PERANCANGAN SISTEM LOADING-UNLOADING BENDA KERJA KOLABORATIF MANUSIA-ROBOT PADA STASIUN PEMESINAN
In the face of an increasingly competitive industrial landscape, automation and flexibility have become essential for manufacturing small and medium enterprises (SMEs) to maintain their competitiveness. For one such SME, CV CSM, the optimal utilization of limited production resources such as labo...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83895 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In the face of an increasingly competitive industrial landscape, automation and flexibility
have become essential for manufacturing small and medium enterprises (SMEs) to maintain
their competitiveness. For one such SME, CV CSM, the optimal utilization of limited
production resources such as labor and machinery are critical. However, developing robotic
automation systems such as flexible manufacturing systems (FMS) in their conventional
sense, which tend to be permanent and require significant costs, also presents a high risk for
CV CSM. Therefore, this research aims to design a portable loading-unloading system based
on a robotic arm that can accommodate the layout limitations of CV CSM's production floor.
The design revolves around the Yaskawa GP7 robotic arm as a means of automating the
loading and unloading of work parts in the form of aluminum blocks with dimensions of
186.8 × 35.4 × 80.0 mm and a weight of 1.487 kg for a machining process on a vertical
machining center. This research proposes the use of a digital twin of the machine loading-
unloading process as an input for the design of the layout and supporting equipment for the
robotic machine tending cell. Subsequently, a dynamic analysis of the robotic cell design is
conducted to determine its feasibility in supporting the robot-automated part loading and
unloading process simulated through the digital twin.
The result of this research is a digital twin of the robotic loading-unloading process that can
be converted into a robot program and a design proposal for a portable machine tending
station that is capable of supporting the robot during the robotic cell process. The designed
system can handle up to eight workpieces in 24820.10 seconds or approximately 6.89 hours
without human intervention, which also represents a 3.17% reduction from the manual
process that has been automated.
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