Downer and Jonel show how to safely launch steel across water
- May 15, 2018
- Posted by: admin-jonel
Downer’s custom-engineered steel bridge launching nose, features a bespoke design controller (yellow components in picture). This was developed in partnership with Downer and Jonel Hydraulics to maximise safety when launching bridge sections over the Ongarue River as part of a major KiwiRail infrastructure project.
The new Ongarue Bridge launch nose controller, was a feature of a seven-bridge project involving a host of other Enerpac bolting, pumping, heavy lifting and positioning and fine control technologies available throughout Australasia and globally.
The KiwiRail project by Downer, completed this year, will permanently improve the country’s main trunk rail network and allow more freight to be carried over strongly refurbished structures to busy destinations including ports and intermodal facilities.
“Safety was a keynote of the entire project, extending over nearly five years. The longitudinally launched Ongarue bridge sections posed unique challenges in this regard, compared with the rest of the bridge launches, which were lateral launches involving shorter distances,” says Jonel Business Development Manager Mr Shane Quigley.
Downer and Jonel worked through a range of pivot positions and leverage points to ensure precision guidance and placement of bridge sections, employing the cantilevered nose incorporated in a bolted steel frame (below) driven by Enerpac Hydraulics.
The entire launch, tension, position and lowering systems developed by the partnership comprised:
- Two pairs of RCH-306 30-ton single-acting cylinders locked together base-to-base projecting force outwards within the hinged frame to provide lowering and positioning force
- Two RC-2514 single-acting cylinders locked in the hinge frame to provide lifting and positioning force
- Specialised hollow single-acting cylinder to tension MacAlloy bars – used to support the cantilever support section of the main bridge structure
- Two pairs of specialised double-acting hollow cylinders used to lower and position each section
- An Enerpac ZE3410SE hydraulic electric pump, specified to provide best performance for mid-range cylinders and tools, was used in combination to provide lift and lowering of the launch nose. The ZE pump’s high-strength, moulded electrical box protects electronics, power supplies and LCD readout and stands up to harsh industrial environments such as this
- An Enerpac PUJ-1201E hydraulic electric pump with two-speed pump operation for reduces cycle times and improved productivity was used in combination with Enerpac low-profile lock ring cylinders used to take up load on cantilevered sections. The low-profile cylinders – part of a range designed to fit compactly into confined spaces – were selected to ensure optimum mechanical load holding safety.
Low-pressure double-acting cylinders were used to launch bridge sections longitudinally from the launching bed, with rollers being used in five positions over the launch series.
The control functions are shown on the right.
Bridge sections involved in the entire seven-bridge project were assembled using Enerpac professional bolting technology, which demonstrated outstanding safety over more than 250,000 torque cycles requiring high precision and repeatability.
An energy-saving new generation Enerpac ZU torque wrench pump, specified for high-cycle maintenance tasks, was used to actuate the S1500 and S3000 wrenches used for the tasks involved.
This image shows the team governing launching and positioning operations.
“Operators found our Enerpac auto cycle feature torque pumps indispensable, speeding up the whole job with high flow output and by allowing operators to focus on the final bolt head position,” said Mr Quigley.
The five other bridges in the project besides the Ongarue bridge (at Whiritoa, Taringamotu, Opotiki, Mangakahikatea, and Waihuka) – used low-pressure double-acting cylinders to launch sections by sliding them sideways from beams to falsework. Enerpac RC-506 standard cylinders were used in this operation to aid removal of sliding beams and to adjust bridge longitudinal positioning during the sliding and final placement. The safe and reliable workhorse single-acting RC cylinders were also used to lower the bridge onto bearing pads.
“Reliability of the equipment was outstanding too. Enerpac all-steel torque wrenches are known for durability and the Enerpac name is a byword for safety and reliability. All the equipment we supplied for the project worked seamlessly, without interruption. We ensured spare components were available if needed, but everything functioned correctly without breakdown.”
“The investment in planning preparation and precision execution was essential because this is a key public infrastructure building project, with benefits that will extend decades into the future. Not only were we concerned to ensure that worksite safety was observed in bolting operations on the day, but equally that the finished bolted product was the best of its type, engineered for outstanding future reliability.”