Abstract: A lifting method comprising supporting a payload (20) using a first lifting apparatus (18); and activating an emergency lifting apparatus (14) to raise the payload a predetermined distance in response to an emergency signal. The emergency lifting apparatus is configured to be activated to lift the payload a predetermined distance in response to an emergency activation signal. The method and apparatus are particularly useful in the event of a failure of the first lifting apparatus: the emergency lifting apparatus may be activated to lift the payload a relatively small distance sufficient to clear adjacent structures. This may be particularly advantageous in offshore operations, where the first lifting apparatus is supported on a floating vessel which will experience heave.

Abstract: The present invention is related to a method for coupling an offshore structure (1), such as a jacket leg of an offshore platform, to a hoisting block (19) of a hoisting installation (13), preferably a floating hoisting installation. The present invention is also related to a hoisting block provided with a first coupling part of a system according to the invention and to an offshore structure provided with a second coupling part of a system according to the invention. The present invention is further related to a method for coupling a jacket of an offshore platform comprising a number of jacket legs to hoisting blocks suspended from hoisting cables (17) of a hoisting installation, wherein each jacket leg is coupled to a hoisting block according to the method for coupling a jacket leg of an offshore platform to a hoisting block suspended from hoisting cables of a hoisting installation according to the invention.

Abstract: The present disclosure relates to a hydraulic system for a crane with at least one hydraulic circuit, which comprises at least one hydraulic consumer, and a constant pressure network, wherein the at least one hydraulic circuit is coupled with the constant pressure network via at least one pressure reducer, whereby a higher volume flow with low pressure as compared to the constant pressure network can be generated in the hydraulic circuit.

Abstract: The invention relates to a marine load raising and lowering system for use on a vessel, comprising: i. a first winch comprising first driving means for raising or lowering a first cable from the first winch; ii. a second winch comprising second driving means for raising or lowering a second cable from the second winch; iii. operating means connected to the first and second driving means of respectively the first and second winch for synchronising the driving means so as to perform synchronous raising or lowering of the first and second cable; iv.

Abstract: The invention relates to a transporter container-loading bridge comprising a two-armed traveling support, a lifting gear, a traveling mechanism and at least one portal, characterized in that at least two trolleys travel on individual tracks of the traveling support on the transporter container-loading bridge with their paths crossing. According to the invention, the running track of one trolley is located above and inside the track of the other trolley, wherein both trolleys travel along both sides of their running tracks. The invention provides the advantage that several trolleys can travel independently from each other without having to transfer, rotate or surrender their load.

Abstract: A fixed structure is shaped like a pier and equipped on an upper part with a slide guide. A length of the pier extends from land to a point at sea where the depth is such as to allow boats to be transported to float. A trolley slides along the pier. At least two arms extend from the trolley transverse to the pier. The arms are equipped with independent hoisting devices for harnessing the boats. The arms also have a sliding counterweight and are equipped with devices which indicate the horizontal position of the arms and control the movement of the sliding counterweight. The arms are also equipped with commands with which the hoisting devices and other motorized parts of the machine are controlled.