The invention relates to a conveyor belt for transporting food products having a packaging composed of a magnetizable material, in particular cans, along a transport direction, wherein the conveyor belt comprises a belt body and a transport belt that runs around the belt body in the operation of the conveyor belt and that has an upper run and a lower run. The belt body is provided with a magnet arrangement that generates a magnetic field that acts in the direction of the upper run of the transport belt and that has a higher value at the belt entry side than at the belt exit side.

A conveyor device for the suspended conveyance of conveyable goods using negative pressure, comprising a continuous conveyor belt guided along a negative-pressure chamber with a rearward side facing towards the negative-pressure chamber. A contact side of the conveyor belt is provided with suction openings formed between the rearward side and the contact side of the conveyor belt. A recess extending in the longitudinal direction of the conveyor belt and limited by longitudinal edges of the conveyor belt is formed on the contact side such that a suction duct sealed by the longitudinal edges and arranged transversely to the longitudinal direction of the conveyor belt with respect to the contact side of the conveyable goods is formed between the contact side of the conveyor belt and the contact side of the conveyable goods.

An electro adhesion (EA) conveyor system for transporting a metallic container includes at least one electro adhesion (EA) pad. The EA pad includes at least one positive electrode and at least one negative electrode arranged in a predetermined pattern. The predetermined pattern is configured to generate an electric field when a voltage is applied to one or more of the at least one positive electrode or the at least one negative electrode. The EA conveyor system includes a conveyor belt operable to transport the metallic container between a first position and a second position. The metallic container is held against the conveyor belt via EA generated by the EA pad during transportation. The EA conveyor system may be adjusted by a control unit of a control system based on production line information such as operational data received from sensors.

A conveyor system and method for spreading a mass of electrically conductive articles, such as aluminum cans, being transferred from an infeed conveyor to a wider discharge conveyor. A transfer device between the infeed and discharge conveyors uses linear induction to propel and spread electrically conductive articles across a continuous transfer surface with or without the aid of backpressure or mechanical spreading means.

A magnetic conveyor belt module integrates a magnetic element into the body of the module to attract conveyed articles to the body. A magnet seat below the top surface of the body seats the magnetic element, so that the magnetic element is between the top surface and bottom surface of the module body. A retainer engages the magnet seat to retain the magnetic element in the seat.

A magnetic energy system including a pathway having inclined portions of the pathway contiguous with declined portions of the pathway and an object adapted to move on the pathway by descending a declined portion of the pathway under the influence of gravity and ascending the contiguous inclined portion of the pathway under the combined influence of kinetic energy and a magnetic flux field interaction with release of the object from the magnetic flux field interaction at a pathway height equal to or greater than the initial height of the object on the preceding declined portion of the pathway.

A bolt supply device includes a slide plate inclined to a vertical direction; and a groove portion formed in the slide plate and having a width that allows passing of a screw portion of a bolt and prevents passing of a flange portion of the bolt. The groove portion includes a first groove configured such that an angle formed between a line extending in an up-down direction along the slide plate and the first groove is a first angle; and a second groove connected to a lower end of the first groove and configured such that an angle formed between the line extending in the up-down direction along the slide plate and the second groove is a second angle smaller than the first angle. The bolt take-out portion is set in the groove portion at a lower end or below the lower end of the second groove.

A magnetic energy system including a pathway having inclined portions of the pathway contiguous with declined portions of the pathway and an object adapted to move on the pathway by descending a declined portion of the pathway under the influence of gravity and ascending the contiguous inclined portion of the pathway under the combined influence of kinetic energy and a magnetic flux field interaction with release of the object from the magnetic flux field interaction at a pathway height equal to or greater than the initial height of the object on the preceding declined portion of the pathway.

A bolt supply device includes a slide plate inclined to a vertical direction; and a groove portion formed in the slide plate and having a width that allows passing of a screw portion of a bolt and prevents passing of a flange portion of the bolt. The groove portion includes a first groove configured such that an angle formed between a line extending in an up-down direction along the slide plate and the first groove is a first angle; and a second groove connected to a lower end of the first groove and configured such that an angle formed between the line extending in the up-down direction along the slide plate and the second groove is a second angle smaller than the first angle. The bolt take-out portion is set in the groove portion at a lower end or below the lower end of the second groove.

A conveying system, such as a conveying system for material including non-ferrous metals, includes a conveying belt and a stabilizer. The conveying belt includes a conveying surface and is adapted to convey the material on the conveying surface. The stabilizer is configured to apply a stabilizing force onto the material on the conveyor belt such that the material is stabilized while being conveyed. A method of stabilizing material on a conveyor belt includes receiving the material on the conveying surface of the conveyor belt, conveying the material at a conveying speed with the conveyor belt, and applying the stabilizing force onto the material with a stabilizer such that vertical displacement of at least some of the material is dampened and/or minimized at the conveying speed.