Vacuum-type powder transfer system and method

What is claimed is: 1. A vacuum-type powder transfer system, comprising: a storage part configured to store powder; a chamber part coupled in fluid communication with the storage part; a hopper part coupled in fluid communication with the storage part; and a vacuum pressure forming part configured to transfer the powder stored in the storage part to the chamber part or the hopper part by a vacuum suction method, wherein a vacuum pressure is formed in the storage part, the chamber part, the hopper part, or a combination thereof to effect at least in part a discharge from the hopper part to downstream equipment. 2. The vacuum-type powder transfer system of claim 1 , wherein the hopper part is disposed below the chamber part to be control fluid communication with the chamber part. 3. The vacuum-type powder transfer system of claim 1 , wherein the hopper part has a greater storage capacity than the chamber part. 4. The vacuum-type powder transfer system of claim 1 , further comprising an opening/closing valve between the chamber part and the hopper part. 5. The vacuum-type powder transfer system of claim 1 , wherein the vacuum pressure forming part is disposed to provide the vacuum pressure to the chamber part. 6. The vacuum-type powder transfer system of claim 1 , wherein the powder transferred from the storage part is introduced in a tangential direction to an inner wall of the hopper part. 7. The vacuum-type powder transfer system of claim 1 , further comprising: a common transfer line connected to the storage part; a first transfer line connected to the chamber part; a second transfer line connected to the hopper part; and a branch pipe connected to the common transfer line, the first transfer line, and the second transfer line and configured to supply the powder transferred by the common transfer line by diverting the powder to the first transfer line or the second transfer line. 8. The vacuum-type powder transfer system of claim 1 , wherein the hopper part further comprises an anti-abrasion plate on an inner wall of the hopper part. 9. The vacuum-type powder transfer system of claim 8 , wherein the anti-abrasion plate comprises a guide protrusion extending to be inclined downward in a longitudinal direction of the anti-abrasion plate. 10. The vacuum-type powder transfer system of claim 8 , wherein the anti-abrasion plate is configured such that a virtual axis extending from an inner side of an outer peripheral surface of an outlet end of a second transfer line toward the inner wall of the hopper part is disposed between a proximal end and a distal end of the anti-abrasion plate. 11. A vacuum-type powder transfer method comprising: a step of providing powder to a storage part; a step of determining a powder supply amount; a first transfer step of transferring the powder to a chamber part coupled in fluid communication with the storage part; a second transfer step of transferring the powder to a hopper part coupled in fluid communication with the storage part; and a step of discharging the powder accommodated in the hopper part to downstream equipment, wherein a vacuum pressure is formed in the storage part, the chamber part, the hopper part, or a combination thereof. 12. The vacuum-type powder transfer method of claim 11 , wherein the hopper part has a greater storage capacity than the chamber part. 13. The vacuum-type powder transfer method of claim 11 , wherein the hopper part is disposed below the chamber part to be control fluid communication with the chamber part. 14. The vacuum-type powder transfer method of claim 11 , wherein when the powder supply amount is equal to or less than a storage capacity of the chamber part, the first transfer step is performed. 15. The vacuum-type powder transfer method of claim 11 , wherein when the powder supply amount is greater than a storage capacity of the chamber part, the second transfer step is performed. 16. The vacuum-type powder transfer method of claim 15 , wherein when the powder supply amount reaches equal to or less than the storage capacity of the chamber part during the second transfer step, a power is transferred by the first transfer step. 17. The vacuum-type powder transfer method of claim 11 , further comprising a step of feeding the powder from the chamber part to the hopper part after the first transfer step. 18. The vacuum-type powder transfer method of claim 11 , wherein the first transfer step and the second transfer step are implemented by a vacuum suction method.