Various hoisting systems with anti-two-block sensing devices are provided. In one embodiment, an apparatus includes a hoisting system having a hoisting line, a sleeve positioned on the hoisting line, and an anti-two-block sensing device installed about the hoisting line so as to allow the hoisting line to move through the anti-two-block sensing device. The anti-two-block sensing device includes a detector positioned to detect a sleeve component when the sleeve is present within the anti-two-block sensing device. Additional systems, devices, and methods are also disclosed.

A hoist lifting system having planning and monitoring of components. The system monitors one or more components and may have a processing structure and memory storing instructions to configure the processing structure to: receive hoist machine data; determine a rotation speed of a bearing, a travel speed of a rope, a load on the bearing, a friction in the at least one bearing based on the hoist machine data; and store the rotation speed, the travel speed, the load, and the friction in a maintenance database in memory. The hoist lifting system may have the processing structure determine a wear of one or more components.

A hoist lifting system having planning and monitoring of components. The system monitors one or more components and may have a processing structure and memory storing instructions to configure the processing structure to: receive hoist machine data; determine a rotation speed of a bearing, a travel speed of a rope, a load on the bearing, a friction in the at least one bearing based on the hoist machine data; and store the rotation speed, the travel speed, the load, and the friction in a maintenance database in memory. The hoist lifting system may have the processing structure determine a wear of one or more components.

A wire rope hoist limiter device, includes a fastener arranged to be fastened around the wire rope of the wire rope hoist; a sliding weight arranged to slide along the wire rope of the wire rope hoist towards the fastener; and a detector arranged to be fastened to the wire rope of the wire rope hoist by means of the fastener. The detector is arranged to detect the sliding weight at a certain distance from the fastener and to give a stop signal for the wire rope hoist in response.

A wire rope hoist limiter device, includes a fastener arranged to be fastened around the wire rope of the wire rope hoist; a sliding weight arranged to slide along the wire rope of the wire rope hoist towards the fastener; and a detector arranged to be fastened to the wire rope of the wire rope hoist by means of the fastener. The detector is arranged to detect the sliding weight at a certain distance from the fastener and to give a stop signal for the wire rope hoist in response.

A load verification system includes a first sensor configured to determine an identifier associated with a target object, a second sensor configured to determine a load borne by a machine handling the target object, and a controller configured to determine a load threshold based on the identifier, compare the load with the load threshold to determine whether the load threshold is exceeded, and, on condition that the load threshold is exceeded, selectively restrict movement of the machine.

A load verification system includes a first sensor configured to determine an identifier associated with a target object, a second sensor configured to determine a load borne by a machine handling the target object, and a controller configured to determine a load threshold based on the identifier, compare the load with the load threshold to determine whether the load threshold is exceeded, and, on condition that the load threshold is exceeded, selectively restrict movement of the machine.

A hoist lifting system having planning and monitoring of components. The system monitors one or more components and may have a processing structure and memory storing instructions to configure the processing structure to: receive hoist machine data; determine a rotation speed of a bearing, a travel speed of a rope, a load on the bearing, a friction in the at least one bearing based on the hoist machine data; and store the rotation speed, the travel speed, the load, and the friction in a maintenance database in memory. The hoist lifting system may have the processing structure determine a wear of one or more components.

A hoist lifting system having planning and monitoring of components. The system monitors one or more components and may have a processing structure and memory storing instructions to configure the processing structure to: receive hoist machine data; determine a rotation speed of a bearing, a travel speed of a rope, a load on the bearing, a friction in the at least one bearing based on the hoist machine data; and store the rotation speed, the travel speed, the load, and the friction in a maintenance database in memory. The hoist lifting system may have the processing structure determine a wear of one or more components.

An induction sensor assembly for a securing and locking unit of a telescoping jib having at least one signal transmitter configured for generating an electromagnetic stray field oriented towards its active switching surface, and at least one switching element provided for contactless cooperation with the signal transmitter. The signal transmitter and switching element are displaceable relative to each other in relation to an adjusting direction extending in parallel with a main plane. To provide a simple and cost-effective installation of the induction sensor assembly despite having high detection security, the active switching surface of the signal transmitter and the main plane are inclined with respect to each other. As such, the electromagnetic stray field of the signal transmitter is also advantageously inclined whereby a possible displacement between the signal transmitter and switching element cannot exert an influence on the precision of the position detection in relation to the adjusting direction.