The invention relates to a method for treating a food product by non-conventional resistive heating using. contact with spaced-apart electrically conductive electrodes connected to a power source that regulates current to the electrodes by pausing heating of the food product to a predetermined temperature. The electrodes are configured into two groups at a first distance from one another. Each electrode group has individual electrodes, similar to a comb-like set of needles, wherein neighboring needles of each group are at a second distance from one another that is greater than or equal to the first distance. Each set of needles penetrates the food product such that points of the needles leave penetration points, wherein the food product is accommodated in a space between two conveyor belts and the individual electrodes extend from at least one of the conveyor belts in the direction of the opposite conveyor belt.

The invention relates to a method for treating a food product by non-conventional resistive heating using. contact with spaced-apart electrically conductive electrodes connected to a power source that regulates current to the electrodes by pausing heating of the food product to a predetermined temperature. The electrodes are configured into two groups at a first distance from one another. Each electrode group has individual electrodes, similar to a comb-like set of needles, wherein neighboring needles of each group are at a second distance from one another that is greater than or equal to the first distance. Each set of needles penetrates the food product such that points of the needles leave penetration points, wherein the food product is accommodated in a space between two conveyor belts and the individual electrodes extend from at least one of the conveyor belts in the direction of the opposite conveyor belt.

A method for transporting pairs of packs (100) comprising arranging a first pair of packs on a horizontal transport device (50), transporting the first pair of packs in a horizontal direction, arranging a second pair of packs on the horizontal transport device (50), therein, for each of the first pair and the second pair of the pair of packs, spacing a first pack of the pair of packs and a second pack of the pair of packs vertically from each other and further spacing the first pair of packs and the second pair of packs horizontally from each other on the horizontal transport device.

A method for transporting pairs of packs (100) comprising arranging a first pair of packs on a horizontal transport device (50), transporting the first pair of packs in a horizontal direction, arranging a second pair of packs on the horizontal transport device (50), therein, for each of the first pair and the second pair of the pair of packs, spacing a first pack of the pair of packs and a second pack of the pair of packs vertically from each other and further spacing the first pair of packs and the second pair of packs horizontally from each other on the horizontal transport device.

A method for forming pairs of packs, comprising providing a supply of individual packs (100), arranging a first pack in a vertical transport device (40), arranging a second pack in the vertical transport device (40), thereby arranging the second pack vertically spaced from the first pack in the vertical transport device (40). The method further comprises vertically transporting the first and the second pack in the vertical transport device, then simultaneous pushing the first and second packs as a pair of packs out of the vertical transport device and into a receiving device (50), wherein the first and second packs are transferred in a vertically spaced manner as the pair of packs to the receiving device and are arranged in a vertically spaced manner in the receiving device.

A method for forming pairs of packs, comprising providing a supply of individual packs (100), arranging a first pack in a vertical transport device (40), arranging a second pack in the vertical transport device (40), thereby arranging the second pack vertically spaced from the first pack in the vertical transport device (40). The method further comprises vertically transporting the first and the second pack in the vertical transport device, then simultaneous pushing the first and second packs as a pair of packs out of the vertical transport device and into a receiving device (50), wherein the first and second packs are transferred in a vertically spaced manner as the pair of packs to the receiving device and are arranged in a vertically spaced manner in the receiving device.

Disclosed is a transport device, an applicator and a method for transporting a tire component in a transport direction. The transport device includes at least three conveyors extending mutually parallel in the transport direction and side-by-side in a lateral direction perpendicular to the transport direction to form a combined conveying surface for conveying the tire component in the transport direction, wherein the at least three conveyors include an intermediate conveyor, a first side conveyor on a first side of the intermediate conveyor in the lateral direction and a second side conveyor on a second side of the intermediate conveyor in the lateral direction, opposite to the first side, wherein the intermediate conveyor, the first side conveyor and the second side conveyor are movable at different speeds with respect to each other in a direction parallel to the transport direction.

Disclosed is a transport device, an applicator and a method for transporting a tire component in a transport direction. The transport device includes at least three conveyors extending mutually parallel in the transport direction and side-by-side in a lateral direction perpendicular to the transport direction to form a combined conveying surface for conveying the tire component in the transport direction, wherein the at least three conveyors include an intermediate conveyor, a first side conveyor on a first side of the intermediate conveyor in the lateral direction and a second side conveyor on a second side of the intermediate conveyor in the lateral direction, opposite to the first side, wherein the intermediate conveyor, the first side conveyor and the second side conveyor are movable at different speeds with respect to each other in a direction parallel to the transport direction.

A low-profile, high-capacity elevator conveying system that is operably able to reduce spatial requirements for the elevating system to not less than about one third (⅓) of the overall lift height, and preferably having a height to base ratio in a range of between 4:1 to 8:1. The present invention also relates to a high capacity elevator conveying system which can elevate both fine and coarse materials through a range of between 300 μm and 300 mm, while limiting belt side travel to 150 mm maximum, or +/−75 mm as required to prevent edge damage to the conveyor belts.

A low-profile, high-capacity elevator conveying system that is operably able to reduce spatial requirements for the elevating system to not less than about one third (⅓) of the overall lift height, and preferably having a height to base ratio in a range of between 4:1 to 8:1. The present invention also relates to a high capacity elevator conveying system which can elevate both fine and coarse materials through a range of between 300 μm and 300 mm, while limiting belt side travel to 150 mm maximum, or +/−75 mm as required to prevent edge damage to the conveyor belts.