PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE
The implemention of Autonomous Distributed Manufacturing Systems (ADiMS) which has been developed by Mechanical Production Engineers cannot be separated from the development of some supporting sectors. One of the most important sectors is technology, especially in the development of machine tool tec...
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id-itb.:639062022-03-22T13:06:34ZPROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE Martawirya, Suryandaru Indonesia Theses prototype, interface, PHP, Laravel, lathe machine, sensors, MQTT, IoT, Technology 4.0. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/63906 The implemention of Autonomous Distributed Manufacturing Systems (ADiMS) which has been developed by Mechanical Production Engineers cannot be separated from the development of some supporting sectors. One of the most important sectors is technology, especially in the development of machine tool technology (Martawirya, 2021) to produce high quality technical and non-technical products. One of the machine tools that widely used by operators is conventional lathe machine (Groover, 2013). Some advantages that can be achieved from lathe machine are flexibility of geometry products, the accuracy and precision of the dimensions, and the ease of operation by the operator. The initial stage to support the implementation of ADiMS in Laboratory of Mechanical Production Engineering Institut Teknologi Bandung, by providing artificial intelligence on conventional lathe machine so that the machine can independently determine the working status such as cutting, idle, and off during operations. In addition, monitoring system could helps to present working status data, vibration data, and rotational speed of lathe’s spindle data that can accessed through a website, and it will greatly facilitate users in order to analyzing and getting new ideas for research developments from datas that had been recorded. The prototype of the monitoring system on conventional lathe machine is designed based on two main components. First, a vibration sensor MPU6050 and a tachometer sensor Hall 3144 produces quantitative data to determine the working status of the lathe machine. By comparing the amplitude value with spindle’s rotational speed, the working status of the lathe machine can be determined. Second, the website that has been developed based using PHP programming language for visualising all data that have been recorded into. The result showed that the monitoring system of lathe machine is running well to show the machine working status. text |
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The implemention of Autonomous Distributed Manufacturing Systems (ADiMS) which has been developed by Mechanical Production Engineers cannot be separated from the development of some supporting sectors. One of the most important sectors is technology, especially in the development of machine tool technology (Martawirya, 2021) to produce high quality technical and non-technical products. One of the machine tools that widely used by operators is conventional lathe machine (Groover, 2013). Some advantages that can be achieved from lathe machine are flexibility of geometry products, the accuracy and precision of the dimensions, and the ease of operation by the operator. The initial stage to support the implementation of ADiMS in Laboratory of Mechanical Production Engineering Institut Teknologi Bandung, by providing artificial intelligence on conventional lathe machine so that the machine can independently determine the working status such as cutting, idle, and off during operations. In addition, monitoring system could helps to present working status data, vibration data, and rotational speed of lathe’s spindle data that can accessed through a website, and it will greatly facilitate users in order to analyzing and getting new ideas for research developments from datas that had been recorded.
The prototype of the monitoring system on conventional lathe machine is designed based on two main components. First, a vibration sensor MPU6050 and a tachometer sensor Hall 3144 produces quantitative data to determine the working status of the lathe machine. By comparing the amplitude value with spindle’s rotational speed, the working status of the lathe machine can be determined. Second, the website that has been developed based using PHP programming language for visualising all data that have been recorded into. The result showed that the monitoring system of lathe machine is running well to show the machine working status.
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| format |
Theses |
| author |
Martawirya, Suryandaru |
| spellingShingle |
Martawirya, Suryandaru PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE |
| author_facet |
Martawirya, Suryandaru |
| author_sort |
Martawirya, Suryandaru |
| title |
PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE |
| title_short |
PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE |
| title_full |
PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE |
| title_fullStr |
PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE |
| title_full_unstemmed |
PROTOTYPE OF WORKING STATUS MONITORING SYSTEM ON CONVENTIONAL LATHE MACHINE |
| title_sort |
prototype of working status monitoring system on conventional lathe machine |
| url |
https://digilib.itb.ac.id/gdl/view/63906 |
| _version_ |
1822004419266347008 |