A method for producing a component for a heat exchanger through which fluid flows is provided. A base plate is provided on which there is an adhesive layer formed by glue. A channel plate is placed on the surface of the base plate such that the channel plate is spaced apart from the base plate in at least one channel region to delimit at least one fluid channel, and is bears on the adhesive layer in at least one bonding region to obtain a material bond with the base plate. The channel plate and base plate are clamped together in and by a hot press, such that a material bond is formed between the base plate and the channel plate in the bonding region when the adhesive layer is heated. The base plate and channel plate are placed in a cold press such that the adhesive layer that was heated in the hot press is cooled while the base plate is clamped against the channel plate.

A conveyor for conveying good. According to one embodiment the conveyor includes a holding unit for holding or releasing the goods with respect to a conveyor belt. The holding unit includes vacuum holding means and magnetic holding means. The magnetic holding means includes at least one movable element that comprises at least one magnet or has a magnet attached thereto. The movable element is able to deactivate the magnetic holding means by distancing the magnet from the conveyor belt, and is also able to be arrange in a closed position in which the movable element blocks a vacuum conduit extending through the conveyor belt.

A method for motion planning for a conveyor system of a servo press installation, a motion controller for a conveyor system of a servo press installation, and to an associated computer program product, wherein an angular offset is optimized with respect to power peaks.

A method for motion planning for a conveyor system of a servo press installation, a motion controller for a conveyor system of a servo press installation, and to an associated computer program product, wherein an angular offset is optimized with respect to power peaks.

An alignment assembly for a press assembly is provided. The alignment assembly includes a number of alignment elements. The alignment elements include a number of moving alignment elements. The moving alignment elements are coupled to an upper tooling assembly that moves between a first and second position. As the upper tooling assembly moves, the moving alignment elements move between a first position and a second position corresponding to the upper tooling assembly first position and a second position. The moving alignment elements are structured to move the shell from the initial alignment position to an intermediate alignment position. Thus, as the upper tooling assembly moves from the first position to the second position, the moving alignment elements contact a shell and move the shell from an initial alignment position to an intermediate alignment position.

An alignment assembly for a press assembly is provided. The alignment assembly includes a number of alignment elements. The alignment elements include a number of moving alignment elements. The moving alignment elements are coupled to an upper tooling assembly that moves between a first and second position. As the upper tooling assembly moves, the moving alignment elements move between a first position and a second position corresponding to the upper tooling assembly first position and a second position. The moving alignment elements are structured to move the shell from the initial alignment position to an intermediate alignment position. Thus, as the upper tooling assembly moves from the first position to the second position, the moving alignment elements contact a shell and move the shell from an initial alignment position to an intermediate alignment position.

A conveyor for conveying good. According to one embodiment the conveyor includes a holding unit for holding or releasing the goods with respect to a conveyor belt. The holding unit includes vacuum holding means and magnetic holding means. The magnetic holding means includes at least one movable element that comprises at least one magnet or has a magnet attached thereto. The movable element is able to deactivate the magnetic holding means by distancing the magnet from the conveyor belt, and is also able to be arrange in a closed position in which the movable element blocks a vacuum conduit extending through the conveyor belt.

A method for producing a component for a heat exchanger through which fluid flows is provided. A base plate is provided on which there is an adhesive layer formed by glue. A channel plate is placed on the surface of the base plate such that the channel plate is spaced apart from the base plate in at least one channel region to delimit at least one fluid channel, and is bears on the adhesive layer in at least one bonding region to obtain a material bond with the base plate. The channel plate and base plate are clamped together in and by a hot press, such that a material bond is formed between the base plate and the channel plate in the bonding region when the adhesive layer is heated. The base plate and channel plate are placed in a cold press such that the adhesive layer that was heated in the hot press is cooled while the base plate is clamped against the channel plate.

A method for producing a component for a heat exchanger through which fluid flows is provided. A base plate is provided on which there is an adhesive layer formed by glue. A channel plate is placed on the surface of the base plate such that the channel plate is spaced apart from the base plate in at least one channel region to delimit at least one fluid channel, and is bears on the adhesive layer in at least one bonding region to obtain a material bond with the base plate. The channel plate and base plate are clamped together in and by a hot press, such that a material bond is formed between the base plate and the channel plate in the bonding region when the adhesive layer is heated. The base plate and channel plate are placed in a cold press such that the adhesive layer that was heated in the hot press is cooled while the base plate is clamped against the channel plate.