The invention provides a system for transporting object from a sea level position to an elevated position on a structure, wherein the sea level position is movable in relation to the elevated position. The system comprises an elongated guide device configured to be arranged to the structure in one end and to extend below the sea level with a second end, an attachment device configured to be arranged on said object and for attaching said object to the elongated guide device, wherein the attachment device is configured to allow a relative movement between the attachment device and the elongated guide device along a first direction parallel to the extension direction of the guide device and a lifting device configured to transport the object from the sea level position to the elevated position. The system is characterized in that a weight is arranged to the second end of the guide device below the sea level for stabilizing the guide device, wherein the second end is a free end and the weight is a free weight.

The present application provides a launching arrangement for a lifeboat from an offshore installation. The launching arrangement may include a garage for the lifeboat, a gate of the garage that can be opened by gravity, wherein the lifeboat can be launched either as a free fall lifeboat or by a fall of a lifeboat winch in case of an emergency situation and while a power supply is off, and wherein the garage is equipped with the gate with a wire rope winch, a lower hydraulic cylinder, and an upper hydraulic cylinder; and the gate of the garage opens by gravity by simultaneous operation of a wire rope winch of the gate and the lower hydraulic cylinder and the upper hydraulic cylinder, both hydraulic cylinders working as a closed hydraulic system; and the lower hydraulic cylinder and the upper hydraulic cylinder including piston rods.

The present application provides a launching arrangement for a lifeboat from an offshore installation. The launching arrangement may include a garage for the lifeboat, a gate of the garage that can be opened by gravity, wherein the lifeboat can be launched either as a free fall lifeboat or by a fall of a lifeboat winch in case of an emergency situation and while a power supply is off, and wherein the garage is equipped with the gate with a wire rope winch, a lower hydraulic cylinder, and an upper hydraulic cylinder; and the gate of the garage opens by gravity by simultaneous operation of a wire rope winch of the gate and the lower hydraulic cylinder and the upper hydraulic cylinder, both hydraulic cylinders working as a closed hydraulic system; and the lower hydraulic cylinder and the upper hydraulic cylinder including piston rods.

The present application provides a launching arrangement for a lifeboat from an offshore installation. The launching arrangement may include a garage for the lifeboat, a gate of the garage that can be opened by gravity, wherein the lifeboat can be launched either as a free fall lifeboat or by a fall of a lifeboat winch in case of an emergency situation and while a power supply is off, and wherein the garage is equipped with the gate with a wire rope winch, a lower hydraulic cylinder, and an upper hydraulic cylinder; and the gate of the garage opens by gravity by simultaneous operation of a wire rope winch of the gate and the lower hydraulic cylinder and the upper hydraulic cylinder, both hydraulic cylinders working as a closed hydraulic system; and the lower hydraulic cylinder and the upper hydraulic cylinder including piston rods.

The present application provides a launching arrangement for a lifeboat from an offshore installation. The launching arrangement may include a garage for the lifeboat, a gate of the garage that can be opened by gravity, wherein the lifeboat can be launched either as a free fall lifeboat or by a fall of a lifeboat winch in case of an emergency situation and while a power supply is off, and wherein the garage is equipped with the gate with a wire rope winch, a lower hydraulic cylinder, and an upper hydraulic cylinder; and the gate of the garage opens by gravity by simultaneous operation of a wire rope winch of the gate and the lower hydraulic cylinder and the upper hydraulic cylinder, both hydraulic cylinders working as a closed hydraulic system; and the lower hydraulic cylinder and the upper hydraulic cylinder including piston rods.

A launch, recovery, and handling system includes a track system arranged on a deck of a ship and a stern door of the ship. The launch, recovery, and handling system also includes an aft cradle and a forward cradle that are connected to the track system and moveable in first and second directions along the track system. The aft cradle is moveable from a first position at a first area inside the ship to a second position on the stern door for at least one of launching and recovering a payload.

A launch, recovery, and handling system includes a track system arranged on a deck of a ship and a stern door of the ship. The launch, recovery, and handling system also includes an aft cradle and a forward cradle that are connected to the track system and moveable in first and second directions along the track system. The aft cradle is moveable from a first position at a first area inside the ship to a second position on the stern door for at least one of launching and recovering a payload.

A foldaway balcony that includes a vertical support, a platform structure tiltably mounted to the vertical support and a barrier structure mounted on the platform structure. The platform structure includes a support structure and a floor structure which are tiltable separately from one another relative to the vertical support. The barrier structure includes barrier elements, hinged at the edge of the platform structure, and tiltable between a stowed position in which they lie inside the support structure, and a deployed position, in which they stand up relative to the support structure. A barrier element, connected to a distal side of the edge of the platform structure includes a first and a second pair of stanchions hinged to the distal side, a first and a second rod which interconnect the upper ends of the stanchions, and a handrail with parallel guides, in which are housed the first and the second rods.

The present invention relates to an evacuation system for a vessel or offshore facility, comprising a storage unit having a length, a width and a height defining a volume of the storage unit, the storage unit in a storage situation being adapted to house one or more self-propelling, inflatable floatable units, the inflatable floatable units each having a capacity of more than 150 persons, and a deployment arrangement having a displacement device, wherein a maximum height of the storage unit is 2.7 meters, and the displacement device is adapted to displace the one or more self-propelling, inflatable floatable units in a substantially horizontal and linear direction out of the storage unit below the maximum height and subsequently lower the one or more self-propelling, inflatable floatable units into the water in a substantially vertical direction.

The present invention relates to an evacuation system for a vessel or offshore facility, comprising a storage unit having a length, a width and a height defining a volume of the storage unit, the storage unit in a storage situation being adapted to house one or more self-propelling, inflatable floatable units, the inflatable floatable units each having a capacity of more than 150 persons, and a deployment arrangement having a displacement device, wherein a maximum height of the storage unit is 2.7 meters, and the displacement device is adapted to displace the one or more self-propelling, inflatable floatable units in a substantially horizontal and linear direction out of the storage unit below the maximum height and subsequently lower the one or more self-propelling, inflatable floatable units into the water in a substantially vertical direction.