A smart clamp load handler configured for controlling movement of its clamp arms and force applied by its clamp arms by changing positions of one or more solenoid operated valves to control hydraulic fluid flow to and from clamp arm actuators, based on pressure measurements from one or more pressure sensors.

A driverless automatically guided transport vehicle for conveying payloads, for example a material transport vehicle in a factory, having a payload lifting apparatus. In order to offer a transport vehicle which is improved with regard to the securing of loads, it is proposed that the transport vehicle has a retaining apparatus for securing the load on the transport vehicle, the activation of which retaining apparatus is positively coupled to the lifting movement of the lifting apparatus.

A driverless automatically guided transport vehicle for conveying payloads, for example a material transport vehicle in a factory, having a payload lifting apparatus. In order to offer a transport vehicle which is improved with regard to the securing of loads, it is proposed that the transport vehicle has a retaining apparatus for securing the load on the transport vehicle, the activation of which retaining apparatus is positively coupled to the lifting movement of the lifting apparatus.

A manipulator for transporting a load laterally with respect to a vehicle includes a support frame adapted for mounting on a vehicle. A movable guide is supported by the support frame for lateral translation with respect to the support frame. A carriage which is capable of supporting a load engaging attachment for supporting a load is supported by the guide for translation with respect to the guide in the lengthwise direction of the guide. The carriage can translate with respect to the guide in the lengthwise direction of the guide at the same time that the guide is translating laterally with respect to the support frame.

A load handler is capable of loading and unloading tall unitary resilient loads such as large construction tires or other tall compressible loads such as bales normally considered incompatible for shipment in standard closed-top containers, to enable such compatibility economically. The load handler has a pair of vertically spaced load clamping arms, the upper arm being capable of rotating such a resilient load selectively onto or off of the lower arm while the load is compressed between the load clamping arms.

A vehicle to collect and transport flat articles; the vehicle being configured to transport at least 500 kg; the vehicle comprises a frame having at least one support device, which is configured to receive a plurality of flat articles; a first moving device, which is configured to move said vehicle; at least one holding device, which is configured to hold, grab and release at least one flat ceramic article; and a moving assembly to move at least one of either the holding device or said support device relative to the other one along at least one moving trajectory, which is at least partially vertical.

An insulated metal panel (IMP) assembly system includes a panel assembly table and a boom IMP attachment. The panel assembly table allows for assembly of a panel module at ground level. The boom IMP attachment features a quick-coupler couplable to the boom of a telehandler, a swivel coupler column, one or more tilt linear actuators configured to tilt the orientation of a panel module, and one or more hydraulic rotation linear actuators configured to rotate the orientation of the panel module. The boom IMP attachment also includes a jib frame, a plurality of jib arms spanning outwards from the jib frame, and one or more clamp header rails having a plurality of clamp assemblies, each configured to grip a frame member of the panel frame of the panel module. The boom IMP attachment may hoist, tilt, and rotate the panel module.

A vehicle system includes a chassis and a lift assembly. The chassis includes a frame defining a first aperture and a second aperture. The lift assembly includes an adapter assembly and a lift device. The adapter assembly includes (a) an adapter defining a first pin aperture, a second pin aperture, and an adapter aperture, (b) a first pin extending through the first aperture and the first pin aperture and a second pin extending through the second aperture and the second pin aperture to selectively couple the adapter to the frame, and (c) a cross member configured to be received by the adapter aperture. The lift device includes a pair of receivers configured to engage the cross member of the adapter assembly to support the cross member. The first pin aperture and the adapter aperture each extend laterally when the adapter is coupled to the frame.

A product conveyance system includes: a storage box in which a product is stored; and a product conveyance robot including a travel portion and a holding portion provided above the travel portion and configured to hold the storage box. The holding portion includes a pair of support columns provided in a standing manner with an interval between the support columns in the width direction. Each of the support columns includes: one or more support rails configured to support the storage box in the height direction, the storage box being placed between the support columns; and one or more lock pins provided on a facing surface of the each of the support columns, the facing surface facing the other one of the support columns, the one or more lock pins being configured to protrude and retract in the width direction.

A product conveyance system includes: a storage box in which a product is stored; and a product conveyance robot including a travel portion and a holding portion provided above the travel portion and configured to hold the storage box. The holding portion includes a pair of support columns provided in a standing manner with an interval between the support columns in the width direction. Each of the support columns includes: one or more support rails configured to support the storage box in the height direction, the storage box being placed between the support columns; and one or more lock pins provided on a facing surface of the each of the support columns, the facing surface facing the other one of the support columns, the one or more lock pins being configured to protrude and retract in the width direction.