PENGEMBANGAN SISTEM OTOMASI PERGERAKAN HOIST UNTUK MULTI JOB PROCESS PADA PROTOTIPE LINI DURAL PT DIRGANTARA INDONESIA
The rapid development of industrial revolution 4.0 around the world necessitates Indonesia's industries to keep pace with these changes. The government of Indonesia has tried to encourage industry 4.0 adoption throughout Indonesia through Indonesia Industry 4.0 Readiness Index (INDI 4.0). PT...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/74482 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The rapid development of industrial revolution 4.0 around the world necessitates
Indonesia's industries to keep pace with these changes. The government of
Indonesia has tried to encourage industry 4.0 adoption throughout Indonesia
through Indonesia Industry 4.0 Readiness Index (INDI 4.0). PT Dirgantara
Indonesia (PTDI), a state-owned business, is targeted to achieve a 3,5/4 INDI index
in 2024.
To achieve that, PTDI needs to transform one of their manual production lines,
such as the dural line which is a part of the surface treatment process. The previous
research has implemented an automated hoist system in a simulation. However, the
system was only able to carry out only one job at a time, even though in the real
production system, multiple job can be processed at the same time. This research
aims to develop an automated hoist system that can carry out multiple jobs at once.
A programmable logic controller (PLC) will be employed for the automation
process.
A prototyping framework will be used for the development, which consist of
communication phase, design phase, modelling phase, and deployment phase. The
phases will be detailed to the development requirements.
The research produced a hardware design, along with a software that integrates
PLC program, human-machine interface (HMI) display, and job scheduling. The
latter was based on hoist scheduling problem. The automation system then tested
using a two real-routing job scenario. The results showed that the automation
system is capable of handling multiple jobs. Despite of that, a no-wait constraint
on the production line was not satisfied due to hardware limitations.
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