A dynamic noser assembly used with a conveyor having pegs is provided. The dynamic noser assembly has a noser with a noser inner side, a noser outer side, a first lateral side, a second lateral side, a rear side and a front side. The dynamic noser further has a first hole with a first hole slot accessible via the noser inner side and a first hole notch, and a second hole with a second hole slot accessible via the rear side and a second hole notch. The noser is alignable with the pegs to lock the noser in place when the pegs are received within notches. The dynamic noser assembly further as a shaft removably connected to the noser, the shaft supporting at least one bearing. The noser front side has a channel formed therein for removably receiving the bearing shaft.

A dynamic noser assembly used with a conveyor having pegs is provided. The dynamic noser assembly has a noser with a noser inner side, a noser outer side, a first lateral side, a second lateral side, a rear side and a front side. The dynamic noser further has a first hole with a first hole slot accessible via the noser inner side and a first hole notch, and a second hole with a second hole slot accessible via the rear side and a second hole notch. The noser is alignable with the pegs to lock the noser in place when the pegs are received within notches. The dynamic noser assembly further as a shaft removably connected to the noser, the shaft supporting at least one bearing. The noser front side has a channel formed therein for removably receiving the bearing shaft.

A guide profile and a conveying system are disclosed. The conveying system is designed with a guide profile of this type. A slide bar of the guide profile is provided with an articulated leg so that it is possible to change the slide bar on the already installed conveying system.

A weldment structure for reinforcing a boom of a material conveyor apparatus includes a pair of elongate rigid members having an overall length with cut ends, a set of cross members sharing an overall length with cut ends, the cross members fixed orthogonally to the elongate rigid members functioning to hold the rigid members apart and parallel and at the same edge alignment, and a set of cross support brackets fixed to the cross members and to the elongate rigid members, the cross support brackets each supporting at least a return roller bracket assembly and a pair of opposing belt guides.

A weldment structure for reinforcing a boom of a material conveyor apparatus includes a pair of elongate rigid members having an overall length with cut ends, a set of cross members sharing an overall length with cut ends, the cross members fixed orthogonally to the elongate rigid members functioning to hold the rigid members apart and parallel and at the same edge alignment, and a set of cross support brackets fixed to the cross members and to the elongate rigid members, the cross support brackets each supporting at least a return roller bracket assembly and a pair of opposing belt guides.

A system is provided for conveying dough along a conveying section, and the system comprises an elongate dough-conveying element that defines the conveying section. The dough-conveying element comprises a dough-supporting region that forms a supporting surface for dough conveyable or to be conveyed by means of the system, and at least one lateral region extending laterally along the dough-supporting region in the longitudinal direction of the dough-conveying element. The at least one lateral region is movably disposed or formed, in particular pivotally disposed or formed, relative to the dough-supporting region. Furthermore, the dough-conveying element exhibits flexurally-rigid material behavior in the vicinity of the dough-supporting region and resiliently-extensible material behavior in the vicinity of the at least one lateral region.

An end unit (100) for a conveyor (1000) for use in a stage assembly comprises a first frame (110) installable in the stage assembly and a second frame (120). The second frame (120) comprises a rotatable body (130) for supporting a conveyor belt (300), and is arranged to pivot with respect to the first frame (110), so as to open in a direction transverse to a direction of motion of the conveyor belt (300). An intermediate unit (200) for a conveyor (1000) for use in a stage assembly is configured to be disposed between a pair of end units (100), and comprises a first frame (210) installable in the stage assembly and a second frame (220) comprising a support surface (223) for supporting a conveyor belt (300). The second frame (220) is pivotally attached to the first frame (210), so as to open in a direction transverse to a direction of motion of the conveyor belt (300). A conveyor (1000) comprises a pair of end units (100), and optionally one or more of the intermediate units (200).

A transport device includes an entry finger that guides a conveyor as it carries items thereon in a transport direction from the rear deflector to the front deflector. The conveyor slides along a sliding strip that is supported by a profile element that is supported by a support. The entry finger guides the conveyor around the front deflector, where the conveyor reverses direction. The entry finger couples to the transport device by a detachable connection. The detachable connection is either a locking connection that connects the entry finger to the sliding strip, an insertion connection that connects the entry finger to the profiled element, or a detachable connection formed by a quick fastener between the support and the profiled element and the finger.

A transport device includes an entry finger that guides a conveyor as it carries items thereon in a transport direction from the rear deflector to the front deflector. The conveyor slides along a sliding strip that is supported by a profile element that is supported by a support. The entry finger guides the conveyor around the front deflector, where the conveyor reverses direction. The entry finger couples to the transport device by a detachable connection. The detachable connection is either a locking connection that connects the entry finger to the sliding strip, an insertion connection that connects the entry finger to the profiled element, or a detachable connection formed by a quick fastener between the support and the profiled element and the finger.

The present invention refers to a conveyor belt comprising a drive roller with a constant section cylinder and conical tip teeth, a mesh type drive belt, wherein said holes coincide with the teeth of the drive roller and a sliding plate, the drive belt being supported on the sliding plate. Wherein coupling between the drive belt and the teeth allows reducing longitudinal and transversal strain of the mesh type drive belt.