A shock-absorbing conveyor boom includes a proximal portion and a distal portion, hingedly connected to the proximal portion, the proximal and distal portions supporting a laterally flexible endless conveyor belt. The distal portion is pivotal in a generally horizontal plane, and is biased toward longitudinal alignment with the proximal portion, whereby physical shock applied to the distal portion can be absorbed by lateral deflection of the distal portion.

A conveying device includes a quick fastener that connects a profiled element to a machine frame's base support and that supports a sliding strip on which a conveying element slides as it circulates around deflection elements to form a loop and conveys goods along a transport direction.

A conveying device includes a quick fastener that connects a profiled element to a machine frame's base support and that supports a sliding strip on which a conveying element slides as it circulates around deflection elements to form a loop and conveys goods along a transport direction.

A conveyor belt system includes a conveyor belt, a first roller, a second roller, wherein the conveyor belt extends between the first roller and the second roller so that the conveyor belt has a transport side and a return side; and a frame for positioning the conveyor belt, wherein the frame has at least two upright walls at the position of opposite transverse ends, which two upright walls are formed such that, at the position of the return side, the return side falls within the two upright walls and that, at the position of the transport side, the transport side protrudes to a position outside the upright walls on either sides.

A conveyor belt system includes a conveyor belt, a first roller, a second roller, wherein the conveyor belt extends between the first roller and the second roller so that the conveyor belt has a transport side and a return side; and a frame for positioning the conveyor belt, wherein the frame has at least two upright walls at the position of opposite transverse ends, which two upright walls are formed such that, at the position of the return side, the return side falls within the two upright walls and that, at the position of the transport side, the transport side protrudes to a position outside the upright walls on either sides.

An arrangement for use with a conveyor belt assembly is disclosed. In at least one embodiment, the arrangement includes a transmission assembly arranged in operable association with a movable support or tracking frame assembly and configured having respective means for receiving an input force and supplying an output force. The transmission assembly is configured operable for transferring a received input force for supplying an output force for facilitating an adjustment of the position, alignment, or orientation of the support or tracking frame assembly via an actuator interface assembly.

A device for controlling industrial belt tracking with a first cylindrical pulley segment having a central opening and a plurality of teeth formed on the outside diameter; a second cylindrical pulley segment having a central opening and having a plurality of teeth formed on the outside diameter; and a flange ring. The flange ring being disposed between the first cylindrical pulley segment and the second cylindrical pulley segment such that the flange ring, the first cylindrical pulley segment and the second cylindrical pulley segment are coaxially aligned. Further, the flange ring is shaped and sized such that the outer diameter edge provides a flange perpendicular to the plurality of teeth formed on the outside diameter surface of the first cylindrical pulley segment and the second cylindrical pulley segment and generally radially aligned with the plurality of teeth formed on the outside diameter surface of the first cylindrical pulley segment and the second cylindrical pulley segment.

A device for controlling industrial belt tracking with a first cylindrical pulley segment having a central opening and a plurality of teeth formed on the outside diameter; a second cylindrical pulley segment having a central opening and having a plurality of teeth formed on the outside diameter; and a flange ring. The flange ring being disposed between the first cylindrical pulley segment and the second cylindrical pulley segment such that the flange ring, the first cylindrical pulley segment and the second cylindrical pulley segment are coaxially aligned. Further, the flange ring is shaped and sized such that the outer diameter edge provides a flange perpendicular to the plurality of teeth formed on the outside diameter surface of the first cylindrical pulley segment and the second cylindrical pulley segment and generally radially aligned with the plurality of teeth formed on the outside diameter surface of the first cylindrical pulley segment and the second cylindrical pulley segment.

A feed device, planar washing machine and method. The feed device (15) comprises roll arrangement (21) provided with support rolls (16, 17) and an alignment roll (18). An endless belt (13) is arranged around the rolls. The alignment roll can be moved (C) in order to guide the feed belt to move into desired direction when it is moved laterally.

A conveyor device for the suspended conveyance of conveyable goods using negative pressure, comprising a continuous conveyor belt guided along a negative-pressure chamber with a rearward side facing towards the negative-pressure chamber. A contact side of the conveyor belt is provided with suction openings formed between the rearward side and the contact side of the conveyor belt. A recess extending in the longitudinal direction of the conveyor belt and limited by longitudinal edges of the conveyor belt is formed on the contact side such that a suction duct sealed by the longitudinal edges and arranged transversely to the longitudinal direction of the conveyor belt with respect to the contact side of the conveyable goods is formed between the contact side of the conveyor belt and the contact side of the conveyable goods.