A reversing station of an apron conveyor is disclosed. The reversing station may have a machine frame including a base having a recess. The reversing station may also have a slide construction movable relative to the machine frame by means of an adjusting device and having a guide base displaceably guided in the recess. The reversing station may have a chain wheel fastened to the slide construction. The reversing station may also have guide elements fastened to a front region of the guide base of the slide construction and cooperating with guide rails fixedly fastened to the base of the machine frame. The reversing station may have a fixing device mountable to a front region of the slide construction. The chain wheel may be disposed on the slide construction in a middle portion between a stop for the adjusting device and the front region of the guide base.

Disclosed herein are embodiments of a spiral conveyer belt system. Embodiments of the system allow for a longer compressed pitch and improved engagement/disengagement interactions between a drum and an inner edge of a spiral conveyor belt while maintaining necessary product support and belt support strength. In part, the disclosures relate to a grooved, ribless cage bar cap, wherein grooves extend below an outer-facing surface of the cage bar cap and are configured to engage with a belt support rod inner-end or a belt-link tab. The bar cap groove may be straight (generally orthogonal to the outer-facing surface) or angled to better engage and drive the belt so the belt cannot slip forwards or outwards with respect to a drum outer boundary.

A conveyor for transporting objects includes a rail arrangement which includes a first rail track and a second rail track extending parallel to the first rail track; coupling elements guided in the second rail track and drivable with a drive device along the second rail track; and plural deposit tables for receiving the objects thereon, with at least two of the deposit tables being fastened on each of the coupling elements and slidingly or rollingly supported on the first rail track, each of said deposit tables having a pusher which is movable transversely to a transport direction of the deposit tables for pushing the objects off the deposit tables.

A curvilinear support for chain conveyors comprising: a base (2) with elongated shape extending along a curved path; at least two rails (3) produced in one piece with the base (2) and spaced from each other to define between them a channel (4) for the sliding of a chain conveyor; covering profiles (5, 8) respectively coupled to each rail (3) to cover the base surface (3b) and the concave lateral surface (3a) of said at least two rails (3); coupling members (6) positioned between each profile (5, 8) and the respective rail (3) to removably fix each profile (5, 8) to the respective rail (3); said coupling members (6) being accessible via a coupling surface (3a; 3b) of the rails (3) with the respective profiles (5, 8); said coupling members (6) comprise a male portion (6a) projecting from each profile (5, 8) and extending below each profile (5, 8), and a female portion (6b) obtained in the respective rail (3) open towards the top to house the corresponding male portion (6a), which for coupling said male portion (6a) is pushed from the top down into said female portion (6b).

The present invention is an endless carrier for a conveyor. The endless carrier is equipped with a chain including roller bearings for engaging a wall of the conveyor and slats with landing gears for engaging tracks of the conveyor. The endless carrier is particularly useful for a conveyor having one or more curves.

A conveying-traveling-body-utilizing conveying device links conveying traveling bodies to each other where load bars are continuous to each other. A linked part is provided at one end of the load bar, and a linking hook is provided at the other end which can engage with and disengage from the linked part. The linking hook is pivotally supported and is vertically movable between a pre-engagement orientation separated upward from the linked part, with respect to an engaged orientation of covering the linked part from above, and a standby orientation tilted to a lowering limit from the engaged orientation by an urging force. When the linking hook is in the standby orientation, longitudinally adjacent conveying traveling bodies can approach each other to a connected state, where the respective load bars are abutted against each other, without the linking hook in the standby orientation and the linked part contacting each other.

The present disclosure relates to a slat conveyor for transporting material in mining and extraction systems. The slat conveyor may comprise a plurality of channel elements arranged in a series, a material-transport strand and an oppositely-moving return strand. The slat conveyor may further comprise an endless conveyor including a conveyor chain and a plurality of transport plates with a plate section, which may be pivotable downward in a delivery area for the transported material. Thus, for example, a flat-constructed slat conveyor (apron conveyor) having a low loading height may be provided.

In order to reduces a risk that a user of a baggage check-in machine is infected with a virus or the like, a baggage check-in machine (1) includes: an inner display (11) that displays an image which includes an operation target region and which is related to baggage check-in; an image formation section (30) that causes the image displayed on the inner display (11) to be formed as an aerial image in air around the baggage check-in machine (1); an operation identification section (102) that identifies an operation conducted with respect to a part in the aerial image which corresponds to the operation target region; and a process performance section (105) that carries out, in accordance with the operation which has been identified, a process related to the baggage check-in.

An upper surface of a main body section (10) is used as a placement surface (11) on which an article is placeable. The main body section (10) includes an intermediate section (12), a front section (13) adjacent to the intermediate section (12) on a front side (X1) in a front-rear direction (X), and a rear section (14) adjacent to the intermediate section (12) on a rear side (X2) in the front-rear direction (X). The intermediate section (12) is rectangular in a plan view, the front section (13) is shaped as a trapezoid that becomes smaller in a width direction (Y) while extending toward the front side (X1) in a plan view, and the rear section (14) is shaped as a trapezoid that becomes smaller in the width direction (Y) while extending toward the rear side (X2) in a plan view.