A custom testing procedure designed for a truck chassis mounted with a mobile crane and elevating work platform for use on road and rail.
Rooftop Crane Steel Frame and Shoring
Design, fabrication drawings and site review of a temporary steel frame and shoring for a rooftop mounted crane for use during renovation construction of a multistory building.
About this Project
Retrofitting older buildings in the tight landscape of Toronto requires equipment to be lifted to the roofs of large buildings with minimal impact on traffic flow and road closures. To overcome this issue, our client mounts cranes on the rooftop for use during construction. Equipment can then be raised without using a road crane that would block traffic for extended periods of time.
Our role was to design a structural steel support frame to mount the crane (Terex CDK 100-16) and design the shoring to safely support the crane and loads on the existing building structure. The steel frame is designed in modular sections that can be brought up through the existing building or hoisted with a swing hoist and assembled on the rooftop using bolts. The crane is assembled and attached to the frame and the frame is attached to the building.
The shoring is installed below the steel frame contact points and distributes the load over a larger surface area to prevent damage to the building. Steel posts were used as the shoring support in conjunction with steel plates and threaded bars to hold them in place. The thread bar anchors are an actively tensioned anchor system which minimize or eliminate deformations.
An offload platform consisting of eight platforms, each with a load arm and gangway to connect to each railcar, seven walkways connecting the platforms, two fixed ladders and a main access stair.
Collaborative project to study and evaluate the effect of wear, environmental degradation and work environment on fall protection lanyard strength.