Method and device for producing three-dimensional models

The invention claimed is: 1. A method for producing three-dimensional objects based on computer-provided data including a build process comprising the steps of: depositing a material in layers in a process chamber on a movable build surface that is a continuous surface; selectively solidifying and/or bonding the material using a bonding apparatus and/or a solidifying apparatus in the process chamber; and repeating the steps of depositing and solidifying and/or bonding for layer-wise producing a build component; wherein a conveyance of the build component proceeds during the build process and proceeds continuously, sequentially, and evenly up to an unpacking position; wherein the repeating of the step of depositing includes depositing a first layer with a spreader device and depositing a second layer over substantially the entirety of the first layer with the same spreader device; wherein each of the layers of the deposited material is deposited as a continuous layer on a first plane having an angle of greater than 0° to a plane of the conveyance. 2. The method according to claim 1 , wherein a conveyance direction essentially remains up to the unpacking position. 3. The method according to claim 1 , wherein the material is a powder material. 4. The method according to claim 1 , wherein first a particulate material in a feedstock is introduced in a process chamber and then a build process of an object begins on this particulate material feedstock. 5. The method according to claim 1 , wherein the build component is unpacked in the unpacking position without interrupting the build process. 6. The method according to claim 1 , wherein the build component is moved via a conveyance means. 7. The method according to claim 1 , wherein the build component is moved horizontally. 8. The method of claim 1 , wherein the method includes producing multiple of the three-dimensional objects that are unconnected to each other. 9. The method of claim 1 , wherein the movable build surface is a conveyor belt. 10. The method of claim 9 , wherein the build component is moved with an angle to horizontal; the material is a particulate material and is deposited in layers on a reception plane having an angle of greater than 0° to a plane of the solid support surface; the build component is supported by a fixed plate, and the build component moves on the continuous build surface throughout the conveyance; the angle between the conveyor belt and the spreader device plane is less than an angle of repose of the particulate material; and the spreader device moves along a plane angled with the conveyor belt in a direction at least partially away from the conveyor belt. 11. The method of claim 1 , wherein the deposited material is a particulate material; and the angle between the conveyor belt and the spreader device plane is less than an angle of repose of the particulate material. 12. The method of claim 9 , wherein the method includes a step of a robot removing the object from the conveyor belt. 13. The method of claim 1 , wherein the deposited material is a particulate material, and the method includes a step of free particulate material running off the conveyor belt after the build component at least partially solidifies. 14. A method for producing three-dimensional objects based on computer-provided data including a build process comprising the steps of: depositing a material in layers in a process chamber on a movable build surface that is a continuous surface; selectively solidifying and/or bonding the material using a bonding apparatus and/or a solidifying apparatus in the process chamber; and repeating the steps of depositing and solidifying and/or bonding for layer-wise producing a build component; wherein a conveyance of the build component proceeds during the build process and proceeds continuously, sequentially, and evenly up to an unpacking position; wherein the repeating of the step of depositing includes depositing a first layer with a spreader device and depositing a second layer over substantially the entirety of the first layer with the same spreader device; wherein an auxiliary structures are additionally created during the layer-wise producing of the build component, which impede slipping off of the material layers during the build-up process. 15. The method according to claim 14 , wherein each of the layers of the deposited material is deposited as a continuous layer on a first plane having an angle of greater than 0° to a plane of the conveyance. 16. The method of claim 14 , wherein the build component is supported by a fixed plate, and the build component moves on the continuous build surface throughout the conveyance. 17. A device for producing three-dimensional objects according to the method of claim 16 , the device comprising: computer-provided data, a material that is deposited in layers, a solidifying apparatus that selectively solidifies the deposited material, and a means to convey the deposited material throughout the build-up process continuously, sequentially, and evenly up to an unpacking position; wherein the means to convey includes a continuous solid surface for supporting the deposited layers. 18. The device according to claim 17 , wherein a spreader device and/or the solidifying apparatus are moved on a coordinate system arranged at an angle to a plane of the continuous solid surface. 19. A method for producing three-dimensional objects based on computer-provided data including a build process comprising the steps of: depositing a material in layers in a process chamber on a movable build surface that is a continuous surface; selectively solidifying and/or bonding the material using a bonding apparatus and/or a solidifying apparatus in the process chamber; and repeating the steps of depositing and solidifying and/or bonding for layer-wise producing a build component; wherein a conveyance of the build component proceeds during the build process and proceeds continuously, sequentially, and evenly up to an unpacking position; wherein the repeating of the step of depositing includes depositing a first layer with a spreader device and depositing a second layer over substantially the entirety of the first layer with the same spreader device; wherein the build component is moved with an angle to horizontal. 20. A method for continuously producing three-dimensional objects comprising steps of: using computer-provided data, depositing a material on a movable material reception means including a movable build surface that is a continuous surface, forming an object or multiple objects by repeatedly applying layers of the material on one side of the object or multiple objects; subsequently solidifying and/or binding of the material; and repeating the steps, wherein the object or objects on the material reception means are continuously moved out of a process area during the production process and unpacked from the movable material reception means during the production process; wherein the movable material reception means includes a support plate under the movable build surface that supports the material throughout the producing of the three-dimensional objects, including during a step of applying an initial layer of the material; wherein the material is deposited in layers on a reception plane having an angle of greater than 0° to a plane of the support plate. 21. A method for producing three-dimensional objects based on computer-provided data including a bui