Long-Twin Operation at Montecon
09 November 2023, Krimpen aan de Lek
The Stinis ‘Long-Twin’ is the original concept for a separating twin-20 spreader where the distance between two 20ft boxes can be adjusted by up to 1.6m.
“The Long-Twin concept was developed and patented by Kees Stinis in the mid-1990s,” said Lisette Stinis, who now heads the company. “Today, it is the standard for ship-to-shore gantry crane operations and a popular option for straddle carrier spreaders. It is nice to see that the concept is still evolving.”
The impetus to develop the Long-Twin MHC version came from Montecon SA in Montevideo, Uruguay, which uses three high-capacity Liebherr LHM 800 MHCs and enquired about the possibility of incorporating the Long-Twin separating mechanism into an MHC spreader. Stinis took up the challenge and developed a new product for MHCs.
The Long-Twin MHC spreader combines Stinis’s existing MHC spreader design with the well-proven twin-20 inner twistlock assemblies and separating mechanism from the STS Long-Twin design.
Staying on the level
One of the biggest challenges in applying the Long-Twin concept to an MHC spreader is the centre of gravity (CoG) adjustment to keep the spreader level. Stinis MHC spreaders feature a CoG design where the spreader frame moves inside the mounting frame, rather than a tower that slides atop the spreader.
For the Long-Twin MHC spreader, Stinis has developed a two-piece design where a new CoG mechanism is contained in the upper section that is connected to the MHC load hook. This part resembles a headblock and is connected with twistlocks to the spreader unit itself (as pictured).
The CoG system includes an inclinometer that provides a signal to a PLC to control a skew cylinder that moves the upper beam that supports the spreader left and right to keep the spreader itself level. The maximum allowable weight difference between two 20ft containers is 15t. Stinis has tested the system to a higher weight differential, but 15t has been selected as the operating parameter. If the weight difference exceeds this level, the control system indicates that the containers cannot be handled together.
For integration with the crane’s control system, Stinis provides a 36-pin plug for control signals. As Montecon’s Liebherr LHM 800 was delivered in 2019, not all the spreader functions are integrated into the crane controls. Stinis supplied a separate remote control unit that operates certain features, including the twin-20 detection system bypass.
Lifting Capacity
As MHCs are jib cranes with a load capacity that decreases as outreach increases, the SWL under the spreader follows the load curve set by the crane OEM Importantly, the load curve for twinlift spreader operations has to take into account the spreader weight. For Montecon, the complete Long-Twin MHC spreader system weighs 18.3t. However this includes Stinis’s Shock Absorbing System, which weighs 800 kg. The spreader is also built to handle a 50t load in the 45ft position, which requires extra plate thickness in some areas and it is equipped with six flippers. Stinis sales manager Huib Schot said that a lighter version designed to handle a maximum of 41t in the 40ft position would weigh less than 17t.
Montecon’s LHM 800 is Liebherr’s largest MHC, so the spreader weight is not an operational constraint. As Montecon is located in the vicinity of residential areas, Stinis proposed its Active Shock Absorbing System which reduces impacts by 50% and noise by 3 dB during landing and hoisting, which is important in 24/7 operations, but, as noted above, adds weight.
For the LHM 800, the Stinis Long-Twin is the crane’s main spreader, and Montecon intends it to stay on the crane for all container operations. For other terminals with smaller MHCs, the weight of the spreader could result in some operational constraints. Schot said Stinis is talking to some interested customers about how they can manage the extra weight and benefit from the increased productivity of the Long-Twin design with smaller MHCs.
This has to be considered on a case-by-case basis, but Schot said it is possible that some terminals might opt to use the Long-Twin only for handling empties or lightly loaded containers, in the same way as terminals with lower capacity STS gantry cranes use twinlift spreaders. This is particularly the case for terminals that handle large numbers of empty reefer containers, sometimes a whole vessel, brought in to load seasonal cargo.
With regard to the height of the Long-Twin, it is interesting to note that the spreader and headblock system are only 100mm higher than Stinis’s standard MHC spreader and CoG adjustment. To facilitate safe spreader changes without requiring a cherry picker to make the connection at the crane hook, Stinis has incorporated access stairs and a platform.
The Long-Twin MHC spreader comes on to the market at a time when MHCs are getting progressively larger, and are, therefore, better able to have the capacity to perform twinlift operations. It will be interesting to see how crane demand responds to the availability of a separating twinlift spreader. In STS gantry cranes, the Long-Twin increased the potential for twinlift operations considerably and helped make a 65t capacity hoist the virtual standard for new STS cranes.
The view from Montecon
Diego Suaìrez, operations manger at Montecon, explained that the Long-Twin spreader has significantly increased the opportunity for twin-20 container handling at the terminal in Montevideo.
Previously, Montecon had other twin-20 spreaders for its cranes, but they did not have enough capacity for the loaded containers it handles. The spreaders also had limited utility because of Montecon’s process for inspecting container seals at the point of discharge.
Montecon inspects container seals and records their numbers when the boxes are discharged onto the quay. It uses trailer sets that are long enough for a physical inspection in the space between two 20ft boxes with the doors facing each other. This inspection was not possible with a non-separating twin- 320 spreader. This factor, together with the loading capacity limitation, meant Montecon only used the twinlift spreaders to handle empty containers, so around 7% of its 20ft container throughput could be handled in twinlift mode.
With the Stinis Long-Twin spreader, the spreader capacity and inspection issues are resolved, and Montecon expects to make much greater use of twinlift operations. “We estimate we can increase productivity by about 10% in terms of moves per hour per crane using these spreaders,” said Suaìrez.
While there is potential to also use a Long-Twin on some of the other cranes, the 20ft to 40ft container ratio at the terminal means there would not be much opportunity to use more than two cranes at a time in twinlift mode.
With regard to implementing the new spreader, Monte- con’s instructors undertook a short training course and were then able to instruct the rest of the operators. Suaìrez said that the operators had to adjust to the greater weight of the new spreader and its different response to control commands, “but they were able to pick it up fairly easily”. The high torque of the Stinis flipper system has also proved to be a good benefit to which the operators have been able to adjust quickly.
Long-Twin Operation at Montecon
09 November 2023, Krimpen aan de Lek
The Stinis ‘Long-Twin’ is the original concept for a separating twin-20 spreader where the distance between two 20ft boxes can be adjusted by up to 1.6m.
“The Long-Twin concept was developed and patented by Kees Stinis in the mid-1990s,” said Lisette Stinis, who now heads the company. “Today, it is the standard for ship-to-shore gantry crane operations and a popular option for straddle carrier spreaders. It is nice to see that the concept is still evolving.”
The impetus to develop the Long-Twin MHC version came from Montecon SA in Montevideo, Uruguay, which uses three high-capacity Liebherr LHM 800 MHCs and enquired about the possibility of incorporating the Long-Twin separating mechanism into an MHC spreader. Stinis took up the challenge and developed a new product for MHCs.
The Long-Twin MHC spreader combines Stinis’s existing MHC spreader design with the well-proven twin-20 inner twistlock assemblies and separating mechanism from the STS Long-Twin design.
Staying on the level
One of the biggest challenges in applying the Long-Twin concept to an MHC spreader is the centre of gravity (CoG) adjustment to keep the spreader level. Stinis MHC spreaders feature a CoG design where the spreader frame moves inside the mounting frame, rather than a tower that slides atop the spreader.
For the Long-Twin MHC spreader, Stinis has developed a two-piece design where a new CoG mechanism is contained in the upper section that is connected to the MHC load hook. This part resembles a headblock and is connected with twistlocks to the spreader unit itself (as pictured).
The CoG system includes an inclinometer that provides a signal to a PLC to control a skew cylinder that moves the upper beam that supports the spreader left and right to keep the spreader itself level. The maximum allowable weight difference between two 20ft containers is 15t. Stinis has tested the system to a higher weight differential, but 15t has been selected as the operating parameter. If the weight difference exceeds this level, the control system indicates that the containers cannot be handled together.
For integration with the crane’s control system, Stinis provides a 36-pin plug for control signals. As Montecon’s Liebherr LHM 800 was delivered in 2019, not all the spreader functions are integrated into the crane controls. Stinis supplied a separate remote control unit that operates certain features, including the twin-20 detection system bypass.
Lifting Capacity
As MHCs are jib cranes with a load capacity that decreases as outreach increases, the SWL under the spreader follows the load curve set by the crane OEM Importantly, the load curve for twinlift spreader operations has to take into account the spreader weight. For Montecon, the complete Long-Twin MHC spreader system weighs 18.3t. However this includes Stinis’s Shock Absorbing System, which weighs 800 kg. The spreader is also built to handle a 50t load in the 45ft position, which requires extra plate thickness in some areas and it is equipped with six flippers. Stinis sales manager Huib Schot said that a lighter version designed to handle a maximum of 41t in the 40ft position would weigh less than 17t.
Montecon’s LHM 800 is Liebherr’s largest MHC, so the spreader weight is not an operational constraint. As Montecon is located in the vicinity of residential areas, Stinis proposed its Active Shock Absorbing System which reduces impacts by 50% and noise by 3 dB during landing and hoisting, which is important in 24/7 operations, but, as noted above, adds weight.
For the LHM 800, the Stinis Long-Twin is the crane’s main spreader, and Montecon intends it to stay on the crane for all container operations. For other terminals with smaller MHCs, the weight of the spreader could result in some operational constraints. Schot said Stinis is talking to some interested customers about how they can manage the extra weight and benefit from the increased productivity of the Long-Twin design with smaller MHCs.
This has to be considered on a case-by-case basis, but Schot said it is possible that some terminals might opt to use the Long-Twin only for handling empties or lightly loaded containers, in the same way as terminals with lower capacity STS gantry cranes use twinlift spreaders. This is particularly the case for terminals that handle large numbers of empty reefer containers, sometimes a whole vessel, brought in to load seasonal cargo.
With regard to the height of the Long-Twin, it is interesting to note that the spreader and headblock system are only 100mm higher than Stinis’s standard MHC spreader and CoG adjustment. To facilitate safe spreader changes without requiring a cherry picker to make the connection at the crane hook, Stinis has incorporated access stairs and a platform.
The Long-Twin MHC spreader comes on to the market at a time when MHCs are getting progressively larger, and are, therefore, better able to have the capacity to perform twinlift operations. It will be interesting to see how crane demand responds to the availability of a separating twinlift spreader. In STS gantry cranes, the Long-Twin increased the potential for twinlift operations considerably and helped make a 65t capacity hoist the virtual standard for new STS cranes.
The view from Montecon
Diego Suaìrez, operations manger at Montecon, explained that the Long-Twin spreader has significantly increased the opportunity for twin-20 container handling at the terminal in Montevideo.
Previously, Montecon had other twin-20 spreaders for its cranes, but they did not have enough capacity for the loaded containers it handles. The spreaders also had limited utility because of Montecon’s process for inspecting container seals at the point of discharge.
Montecon inspects container seals and records their numbers when the boxes are discharged onto the quay. It uses trailer sets that are long enough for a physical inspection in the space between two 20ft boxes with the doors facing each other. This inspection was not possible with a non-separating twin- 320 spreader. This factor, together with the loading capacity limitation, meant Montecon only used the twinlift spreaders to handle empty containers, so around 7% of its 20ft container throughput could be handled in twinlift mode.
With the Stinis Long-Twin spreader, the spreader capacity and inspection issues are resolved, and Montecon expects to make much greater use of twinlift operations. “We estimate we can increase productivity by about 10% in terms of moves per hour per crane using these spreaders,” said Suaìrez.
While there is potential to also use a Long-Twin on some of the other cranes, the 20ft to 40ft container ratio at the terminal means there would not be much opportunity to use more than two cranes at a time in twinlift mode.
With regard to implementing the new spreader, Monte- con’s instructors undertook a short training course and were then able to instruct the rest of the operators. Suaìrez said that the operators had to adjust to the greater weight of the new spreader and its different response to control commands, “but they were able to pick it up fairly easily”. The high torque of the Stinis flipper system has also proved to be a good benefit to which the operators have been able to adjust quickly.