Device and method for powder distribution and additive manufacturing method using the same

What is claimed is: 1. A powder distribution device, comprising: a feeder configured with at least one container, for providing at least one powder; a translation driver, for providing a translational driving force; a rotation driver, for providing a rotational driving force while being coupled to the translation driver; and a receptacle, coupled to the rotation driver for enabling the receptacle to receive the rotational driving force from the rotation driver so as to be driven to perform a rotation movement while being brought along to move with the rotation driver in a linear translation movement by the translational driving force, and the receptacle being provided for receiving the at least one powder therein for allowing the at least one powder to be poured out of the receptacle by the rotation of the receptacle, and a receptacle controller configured to control the receptacle, wherein the controller is configured to invert the receptacle to pour the at least one powder out through an opening in a top of the at least one container, and to rotate the receptacle back to contact an outer periphery of the receptacle with the poured-out powder and move the receptacle across the poured-out powder to spread the poured-out powder across a working area. 2. The powder distribution device of claim 1 , wherein each container is further formed with at least one feeding port. 3. The powder distribution device of claim 1 , wherein the feeder is further configured with a rotary table in a manner that said at least one container is disposed on the rotary table for selectively enabling one container selected from the at least one container to be rotated to a position corresponding to the receptacle. 4. The powder distribution device of claim 1 , wherein the rotation driver is designed to receive the translational driving force so as to be driven to perform a linear translation movement. 5. The powder distribution device of claim 1 , wherein the at least one powder that is being poured out of the receptacle is distributed into a layer by the linear translation movement of the receptacle. 6. The powder distribution device of claim 1 , wherein the translation driver is configured with a motor, a screw rod, a slide seat and a slide block in a manner that the motor is coupled to the screw rod by a coupling for enabling the screw rod to be powered and driven to rotate by the motor, and the slide block is slidably mounted on the slide seat while coupling to the screw rod so that the slide block is enabled to slide on the slide seat by the screw rod that is being driven to rotate by the motor. 7. The powder distribution device of claim 6 , wherein the slide block is coupled to the rotation driver via a connecting plate. 8. The powder distribution device of claim 1 , wherein the rotation driver is configured with a motor, a pair of pulleys and a belt in a manner that the pair of pulleys are coupled respectively to the motor and a rotation axis of the receptacle while enabling the belt to be coupled to the pair of the pulleys.