Several aspects of this disclosure relate to a translocatable hopper that is mounted for example at the forward part of a front-end loader vehicle. The hopper receives, re-positions and delivers a slurry to a jobsite and preferably is detachably attached to a vehicle. In several embodiments, the hopper is translocatable from a resting position to a delivery position through one or more intermediate positions. Preferably, a front wall has an outlet gate and a chute extending therefrom. The chute is configured to direct slurry into the jobsite, A rising and falling sluice gate is associated with the chute. The slurry moves outwardly from the chute when the sluice gate is at least partially opened as the hopper is placed at or near or above the delivery position above the jobsite.

Several aspects of this disclosure relate to a translocatable hopper that is mounted for example at the forward part of a front-end loader vehicle. The hopper receives, re-positions and delivers a slurry to a jobsite and preferably is detachably attached to a vehicle. In several embodiments, the hopper is translocatable from a resting position to a delivery position through one or more intermediate positions. Preferably, a front wall has an outlet gate and a chute extending therefrom. The chute is configured to direct slurry into the jobsite, A rising and falling sluice gate is associated with the chute. The slurry moves outwardly from the chute when the sluice gate is at least partially opened as the hopper is placed at or near or above the delivery position above the jobsite.

Disclosed herein are various configurable, multifunctional area management carts that can be used to perform various functions in a large area such as a warehouse or retail building, along with various multifunctional area management systems that incorporate such carts to perform such functions. The cart can have a base comprising wheels operably coupled to the base, and a hitch operably coupled to the base, wherein the hitch is coupleable with the autonomous prime mover. The cart can also comprise an onboard processor associated with the base, wherein the onboard processor is in communication with the central processor, and an interface associated with the base, wherein the interface is in communication with the onboard processor. Certain alternative versions of the cart can also have at least one removable scaffold coupleable with the base, the at least one removable scaffold comprising at least one leg and at least one horizontal structure coupled to the at least one leg, and at least one area management instrument removably coupled to the at least one removable scaffold.

Disclosed herein are various configurable, multifunctional area management carts that can be used to perform various functions in a large area such as a warehouse or retail building, along with various multifunctional area management systems that incorporate such carts to perform such functions. The cart can have a base comprising wheels operably coupled to the base, and a hitch operably coupled to the base, wherein the hitch is coupleable with the autonomous prime mover. The cart can also comprise an onboard processor associated with the base, wherein the onboard processor is in communication with the central processor, and an interface associated with the base, wherein the interface is in communication with the onboard processor. Certain alternative versions of the cart can also have at least one removable scaffold coupleable with the base, the at least one removable scaffold comprising at least one leg and at least one horizontal structure coupled to the at least one leg, and at least one area management instrument removably coupled to the at least one removable scaffold.

A device support assembly for an electrical device, in particular a transformer or a power transformer, includes: a plurality of retaining units arranged on the device itself; and a support arrangement which has a plurality of load stabilizers. The electrical device is set down on the load stabilizers by the retaining units in an end position and/or rests and is arranged between the load stabilizers, at least in portions, after being set down.

A device support assembly for an electrical device, in particular a transformer or a power transformer, includes: a plurality of retaining units arranged on the device itself; and a support arrangement which has a plurality of load stabilizers. The electrical device is set down on the load stabilizers by the retaining units in an end position and/or rests and is arranged between the load stabilizers, at least in portions, after being set down.

A robot (1) includes: a main body (10) including a hollow portion (110) that is a hollow space penetrating the main body (10) in an up-down direction, the main body (10) being configured to lift and support a support object (30) inserted in the hollow portion (110) by moving in the up-down direction; and a movable member (200) configured to move the main body (10) at least in the up-down direction by operating a leg (20).

Lift frames for a vehicle in this disclosure may include a frame body on a top portion of a frame, the frame body extending from a first end to a second end; a lift mechanism moveable with respect to the first end of the frame body, the lift mechanism comprising: a lift body having a first end and a second end, a lifting surface on the first end of the lift body and the second end of the lift body being positioned so as to be movable with respect to the first end of the frame body, wherein the lifting surface is positioned to engage an underside of a cargo container when placed on an upper side of the frame body; and an inflatable air bag having an upper side and a lower side and mounted on the lower side to a platform positioned on the frame beneath the lift body, wherein the inflatable air bag is connected on the upper side thereof to a mounting surface attached to the lift body; and a source of compressed air in fluid communication with the inflatable air bag. Such lift frames may include one or more such lift mechanisms associated with the compressed air source and the lift frames may be used to load and unload cargo containers locked and supported by the lift frames in transit and unlocked and detached from the lift frames when delivered in an easy and safe manner.

Lift frames for a vehicle in this disclosure may include a frame body on a top portion of a frame, the frame body extending from a first end to a second end; a lift mechanism moveable with respect to the first end of the frame body, the lift mechanism comprising: a lift body having a first end and a second end, a lifting surface on the first end of the lift body and the second end of the lift body being positioned so as to be movable with respect to the first end of the frame body, wherein the lifting surface is positioned to engage an underside of a cargo container when placed on an upper side of the frame body; and an inflatable air bag having an upper side and a lower side and mounted on the lower side to a platform positioned on the frame beneath the lift body, wherein the inflatable air bag is connected on the upper side thereof to a mounting surface attached to the lift body; and a source of compressed air in fluid communication with the inflatable air bag. Such lift frames may include one or more such lift mechanisms associated with the compressed air source and the lift frames may be used to load and unload cargo containers locked and supported by the lift frames in transit and unlocked and detached from the lift frames when delivered in an easy and safe manner.

A freight vehicle has a frame defining a support surface for the goods to be transported, a plurality of rubberized wheel assemblies with suspensions, the height of which can be adjusted to shift the support surface between a lowered loading position and a raised transport position, and a driver's cab arranged beneath said support surface; the cab being coupled to, and overhanging, the frame by means of an articulated quadrilateral transmission unit and being shifted by pneumatic actuators configured to vertically move the whole cab in relation to the support surface between two extreme end positions, one approaching the support surface and one spaced apart from said support surface, and to arrange the cab in a cushioned intermediate position for the transport of the goods.