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All Journal JURNAL PERMADI: PERANCANGAN, MANUFAKTUR, MATERIAL DAN ENERGI
Budriyadi, Syefi
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Automotive Engineering Engineering Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering

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Perancangan dan Pembuatan Ragum Kerja Kayu Budriyadi, Syefi; A.L. Andriana Syarip; Maryoni; Mulyadi
Jurnal Permadi : Perancangan, Manufaktur, Material dan Energi Vol 3 No 1 (2021): JURNAL PERMADI: PERANCANGAN, MANUFAKTUR, MATERIAL DAN ENERGI
Publisher : Universitas Nusa Putra

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (913.297 KB) | DOI: 10.52005/permadi.v3i1.44

Abstract

Woodworking vise is one of the tools to support the work process or practice at an institute that can be found on a daily basis. In general, the vise is made of castings. Seeing that to make the process of making vise easier, especially wooden vise using raw materials from 15 mm thick plate and iron. So based on the analysis of the problems above, the author tries to make a wooden work vise to meet these needs. This vise propulsion is planned to still use a manual process that is adjusted to the needs of consumers. The result of this final project is to produce a design and working drawing of a modification of a wooden vise. The resulting vise has a strong and anti-rust construction and has a diameter of ± length x width x height 442x 248 x 124 mm. Previously it was necessary to plan, design and manufacture appropriate vise components, easy to obtain, inexpensive and in accordance with the needs of craftsmen. This tool may be difficult to find in the market. The design system used is the VDI 2221 method, created by Gerhardt Pahl and Wolfgang Beits with the title "Engineering Design". The result that must be achieved is the cost of making 300-400 thousand with better production results. then after testing this tool works well and the cost of making it is cheaper.
Rancang Bangun Miniatur Alat Perontok Sorgum Budriyadi, Syefi; Nata, Yudi
Jurnal Permadi : Perancangan, Manufaktur, Material dan Energi Vol 2 No 3 (2020): JURNAL PERMADI: PERANCANGAN, MANUFAKTUR, MATERIAL DAN ENERGI
Publisher : Universitas Nusa Putra

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (383.739 KB) | DOI: 10.52005/permadi.v2i3.65

Abstract

The purpose of this research is to make it easier for farmers to harvest sorghum and avoid crop failure due to lack of supporting technology to produce ready-to-sell sorghum seeds. The method used in the process of designing the machine with the engineering process, namely the activity of designing a sorghum thresher machine, a miniature sorghum thresher machine was successfully designed with the main components: Hopper, threshing unit, threshing room, driving motor, frame, seed outlet and sorghum panicle. And with a machine capacity capable of threshing 10kg/hour sorghum seeds with a rotation speed of 2800rpm.
MODIFIKASI ALAT PENYEMBELIH SAPI SEDERHANA SISTEM KANDANG JEPIT Budriyadi, Syefi; Lestari, Dwi Mardika; Mardiyana, Dani
Jurnal Permadi : Perancangan, Manufaktur, Material dan Energi Vol 4 No 1 (2022): JURNAL PERMADI: PERANCANGAN, MANUFAKTUR, MATERIAL DAN ENERGI
Publisher : Universitas Nusa Putra

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52005/permadi.v4i1.72

Abstract

The process of slaughtering cattle at Slaughterhouses (RPH) usually uses a Killing Box which functions as a place for slaughter by clamping and laying the cows down so that handling during slaughter is easier. However, this tool is still quite expensive, so not all abattoirs use this tool in the slaughtering process. The traditional way is still widely used, namely by pulling/slamming the cow's body so that it is helpless. The cattle slaughtering tool with the clamp cage system that has ever been made is quite helpful and makes it easier to slaughter animals. However, there are still some drawbacks to this tool, including the alternating wires that have broken, the wheels are damaged quickly, and the lack of bottom supports. Therefore, it is necessary to modify this cattle slaughtering tool so that no more problems occur. In this research, modifications are limited to the frame, alternating wire and wheels. The method used in this research is analytical calculation method. The results showed that the fixed frame and movable frame materials did not need to be replaced because the maximum stress received by each frame was still below the allowable stress, while the alternating wires had to be replaced with wires with a minimum diameter of 8 mm. bottom support that can withstand a load of 225 kg/pc
Co-Authors A.L. Andriana Syarip Dani Mardiyana Lestari, Dwi Mardika Maryoni MULYADI Nata, Yudi