A sorting device for sorting out discrete products from a product stream includes, a friction element driven by a roller. The friction element is movable to press against a product to be sorted out and thereby apply a frictional force to the product to sort the product out of the product stream.

A sorting device for sorting out discrete products from a product stream includes, a friction element driven by a roller. The friction element is movable to press against a product to be sorted out and thereby apply a frictional force to the product to sort the product out of the product stream.

The invention relates to a method for conveying in translation, in a transport zone, glass containers (2) held in a suspended position between two slide rails on which slides a counter-ring (7) arranged on each container which has a ring surface (8) defining the opening of the container, the method consisting of ensuring the movement in translation of the containers (2) by a bearing surface (18a) of at least one belt (18) driven in translation and exerting mechanical pressure on each ring surface (8) of the containers (2) to create a bond by adherence between each ring surface (8) of the containers and the bearing surface (18a) of the belt.

The invention relates to a method for conveying in translation, in a transport zone, glass containers (2) held in a suspended position between two slide rails on which slides a counter-ring (7) arranged on each container which has a ring surface (8) defining the opening of the container, the method consisting of ensuring the movement in translation of the containers (2) by a bearing surface (18a) of at least one belt (18) driven in translation and exerting mechanical pressure on each ring surface (8) of the containers (2) to create a bond by adherence between each ring surface (8) of the containers and the bearing surface (18a) of the belt.

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 cleated belt tube conveyor for conveying granular material, such as seed and grain commodities. The conveyor comprising a cleat row profile that is optimized for maximizing transfer capacity and minimizing wear. The cleat row profile may incorporate one or more of the following aspects: taller central cleat member and a slanted or clipped peripheral cleat. A cleated belt conveyor guide element, comprised of a plurality of longitudinally spaced-apart lugs that extend from an inner surface of the belt is also disclosed. A cogged roller, having a plurality of channel segments divided by drive bars, complements the guide element, increasing the power transfer and tracking ability over a cleated belt lacking a guide element. Also a baffle assembly can be disposed within the conveyor tube to limit material back flow. The baffle assembly can be configured with a belt passage aperture that corresponds to the cleat row profile.

A cleated belt tube conveyor for conveying granular material, such as seed and grain commodities. The conveyor comprising a cleat row profile that is optimized for maximizing transfer capacity and minimizing wear. The cleat row profile may incorporate one or more of the following aspects: taller central cleat member and a slanted or clipped peripheral cleat. A cleated belt conveyor guide element, comprised of a plurality of longitudinally spaced-apart lugs that extend from an inner surface of the belt is also disclosed. A cogged roller, having a plurality of channel segments divided by drive bars, complements the guide element, increasing the power transfer and tracking ability over a cleated belt lacking a guide element. Also a baffle assembly can be disposed within the conveyor tube to limit material back flow. The baffle assembly can be configured with a belt passage aperture that corresponds to the cleat row profile.

Disclosed is a drive wheel set, comprising a common shaft and at least two external rotor motors installed on the common shaft. External rotors of the external rotor motors form drive wheels of the drive wheel set. Also disclosed are a vertical-type wire storage frame, a swing-type wire storage frame, a guide wheel frame, a traction mechanism and a multi-path conveying mechanism using the drive wheel set. The drive wheel set is small in size, occupies less space, and is suitable for a situation where a plurality of motors need to be driven but sufficient space is lacking.

A friction drive wheel for conveyor systems includes a cylindrical central disk formed of aluminum. Joined to the curved outer surface of the aluminum disk is a base layer that is cylindrical and sleeve-like and coaxial with the disk. The base layer is formed of a hard polymer (like polyurethane) material, with a hardness in the range of 75 Shore D, to eliminate torsional stress and flexure at the mechanical interface between the base layer and the central disk. A tread layer is secured about the base layer, formed of a softer polymer (like polyurethane) that is more yielding and compliant in contact with the trolley to maximize the frictional engagement. The base layer serves as a thermal insulator between the outer tread layer and the central disk, protecting the bond at the base/central disk interface.

A friction drive wheel for conveyor systems includes a cylindrical central disk formed of aluminum. Joined to the curved outer surface of the aluminum disk is a base layer that is cylindrical and sleeve-like and coaxial with the disk. The base layer is formed of a hard polymer (like polyurethane) material, with a hardness in the range of 75 Shore D, to eliminate torsional stress and flexure at the mechanical interface between the base layer and the central disk. A tread layer is secured about the base layer, formed of a softer polymer (like polyurethane) that is more yielding and compliant in contact with the trolley to maximize the frictional engagement. The base layer serves as a thermal insulator between the outer tread layer and the central disk, protecting the bond at the base/central disk interface.