Abstract: A modular plastic conveyor belt having an A-shaped edge portion in belt edge modules along each belt row for tight collapse of the belt at the inside of a turn. The A-shaped region comprises two alternating series of laterally spaced links, each extending from opposite ends of the edge module. Each of the first series of links forms an acute angle measured clockwise from the direction of belt travel. Each of the second series of links forms an acute angle measured counterclockwise from the direction of belt travel. The angles decrease monotonically with distance inward of the first side of the belt edge. Laterally extending webs join the ends of consecutive converging links along an end of the module. The lateral extent of the webs increases monotonically inward from a first side edge of the belt. A cross bars extends between each pair of web-joined links.

Abstract: A sprocket drive system for a modular conveyor belt that compensates for drive-shaft twist under load. The drive system includes a plurality of belt drive surfaces spaced apart across the width of the underside of each row of a modular conveyor belt. A drive shaft supports a group of sprockets at spaced-apart locations. Sprocket drive surfaces are spaced apart circumferentially around the peripheries of the sprockets and arranged in rows across the sprocket to engage corresponding belt drive surfaces in the belt rows. The belt is wrapped around the sprockets on the drive shaft. The engagement of the sprocket drive surfaces with the belt drive surfaces drives the belt. Either the sprocket drive surfaces or the belt drive surfaces, or both, in each row are arranged in an out-of-phase relationship with each other when the conveyor belt is at no load. Once the conveyor belt is operating at load and the shaft twists, the drive surfaces assume an in-phase relationship for improved belt driving and tracking.

Abstract: A platform-top modular radius belt capable of conveying articles along a conveying path that includes straight and curved segments. The belt is constructed of a series of rows of belt modules hingedly interconnected by hinge pins received in aligned apertures formed in interleaved hinge elements of adjacent belt rows. A product support platform is attached to intermediate belt module structure to form a generally continuous article-conveying surface. An overhang forms an extension of the conveying surface and extends over hinge elements along one end of the row to form a gap between the overhang and the hinge elements. An edge portion of the product support platform extends from and is recessed below the level of the conveying surface. The recessed edge of a belt row is received in the gap of an adjacent row below the overlying overhang without interference to allow the inside edge of the modular platform-top belt to collapse at the inside of a turn.

Abstract: A platform-top modular radius belt capable of conveying articles along a conveying path that includes straight and curved segments. The belt is constructed of a series of rows of belt modules hingedly interconnected by hinge pins received in aligned apertures formed in interleaved hinge elements of adjacent belt rows. A product support platform is attached to intermediate belt module structure to form a generally continuous article-conveying surface. An overhang forms an extension of the conveying surface and extends over hinge elements along one end of the row to form a gap between the overhang and the hinge elements. An edge portion of the product support platform extends from and is recessed below the level of the conveying surface. The recessed edge of a belt row is received in the gap of an adjacent row below the overlying overhang without interference to allow the inside edge of the modular platform-top belt to collapse at the inside of a turn.

Abstract: A sprocket drive system for a modular conveyor belt that compensates for drive-shaft twist under load. The drive system includes a plurality of belt drive surfaces spaced apart across the width of the underside of each row of a modular conveyor belt. A drive shaft supports a group of sprockets at spaced-apart locations. Sprocket drive surfaces are spaced apart circumferentially around the peripheries of the sprockets and arranged in rows across the sprocket to engage corresponding belt drive surfaces in the belt rows. The belt is wrapped around the sprockets on the drive shaft. The engagement of the sprocket drive surfaces with the belt drive surfaces drives the belt. Either the sprocket drive surfaces or the belt drive surfaces, or both, in each row are arranged in an out-of-phase relationship with each other when the conveyor belt is at no load. Once the conveyor belt is operating at load and the shaft twists, the drive surfaces assume an in-phase relationship for improved belt driving and tracking.

Abstract: A conveyor drive apparatus comprising a shaft having sprockets mounted thereon for rotation with the shafts. A conveyor belt is engaged by the sprockets. A key includes a body shaped to fit loosely in a groove along the length of the outer surface of the shaft. The key further includes a force-applying member disposed on the body for applying a force against the shaft and pressing the body against the sprocket to lock it in position on the shaft. The sprocket can further have a slot through its central bore wall in which part of the key can reside to rotate the drive member with the shaft.