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EP0143316A1 - Ladebaum mit einem Mast und Schwenkung von 360 Grad - Google Patents

Ladebaum mit einem Mast und Schwenkung von 360 Grad Download PDF

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Publication number
EP0143316A1
EP0143316A1 EP84112603A EP84112603A EP0143316A1 EP 0143316 A1 EP0143316 A1 EP 0143316A1 EP 84112603 A EP84112603 A EP 84112603A EP 84112603 A EP84112603 A EP 84112603A EP 0143316 A1 EP0143316 A1 EP 0143316A1
Authority
EP
European Patent Office
Prior art keywords
boom
mast
vang
sheave
rotation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP84112603A
Other languages
English (en)
French (fr)
Inventor
Kawasaki Masasuke
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP0143316A1 publication Critical patent/EP0143316A1/de
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66CCRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
    • B66C23/00Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes
    • B66C23/60Derricks
    • B66C23/605Derricks employing ships' masts

Definitions

  • the present invention relates to an apparatus for handling cargo on ships and, more specifically, the present invention relates to a derrick suitable for loading and unloading cargo within a limited area having a boom which is adapted for 360° rotation about a mast.
  • a popular form of crane is the revolving or pedestal crane.
  • the base of the boom including a winch, a control cab and an A-frame mast are mounted on a revolving deck.
  • a set of driving pinions mesh with a bull gear to accomplish rotation of the unit through 360 degrees. While this form of crane does provide full rotation, it suffers the disadvantage for some applications of requiring an exceptionally large deck area to permit full rotation when mounted on a ship. It also lacks the structural rigidity necessary for some marine operations.
  • stiff leg derrick Another form of crane is the stiff leg derrick.
  • a bull wheel at the base of the mast swings the boom of the derrick around.
  • the stiff leg derrick Like the pedestal crane, however, it has been found that for some applications, the stiff leg derrick either requires excessive deck space when mounted to a ship for full rotation or suffers limitations on its swing to less than 360 degrees.
  • An alternative form of derrick is the guy derrick.
  • the guy derrick is so named because the head of the mast or derrick is supported by a plurality of guy wires extending radially outwardly from the derrick.
  • the guy wires can be extended a sufficient distance outwardly from the derrick, and provided that the movement of the boom of the derrick may be limited to passage under the extended guy wires, this form of derrick also allows the swinging of the boom through 360 degrees rotation.
  • an exceptional amount of deck area is required to adapt the derrick for full rotation, which makes this kind of derrick disadvantageous for many applications such as for service on a ship.
  • this form of derrick lacks adequate structural rigidity for some marine operations.
  • the Stuelcken derrick may be adapted to a single fixed mast such that it requires a minimum amount of deck space, but it is believed that the Stuelcken derrick has always been limited in the degrees of rotation accommodated. This is because the control of the boom of a Stuelcken derrick is typically provided by two vangs being attached to the top of the mast supporting the boom whereby full rotation of the boom would cause the tangling of the vangs. For extended movement of the boom, the vangs must often be detached while the boom is being moved and then reconnected at a selected point of attachment. Even with this arrangement, it is often not possible to swing the boom "behind the mast".
  • a derrick which is suitable for use within a confined area, such as a small area of a deck or other surface, and yet which also offers a full 360 degrees of rotation in continuous operation.
  • the present invention provides a derrick assembly for lifting and moving cargo which requires a minimum of space for the derrick assembly and which provides for rotation of a boom about a fixed mast to the full degree required.
  • a derrick assembly for lifting and moving cargo which includes a mast adopted to be fixed to a supporting surface, the mast having a base and a top.
  • a boom having first and second ends is mounted at its second end along the length of the fixed mast such that freedom of rotation of the boom about the fixed mast is provided.
  • Cable means are then operatively associated with the top of the mast and with the boom for selectively rotating the boom about the fixed mast.
  • the cable means further provide a means for lifting and supporting the boom.
  • the boom is mounted along the length of the fixed mast and adapted for movement through 360 degrees rotation about a longitudinal axis within the mast.
  • the cable means for rotating the boom includes a vang sheave assembly secured to the top of the mast.
  • the vang sheave assembly includes three sheave members positioned about the longitudinal axis such that the angular separation between any two adjacent sheave members in relation to a point of intersection of the longitudinal axis with the plane including the three sheave members is less than 180 degrees.
  • Each sheave member is secured to the sheave assembly for rotation about a vertical axis and includes a sheave mounted to the sheave member for rotation about a horizontal axis in use.
  • a vang spacer is rotatably secured to the boom proximate the head of the boom and three vangs are selectively secured at one end of each vang to the vang spacer in a spaced relationship about the end of the vang spacer.
  • the vang spacer is, in turn, secured to the boom such that the vang spacer rotates in response to movement of the vangs.
  • Each vang is further operatively associated with a sheave disposed on the vang sheave assembly and connected to a power means for selectively varying the length of the vangs. The rotation of the vang spacer upon the varying of the length of the vangs thereby precludes the tangling of the three vangs during the 360 degrees rotation of the boom.
  • the derrick assembly for lifting and moving the cargo includes a fixed mast fixable to a supporting surface, the mast having a base and a top.
  • a bearing collar is disposed along the length of the mast and adapted for rotation about the mast whereby the rotation of the collar defines a longitudinal axis of rotation within the mast.
  • a boom is secured to the collar such that rotation of the boom about the mast and the axis of rotation is accommodated.
  • the assembly further includes three sheave members mounted to the mast and extending proximate the top of the mast.
  • the sheave members are disposed about the axis of rotation such that the angular separation between any two adjacent sheaves in relation to a point of intersection of the axis of rotation with a plane including the three sheaves is less than 180°.
  • a vang spacing member is rotatably secured to the boom.
  • the assembly further includes three vangs secured to the vang spacing member in a spaced relationship wherein each vang extends from the vang spacing member and is operatively associated with a sheave member.
  • a means for selectively varying the length of the vangs such that rotation of the boom about the mast is accommodated is selectively secured to each vang.
  • the boom includes an extension member mounted and disposed proximate the head of the boom.
  • the extension member has a hollow bore directed relatively toward the top of the mast in relation to the boom and includes a first bearing surface surrounding the hollow bore.
  • the vang spacer member comprises an elongated member having a hollow bore and a second bearing surface, the first bearing surface and the second bearing surface being configured complementary to each other such that the two mate to rotatably mount the vang spacer member to the extension member in such a manner that the hollow bore of the vang spacer member communicates with the hollow bore of the extension member and such that the hollow bore of the extension member is directed generally toward the top of the mast.
  • the boom includes a sheave positioned within the head of the boom and the mast includes a sheave mounted proximate the top of the mast and disposed proximate the axis of rotation of the boom.
  • the derrick assembly then includes a hoist lead line extending between the sheave at the top of the mast, through the hollow bore of the vang spacer and the hollow bore of the extension, to the sheave disposed in the head of the boom.
  • a means for varying the length of the hoist lead line to lift and deposit cargo is operatively associated with the lead line.
  • the present invention provides a derrick assembly having a single stationary mast which may be fixed without the need of counterweights.
  • the boom is adapted to the derrick mast for rotation about the mast.
  • the motivating force for the rotation of the mast is provided by three vangs, thereby obviating the need for the expensive gearing and motors included in pedestal cranes and other designs.
  • the present invention provides a derrick assembly which requires a minimum of deck space and provides a maximum of versatility through the provision of a boom rotatably connected to a fixed mast for rotation wherein the rotation is effected by a cable means associated with the top of the mast.
  • the preferred embodiment is generally represented by a mast 10, a boom assembly 20 rotatably mounted to the mast 10, a vang sheave assembly 40 disposed at the top of the mast 10, a vang spacer 60 mounted proximate the head of the boom 20, and a plurality of vangs 70 extending between the vang spacer 60 and the vang sheave assembly 40.
  • the mast assembly 10 includes a cylindrical mast 12 which is secured to a deck 13 or other fixed reference point.
  • the mast 12 is fixably secured to the deck 13 by welding or bolting the mast in place such that tilting of the mast 12 is precluded.
  • a collar support 14 is secured to the mast 12 along its length to provide a support base for a boom collar 24.
  • the collar support 14 is comprised of an annular member secured transverse to the mast 12 such that the collar support 14 extends radially outwardly from the mast to form an annular base of support for the boom collar 24.
  • the annular support 14 may further be supported by bracing members (not shown) extending between the deck 13 and the support 14, or, alternatively, the mast may be sunk into the deck such that the annular support 14 is provided by the deck whereby a two level support system for the mast 12 is provided.
  • the boom assembly 20 includes a boom 22 mounted along the length of the fixed mast 12 such that freedom of rotation of the boom 22 about the fixed mast 12 is provided.
  • the boom assembly 20 includes a bearing collar 24 mounted along the length of the fixed mast 12 for rotation about the fixed mast 12.
  • the bearing collar 24 includes a lower bearing surface 25 configured to mate with the annular support 14 to facilitate movement of the bearing collar 24 along the support surface 14, and an inner bearing surface 26 configured to mate with the outer configuration of the mast 12 to facilitate rotation of the bearing collar 24 about the mast 12.
  • the boom 22 is mounted to the collar 24 to accommodate rotation of the boom 22 about the mast 12.
  • the boom 22 is pivotally mounted to the collar 24 by means of a pin joint 27 in order to provide vertical positioning of the boom 22 in use.
  • the boom 22 further includes a boom head 28 mounted at the end of the boom extending outwardly from the mast 12.
  • the boom head 28 includes an upward extension member 32 secured to the top of the boom head 28.
  • a sheave 30 is mounted within the upward extension member 32 for rotation about a generally horizontal axis in use.
  • the upward extension member 32 and boom head 28 each have a hollow bore extending therethrough to accommodate the passage of a hoist lead line through the upward extension member 32 over the sheave 30 and down through the head of the boom 28 for the lifting and depositing of cargo.
  • the vang sheave assembly 40 of the preferred embodiment is secured to the top of the mast 12 and includes a plurality of sheaves operatively mounted to the top of the mast 12 to facilitate variations in the length of the vangs 70 to position the boom.
  • the vang sheave assembly 40 includes an assembly frame 42 secured to the top of the mast 12.
  • the frame 42 has a triangular outer configuration having approximately equal sides such that the frame 42 forms an equilateral triangle.
  • a sheave member 44 is secured to the frame 42 in each of the three corners of the frame 42, each sheave member 44 supporting a sheave 46 such that the sheave 46 rotates about a generally horizontal axis.
  • the sheave member 44 includes an elongated cylindrical base member 48 connected at the upper end to a transverse sheave support member 50.
  • the frame 42 includes a vertical sleeve 52 having an inner aperture of diameter substantially equal to the outer diameter of the member 48 such that the member 48 fits snuggly within the sleeve 52 for pivotal mounting of the sheave 46 in much the same manner that a bed caster is mounted to a bed frame.
  • the base member 48 further includes a means for securing the member 48 within the sleeve 52 such that the sheave member 44 cannot be pulled out of the sleeve 52.
  • this means comprises a locking nut 49 threadably secured to the base of the sleeve 52.
  • the sheave assembly 40 further includes a lower sheave member 54 secured to the frame 42.
  • the lower sheave member 54 includes a sheave 56 mounted to it for rotation about a generally horizontal axis in such a manner that each sheave 56 aligns with a corresponding sheave 46 to guide a vang or other cable passing over the sheaves down the inside of the mast 12.
  • additional guiding sheaves similar to the sheave member 54 and sheave 56 may be incorporated inside the mast to direct any vangs or other cables to a conventional cranking means or power means (not shown) for varying the length of the vang or cable.
  • the vang sheave assembly 40 is generally represented by a triangularly shaped frame 42 including three sheave members 44, each sheave member 44 being spaced approximately 120° apart from the adjacent sheave member 44. If the sheave members are to be fixed in place, the inclusion of three sheaves is necessary to insure that full rotation of the boom is accommodated. More particularly, referring to FIGURE 6 and using the axis of rotation 90 of the boom as a reference point, it is necessary that the angular separation A, B or C between any two adjacent sheaves is less than 180°.
  • the plurality of sheaves must be spaced around the axis of rotation such that they do not all fall either on a line or on one side of a line passing through the axis of rotation. This can be accomplished only through the use of at least three sheaves or through movably mounting one of the sheaves such that it can occupy at least two positions, which yields effectively to three sheave positions. Conversely, if less than 180° rotation is desired, it will be understood that as few as two vangs may be utilized to swing the boom around between the two vangs.
  • vang sheave assembly frame 42 may be utilized so long as the positioning of the vang sheaves provides full rotation of the vang boom as described above.
  • the vang spacer 60 is rotatably mounted to the head 28 of the boom 22 such that the spacer 60 rotates in response to forces exerted by the vangs 70 to keep the vangs 70 spaced and separated during rotation of the boom 22.
  • the vang spacer 60 includes a generally cylindrical member 62 having a hollow bore 66 passing therethrough.
  • the cylindrical member 62 includes an outwardly extending annular bearing surface 64 which mates with an inwardly extending bearing surface 34 of the extended member 32 such that the two bearing surfaces 34, 64 rotatably support the vang spacer 60 within the extension member 32 with the bore 66 of the vang spacer 62 directed generally toward the top of the mast 12.
  • the inner dimension of the bore 66 is not critical so long as it provides sufficient room for passage of a hoist lead line 80 for all vertical positions of the boom 22.
  • a plurality of vangs 70 extends from the vang spacer 62 to the sheaves 46 mounted to the sheave members 44 for operation of the boom assembly 20.
  • the derrick assembly 10 includes three vangs 72, 74 and 76, secured to the vang spacer 60 in a spaced relationship about the perimeter of the cylindrical member 62.
  • Each vang 72, 74 and 76 extends to a separate sheave member 44 where the respective vang is operatively associated with a sheave 46 to facilitate movement of the vang to vary the length of the vang.
  • the derrick assembly 10 further includes a hoist lead line 80 extending from a sheave member 82 mounted in the top of the vang sheave assembly 40 proximate the axis of rotation to the boom sheave 30 and downwardly at one end to connect with a suitable hoist block 84 for lifting cargo.
  • the opposing end of the hoist lead line 80 extends down the interior of the mast 12 to a conventional cranking means (not shown) for varying the length of the hoist lead line 80 as desired.
  • rotation of the boom may be effected by selectively varying the lengths of the vangs 72, 74 and 76.
  • vang 74 is shortened and vang 72 and 76 are proportionally lengthened.
  • the vang spacer cylinder 62 will tend to rotate in a counterclockwise rotation such that the three vangs 72, 74 and 76 will remain separated during the movement and rotation of the boom 22.
  • the hoist lead line 80 which is supported between the boom sheave 30 and the hoist lead line sheave 82 will remain centered within the vang spacer 62, also separated from the three vangs 72, 74 and 76.
  • FIGURE 6 a schematic diagram of the loading of the vangs in the three-vang embodiment of the present invention is shown.
  • two of the vangs may be designated to carry the bulk of the load. That is, in the regions designated (72-74), the vangs 72 and 74 may be adapted to support the bulk of the load. The remaining vang is kept taut, but is subjected to heavy loading only when needed to assist the other two vangs. Alternatively, all three vangs may carry approximately an equal share of the load with suitable controls to so distribute the load.
  • the present invention provides a derrick which may be operated from a single mast and which is fully operated by a simple system of cables operatively associated with the top of the mast and with the boom.
  • the present invention may be adapted to either provide full rotation of the boom about the mast, or it may be adapted to provide a lesser degree of rotation with a corresponding drop in the number of required vangs. Because of the adaptation of the vang spacer to rotate with the movement of the boom, the number of the vangs utilized may be varied to almost any desired number to increase the degree of support and control of the boom as desired.
  • one of the sheave members 44 may be movably secured within the vang sheave assembly such that it moves along a track between a plurality of selected positions in the sheave assembly.
  • the single sheave member then effectively acts as a plurality of sheave members.
  • the boom collar 24 may be elongated to form a sleeve to which support cables could be attached between the boom and the sleeve.
  • the vang cables could then be used solely to rotate the boom.
  • the mast 12 could take a plurality of shapes or structures so long as it was adapted to support the collar means for supporting the boom along the length of the mast and the vang sheaves at the top of the mast.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Jib Cranes (AREA)
EP84112603A 1983-10-31 1984-10-18 Ladebaum mit einem Mast und Schwenkung von 360 Grad Withdrawn EP0143316A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US54721583A 1983-10-31 1983-10-31
US547215 1983-10-31

Publications (1)

Publication Number Publication Date
EP0143316A1 true EP0143316A1 (de) 1985-06-05

Family

ID=24183790

Family Applications (1)

Application Number Title Priority Date Filing Date
EP84112603A Withdrawn EP0143316A1 (de) 1983-10-31 1984-10-18 Ladebaum mit einem Mast und Schwenkung von 360 Grad

Country Status (2)

Country Link
EP (1) EP0143316A1 (de)
JP (1) JPS60112589A (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109534186A (zh) * 2019-01-07 2019-03-29 国家海洋技术中心 一种集成式电动绞车

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1094617B (de) * 1959-04-08 1960-12-08 H C Stuelcken Sohn Schiffsladevorrichtung
GB990204A (en) * 1962-09-17 1965-04-28 John Vernon Buckland Improvements in or relating to ship's derricks
US3375937A (en) * 1967-04-24 1968-04-02 Newport News S & D Co Cargo handling apparatus
DE2001025A1 (de) * 1969-01-10 1970-10-01 Speedcranes Ltd Kran,insbesondere Auslegerkran
GB1248410A (en) * 1968-12-19 1971-10-06 Testing Associates Inc Improvements in or relating to derricks for ships
GB2028264A (en) * 1978-08-24 1980-03-05 Kawasaki Heavy Ind Ltd Cargo-handling machine for shipboard use
FR2496073A1 (fr) * 1980-12-16 1982-06-18 Blohm Voss Ag Dispositif de levage en particulier sur systeme flottant
NL8104269A (nl) * 1981-09-16 1983-04-18 Itrec Bv Laadmastkraan.

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1094617B (de) * 1959-04-08 1960-12-08 H C Stuelcken Sohn Schiffsladevorrichtung
GB990204A (en) * 1962-09-17 1965-04-28 John Vernon Buckland Improvements in or relating to ship's derricks
US3375937A (en) * 1967-04-24 1968-04-02 Newport News S & D Co Cargo handling apparatus
GB1248410A (en) * 1968-12-19 1971-10-06 Testing Associates Inc Improvements in or relating to derricks for ships
DE2001025A1 (de) * 1969-01-10 1970-10-01 Speedcranes Ltd Kran,insbesondere Auslegerkran
GB2028264A (en) * 1978-08-24 1980-03-05 Kawasaki Heavy Ind Ltd Cargo-handling machine for shipboard use
FR2496073A1 (fr) * 1980-12-16 1982-06-18 Blohm Voss Ag Dispositif de levage en particulier sur systeme flottant
NL8104269A (nl) * 1981-09-16 1983-04-18 Itrec Bv Laadmastkraan.

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109534186A (zh) * 2019-01-07 2019-03-29 国家海洋技术中心 一种集成式电动绞车
CN109534186B (zh) * 2019-01-07 2024-05-28 国家海洋技术中心 一种集成式电动绞车

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Publication number Publication date
JPS60112589A (ja) 1985-06-19

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PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

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AK Designated contracting states

Designated state(s): BE DE FR GB IT NL

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Effective date: 19851009

17Q First examination report despatched

Effective date: 19860603

R17C First examination report despatched (corrected)

Effective date: 19870127

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18D Application deemed to be withdrawn

Effective date: 19871007