Homogeneous suction during additive manufacturing

What is claimed is: 1. A manufacturing device for the additive manufacturing of a three-dimensional component from powder, comprising: a main housing having two opposite side walls and two lateral side walls, wherein the lateral side walls are arranged between and connect with the two opposite side walls, and wherein the two opposite side walls and the two lateral side walls enclose a manufacturing chamber; a working surface arranged in the manufacturing chamber and comprising a building platform region upon which the powder can be distributed; an optical system configured to connect to a radiation source that provides a beam for irradiating powder in the building platform region for manufacturing the component layer by layer; and a shielding gas system that provides an areal stream of shielding gas in the manufacturing chamber, the stream having a flow profile, wherein the shielding gas system comprises: at least one primary outlet opening structure and a suction opening structure configured and arranged to direct a primary flow of gas into and out of the manufacturing chamber, wherein the primary outlet opening structure is arranged on a first of the two opposite side walls of the main housing, wherein the suction opening structure is arranged on a second of the two opposite side walls, and wherein the primary outlet opening structure and the suction opening structure are arranged such that the primary flow of gas forms the areal stream of shielding gas, which flows therebetween and over the working surface; and at least one secondary outlet opening configured and arranged to direct a secondary flow of gas into the manufacturing chamber to form at least one secondary shielding gas stream, wherein the at least one secondary outlet opening is provided on one of the two lateral side walls of the main housing, and wherein the at least one secondary outlet opening comprises slits that extend at an angle to a normal direction of the side wall to direct the secondary shielding gas stream obliquely to the areal stream of shielding gas and towards the suction opening structure, thereby affecting the flow profile of the areal stream of shielding gas in a region in front of the suction opening structure. 2. The manufacturing device of claim 1 , wherein the lateral side wall comprising the at least one secondary outlet opening is arranged and configured as a main housing side wall, as a front frame of the main housing, or as a door of the manufacturing chamber in the main housing such that the secondary shielding gas stream flows out obliquely to the areal stream of shielding gas and counteracts a fanning out of the areal stream of shielding gas to form a flow profile with a substantially constant velocity distribution over at least a building platform arranged in the building platform region. 3. The manufacturing device of claim 1 , wherein the at least one secondary outlet opening is arranged in the lateral side wall at a level above the primary outlet opening structure with a corresponding outflow direction directed onto the areal stream of shielding gas, and wherein the slits of the at least one secondary outlet opening are configured and arranged at an angle in the range of 10° to 40° to a normal direction of the lateral side wall. 4. The manufacturing device of claim 1 , wherein the primary outlet opening structure comprises an elongate outflow region that extends parallel to the working surface, and wherein the suction opening structure comprises an elongate suction region extending parallel to the working surface. 5. The manufacturing device of claim 1 , wherein the at least one secondary outlet opening comprises an elongate outflow region extending parallel to the working surface. 6. The manufacturing device of claim 1 , wherein the primary outlet opening structure, the suction opening structure, and the at least one secondary outlet opening are arranged substantially at the same distance above the working surface. 7. The manufacturing device of claim 1 , wherein the shielding gas system further comprises a control unit that controls a velocity of the primary flow of gas and the secondary flow of gas such that the areal stream of shielding gas is homogenized before the suction opening structure in the building platform region or in the powder reservoir region between the primary outlet opening structure and the suction opening structure, and wherein the areal stream of shielding gas flows at a velocity that lies below a critical velocity at which the powder bed is swirled up. 8. The manufacturing device of claim 1 , wherein the manufacturing chamber is delimited at the bottom by the working surface, by a front housing wall, a rear housing wall, and two side housing walls, and at the top by a ceiling wall, and further comprising a powder reservoir region provided on the working surface and wherein the building platform region and the powder reservoir region are arranged next to one another in an alignment direction along the front wall and the areal stream of shielding gas flows parallel to the working surface. 9. The manufacturing device of claim 1 , wherein the at least one secondary outlet opening comprises a sequence of outlet openings. 10. The manufacturing device of claim 8 , wherein the at least one primary outlet opening structure is in the region of the front housing wall, on or in the front housing wall, or in a front door of the manufacturing device, and the suction opening structure is on or in the rear housing wall of the manufacturing device, or wherein the suction opening structure is in the region of the front housing wall, on or in the front housing wall, or in a front door of the manufacturing device, and the primary outlet opening structure is on or in the rear housing wall of the manufacturing device, or wherein the primary outlet opening structure and the suction opening structure are on the two side housing walls, respectively, on opposite sides of the manufacturing device. 11. The manufacturing device of claim 1 , further comprising: a powder supply container for providing the powder through a supply opening in the working surface in the powder reservoir region, and a building cylinder that comprises a stamp, which is lowerable and provided for a building platform and for forming a powder bed, and a component-powder region, which is delimited by the dimensions of the stamp and which is connected to the building platform region by an irradiation opening in the working surface, wherein the primary outlet opening structure and/or the suction opening structure are configured and arranged such that the areal stream of shielding gas has a laminar course of flow in the direction of the irradiation opening and/or the supply opening. 12. The manufacturing device of claim 1 , wherein the shielding gas system further comprises: one or both of a shielding gas tank and a shielding gas connection, a pump system, valves, and lines for connecting the individual components of the shielding gas system. 13. The manufacturing device of claim 1 , further comprising a control unit configured to: control the primary flow of gas to flow the areal stream of shielding gas in parallel to the working surface in the manufacturing chamber over a powder bed in the building platform region at a first flow velocity, control the secondary flow of gas to flow the secondary shielding gas stream at a second flow velocity that is the same or lower than the first flow velocity, and adjusting the second flow velocity and a quantity of gas emerging from the at least one secondary outlet opening and adjusting the suction-removal capacity through the suction