Fundamentals of Geometric Tolerancing, the Nature of Drawings, and Key Points for Improving Machining Accuracy
S10403
This explains the way of drawings that incorporate geometric tolerances for conveying technical information, the validity of the drawings, machining accuracy, and processing, using parts and devices related to machine tools as examples.
Lecturer Part 1: Inoue Design Drafting Consultant Representative, Mr. Tadaomi Inoue Part 2: Toshiba Machine Co., Ltd. Nano Processing System Division Technical Advisor, Ph.D. (Engineering), Mr. Katsutoshi Tanaka Target Audience: Researchers with issues related to geometric tolerances, design, and drawings Venue: Kawasaki City International Exchange Center, Room 4 [Kanagawa, Kawasaki] 10-12 minutes walk from "Motosumiyoshi Station" on the Tokyu Toyoko Line and Tokyu Meguro Line Date and Time: April 18, 2011 (Monday) 10:30 AM - 4:00 PM Capacity: 30 people *Registration will close once full. Please apply early.
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basic information
**Course Objectives and Aims: From Lecture 1** Drawings are important technical documents and contracts in manufacturing. Improving the quality of drawings, which is a significant factor influencing a company's profit structure (improving design quality), is a major and important challenge. To achieve this challenge, it is essential to effectively utilize geometric tolerance methods (including maximum material condition tolerance) as tools to accurately express design intent. This seminar will introduce the fundamentals and practical points of these methods.
Price information
49350
Price range
P2
Delivery Time
P2
Applications/Examples of results
Part 1: Fundamentals of Geometric Tolerancing Methods for Accurately Expressing Design Intent 1. Basic Principles of Tolerance Indication 2. Datum 3. Geometric Characteristics 4. Position Tolerance Method 5. Principles of Maximum Material Condition Tolerance Part 2: The Nature of Drawings Incorporating Geometric Tolerances, Validity of Drawings, Machining Accuracy, and Machining Methods (Manufacturing and Geometric Tolerances) 1. Role of Design 1-1 Functional Design (Basic Design) 1-2 Production Design 2. Role of Production Technology 2-1 Validity of Drawing Content 2-2 Setting Machining Processes 2-3 Understanding Assembly Processes 2-4 Quality Control 3. Geometric Tolerances and Machining/Measurement Methods 3-1 Flatness 3-2 Straightness 3-3 Parallelism 3-4 Perpendicularity 3-5 Position 4. Examples of Fabricating Reference Planes (Surface Plates) 5. Geometric Tolerances and Machining Processes
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