horizontal axis through the center of the pad eye, and thus no turning moments in the vertical plane are applied to the pad eye by the swivel arm. The two arms are attached by a curved runner 50 on which a shackle (not shown) constituting the end of the highline is slidable, this arrangement being described in our copending US. Pat. application No. 787,174.
The means whereby the chains are attached to the pad eye are shown most clearly in FIG. 4. These means, which are indicated generally at 51, are provided at each end, front and rear, of the pad eye, spaced vertically between the main roller axles 44. Each such means includes a central beam 52, the ends of which engage in slots in blocks 53 welded to the sideplates 40, the ends of beam 52 being releasably secured in these slots by bolts 53a. Each beam 52 has welded thereto a central stub shaft 54 which extends inwardly towards the king post. This stub shaft 54 is associated with a sleeve 54a, this sleeve having mounted thereon two centrally pivoted members including an upper pivot plate 55 and a lower pivot plate 56, FIG. 4 showing those pivot plates on the rear side of the pad eye. Each lower pivot plate 56 is thick enough to carry two tongues embracing a single tongue attached to the relatively thin upper plate 55. Each upper plate 55 is of triangular form and that plate shown at the rear of the pad eye carries at its upper comers terminal fittings of the chains 33b and 33 c. The rear lower pivot plate 56 includes two lateral flanges with holes therein through which pass screwed rods attached to the ends of lower chains 34b and 34c, the outer ends of these screwed rods having locknuts 57 for securing the ends of the chains to the pivot plates. The end attachments of the chains to the pivot plates are such as to enable the chains to support the pad eye both when loaded by the highline, and when the pad eye is itself supporting the king post. Since any stretching of one chain of either of the pairs connected by a single pivot plate is accompanied by slight pivoting of the respective plate, the tensions in the chains of each pair remains equal.
Although not shown in FIG. 4., the front end of the pad eye is provided with an arrangement of pivot plates which is the same as that shown for the rear end of the pad eye in FIG. 4, except in that since the chains 33a, 33d, and 34a and 34d associated with the front end are spaced more widely apart than those shown attached to the rear end, the pivot plates for the front end of the pad eye are wider than those shown in FIG. 4.
It may be noted that the chain attachment points on the pad eye are readily accessible through the spaces provided between the roller axles, and also that the locknuts 57 provides readily accessible means for adjusting the tensions in the chains, in case any stretching occurs in use. Furthermore, if it becomes necessary to lower the pad eye, for example by hoist means, when the chain operating means becomes inoperable for any reason, the pad eye can be released by removal of the bolts 53a holding the beams 52, with subsequent withdrawal of the beams 52 together with the stub shafts 54. The chains then remain in position, since the plates 55 and 56 are held together by sleeve 54a.
Referring now to FIGS. 5a, 5b and 50, these show further details of the upper and lower bearings of the screw 25 (FIG. 5a) of the sprocket pulley mountings on the nut 28 (FIG. 5b and FIG. 6), and of the drive transmission to the screw (FIG. 5c).
FIG. 5a shows the upper end of screw 25 held by the bearing '26, which is mounted in crossmember 27. The inner attachment points 35 for the upper chains are also shown.
The crossmember 27 is a thick plate held between two reinforcing ribs 60 welded within the king post, the crossmember being held by means of bolts 61 inserted through the king post sideplates and the ribs 60. The crossmember 27 is thus removable so that if the screw 25 is released at its lower end, and the upper chains 33 are also detached, the member 27 together with the screw and the upper bearing can be removed through the top of the king post.
The bearing 26 is a spherical roller-type self-aligning bearing, arranged to withstand a tensile force in the screw 25. The self-aligning feature of the bearing enables the screw to remain straight even if the king post becomes bent under the heavy side loads applied by the highline.
For inspection of the bearing and chain attachment points, an aperture normally covered by the plate 63 is provided in the adjacent part of the sideplate 15 of the king post.
FIG. 5b, together with FIG. 6, shows in more detail the recirculating ball nut 28 and the sprocket pulley mountings attached thereto.
The nut 28 carries a yoke member 70, having two stub shafts 71 extending from opposite sides of the yoke member transversely of the king post axis. The yoke member 71 also carries an arm 73, shown in FIG. 6, which extends perpendicular to the stub shafts 71 and has at its outer end a roller 74 engaging in a guideway 75 attached to the inside of the king post. This arrangement prevents rotation of the nut 28 on the screw 25 so that the screw rotation is accompanied by positive vertical movement ofthe nut.
Each of the stub shafts 71 carries an upper and a lower pulley block each comprising a clevis 77, 78 supporting respectively the freely rotatable sprocket pulleys 29 and 30. All the four pulley blocks can swivel as necessary on the stub shafts 71, so that no bending force can be applied to the screw in the plane of the pulleys. Each upper clevis 77 has two bored tongues fitting onto the respective stub shafts 71 and holding between them similarly bored tongues attached to the respective lower clevis 78. As can be seen from FIG. 6, the four pulleys 29a, b, c, a are generally coaxial and the same applies to the four pulleys 30a, b, c, d. It can readily be seen that vertical movement of the nut 28 causes all the pulleys 29 and 30 to move vertically together to pull in either the upper or the lower chains.
The lowermost part of the king post is shown in FIG. 50. This shows an inspection cover 90 which gives access to removable connector shaft 91 which connects the screw 25 to an end shaft 92, to be described. The ends of the connector shaft 91 can be detached from the adjacent ends of thescrew 25 and shaft 92 by removal of bolts 93, whereupon the screw 25 can be removed from the king post together with the crossmember 27, assuming that this has been detached in the manner hereinbefore described.
FIG. 5c also shows details of the king post spigot 12 carried by the spherical bearing 13, which bearing is held by-a base member 102. The base member 102 is in turn releasably secured to the deck fitting 11 by means of rotatable cams 103. This deck fitting is the subject of our copending US. Pat. application No. 787,164. As explained fully in this copending patent application, the base support arrangement allows the king post to be rotated (in bearing 13) to face either side of the ship depending on the direction of highline transfer, and the releasable feature of the deck fitting allows the king post to be lowered and stowed below the deck in trunking indicated at 105 when not in use.
Within the upper end of the king post spigot 12 there is provided a cavity holding a spherical roller bearing 105 carrying the lower extremity of end shaft 92. The bearing 105 is similar to the top bearing 26, though inversely mounted, and similarly allows for some bending of the king post while the screw, which is solidly held to the end of shaft 92 via the connector shaft 91, remains straight. The bearing 105 takes only tensile loads in the screw and the bearings 26 and 105 are initially adjusted so that the screw is just slightly under tension. With this arrangement an axial load applied to the screw can only cause tension in the screw, and since no compression force can be communicated to either 'end bearing there is no buckling load applied to the screw.
At the lower end of the spigot 12 an axial bore is provided having at its upper end a tapered roller bearing and at its lower end a ball bearing 111. These bearings hold the upper part of a drive shaft 112, which is coupled to the end shaft 92 by means of a flexible coupling 1 14. The flexible coupling 114 is arranged at the center of curvature of the outer spherical surface of bearing 105, so that movement of the end shaft 92 relative to the spigot 12 of the king post (for example during bending of the king post) produces only angular misalignment (without parallel displacement) at the center of th coupling 114.
Attached to the lower end of the spigot 12 is a geai housing which in turn carries the motor 24. The motor shaft is provided with a pinion 121 which meshes with a gear wheel 122 keyed to the drive shaft 112, thereby rotating the screw 25 through the coupling 114, end shaft 92, and the connector shaft 91.
The motor 24 is a two speed 900/1 ,800 rpm. motor. In normal use the motor runs at the fastest speed, but means are provided in the form of limit switches situated within the king post for automatic switching of the motor from high to low speed as the nut 28 approaches points which correspond to the limits of the pad eye run. These limit switches are indicated at in FIGS. 5a and 50. By this means the positioning of the pad eye near to the limits of its run can be precisely controlled.
In order to prevent damage to the motor and the mechanical elements of the system when the pad eye reaches the limits of its run with the motor still energized, the motor circuit is provided with a cutout which deenergizes the motor as soon as an increase in current indicates that the motor has stalled. This electrical cutout serves the same purpose as the mechanical slipping clutch of earlier designs, for example that of US. Pat. No. 3,350,820.
Generally, it is convenient to make electrical connections to the motor by means of flexible leads which extend within the trunking in which the king post is stowed, and which are of sufficient length to accommodate the vertical movement of the king post when being stowed. In this case, it is highly desirable that means are provided to limit rotation of the king post to avoid undue twisting of the leads, and such means are described in our copending I.I.S. Pat. application No. 787,171. The electrical connections to the limit switches within the king post can be lead directly from the motor into the king post.
In operation, the base member 102 holding the lower end of the king post is securedto the deck by means of deck fitting l1, and the king post is rotated in the bearing 13 to face the desired side of highline delivery. Guy lines or stays are then connected to the lugs 14 at the top of the king post to maintain this in an erect position, and it is to be understood that the king post is held by the spherical bearing 13 in a simply supported manner enabling it to deflect slightly.
With the highlineattached to swivel arm 21, the pad eye is raised to a suitable height near the top of the king post by operation of the motor 24 in such direction as to cause the nut 28 to descend the screw 25, so causing the sprocket pulleys 29 to pull down the chains 3311, b, c, and d thus raising the pad eye. After a load has been received along the highline, this can be lowered to the deck by operation of the motor 24 in the opposite sense to lower the pad eye. During these raising and lowering operations, it may be noted that:
1. due to the pulley arrangement, the movement of the pad eye is always twice that of the nut 28,
2. the upper chains33 remain in tension, lower chains 34 being relatively slack and the force on the nut 28 is upwards thus tensioning the lower part of the screw 25, although no compression can exist in the upper part of screw 25 byv virtue of the unidirectional nature of the bearing 26,
3. the tensions in the upper chain are all substantially equal, since the arrangement of the swivel arm attachment to the pad eye, and the arrangement of the pivot plates attaching the in dividual chains to the pad eye, tends to equalize the tensions in all the chains.
For stowing the king post below the deck, the pad eye is lowered onto the deck fitting 11 and secured thereto by means indicated at 131, in which position it supports the king post. The deck fitting 11 is then operated to release the base member 102, and the motor 24 is operated in the up direction this being the direction which normally raises the pad eye on the post. In this case however the pad eye remains at deck level and the king post sinks therethrough into the deck with the pad eye acting as a guide. In this operation, the
' lower chains 34 are tensioned, and the upper part of the screw is also in tension, although the nature of the bearing 105 ensures that no compression is applied to the lower part of the screw.
If the ships between which the load is being transferred should move from their correct stations during the transfer operation, the shackle at the near end of the highline will tend to slide on the runner 50 of the pad eye pivot arm, and will not tend to rotate the king post. (See copending U.S. Pat. application No. 787,174.)
The chain arrangement according to this invention allows four chains to be accommodated in both the upper and lower parts of the king post without requiring much more space than that required by previously known two-chain arrangements, and the arrangement also ensures that all the chains take a substantially equal amount of tension. The king post according to the invention is thus able to deal with heavier loads than previous otherwise similar king posts, and the chain arrangement also allows for easy and steady movement of the pad eye up and down the king post, since there are no torques applied to the king post which would give rise to excessive friction.
1 claim:
1. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post,
b. means for moving said pad eye vertically on the king post including 0. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. said attachment points being situated both front and rear of the king post central axis.
2. Apparatus as claimed in claim 1 in which said linear driving member is comprised of chains adapted to pass over pulleys.
3. Apparatus according to claim 2 wherein the said chains are movable by means attached to a nut mounted for nonrotational vertical movement along a motor-driven screw extending longitudinally of the king post, and wherein the upper bearing of the said screw is mounted on a crossmember within the king post which crossmember is detachable for removal from the king post.
4. Apparatus according to claim 3 wherein the motor drivably connected to the screw is a variable speed motor, and wherein limit switches are included in the king post automatically to switch the motor from fast to slow speeds as the nut approaches the positions corresponding to the limits of the pad eye movements on the king post.
5. Apparatus according to claim 3 wherein the motor is connected to a power supply via an overload protection device which acts to cut off the power supply to the motor if the 1 motor becomes stalled.
6. Apparatus as claimed in claim 5 wherein the power supply cutofi' is adapted to actuate braking mechanism.
7. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post, b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein I d. the pad eye is attached to the highline by connecting means e. a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the attachment points.
8. Apparatus according to claim 7 in which the horizontal pivotal axis of the swivel arm on the pad eye lies approximate ly midway between the front and rear attachment points of the said chains.
9. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post,
b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. including two upper pairs of chains extending upwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof for supporting the pad eye and loads attached thereto, and wherein the chains of each pair are attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced.
10. Apparatus according to claim 9 including two lower pairs of chains extending downwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof and wherein the chains of each lower pair are attached to opposite ends of .a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each lower pair are balanced.
11. Apparatus according to claim 10 wherein the respective pairs of chains each have substantially constant spacing throughout their lengths, the spacing of each pair of chains connected to the front of the pad eye being different from the spacing of each pair of chains connected to the rear of the pad eye, and the arrangement being such that the chains of a closely spaced pair pass between the chains of the more widely spaced pair at points where crossover occurs without mutual interference.
12. Apparatus according to claim 9 wherein the attachment means connecting the chains to the pivoted members of the pad eye include adjustment means for tensioning the chains.
13. Apparatus for highline ship to ship transfer of loads comprising a. a king post adapted to be held in erect position on the deck ofa ship,
b. a pad eye mounted on the king post, and
c. means for moving said pad eye vertically on the king post including chains passing over pulleys at the top of the king post and secured to the pad eye at attachment points which are situated both front and rear of the king post central axis, and in which the pad eye is attached to the highline by link means including a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the said front and rear attachment points of the said chainsv 14. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post,
b. means for moving said pad eye vertically on the king post including 0. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. said linear driving member being comprised of chains adapted to pass over pulleys f. said chains being movable by means attached to a nut mounted for nonrotational vertical movement along a motor-driven screw extending longitudinally of the king post, and wherein the upper bearing of the said screw is mounted on a crossmember within the king post which crossmember is detachable for removal from the king post g. wherein the screw is attached to a lower end shaft by a connector, access means being provided to allow disengagement of the connector from within the king post whereby the screw may be withdrawn upwardly through the king post simultaneously with the removal of the said crossmember.

Claims (14)

1. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post, b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. said attachment points being situated both front and rear of the king post central axis.
2. Apparatus as claimed in claim 1 in which said linear driving member is comprised of chains adapted to pass over pulleys.
3. Apparatus according to claim 2 wherein the said chains are movable by means attached to a nut mounted for nonrotational vertical movement along a motor-driven screw extending longitudinally of the king post, and wherein the upper bearing of the said screw is mounted on a crossmember within the king post which crossmember is detachable for removal from the king post.
4. Apparatus according to claim 3 wherein the motor drivably connected to the screw is a variable speed motor, and wherein limit switches are included in the king post automatically to switch the motor from fast to slow speeds as the nut approaches the positions corresponding to the limits of the pad eye movements on the king post.
5. Apparatus according to claim 3 wherein the motor is connected to a power supply via an overload protection device which acts to cut off the power supply to the motor if the motor becomes stalled.
6. Apparatus as claimed in claim 5 wherein the power supply cutoff is adapted to actuate braking mechanism.
7. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post, b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the attachment points.
8. Apparatus according to claim 7 in which the horizontal pivotal axis of the swivel arm on the pad eye lies approximately midway between the front and rear attachment points of the said chains.
9. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post, b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guiding means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. including two upper pairs of chains extending upwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof for supporting the pad eye and loads attached thereto, and wherein the chains of each pair are attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each pair are balanced.
10. Apparatus according to claim 9 including two lower pairs of chains extending downwardly from the pad eye and attached respectively to front and rear pairs of attachment points thereof and wherein the chains of each lower pair are attached to opposite ends of a centrally pivoted member mounted on the pad eye, whereby the tensions in the chains of each lower pair are balanced.
11. Apparatus according to claim 10 wherein the respective pairs of chains each have substantially constant spacing throughout their lengths, the spacing of each pair of chains connected to the front of the pad eye being different from the spacing of each pair of chains connected to the rear of the pad eye, and the arrangement being such that the chains of a closely spaced pair pass between the chains of the more widely spaced pair at points where crossover occurs without mutual interference.
12. Apparatus according to claim 9 wherein the attachment means connecting the chains to the pivoted members of the pad eye include adjustment means for tensioning the chains.
13. Apparatus for highline ship to ship transfer of loads comprising a. a king post adapted to be held in erect position on the deck of a ship, b. a pad eye mounted on the king post, and c. means for moving said pad eye vertically on the king post including chains passing over pulleys at the top of the king post and secured to the pad eye at attachment points which are situated both front and rear of the king post central axis, and in which the pad eye is attached to the highline by link means including a swivel arm mounted to pivot on the pad eye about a horizontal axis which axis lies between the said front and rear attachment points of the said chains.
14. Apparatus for highline ship to ship transfer of loads comprising a. a king post, a pad eye mounted on the king post, b. means for moving said pad eye vertically on the king post including c. a linear driving member passing over guidIng means on the king post and secured to the pad eye at attachment points on the king post to form an arrangement providing opposing forces and wherein d. the pad eye is attached to the highline by connecting means e. said linear driving member being comprised of chains adapted to pass over pulleys f. said chains being movable by means attached to a nut mounted for nonrotational vertical movement along a motor-driven screw extending longitudinally of the king post, and wherein the upper bearing of the said screw is mounted on a crossmember within the king post which crossmember is detachable for removal from the king post g. wherein the screw is attached to a lower end shaft by a connector, access means being provided to allow disengagement of the connector from within the king post whereby the screw may be withdrawn upwardly through the king post simultaneously with the removal of the said crossmember.
US22120A 1968-10-28 1970-03-31 Equipment for highline transfer Expired - Lifetime US3642152A (en)

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Publication number Priority date Publication date Assignee Title
US6435795B1 (en) * 2000-10-26 2002-08-20 The United States Of America As Represented By The Secretary Of The Navy Cargo load retractable receiver

Citations (1)

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Publication number Priority date Publication date Assignee Title
US3350820A (en) * 1964-05-15 1967-11-07 Peacock Brothers Ltd High-line transfer systems

Family Cites Families (3)

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Publication number Priority date Publication date Assignee Title
FR360207A (en) * 1905-12-06 1906-04-17 Jean Pierre Serve Movable mast system specially designed for signal flags of warships
FR454675A (en) * 1913-02-22 1913-07-10 Pierre Reynier Clamping device by conjugated edge pullers for all hinged devices such as portholes, watertight doors, etc.
DE1267123B (en) * 1966-07-18 1968-04-25 Peacock Brothers Ltd Mast unit for a high sea conveyor system for ships

Patent Citations (1)

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Publication number Priority date Publication date Assignee Title
US3350820A (en) * 1964-05-15 1967-11-07 Peacock Brothers Ltd High-line transfer systems

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6435795B1 (en) * 2000-10-26 2002-08-20 The United States Of America As Represented By The Secretary Of The Navy Cargo load retractable receiver

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CA860037A (en) 1971-01-05
DE1924696B1 (en) 1971-04-29
GB1275451A (en) 1972-05-24

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