Duty holders are advised to ensure that:
- when high winds are forecast, the positioning, and if necessary, the securing of crane booms, is in accordance with the relevant crane manufacturer’s guidance
- if manufacture’s guidance outlines that the boom should be stowed in the boom rest, slack rope should not be allowed to form between the sheaves in the ‘A’ frame and those at the boom tip or bridle assemblies
- cranes are operated in a controlled and smooth manner to reduce, so far as is possible, any bouncing of the crane boom
- when a crane is designed to have sheave rope retention bars fitted, these are in a good condition
- crane pre-use checks include the requirement to verify that all the ropes are correctly seated and running in the rope sheaves
- when new boom hoist ropes are fitted that the method of installation reduces the possibility of a twist being introduced into the new rope.
On one crane the rope came off a sheave in the 'A' frame and then dropped down onto an adjacent sheave bearing housing. This caused considerable wear and damage to the bearing housing.
On the other crane, the rope climbed out of a sheave in the boom tip and dropped down into the gap between this sheave and boom tip side plate. This also resulted in the rope being forced up against a structural member in the boom tip structure. The rope then cut a groove almost fully through this structural member.
Consequently, both boom hoist ropes suffered such serious damage that they eventually failed whilst the cranes were undertaking lifting operations.
Neither affected crane is pictured in the image above.
In the case of both incidents, the said ropes may have come off a sheave due to one of the following three reasons:
First, if too much slack rope is allowed to form between the 'A' frame sheaves and the boom tip sheaves when a crane boom is stowed in the boom rest, it is possible that strong winds could cause the rope to whip up, onto and over, part of the rim of a sheave in the 'A' frame. When the boom is raised again out of the rest, this could cause the section of rope over the sheave rim to pull up against the sheave rope retention bar and to squeeze through the gap between the sheave rim and the retention bar leaving it completely off the sheave.
Second, the way in which the crane boom is hoisted and lowered may result in some bouncing of the boom. Bouncing of the boom may lead to slack forming in the boom hoist rope, allowing it to jump up, onto and over, part of the rim of a sheave in the 'A' frame. It is possible that this section of rope over the sheave rim would then pull up against the sheave rope retention bar. If the rope subsequently managed to squeeze through the gap between the sheave rim and the retention bar it would then be completely off the sheave.
Third, during the rope installation process, it is possible that a twist could be introduced into the new rope as it is installed. If the new rope is being pulled on by the old rope and if the swivel system on the rope connections is not functioning correctly any twist in the old rope could then be transferred into the new rope. It should also be noted that if the rope fleet angle between the new rope reel stand and the reeving sheave is sufficiently large then the rope could roll down the side of the reeving sheave groove during installation. This rolling action may also introduce a twist into the rope.
Any twist would be locked into the rope and during service this would work its way back towards the fixed rope anchorage in the 'A' frame. If the crane boom is placed into the boom rest and slack rope is allowed to form, with no tension now in the rope, it would try to untwist. As it untwists, the rope may climb up in the groove of the last sheave in the boom tip before the rope anchorage, resulting in the rope being positioned over the rim of this sheave.
When the crane boom is subsequently raised out of the rest it is possible that the rope may become nipped between the sheave rope retention bar and the rim of this last sheave. If Nylon sheaves are fitted, should this occur, the rope may cause subsequent damage to the said sheaves.
HSE also advises that when installing a new boom hoist rope by towing it on with the old rope, consideration should be given to:
- using a swivel or a loop of small diameter fibre rope as the connection between the two rope socks. The swivel used should be of a type suitable for running through the rope sheaves. Using these types of connections will reduce the possibility of any twist, which may have developed in the old rope during service, from being transferred into the new rope
- positioning the new boom hoist rope reel stand such that the rope has as straight a run as possible onto the reeving sheave and this is positioned directly in line with first sheave in the crane reeving system. This will ensure the rope fleet angles are as low as possible, which should reduce the possibility of any twist being introduced into the new rope as it is installed.