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; one or more chamber parts coupled to the storage part to accommodate the powder transferred from the storage part; a hopper part coupled to the one or more chamber parts to control fluid communication with the one or more chamber parts, and coupled to the storage part to accommodate the powder transferred from the storage part; and a vacuum pressure forming part coupled to the one or more chamber parts to provide vacuum pressure to the one or more chamber parts, wherein the powder is split and supplied to the one or more chamber parts or the hopper part. 2. The vacuum-type powder transfer system of claim 1 , further comprising: a common transfer line connected to and extending from the storage part; a first transfer line connected to and extending from the one or more chamber parts; a second transfer line connected to and extending from the hopper part; and a branch pipe connected to the common transfer line, the first transfer line, and the second transfer line to supply the powder carried by the common transfer line to at least one of the first transfer line or the second transfer line by diverting a path of the powder to the first transfer line or the second transfer line. 3. The vacuum-type powder transfer system of claim 1 , wherein the hopper part further comprises an anti-abrasion plate disposed in front of an outlet end of a second transfer line connected to the hopper part, the outlet end being inserted in a tangential direction into an inner wall of the hopper part. 4. The vacuum-type powder transfer system of claim 3 , wherein the anti-abrasion plate is configured such that a virtual axis extending from an inner side of an outer peripheral surface of the outlet end of the 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. 5. The vacuum-type powder transfer system of claim 1 , wherein the hopper part is disposed under the one or more chamber parts. 6. The vacuum-type powder transfer system of claim 1 , wherein the hopper part has a storage capacity larger than a storage capacity of each of the chamber parts. 7. A vacuum-type powder transfer method using a vacuum-type powder transfer system, the vacuum-type powder transfer method comprising: providing powder to a storage part of the vacuum-type powder transfer system; determining a supply amount of the powder; performing a first transfer operation to suck the powder from the storage part to one or more chamber parts of the vacuum-type powder transfer system in a case that the powder supply amount is equal to or less than a storage capacity of each of the chamber parts; performing a second transfer operation to suck the powder from the storage part to a hopper part of the vacuum-type powder transfer system in a case that the powder supply amount is greater than the storage capacity of each of the chamber parts; and discharging the powder accommodated in the hopper part to downstream equipment. 8. The vacuum-type powder transfer method of claim 7 , further comprising feeding the powder from the one or more chamber parts to the hopper part after performing the first transfer operation. 9. The vacuum-type powder transfer method of claim 7 , wherein the second transfer step further comprises allowing the chamber parts and the hopper part to be in fluid communication with each other and providing the vacuum pressure to each of the chamber parts and the hopper part by a vacuum pressure forming part of the vacuum-type powder transfer system. 10. The vacuum-type powder transfer method of claim 7 , wherein the second transfer operation includes allowing the powder to rotate and flow along an inner wall of the hopper part. 11. The vacuum-type powder transfer method of claim 7 , wherein the powder is guided to a powder transfer path by performing the first transfer operation, the second transfer operation, or both the first and second transfer operations. 12. The vacuum-type powder transfer method of claim 7 , wherein the one or more chamber parts are coupled to the storage part to accommodate the powder transferred from the storage part. 13. The vacuum-type powder transfer method of claim 7 , wherein the hopper part is coupled to the one or more chamber parts to control fluid communication with the one or more chamber parts, and coupled to the storage part to accommodate the powder transferred from the storage part. 14. The vacuum-type powder transfer method of claim 7 , wherein the vacuum pressure forming part is coupled to the one or more chamber parts to provide vacuum pressure to the one or more chamber parts.