A lift structure of a rack storage system including a pair of vertical post, a pair of guide rail portions stacked one on top of the other, a mounting brace, and a mounting platform attached to the pair of vertical post. The mounting brace includes an adjustment mechanism to adjust an alignment between the pair of guide rail portions fastened together by a clamping plate. A load handling station is secured to the mounting platform to support loads transported to and from the rack storage system, wherein the load handling station is located by locating a position of the mounting platform.

A loading system for loading and unloading cargo compartments of trucks includes chain conveyors positioned parallel or substantially parallel to one another and such that standard pallets can be moved back and forth on the chain conveyors in a conveying direction. An autonomous conveyor vehicle is provided as a component of the loading system, and the chain conveyors are positioned at a height above a floor so that the conveyor vehicle with vertically movable pallet fork assemblies can be positioned below the chain conveyors.

Described herein is an optical fibre mounting structure (180) for fibre vibration sensing of a distributed system (100) of spaced apart vibration sources (112-131). Mounting structure (180) includes a base portion (200) having a two dimensional surface area defining a vibration surface (202). A mounting apparatus (236) is adapted to mount the base portion (200) to a support structure (e.g. 104) of the distributed system (100) adjacent one of the vibration sources. A fibre engagement structure (e.g. 210-215) is provided for supportively engaging a length (218) of optical fibre in contact with the vibration surface (202).

Described herein is an optical fibre mounting structure (180) for fibre vibration sensing of a distributed system (100) of spaced apart vibration sources (112-131). Mounting structure (180) includes a base portion (200) having a two dimensional surface area defining a vibration surface (202). A mounting apparatus (236) is adapted to mount the base portion (200) to a support structure (e.g. 104) of the distributed system (100) adjacent one of the vibration sources. A fibre engagement structure (e.g. 210-215) is provided for supportively engaging a length (218) of optical fibre in contact with the vibration surface (202).

A radio sensor module for detecting material containers in a storage or transport system includes a transmission device for the wireless transmission of signals. The radio sensor module has a holder and a rocker pivotably mounted therein. A sensor for detecting a position of the rocker and the transmission device are arranged in the rocker.

The present invention provides a cabinet (10) for the temporary storage of a heated food item. The cabinet (10) has a in base (12), a top (14) and opposing sides (16,18). The base (12), top (14) and opposing sides (16,18) define an interior space (20) of the cabinet (10) which is accessible through opposing apertures (22, 24) at each end of the cabinet (10). The cabinet (10) is provided with air movement means and air heating means operable to draw air from the interior space (20) of the cabinet (10), heat said air and utilise a portion of said heated air to produce air curtains across the opposing apertures (22, 24) of the cabinet (10). The remainder of said air is circulated within the interior space (20) of the cabinet (10).

The present invention provides a cabinet (10) for the temporary storage of a heated food item. The cabinet (10) has a in base (12), a top (14) and opposing sides (16,18). The base (12), top (14) and opposing sides (16,18) define an interior space (20) of the cabinet (10) which is accessible through opposing apertures (22, 24) at each end of the cabinet (10). The cabinet (10) is provided with air movement means and air heating means operable to draw air from the interior space (20) of the cabinet (10), heat said air and utilise a portion of said heated air to produce air curtains across the opposing apertures (22, 24) of the cabinet (10). The remainder of said air is circulated within the interior space (20) of the cabinet (10).

The present invention provides devices, systems and methods for reliably inserting packing trays into packing crates. Thus, the present invention solves the problems of conventional packaging lines by providing a positioning device for depositing packing trays into packing crates. Particularly, the present invention can be incorporated into existing fruit and vegetable packing lines.

The present invention provides devices, systems and methods for reliably inserting packing trays into packing crates. Thus, the present invention solves the problems of conventional packaging lines by providing a positioning device for depositing packing trays into packing crates. Particularly, the present invention can be incorporated into existing fruit and vegetable packing lines.

A container jostling system for jostling objects within a container is disclosed, where the container is positioned on a conveyor that includes a plurality of rollers that are mutually spaced from one another. The container jostling system includes at least one container contact element that is movable vertically between at least two rollers of the conveyor, and is movable horizontally in a direction that is substantially parallel with the at least two rollers.