The Fabrication of a Prototype of the Automated Ginger Powdering Machine

Chapter 1 - Introduction 1 Introduction In this research, we designed and manufactured a prototype of automatic ginger crusher. In this chapter we will explain the research background, problems, impact on research, objectives, scope and limitations, and conceptual framework. Section 2 describes the simple background of ginger. Section 3 describes the main problems the team is trying to solve. Section 4 explains the importance and impact of this investigation. Sections 5 and 6 list all the goals the team will achieve.

Individual Production - In the manufacturing process, only one machine can be used to create an object from a digital file or to make a prototype, even though different manufacturing methods are required. When other people (people or outsourcing companies) and other machines take part in the process, it should be called digital manufacturing. RepRap - DIY community and sports established by Dr. Adrian Bowyer in 2005. It is based on the idea of ​​making self-replicating, open source, low cost 3D printers. Since then, the RepRap project gathered thousands of participants from all over the world and they are continuing to upgrade and fix the technology.

With the help of ZMorph 0 S Hybrid 3D Printer, Eliza was able to quickly create, improve and complete the practical prototype of its design. Desktop has proven to be a fast, reliable and inexpensive alternative to outsourcing prototyping services based on industrial 3D printers. Due to the durability of ABS based 3D parts printed on ZMorph, prototypes can be used with limited capacity during sports of patients.

Industrial 3D printers have existed since the early 1980's and are widely used for rapid prototyping and research purposes. These are usually large powders that use proprietary powdered metal, foundry media (such as sand), plastic, paper, or ink cartridges and are used for rapid prototyping at universities and commercial companies. 3D printing makes it possible to create special custom geometry, which is especially useful in laboratories. In 2012, the Principles Proving Project at Glasgow University in the UK showed that 3D printing technology can be used to support compound manufacturing. They print the chemical reaction vessel first and then deposit the reactants therein with the printer. They produced new compounds to verify the effectiveness of the process, but there is no pursuit of a specific application.