Tech Directions - October 2007 - (Page 17)

Manufacturing Students Need Process Planning Skills By Samuel C. Obi sobi@email.sjsu.edu M ANUFACTURING systems students usually complete lab projects for class requirements. Although students often learn much from and receive good grades for the products they produce in the projects, they can further benefit from learning how to best undertake a project—in other words, from learning effective process planning. Students often have no idea how many resources—time, tools, and materials—they will need to complete a project until they get into constructing it. Their tasks seem, for the most part, technically unorganized (out of sequence) and unplanned. They cannot estimate the dollar worth of the labor involved. They fail to see the link between good housekeeping and safety concerns. They assume that real-world manufacturers can make a profit operating in a similarly disorganized fashion. Yet one of the first tasks of realworld manufacturing personnel when they receive new product drawings is to create a process plan. This task, when completed, generally directs both organization of needed resources and actual production of the product. This article outlines the basics of process planning and provides exSamuel C. Obi is professor, Department of Aviation and Technology, College of Engineering, San Jose (CA) State University. amples for instructors who want to teach their students its principles. Preliminary Steps Process planning provides precise, clear sequential directions regarding how a product is to be routed and fabricated in a manufacturing facility. In advanced manufacturing, it influences design and layout of the facility for production of a specific new product. In school labs, process planning mostly helps to guide students from one process to the next in a logical order. ● Create CAD or manual drawings. The first step is to secure good drawings of the project. Because drawings represent the initial ideas and plans for the product, “design of production processes starts with the product designer” (Wright, 1990, p. 412). The dimensioned drawings should contain, in easy-to-read format, the following key elements: complete and clear graphics, material types, part name, drawing number, owner name, date, units, appropriate set of views showing all required dimensions, tolerances with reasonable values for each dimension, and clear titles and labels. ● Study and separate the drawings into parts. To understand all details, students should study drawings as carefully as they would read a product manual. At this point, it is important to separate the drawings into parts. After doing so, students should answer such questions as: “How should each of these parts be processed?” “What types of tools and machines will we need?” “How many units of each part should be fabricated?” “How long should it take to process each piece?” The stool shown in Photo 1 has one seat, four legs, and four supports, resulting in a total of nine parts. Photo 1 These parts will be used for illustration in the rest of this article. For the raw material used for the chair, assume a 1" × 12"-dia. seat fabricated from 1.25" × 13" × 13" lumber; 2"-dia. × 24" long legs fabricated from 2"-dia. × 100" dowel; and 1"-dia. × 12" supports fabricated from 1"-dia. × 50" dowel. In a typical manufacturing setting, each part will have separate drawings, dimensions, and notes. Each drawing will bear the features associated with it. For example, the legs will have the holes at the correct spots. The drawings will include a notation that four legs and four supports are required. ● Identify, list, and sequence required operations for each part. Students should list the identified tasks or processes required to fabricate each part below the part. Suc- www.techdirections.com MANUFACTURING 17 A Peer-Reviewed Article Sure, They Can Build It But . . . http://www.techdirections.com

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Tech Directions - October 2007 Technically Speaking Contents Direct from Washington The News Report Technology Today Technology’s Past Mastering Computers Rock Your Classroom!—Use Subwoofers to Teach Electricity and Science Sure, They Can Build It, But. . . . Manufacturing Students Need Process Planning Skills Teach Graphic Design Basics with PowerPoint Free Teacher Resources Product Central More than Fun

Tech Directions - October 2007

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