Development of Multi-Purpose Mechanical Pump for Refilling and Recovering Liquid Form of an Auto Engine

Authors

  • Bhenrey B. Andres TESDA – Isabela School of Arts and Trades, Isabela, Philippines

DOI:

https://doi.org/10.69566/ijestm.v31i1.282

Keywords:

Draining, feeding, hydraulic pump, mechanical, pressure

Abstract

In the automotive sector, lubrications, fuels, engine oils and other liquids are very essential for the different parts of an auto to function properly. In feeding those engines they always use a funnel that consumes time in using it and there is always spillage. The other one is a pump that is powered by electricity. This pump is expensive for the purpose of just feeding and draining. In the draining process, the used oil cannot be used again for other purposes. Due to this problem the researchers find ways to make some innovations in the multi-purpose mechanical pump. This project functions like a small hydraulic pump but the difference between these two is that the Multi-Purpose Mechanical pump functions without using electric power or electricity. It can be used for recovering oils because of the oil filter and feed liquid forms inside the differential and transmission. The different parts of the mechanical pump are made up of scrap materials. When the shaft rotating wheel rotated clockwise the mechanical source converted into hydraulic energy. It generates flow with enough rotating power to overcome pressure induced by the load at the container and pump out to the outlet/inlet hose. Then when it is rotated counterclockwise the MPMP will serve as recovery. A full factorial design of the experiment is selected for experimental planning and the analysis of variance (ANOVA) has been employed and Based from the results and observation gathered. The researcher found out that the Multi-Purpose Mechanical Pump is an effective manual mechanical pump.

Downloads

Published

2022-12-30

How to Cite

Bhenrey B. Andres. (2022). Development of Multi-Purpose Mechanical Pump for Refilling and Recovering Liquid Form of an Auto Engine. The Vector: International Journal of Emerging Science, Technology and Management (IJESTM), 31(1). https://doi.org/10.69566/ijestm.v31i1.282

Issue

Section

Articles