A multistage multi-lane singulator conveyor system for separating side by side packages in stages. A first high friction surface conveying moving articles forward is adjacent a second low friction conveying lane in lateral flow communication having both forward and lateral conveying forces urging parcels forward and away from the first conveying lane, wherein the second conveying lane can be level or transversely inclined and angled upward in lateral flow communication with a third high friction surface conveying surface. Controlling residence time and forward and lateral movement of articles by assembling high friction surface conveying lanes and low friction surface conveying lanes in an end to end and/or lateral arrangement in flow communication with one another and/or shifting articles moving forward and laterally by staggering the high friction conveying surfaces and low friction conveying surfaces and adjusting the width by adjusting the number of high friction conveying surfaces adjacent one another.

A conveyor device for conveying transportation structures, particularly transportation skids in the automobile industry, having a conveyor path that is formed from a plurality of path units arranged one behind the other, each of the path units having two parallel longitudinal profiled sections. A drive system for said transportation structures is provided that has at least one drive device which, when said conveyor device is in operation, is arranged on at least one of said longitudinal profiled sections. The drive system includes at least one drive module which can be detachably secured to the longitudinal profiled section by means of a drive-securing device.

A conveyor device for conveying transportation structures, particularly transportation skids in the automobile industry, having a conveyor path that is formed from a plurality of path units arranged one behind the other, each of the path units having two parallel longitudinal profiled sections. A drive system for said transportation structures is provided that has at least one drive device which, when said conveyor device is in operation, is arranged on at least one of said longitudinal profiled sections. The drive system includes at least one drive module which can be detachably secured to the longitudinal profiled section by means of a drive-securing device.

A pipe retrieval machine includes a frame defining a decoupling region and a travel axis and a transporting mechanism supported on the frame. The transporting mechanism has a first gripping structure adjacent an infeed end of the machine and a second gripping structure adjacent an outfeed end of the machine. The decoupling region is between the first and second gripping structures. The machine has a drive system to move the first and second gripping structures at a steady state speed to direct a pipe along the travel axis. The pipe retrieval machine includes one or more safety features to stop the drive system either automatically or through manual action, one or more safety features to inhibit or prevent damage to components of the decoupling region in the event of a malfunction, or both. Methods of operating a pipe retrieval machine include any of the operation procedures, method steps, safety features, and/or functions as described and in any combination.

A pipe retrieval machine includes a frame defining a decoupling region and a travel axis and a transporting mechanism supported on the frame. The transporting mechanism has a first gripping structure adjacent an infeed end of the machine and a second gripping structure adjacent an outfeed end of the machine. The decoupling region is between the first and second gripping structures. The machine has a drive system to move the first and second gripping structures at a steady state speed to direct a pipe along the travel axis. The pipe retrieval machine includes one or more safety features to stop the drive system either automatically or through manual action, one or more safety features to inhibit or prevent damage to components of the decoupling region in the event of a malfunction, or both. Methods of operating a pipe retrieval machine include any of the operation procedures, method steps, safety features, and/or functions as described and in any combination.

A side-by-side reducer (SSR) conveyor has one lateral side of driven rollers operating at a different longitudinal running speed than another lateral side of driven rollers. The one lateral has an input section of driven rollers skewed away from the other lateral side followed by a converging zone of driven rollers skewed toward the other lateral side. The separation prevents frictional contact between side-by-side cartons so that one can be longitudinally moved a different velocity than the other to converge in a tandem arrangement.

An insulating glass unit cooling assembly and method of cooling an insulating glass unit is provided. The cooling assembly includes a cooling unit that directs air at insulating glass units and a conveyor that transports insulating glass units along a path of travel defining an axis of travel for the insulating glass units. The conveyor has a conveyor planar surface that supports a corresponding planar glass surface of the insulating glass units as the insulating glass units are conveyed along the axis of travel such that the planar surface of the insulating glass units are substantially horizontal and substantially parallel to the conveyor planar surface. The air from the cooling unit is directed in a path substantially parallel with the conveyor planar surface and the planar glass surface of the insulating glass units as the insulating glass units travel along the conveyor.

An insulating glass unit cooling assembly and method of cooling an insulating glass unit is provided. The cooling assembly includes a cooling unit that directs air at insulating glass units and a conveyor that transports insulating glass units along a path of travel defining an axis of travel for the insulating glass units. The conveyor has a conveyor planar surface that supports a corresponding planar glass surface of the insulating glass units as the insulating glass units are conveyed along the axis of travel such that the planar surface of the insulating glass units are substantially horizontal and substantially parallel to the conveyor planar surface. The air from the cooling unit is directed in a path substantially parallel with the conveyor planar surface and the planar glass surface of the insulating glass units as the insulating glass units travel along the conveyor.

A transport system has a mobile carriage for transport of products along a guide path that has a first guide profile and a second guide profile. A first pair of rollers is mounted rotatably on a first rotation shaft borne by the carriage, so as to engage the first guide profile. A second pair of rollers rotatably mounted on the second rotation shaft engages the second guide profile. For each roller of the first pair of rollers and for each roller of the second pair of rollers, a reinforcing element is provided which is friction-coupled to at least a part of the main portions of external lateral walls of the rollers.

A transport system has a mobile carriage for transport of products along a guide path that has a first guide profile and a second guide profile. A first pair of rollers is mounted rotatably on a first rotation shaft borne by the carriage, so as to engage the first guide profile. A second pair of rollers rotatably mounted on the second rotation shaft engages the second guide profile. For each roller of the first pair of rollers and for each roller of the second pair of rollers, a reinforcing element is provided which is friction-coupled to at least a part of the main portions of external lateral walls of the rollers.