Device for producing three-dimensional models

What is claimed is: 1. A method for manufacturing three-dimensional models using a 3D printing process comprising the steps of: a) transporting a first amount of a particulate material from a stationary material storage device to a first vertical position using a material feeding device for delivering the particulate material to a receiving container that is attached to a support frame so that the receiving container moves with the support frame in a vertical direction; b) filling a dosing unit on the support frame with the particulate material in the receiving container: c) depositing one or more layers of the particle material from the dosing unit onto a stationary build platform; d) elevating the support frame, the dosing unit, and the receiving container in the vertical direction after depositing each layer of the particulate material by one particle layer thickness; and e) transporting a second amount of the particulate material from the material storage device to a second vertical position using the material feeding device for delivering the particulate material to the receiving container, wherein the second vertical position is offset from the first vertical position; wherein the method includes mixing the particulate material with a liquid prior to transporting the particulate material from the material storage device. 2. The method of claim 1 , wherein the dosing device is a coater device that moves over the build platform in a horizontal direction. 3. The method of claim 2 , wherein the material feeding device includes a lifting device having a linear actuator. 4. The method of claim 3 , wherein the material feeding device includes a crucible and the particulate material is transported from the material storage device to the receiving container in the crucible. 5. The method of claim 1 , wherein the process avoids a generation of frictional heat during the transport of the particulate material from the material storage device to the receiving container. 6. The method of claim 1 , wherein during the step of transporting the particulate material with the material feeding device, the particulate material is at least partially covered so that evaporation of the liquid is reduced or eliminated. 7. The method of claim 1 , wherein high air currents of a pneumatic conveyor are avoided during the transport of the particulate material from the material storage device to the receiving container. 8. The method of claim 1 , wherein the material feeding device includes one or more covered crucibles for transporting the mixture of the particulate material and the liquid. 9. The method of claim 1 , wherein the method includes preparing multiple batches of a mixture of the particulate material and the liquid. 10. The method of claim 1 , wherein the liquid is a hardening material. 11. A method for manufacturing three-dimensional models using a 3D printing process comprising the steps of: a) transporting a first amount of a particulate material from a stationary material storage device to a first vertical position using a material feeding device for delivering the particulate material to a receiving container that is attached to a support frame so that the receiving container moves with the support frame in a vertical direction; b) filling a dosing unit on the support frame with the particulate material in the receiving container; c) depositing one or more layers of the particle material from the dosing unit onto a stationary build platform; d) elevating the support frame, the dosing unit, and the receiving container in the vertical direction after depositing each layer of the particulate material by one particle layer thickness; and e) transporting a second amount of the particulate material from the material storage device to a second vertical position using the material feeding device for delivering the particulate material to the receiving container, wherein the second vertical position is offset from the first vertical position; wherein the dosing device is a coater device that moves over the build platform in a horizontal direction; the particulate material being transported by the material feeding device includes many individual particles, wherein the many individual particles generally move together at the same instantaneous velocity, and the many individual particles are supported by one or more surfaces of the material feeding device and move with the support surface at the same instantaneous velocity. 12. A method for manufacturing three-dimensional models using a 3D printing process comprising the steps of: a) transporting a first amount of a particulate material from a stationary material storage device to a first vertical position using a material feeding device for delivering the particulate material to a receiving container that is attached to a support frame so that the receiving container moves with the support frame in a vertical direction; b) filling a dosing unit on the support frame with the particulate material in the receiving container; c) depositing one or more layers of the particle material from the dosing unit onto a stationary build platform; d) elevating the support frame, the dosing unit, and the receiving container in the vertical direction after depositing each layer of the particulate material by one particle layer thickness; and e) transporting a second amount of the particulate material from the material storage device to a second vertical position using the material feeding device for delivering the particulate material to the receiving container, wherein the second vertical position is offset from the first vertical position; wherein the dosing device is a coater device that moves over the build platform in a horizontal direction; and wherein the particulate material is mixed with a liquid medium prior to being deposited as a layer over the build surface. 13. A method for manufacturing three-dimensional models using a 3D printing process comprising the steps of: a) transporting a first amount of a particulate material from a stationary material storage device to a first vertical position using a material feeding device for delivering the particulate material to a receiving container that is attached to a support frame so that the receiving container moves with the support frame in a vertical direction; b) filling a dosing unit on the support frame with the particulate material in the receiving container; c) depositing one or more layers of the particle material from the dosing unit onto a stationary build platform; d) elevating the support frame, the dosing unit, and the receiving container in the vertical direction after depositing each layer of the particulate material by one particle layer thickness; and e) transporting a second amount of the particulate material from the material storage device to a second vertical position using the material feeding device for delivering the particulate material to the receiving container, wherein the second vertical position is offset from the first vertical position; wherein the dosing device is a coater device that moves over the build platform in a horizontal direction; and wherein the material feeding device has an incline angle, wherein the incline angle changes as the vertical position of the coater device is changed. 14. The method of claim 13 , wherein the method includes selectively dropping a liquid binder material over a deposited layer of particulate material. 15. The method of claim 13 , wherein the particulate material being transported by the material feeding device includes many individual particles, where