Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B66—HOISTING; LIFTING; HAULING
  • B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
  • B66C1/00—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles
  • B66C1/10—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means
  • B66C1/62—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled
  • B66C1/66—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled for engaging holes, recesses, or abutments on articles specially provided for facilitating handling thereof
  • B66C1/663—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled for engaging holes, recesses, or abutments on articles specially provided for facilitating handling thereof for containers

Definitions

• This invention relates to a shock absorption assembly for use with a cargo container handling spreader.
• a spreader is a lifting frame which is attached to a crane or a fork lift and is designed to lock onto a cargo container such as an ISO (International Standards Organisation) container.
• a cargo container such as an ISO (International Standards Organisation) container.
• Each container has four corner castings situated at the four corners of the container's upper surface. The corner castings are engaged by twistlock mechanisms carried on the spreader which enable the containers to be lifted safely.
• Spreaders having telescopic arms are known which are able to be adjusted to pick up containers of various sizes and weights. These spreaders are provided on quayside cranes to load and unload container ships. These spreaders are also used with gantry cranes and other lifting and transporting machines in container marshalling yards.
• Spreaders are subjected to high shock and stress loads during engaging, lifting, disengaging and setting down operations. These shocks greatly contribute to the component failures experienced by the spreaders. This adversely affects the reliability of spreaders, necessitates extra maintenance of spreaders and reduces the life of spreaders.
• the present invention provides a shock absorption assembly for use with a cargo container-,handling spreader comprising an engagement means for engaging with and locking onto a cargo container corner casting; mounting means for mounting the engagement means on a spreader, the engagement means being journalled to the mounting means to allow rotation of the engagement means with respect to the mounting means, the mounting means being moveable with respect to the spreader; and shock absorber means to absorb forces caused by movement of the mounting means with respect to the spreader.
• the engagement means is journalled to the mounting means to prevent lateral or longitudinal movement of the engagement means with respect to the mounting means.
• FIGURE 1 is a perspective view of one end of a spreader housing two shock absorption assemblies embodying the present invention (General Arrangement showing one end of RAM Spreader) ;
• FIGURE 2 is a detailed perspective view of the left hand corner of the spreader of Figure 1, the spreader casing being cut away to show the shock absorption assembly embodying the present invention (Twistlock Corner Shock Absorbers showing positions of main and intermediate shock absorbers) ;
• FIGURE 3 is an end view, partly in cross-section of the left hand corner of the spreader of Figure 1 showing a shock absorption assembly embodying the present invention (Sectional Details showing shock absorbing devices in twistlock corner for RAM Spreader) ;
• FIGURE 4 is a side view, partly in cross-section, of the left hand corner of the spreader of Figure 1 showing a shock absorption assembly embodying the present invention (Sectional Details showing shock absorbing devices in twistlock corner for RAM Spreader) ;
• FIGURE 5 shows the shock absorption assembly of Figure 3 when correctly engaging a corner casting on a container (Impact Force Transmission showing force on corner box being transmitted through tie rods to the main shock absorber and intermediate shock absorber) ;
• FIGURE 6 shows the shock absorption assembly of Figure 3 when incorrectly engaging a corner casting of a container (Impact Force Transmission showing force on twistlock shaft being transmitted through the twistlock mounting plate and tie rods to the main shock absorber and the intermediate shock absorber) ;
• FIGURE 7 is a cross-sectional view of a floating twistlock mechanism for use with the present invention ("Floating" Twistlock) ;
• FIGURE 8 is a perspective view of a shock absorption assembly embodying the present invention positioned between an arm and a main body of a spreader (Centre Body Shock Absorbers showing positions of main and intermediate centre body shock absorbers) .
• a spreader 1 for use with a quayside crane or the like comprises a main body 2 for 3/1 attachment to the quayside crane or the like and a pair of telescopic arms 3 which extend from the main body 2 of the spreader 1.
• the arms 3 extend horizontally from the main body 2 in a side-by-side relationship and are substantially parallel to one another.
• the arms terminate in a single horizontal end beam 4 which is perpendicular to the pair of telescopic arms 3.
• the other end of the spreader 1, which is not shown in Figure 1, corresponds.
• the end beam 4 is hollow and houses, at each end of the end beam 4, a twistlock mechanism 5 for engaging a corner casting of a container to be lifted.
• Figure 2 shows the twistlock mechanism 5 housed within the left hand end of the end beam 4 shown in Figure 1.
• the end beam 4 has an upper surface 4A and a lower surface 4B.
• twistlock mechanism 5 is secured in the corner of the end beam 4 by means of a twistlock mounting plate 6 enclosed in the corner of the end beam 4.
• the end beam 4 is provided with a downwardly extending hollow leg 7.
• the leg 7 and the corner of the end beam 4 define a chamber for housing both a shock absorption assembly embodying the present invention and the twistlock assembly 5.
• the leg 7 is closed by a corner box 8 which fits inside the leg 7 and which is slidable up and down within the leg 7.
• the twistlock assembly 5 comprises an elongate twistlock shaft 9 of circular cross-section formed with a rounded arrow head 10 at one end, which head 10 comprises the twistlock head 10.
• the twistlock head 10 is only as wide as the diameter of the twistlock shaft 9 but the sides 11 of the twistlock head 10 are wider than the diameter of the twistlock shaft 9.
• the twistlock shaft 9 is housed within a twistlock guide 12 and is rotatable therein.
• the twistlock guide 12 has the same cross-section as the twistlock head 10 so that when the twistlock head 10 is aligned with the twistlock guide 12, the twistlock head 10 is flush with the twistlock guide 12 but, when the twistlock head 10 is rotated through 90° with respect to the twistlock guide 12, the sides 11 of the twistlock head 10 become exposed.
• twistlock shaft 9 extends through the twistlock guide 12 and through the twistlock mounting plate 6 in which the twistlock shaft 9 is journalled by means of a spherical and annular thrust bearing and washer assembly 13.
• the twistlock shaft 9 terminates on the other side of the twistlock mounting plate 6 opposite the twistlock head 10 in a split collar 14 to which is secured a twistlock cap 15.
• the twistlock cap 15 is provided with an eccentric projection 16 which is best seen in Figure 3.
• a lug 17 is mounted on the eccentric projection 16 which is engaged by an actuating piston 18 mounted, at its other end, to the twistlock mounting plate 6.
• Actuation of the piston 18 causes the lug 17 to move through 90° about the centre of the twistlock cap 15 thereby rotating the twistlock head 10 at the other end of the twistlock shaft 9 through 90°.
• This mechanism comprises the twistlock assembly 5 and allows the twistlock head 10 to engage or disengage a corner casting of a container in response to actuation of the actuating piston 18, which actuation is controlled by a spreader operator.
• twistlock shaft 9 is journalled in the twistlock mounting plate 6 but no lateral or longitudinal movement of the twistlock mounting plate 6 with respect to the twistlock shaft 9 is permitted.
• the corner box 8 which closes the end of the end beam leg 7 is formed with an aperture 19 through which the twistlock guide 12 and shaft 9 pass.
• the twistlock guide 12 and the shaft 9 pass through a closed lower end of the corner box 8 which is herein termed the landing plate 20.
• Four tie rods 21 (of which two can be seen in Figures 3 and 4) are fixed to and extend from the landing plate 20.
• the tie rods 21 project through the twistlock mounting plate 6 and terminate at and are fixed to an absorber mounting plate 22.
• Two further tie rods 24, shorter than the three previously described tie rods 21, extends from the absorber mounting plate 22 to the region of the twistlock mounting plate 6 to which the actuating piston 18 is fixed.
• twistlock shaft 9 which is pivotly mounted on the twistlock mounting plate 6 pushes against the six tie rods 21, 24, thus causing the absorber mounting plate 22 to compress the main shock absorber 23.
• the upper end of the corner box 8 is formed internally with a further plate in spaced relation to the landing plate 20, which further plate is herein termed the intermediate plate 25.
• the intermediate plate 25 is not located immediately adjacent the upper end of the corner box 8 but is, instead, located slightly within ,the corner box 8 to define a small recess at the upper end of the corner box 8.
• This recess is filled with an intermediate shock absorber 26 which is sandwiched between the intermediate plate 25 and the lower surface 4B of the end beam 4 such that, when the landing plate 20 comes into contact with another surface, not only is the main shock absorber 23 deformed to absorb shock but also the intermediate shock absorber 26 is deformed to absorb shock.
• the main and intermediate shock absorbers 23, 26 may be made from materials such as engineering elastomers, both synthetic or natural, or a combination. Alternatively, a hydraulic shock absorber may also be used in absorber 23.
• the maximum compression of the intermediate shock absorber 26 is governed by the depth of the recess provided at the upper end of the corner box 8.
• the intermediate shock absorber 26 When the intermediate shock absorber 26 is compressed by the landing plate 20 of the corner box 8 contacting a surface then, at maximum compression of the intermediate shock absorber 26, the edges of the corner box 8 will contact the lower surface 4B of the end beam 4 so that no more force will be absorbed by the intermediate shock absorber 26.
• the twistlock head 10 is incorrectly aligned with a corner casting and is forced into the leg 7 of the end beam 4 compressing the main shock absorber 23, compression of the main shock absorber 23 is limited to the distance between the edge of the corner box 8 at the upper end and the lower surface 4B of the end beam 4 as shown in Figure 3.
• Maximum compression is shown in Figure 5 which illustrates the twistlock head 10 being accurately located in a container corner casting, all the shocks being caused by the landing plate 20 contacting the corner casting rather than the twistlock head 10 contacting any part of the container corner casting.
• Figure 6 shows the twistlock head 10 missing the aperture in a container corner casting and subsequently compressing the main and intermediate shock absorbers 23, 26.
• twistlock mechanism 5 is allowed some degree of play in order to maximize the number of occasions upon which the twistlock head 10 can be located in an aperture in a corner casting.
• a floating twistlock mechanism 5' may be provided such as the one shown in Figure 7.
• This twistlock mechanism 5• may be entirely interchangeable with the mechanism 5 shown in Figures 1 to 6.
• the rounded arrow-shape of the twistlock head 10 means that, should the twistlock head engage an edge of an aperture of a corner casting, then the twistlock shaft 9 is allowed to rotate about a point just above the twistlock cap 15 so that the twistlock head 10 can slide into the aperture.
• Play or float may be provided by a pair of thrust washers 13 which secure the twistlock guide 12 and shaft 9 to the twistlock mounting plate 6.
• the washers 13 are of a diameter slightly greater than that of the twistlock shaft 9, thereby allowing lateral movement of the shaft 9 with respect to the mounting plate 6.
• the twistlock guide 12 may be provided with a necked portion 12• which allows movement of the twistlock shaft 9 within the aperture 19 in the landing plate 20 of the corner box 8.
• the amount of float is limited to a maximum of 8 mm in any direction from the true centre line of the twistlock shaft 9.
• the spreader can accommodate minor deformities, defects and inaccuracies in the manufactured corner castings and containers may thus be more easily engaged with the spreader.
• engagement of the twistlocks in the corner castings becomes a faster operation since it requires less accuracy in the positioning of the spreader.
• Figure 8 shows a spreader body shock absorber assembly 30 which provides shock absorption between the main body 2 of the spreader 1 and a telescopic arm 3 of the spreader 1.
• a shock absorber 31 is mounted on the main body 2 of the spreader 1 by a mounting plate 32, the other end of the shock absorber 31 being attached to an arm plate 33.
• An intermediate shock absorber 34 is provided on the arm plate 33 and is sandwiched between the arm plate 33 and a wear pad 35 which contacts the telescopic arm 3.
• the telescopic arm 3 is slidable over the wear pad 35.
• This shock absorber assembly 30 enables some of the shock imparted by the container onto the spreader 1 to be absorbed between the telescopic arms 3 and the main body 2 of the spreader 1, thus reducing the magnitude of any shocks transmitted to the main body 2 of the spreader 1.
• Some spreaders 1 are produced for lifting twin 20- foot ISO containers. Such spreaders 1 may also incorporate shock absorption assemblies according to the present invention.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Load-Engaging Elements For Cranes (AREA)
• Vibration Dampers (AREA)

Priority Applications (5)

Applications Claiming Priority (4)

Publications (1)

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Family Applications (1)

Country Status (9)

Cited By (1)

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Citations (6)

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• 1994
  • 1994-10-13 GB GB9420673A patent/GB2294027B/en not_active Expired - Fee Related
• 1995
  • 1995-10-10 CA CA002202498A patent/CA2202498A1/en not_active Abandoned
  • 1995-10-10 EP EP95932160A patent/EP0785902B1/de not_active Expired - Lifetime
  • 1995-10-10 WO PCT/IB1995/000860 patent/WO1996011873A1/en not_active Application Discontinuation
  • 1995-10-10 DE DE69506898T patent/DE69506898T2/de not_active Expired - Lifetime
  • 1995-10-10 AU AU35319/95A patent/AU3531995A/en not_active Abandoned
  • 1995-10-10 CN CN95195643.4A patent/CN1070456C/zh not_active Expired - Fee Related
  • 1995-10-10 JP JP51307296A patent/JP3504669B2/ja not_active Expired - Fee Related
• 1998
  • 1998-06-01 HK HK98104718A patent/HK1005616A1/xx not_active IP Right Cessation

Patent Citations (6)

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