A connector block for connection between first chain units and second chain units which alternately form portions of a conveyor chain. The connector block is provided using a first block body and a second block body each formed into a U-shaped metal plate. Each block body includes a base plate and side plates, and tabs formed at distal ends of side plates. Tabs are configured for interfitting placement in depressions formed in the base plate of the opposing block body. Side plates of the first block body and side plates of the second block body, are sized, shaped, and joined in secure interlocking engagement, and wherein the first tab receiving depressions each securely position therein a second tab bent for interfitting engagement therewith, and wherein the second tab receiving depressions each securely position therein a first tab bent for interfitting engagement therewith. All side plates further include holes defined by edge walls, for secure engagement with a pivot pin for connection with a first chain unit or a second chain unit.

Curved magnetic guide for guiding the chain of a conveyor chain along a curvilinear transport direction including a pair of first guide profiles arranged spaced apart and extending in a continuous manner along a respective development direction concentric to the curvilinear transport direction, a support structure for supporting the first guide profiles having a plurality of box-shaped bodies, the box-shaped bodies being arranged in succession one after the other and spaced apart from one another along the curvilinear transport direction, where each of the box-shaped bodies houses at least one magnetic body and has an upper surface and a lower surface opposite one another, where the upper surface is provided with a pair of first constraining projections that are spaced apart and faced with distances between centers substantially equal to the distance between the development directions where the first constraining projections of the plurality of box-shaped bodies define two rows of first constraining projections that extend, spaced apart from one another, along a respective the development direction, where each of the first guide profiles is coupled with the first constraining projections aligned along one of the two rows, where the guide defines a forward guide for guiding the forward branch of the chain, the forward guide having a forward channel adapted for receiving the hinging portions of the links and which is laterally delimited by the first guide profiles of the at least one pair, where the first guide profiles each defines a sliding surface for the plate-shaped portion of the links to slide thereon, and where the magnetic bodies interact with the links to attract the links of the chain with the part of their plate-shaped portions against the sliding surfaces defined by the first guide profiles.

A centrifugal dewatering conveyor system for removing liquid from a conveyed product comprises a modular conveyor belt designed to follow a path that includes both straight portions and helical portions. The modular conveyor belt comprises a plurality of hingedly connected modules having side walls and capable of shifting laterally relative to each other and curling up about the hinge rods to form the helical portions. In the helical portions, a centrifugal force imparted on conveyed product forces water through openings in the conveyor belt.

The present disclosure may be embodied as a belt module for a radius or spiral conveyor. The belt module includes first link ends extending in a direction of belt travel. Each first link end has a transverse opening. Second link ends extend in a direction opposite the first link ends and are configured to interdigitate with the first link ends of an adjacent belt module, and each second link end has a transverse opening defined therein. The transverse openings of the first and/or the second link ends are elongated. The belt modules further include a collapsible tab for contacting a frame member. The collapsible tab is located at a first transverse end of the belt module. In some embodiments, the collapsible tab is configured to engage a drive bar. The belt module may further include a guide tooth on a bottom side of the module for engaging a guide.

The invention relates to a chain link (1) for a chain conveyor for conveying small parts (17), in particular bottle closures, having a, in particular flat, support surface for small parts, wherein means (3) for fitting at least one carrier (14) are provided on opposite sides of the chain link. This allows the small parts to be conveyed without damage, on the other hand, the chain link (1) can be easily adapted to different types of small parts that differ in diameter and/or height. At least two carriers (14) are provided, each of which has a fastening part (15) which can be attached to a means (3) for fitting, and a gripping part (19) which is made of a softer material than the fastening part (15) and has one or more extensions (16) which, when the carrier (14) is in the fitted state, are aligned towards the respective other carrier (14).

The present invention relates to a flexible conveyor belt assembly (100) with a chain traction system for moving products/raw materials in bulk, which comprises a support structure extending in a straight or curved manner (105), to which are fixed the rails (102), the toothed actuating wheel (103) and the toothed return wheel (106), which additionally comprises deflection wheels (109), a flexible conveyor belt (101), with a pleated profile, produced with metallic inserts (108), a chain (107) and pulleys (104) that move along the structure, in which traction is exerted on the chain (107).

The invention relates to a chain link (1) for a chain conveyor for conveying small parts (17), in particular bottle closures, having a, in particular flat, support surface for small parts, wherein means (3) for fitting at least one carrier (14) are provided on opposite sides of the chain link. This allows the small parts to be conveyed without damage, on the other hand, the chain link (1) can be easily adapted to different types of small parts that differ in diameter and/or height. At least two carriers (14) are provided, each of which has a fastening part (15) which can be attached to a means (3) for fitting, and a gripping part (19) which is made of a softer material than the fastening part (15) and has one or more extensions (16) which, when the carrier (14) is in the fitted state, are aligned towards the respective other carrier (14).

Curved magnetic guide for guiding the chain of a conveyor chain along a curvilinear transport direction including a pair of first guide profiles arranged spaced apart and extending in a continuous manner along a respective development direction concentric to the curvilinear transport direction, a support structure for supporting the first guide profiles having a plurality of box-shaped bodies, the box-shaped bodies being arranged in succession one after the other and spaced apart from one another along the curvilinear transport direction, where each of the box-shaped bodies houses at least one magnetic body and has an upper surface and a lower surface opposite one another, where the upper surface is provided with a pair of first constraining projections that are spaced apart and faced with distances between centers substantially equal to the distance between the development directions where the first constraining projections of the plurality of box-shaped bodies define two rows of first constraining projections that extend, spaced apart from one another, along a respective the development direction, where each of the first guide profiles is coupled with the first constraining projections aligned along one of the two rows, where the guide defines a forward guide for guiding the forward branch of the chain, the forward guide having a forward channel adapted for receiving the hinging portions of the links and which is laterally delimited by the first guide profiles of the at least one pair, where the first guide profiles each defines a sliding surface for the plate-shaped portion of the links to slide thereon, and where the magnetic bodies interact with the links to attract the links of the chain with the part of their plate-shaped portions against the sliding surfaces defined by the first guide profiles.

The technology disclosed provides a joint for connecting carrier units together so as to dissipate and absorb axial forces experienced by the carrier units. The joint may be comprised of a joint housing and an elastomeric insert. The housing may be comprised of a body portion and a head portion and the head portion may include an annular flange in which the elastomeric insert is configured to be secured. The elastomeric joint is capable of absorbing and dissipating horizontal, rotational, and vertical forces experienced by the carrier units in non-linear travel along a track.

A cleaning device is provided with a three-dimensional circulation route for circulating workpiece holding tools that hold a workpiece, and this three-dimensional circulation route is formed by an endless conveyor chain bendable in various directions being disposed within a rectangular parallelepiped space following along the upper and lower sides thereof. The conveyor chain circulates from an upper side horizontal transport path portion via a falling side transport path portion, a lower side horizontal transport path portion, and a rising side transport path portion, and the workpiece held in the workpiece holding tools is treated by ultrasonic cleaning, shower cleaning, steam cleaning, drying and the like. Thus, it is possible to suitably dispose a workpiece transport route in a limited rectangular parallelepiped space, and carry out cleaning operations for the workpiece efficiently.