Powder application apparatus and method of operating a powder application apparatus

What is claimed: 1. A method of manufacturing work pieces by exposing powder layers to electromagnetic radiation or particle radiation using a powder application apparatus comprising: a first powder storage provided in a first part of the powder application apparatus to receive and store raw material powder, a first powder supply channel provided in a second part of the powder application apparatus to discharge raw material powder from the first powder storage onto a carrier located below the apparatus, and a first channel opening/closing element provided in the first powder supply channel to move between a first position in which the first channel opening/closing element allows the discharge of raw material powder from the first powder storage onto the carrier, and a second position in which the first channel opening/closing element prevents the discharge of raw material powder from the first powder storage onto the carrier, the method comprises: moving the first channel opening/closing element between the first and the second position by means of an external mechanical force acting on the first channel opening/closing element, the external mechanical force being caused by abutting the first channel opening/closing element against a stopper of the device for manufacturing work pieces when moving the powder application apparatus over the carrier. 2. The method of claim 1 , wherein in one of the first and the second position, the first channel opening/closing element projects from a side surface of a housing of the powder application apparatus, and wherein in the other one of the first and the second position, the first channel opening/closing element does not project from the side surface of the housing of the powder application apparatus, or projects less or further from the side surface of the housing of the powder application apparatus. 3. The method of claim 2 , wherein the first channel opening/closing element is a plate member movable in a horizontal direction between the first and the second position, wherein in one of the first and the second position, a side surface of the plate member projects from the side surface of the housing of the powder application apparatus, and wherein in the other one of the first and the second position, the side surface of the plate member is aligned with the side surface of the housing of the powder application apparatus or projects less or further from the side surface of the housing of the powder application apparatus. 4. The method of claim 1 , wherein the powder application apparatus further comprising: a second powder storage provided in a first part of the powder application apparatus to receive and store raw material powder, a second powder supply channel provided in a second part of the powder application apparatus to discharge raw material powder from the second powder storage onto the carrier located below the apparatus, and a second channel opening/closing element provided in the second powder supply channel to move between a first position in which the second channel opening/closing element allows the discharge of raw material powder from the second powder storage onto the carrier, and a second position in which the second channel opening/closing element prevents the discharge of raw material powder from the second powder storage onto the carrier, wherein the method further comprises: moving the second channel opening/closing element between the first and the second position by means of an external mechanical force acting on the second channel opening/closing element, the external mechanical force being caused by abutting the second channel opening/closing element against a stopper, the first channel opening/closing element allows the discharge of the device for manufacturing work pieces when moving the powder application apparatus over the carrier. 5. The method of claim 4 , wherein the first channel opening/closing element and the second channel opening/closing element are formed integrally with each other. 6. The method of claim 1 , further comprising at least one of: simultaneously positioning both the first and the second channel opening/closing element in a filling position to prevent the discharge of raw material powder from the first and the second powder storage onto the carrier, moving both the first and the second channel opening/closing elements from their filling position in a first moving direction so as to cause the first channel opening/closing element to move into its first position to allow the discharge of raw material powder from the first powder storage onto the carrier, and to simultaneously cause the second channel opening/closing element to move into its second position to prevent the discharge of raw material powder from the second powder storage onto the carrier, and moving both the first and the second channel opening/closing elements from the filling position in a second moving direction to cause the first channel opening/closing element to move into its second position to prevent the discharge of raw material powder from the first powder storage onto the carrier, and to simultaneously cause the second channel opening/closing element to move into its first position to allow the discharge of raw material powder from the second powder storage onto the carrier. 7. The method of claim 4 , wherein the first powder storage extends along a plane being inclined with regard to a vertical plane coinciding with a longitudinal axis of the powder application apparatus such that a distance between the vertical plane and the first powder storage increases when moving from an inlet part of the first powder storage to an outlet part of the first powder storage, and/or wherein the second powder storage extends along a plane being inclined with regard to the vertical plane of the powder application apparatus such that a distance between the vertical plane and the second powder storage increases when moving from an inlet part of the second powder storage to an outlet part of the second powder storage, and/or wherein an inlet end of the first powder storage comprises a plurality of first inlets for receiving raw material powder, and wherein an inlet end of the second powder storage comprises a plurality of second inlets for receiving raw material powder, wherein the first inlets are different from the second inlets, and wherein the first inlets and the second inlets in particular alternate with each other along a direction parallel to the longitudinal axis of the powder application apparatus, and/or wherein, at a bottom surface of the powder application apparatus, a detachably attached leveling slider is provided. 8. The method of claim 4 , wherein a space is provided between the first powder storage and the second powder storage, the space extending from a bottom surface of the powder application apparatus into the powder application apparatus towards the first part of the powder application apparatus, wherein a holding element is fitted into the space such that it is movable along a vertical direction within the space, and wherein a bottom surface of the holding element comprises a detachably attached leveling slider. 9. The method of claim 8 , wherein the vertical position of the holding element is adjustable by micrometer screws extending vertically through a top surface of the powder application apparatus and through the space so that the micrometer screws can be actuated at their top ends. 10. A method of manufacturing work pieces by exposing powder layers to electromagnetic radiation or particle radiation, the method comprising: providing a housing; providing a carrier below the housing; and providing a first stopper mounted to a sidewall of the