In an aspect, a wear plate for use with a conveyor system is provided. The wear plate has a plate mount, having a fastener retainer having a retention hole extending through the wear plate, and a retainer support being defined by at least one cut in the wear plate adjacent to and at least partially defining the fastener retainer, the retainer support connecting the fastener retainer to a main portion of the wear plate and enabling the fastener support to be depressed relative to a top surface of the wear plate.

In an aspect, a wear plate for use with a conveyor system is provided. The wear plate has a plate mount, having a fastener retainer having a retention hole extending through the wear plate, and a retainer support being defined by at least one cut in the wear plate adjacent to and at least partially defining the fastener retainer, the retainer support connecting the fastener retainer to a main portion of the wear plate and enabling the fastener support to be depressed relative to a top surface of the wear plate.

A conveyor system has an endless belt with an upper transport portion sized to support a wheeled structure, and a lower return portion. A support deck is positioned to support the upper transport portion of the endless belt, the support deck includes a lower support deck structure, and wear plates that are supported on the lower support deck structure. The support deck includes alignment aperture pairs. Each alignment aperture pair includes a first alignment aperture through the lower support deck structure, and a second alignment aperture through one of the plurality of wear plates. A belt-rinsing system is provided and includes a plurality of rinsing system outlet bodies, wherein each of the plurality of rinsing system outlet bodies extends into one of the first alignment apertures of the lower support deck structure and into one of the second alignment apertures of one of the plurality of wear plates.

In an aspect, a mounting bracket for use with an automotive conveyor system is provided. A base portion has a set of apertures, the first set of apertures being elongated along a first direction, each of the set of apertures being dimensioned to receive a fastener for fastening the base portion to a trench wall. A cross-member coupler is coupled to the base portion and securable to a cross-member.

In an aspect, a mounting bracket for use with an automotive conveyor system is provided. A base portion has a set of apertures, the first set of apertures being elongated along a first direction, each of the set of apertures being dimensioned to receive a fastener for fastening the base portion to a trench wall. A cross-member coupler is coupled to the base portion and securable to a cross-member.

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.

Provided is a method for detecting faults in the context of transport of objects, wherein by a transport device, a plurality of objects are transported in a predetermined alignment of these objects along a predetermined transport path, wherein the objects are transported while at least partially in contact with each other, and wherein the objects are located on a movable surface of the transport device, wherein, by at least one image capturing device, at least one first region is captured in which a plurality of these containers is located and at least one sub-region of this region is identified in which no object is located in the predetermined orientation, wherein furthermore a distinction is then made as to whether an object with an alignment deviating from the predetermined alignment or an empty space is located in this region.

A conveyor belt assembly (10) for transporting single sheets or stacks of a packaging material is described. It comprises at least one conveyor belt (12a) being arranged over at least two pulleys (20a-20d), wherein at least one of the pulleys (20a-20d) is adapted to drive the conveyor belt (12a) in a conveying direction (15). Furthermore, the conveyor belt assembly (10) comprises a conveying section (22) adapted for transporting the sheets or stacks and a return section (24) adapted to return the conveyor belt (12a) from an end (22b) of the conveying section (22) to a beginning (22a) of the conveying section (22). The conveying section (22) is equipped with a middle section (26), in which the conveyor belt (12a) is arranged in a substantially flat manner, and at least one transition section (28) arranged between the middle section (26) and the respective pulley (20a-20d), with the conveyor belt (12a) being arranged in the transition section (28) in a retracted position with respect to a plane (26a) defined by the middle section (26).

A conveying system, comprising a modular conveyor belt supported on a conveyor track so that top surfaces of the modules of the conveyor belt present a conveying face that in use moves along the track in a conveying direction, and at least one plastic bottle supported at its bottom on the conveying face via one or more textured surfaces at a bottom of the bottle. The disclosure also includes a method of conveying bottles, wherein plastic bottles are supported with their bottoms on a moving conveying face of a conveyor, and wherein the conveying face and the bottom of the bottle are conveyed via one or more textured surfaces at a bottom of the bottle. The disclosure further includes use of at least one textured bottom surface of a plastic bottle for conveying, and a blow mold for blow molding a plastic bottle.

A conveying system, comprising a modular conveyor belt supported on a conveyor track so that top surfaces of the modules of the conveyor belt present a conveying face that in use moves along the track in a conveying direction, and at least one plastic bottle supported at its bottom on the conveying face via one or more textured surfaces at a bottom of the bottle. The disclosure also includes a method of conveying bottles, wherein plastic bottles are supported with their bottoms on a moving conveying face of a conveyor, and wherein the conveying face and the bottom of the bottle are conveyed via one or more textured surfaces at a bottom of the bottle. The disclosure further includes use of at least one textured bottom surface of a plastic bottle for conveying, and a blow mold for blow molding a plastic bottle.