Research on Automatic Tool Changer for Die Cutting Machine

碩士 === 南臺科技大學 === 機械工程系 === 107 === In the past, cutting machine tools have been dominated by manual or semi-automated operations. This mode often causes problems in some processes, such as increased processing time, material waste, and operator risk. However, with the increase of competitors and th...

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Main Authors: TSAI, CHENG-YU, 蔡承祐
Other Authors: SU, CHIA-HSIANG
Format: Others
Language:zh-TW
Published: 2019
Online Access:http://ndltd.ncl.edu.tw/handle/uk4n6p
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spelling ndltd-TW-107STUT04890192019-10-07T03:39:01Z http://ndltd.ncl.edu.tw/handle/uk4n6p Research on Automatic Tool Changer for Die Cutting Machine 衝壓裁切機換刀系統研究 TSAI, CHENG-YU 蔡承祐 碩士 南臺科技大學 機械工程系 107 In the past, cutting machine tools have been dominated by manual or semi-automated operations. This mode often causes problems in some processes, such as increased processing time, material waste, and operator risk. However, with the increase of competitors and the change of manufacturing type, it has been unable to meet the development trend of modern machine tools. Therefore, this study will start with a whole-machine automation and develop a new cutting system in a modular integration. In addition to the high-precision packing system, the die calibration technology will be integrated to develop a new tool change system and magazine. The cutting die is different from the milling cutter, which is mostly irregular in shape and needs to be completely fixed by a blade and cutter head. However, the center of the die must be found through the die corrector before the die is fixed, otherwise the overlap will occur when cutting. In order to complete the cutting machine automation and precision, the integration of packing, calibration and automatic tool changer system is very important. In the development of the magazine, this study will integrate an offline image calibration module. The die contour and alignment mark are directly projected by the die orientation of the packing system. Allows the operator to accurately lock the cutter on the blade according to this image, and then insert it into the magazine in sequence. In the new automatic tool changer part, the pneumatic system, servo motor, screw and sensor are used as the main components of the tool change positioning. Cutter management with human-machine interface (HMI), which automatically records tool magazine position, alarm and display the tool number. Remote monitoring can also be used to allow the outsiders to control the HMI to achieve stable, intelligent, fast and high-precision tool change. The integrated cutting machine can improve the time-consuming and inaccurate cutting of the tool change. The overall cutting deviation can be controlled about 0.1mm. It meets the development goal of cutting machine tools towards automation and precision. SU, CHIA-HSIANG 蘇嘉祥 2019 學位論文 ; thesis 60 zh-TW
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language zh-TW
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sources NDLTD
description 碩士 === 南臺科技大學 === 機械工程系 === 107 === In the past, cutting machine tools have been dominated by manual or semi-automated operations. This mode often causes problems in some processes, such as increased processing time, material waste, and operator risk. However, with the increase of competitors and the change of manufacturing type, it has been unable to meet the development trend of modern machine tools. Therefore, this study will start with a whole-machine automation and develop a new cutting system in a modular integration. In addition to the high-precision packing system, the die calibration technology will be integrated to develop a new tool change system and magazine. The cutting die is different from the milling cutter, which is mostly irregular in shape and needs to be completely fixed by a blade and cutter head. However, the center of the die must be found through the die corrector before the die is fixed, otherwise the overlap will occur when cutting. In order to complete the cutting machine automation and precision, the integration of packing, calibration and automatic tool changer system is very important. In the development of the magazine, this study will integrate an offline image calibration module. The die contour and alignment mark are directly projected by the die orientation of the packing system. Allows the operator to accurately lock the cutter on the blade according to this image, and then insert it into the magazine in sequence. In the new automatic tool changer part, the pneumatic system, servo motor, screw and sensor are used as the main components of the tool change positioning. Cutter management with human-machine interface (HMI), which automatically records tool magazine position, alarm and display the tool number. Remote monitoring can also be used to allow the outsiders to control the HMI to achieve stable, intelligent, fast and high-precision tool change. The integrated cutting machine can improve the time-consuming and inaccurate cutting of the tool change. The overall cutting deviation can be controlled about 0.1mm. It meets the development goal of cutting machine tools towards automation and precision.
author2 SU, CHIA-HSIANG
author_facet SU, CHIA-HSIANG
TSAI, CHENG-YU
蔡承祐
author TSAI, CHENG-YU
蔡承祐
spellingShingle TSAI, CHENG-YU
蔡承祐
Research on Automatic Tool Changer for Die Cutting Machine
author_sort TSAI, CHENG-YU
title Research on Automatic Tool Changer for Die Cutting Machine
title_short Research on Automatic Tool Changer for Die Cutting Machine
title_full Research on Automatic Tool Changer for Die Cutting Machine
title_fullStr Research on Automatic Tool Changer for Die Cutting Machine
title_full_unstemmed Research on Automatic Tool Changer for Die Cutting Machine
title_sort research on automatic tool changer for die cutting machine
publishDate 2019
url http://ndltd.ncl.edu.tw/handle/uk4n6p
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