Powder transfer system

The invention claimed is: 1 . A powder transfer system comprising: a transfer pipe, through which powder is transferred, having a plurality of sections along the powder transfer direction; a plurality of sensing units provided for each section of the transfer pipe and provided to detect vibration of the transfer pipe when the powder is transferred for each section; a plurality of vibration units configured to apply vibration to each section of the transfer pipe; and a control part configured to individually control operation of the vibration unit for each section of the transfer pipe based on vibration data obtained from the sensing unit for each section of the transfer pipe, wherein the plurality of sensing units comprises a plurality of vibration sensors disposed apart from each other along a loading height direction of the powder for each section of the transfer pipe when the powder is transferred. 2 . The powder transfer system according to claim 1 , wherein the control part is configured to control an operation of the vibration unit for each section of the transfer pipe based on a result of comparing the vibration data obtained from the sensing unit for each section and the normal vibration data for each section stored in advance. 3 . The powder transfer system according to claim 2 , wherein the plurality of vibration sensors is provided at different heights, respectively, based on the bottom surface of the transfer pipe, and the control part is configured to control the operation of the vibration unit provided in the relevant section based on a result of comparing the vibration data obtained from the plurality of vibration sensors in the section and the normal vibration data for each height stored in advance. 4 . The powder transfer system according to claim 3 , wherein the control part is configured so that the loading height of the powder under transfer is calculated based on vibration data obtained from the plurality of vibration sensors provided along the loading height direction of the powder in the relevant section, and the operation of the vibration unit is controlled according to the calculated height. 5 . The powder transfer system according to claim 4 , wherein the control part is configured to adjust a vibration intensity of the vibration unit based on the difference between the calculated powder loading height and the preset normal loading height. 6 . The powder transfer system according to claim 5 , wherein the control part is configured to increase the vibration intensity of the vibration unit in proportion to the difference between the calculated powder loading height and the preset normal loading height. 7 . The powder transfer system according to claim 6 , wherein the normal loading height is a height within a range of 50% ( 0 . 5 h ) to 70% ( 0 . 7 h ) of the total height (h) based on the bottom surface of the transfer pipe. 8 . The powder transfer system according to claim 4 , further comprising a monitoring part for displaying loading height information of the powder under transfer for each section of the transfer pipe. 9 . The powder transfer system according to claim 1 , wherein the vibration unit is an ultrasonic vibration vibrator. 10 . The powder transfer system according to claim 1 , further comprising: a powder input part supplying the powder to the transfer pipe; a metering hopper accommodating the powder transferred along the transfer pipe; and a vacuum pump provided between the metering hopper and the transfer pipe and configured for applying a vacuum pressure to the transfer pipe so that the powder is transferred to the metering hopper along the transfer pipe. 11 . The powder transfer system according to claim 10 , wherein the control part is configured to adjust the transfer speed of the powder by adjusting the strength of the vacuum pressure of the vacuum pump. 12 . The powder transfer system according to claim 10 , further comprising a first on-off valve provided between the powder input part and the transfer pipe, wherein the control part is configured to adjust the input amount of the powder supplied to the transfer pipe by controlling the first on-off valve. 13 . The powder transfer system according to claim 10 , further comprising a supply pipe into which the powder measured in the metering hopper is introduced; and a mixing part connected to the supply pipe, wherein the supply pipe has a plurality of sections along the transfer direction of the powder toward the mixing part. 14 . The powder transfer system according to claim 13 , further comprising: a plurality of sensing units provided for each section of the supply pipe, and provided to detect vibration of the supply pipe upon powder transfer for each section; and a vibration unit configured to apply vibration to a section adjacent to the metering hopper among the plurality of sections. 15 . The powder transfer system according to claim 14 , wherein the control part is configured to control the operation of the vibration unit of the supply pipe based on the vibration data obtained for each section in the supply pipe.