Industrial Manufacture

Slides:



Advertisements
Similar presentations
Technology Interactions Chapter Title Copyright © Glencoe/McGraw-Hill A Division of The McGraw-Hill Companies, Inc. Technology Interactions Manufacturing.
Advertisements

HL MARKETING THEORY SUPPLY CHAIN MANAGEMENT (LOGISTICS) IB BUSINESS & MANAGEMENT – A COURSE COMPANION, OXFORD 2009, p220.
OPERATIONS The term production and operations tend to be interchangeable today the main feature of operations is that there is an input, process, output.
The impact of ICT on manufacturing
How is ict affecting Manufacturing?. So what is Manufacturing? The process of making a raw material into a finished product; especially in large quantities.
YEAR 10 Manufacturing. GANTT CHARTS AND TIME PLANS A Gantt Chart shows: Overall timeline for a project The separate stages/tasks that need to be completed.
MANUFACTURING. How Manufacturing is Done –Market research helps the company find out what customers want in a product –Research & Development --- engineers.
Components of an Automated Manufacturing System
Unit 2 - How Organisations Use ICT
Computer Aided Design/Modelling
5.1 Production Methods IBBM.
Chapter 15: Computer-Integrated Manufacturing Systems
Manufacturing Input Ingredients Process Mixing, chopping, baking
Production Systems There are four basic types of production system - each one can use a different type of machine and with different levels of automation.
The impact of ICT on manufacturing Brian Russell.
“The means through which our needs are met.”. I. Two Types of Production Systems a. Manufacturing: making goods in a workshop or factory. b. Construction:
Specification section 3.1
Lesson Objectives We are learning to: Understand how CAD/CAM and ICT systems are used in manufacturing We will be able to: Apply this theory in order to.
Manufacturing is the changing of raw or processed materials into usable products. Manufacturing occurs in manufacturing plants, or factories.
CAD CAM CADMAT A2 Graphics. CADMAT We will look at … We will look at … CADMAT CADMAT –Computer aided design, manufacture and Testing PDM PDM –Project.
CAD Computer Aided Design. Computer Aided Design Computer-aided design (CAD) is the use of computer technology for the design of objects, real or virtual.
MANUFACTURING VOCATS 7.O5. MANUFACTURING is A system or group of systems used in the manufacturing process to make products for an end user.
IGCSE Business Studies
The way products are manufactured depends on the quantity required. For example, cars are continually manufactured in hundreds of thousands, a prototype.
Producing World Class Goods and Services Chapter 12.
Operational Production Information Systems. Purchasing Systems To produce goods and services, one must have the right quantity of raw materials and production.
Operations Management Optimising operations. The aim of an OM system is to extract maximum productivity and quality from the production process. This.
PRODUCTIVITY IS CONCERNED WITH THE RESULTS OF INVESTMENTS MADE. COMPANIES AND SHAREHOLDERS INVEST IN INDUSTRY TO MAKE A PROFIT. POOR PRODUCTIVITY DOES.
Competency 7.00 Competency 7.00 Develop an Awareness of the Designed World CommunicationTransportationManufacturingStructural Energy and Power Biotechnology.
ICT Learning ladder You must:
Technology in business. Computer Aided Design (CAD) Computer Aided Manufacturing (CAM) Computer Integrated Manufacturing (CIM)
Lesson objective – to understand what is meant by one-off, batch and mass production Textiles – Production Processes.
2.12 Using Technology in Operations Operations Management Using Technology in Operations “The first rule of any technology used in a business is that automation.
CAD CAM. 2 and 3 Dimensional CAD: Using 2-dimensional CAD software, designers can create accurate, scaled drawings of parts and assemblies for designs.
Option E – Computer Aided Design, Manufacture and Production This option is concerned with understanding how computer based technologies have transformed.
School of Mechanical, Materials and Manufacturing Engineering What is this course? Product design is an exciting profession.
Methods of Production GCSE Business Studies. Methods of Production Job Batch Flow Just in Time (JIT)
The use of ICT in production Using CAD/CAM Applications Automation.
Quantitative research This kind of research often uses a survey to collect data about how many people hold similar views or display particular characteristics.
Production Scale Theory. Knowledge and Understanding.
ICT in Product Manufacture ICT based Production Scheduling and Logistics.
Product manufacture Scales of production Organising production Scales of production Organising production.
Quality and Productivity Learning Objective – Examine different production techniques Learning Outcomes Identify how technology has changed – E Explain.
COMPUTER APPLICATIONS. CAD and CAM and ICT in Graphics.
 CAD or Computer Aided Design, is the use of computer systems in engineering, architecture, kitchen design etc., to support the design of products, buildings.
Manufacturing systems Brian Russell. Exam expectations Issues associated with Manufacturing are regularly tested in the written paper. Questions often.
Level 1 Business Studies AS90837 Demonstrate an understanding of internal factors of a small business.
Computer-Aided Design, Manufacture and Testing (CADMAT) p Mr P Mulholland St Joseph’s HS Crossmaglen.
Key Terms Manufacturing ICT Robotics Industry Continuous Bespoke Production Line Volume.
CAD Computer Aided Design
4.3 Increasing efficiency and productivity
Project Overview CNC Introduction Applying CNC Designing for CNC
GCSE Revision Manufacturing
ICT application in product design and manufacture
Quick Response Manufacture (QRM)
- To be able to understand to different scale of production that products are made from - To be able to select an appropriate scale of production for a.
Level 1 Business Studies
Components of an Automated Manufacturing System
AQA GCSE 4 Production techniques and systems
Computer Integrated Manufacturing ( CIM). Chapter One 1.1 Introduction 1.2 Types of Manufacturing 1.3 CIM Hardware and CIM Software 1.4 Nature and Role.
Industrial Manufacture
GCSE Business Studies Production.
CAD CAM.
Scales of Production.
Presentation transcript:

Industrial Manufacture Objectives To understand and reinforce knowledge on the scales of manufacture Know what scales of production particular products utilise Explore a range of manufacture methods Gain an understanding of modern manufacturing systems used in industry including the use of ICT and robotics in production.

Key Terms Manufacturing ICT Robotics Industry Continuous Bespoke Production Line Volume

Scales of Manufacture Mass Production Quantity of 10,000+ Cars Electronic goods – phones, kitchen electrical Flat-pack furniture Batch Production Quantity low 100’s, maybe low 1000’s Pottery Bread Furniture (sofas) One-Off Production (Bespoke) Quantity of 1 Jewellery Made to measure suit Specialist equipment for elite sportsman

Bespoke Production One-off production is where you make a single product. This is often made to an individual design for one customer, such as ‘custom-made’ furniture. One-off products are often made by hand by skilled craftsmen. One-off products are normally expensive, because of the amount of time taken to make them. Summary: Products are highly specialised, custom built High level of skill required Costs extremely high Can reliability ensure very high quality of build and finish

Batch Production Batch production makes small quantities, from a few hundred to a few thousand, depending on the type of product. Each batch of products will have the same design. However, different batches might be customised in some way. For example, the same design might be made in a different colour or size. Batch production normally uses machine tools, and costs less to make products than with one-off manufacture, because you don’t have to spend as much time setting up machines to make each product. Summary: Products are produced intermittently – with gaps between production Relatively small volume produced Uses some industrial methods, and makes good use of CAD/CAM Responds to demand from consumer Systems are often flexible (make more than one version or type)

Mass Production Mass production makes very large quantities of the same product. Most things that you use every day are mass produced. Mass production is usually carried out on an assembly line. This is a collection of machines, often robots, that are just used to make that product. Each machine will just do one thing to the product, before passing it on to the next one. The cost of setting up a production line is very high, so you have to make large quantities of a product to pay for it. Machinery and tooling is often very expensive and specialist. Summary: Products are produced at high volume, cheaply. Increased automated systems Huge investment needed. Initial set up costs high…long term cost low

Continuous Production Continuous production is used to make products like steel, oil or chemicals. Many of these products are used as the materials to make other products. Factories that operate continuous production often run 24 hours a day, seven days a week. The process needs to be continuous because it would be very expensive to stop it and then turn it on again.

CAD Benefits: Drawbacks CAD stands for Computer Aided Design and uses a range of software to help develop a product using virtual 2D and 3D “drawing”. Used in conjunction with FEA (Finite Element Analysis) where we can analyse stresses and strains, it helps to assess quality before manufacture. Examples include: 2D Design 3D Studio Max Pro/Engineer Solid-Works Benefits: Virtual Reality Modelling Communication Low Cost Files can be saved and altered with ease Can rapidly product detailed engineering spec. to reduce lead times Drawbacks High demand of initial training/High cost of set up Not ideal for initial concept generation

CAM CAM (Computer Aided Manufacture) is a series of processes and equipment that allow products to be manufactured via machines governed by PC’s not us. Equipment includes: CNC Routers Laser Cutters CNC Lathes Vinyl (Plotter) Cutters RPT (Rapid Prototyping) Benefits Cost effective and relatively fast Removal of human error In-built Quality Control Drawbacks Loss of traditional skills Loss of jobs High initial set up costs http://www.esacorp.com/animations/prototype-animation.gif

Manufacturing Concepts CIM Computer Integrated Manufacture is the process whereby every single step in the manufacture of a product incorporates the use of computers. For example: Designing using a CAD drawing program Testing via Virtual Simulation Prototyping models using CNC machines (3D Printing) Controlling stock by scanning codes on parts Using Robots to manufacture components Intermediate scanning/testing using sensors for Quality Control http://www.technologystudent.com/rmprp07/intman1.html

Manufacturing Concepts JIT (Just In Time) This is a Japanese based concept whereby all the parts needed for a product arrive at the factory at the last minute. The factory estimates how long a process will take to manufacture, and orders the parts to arrive just before needed, in small batches. They are not stored at the factory. Benefits: No storage/warehouse costs to the company Efficiency Easy monitoring of stocks/parts Increased jobs/scope for companies to supply parts Drawbacks Relies on punctuality of delivery Relies on effective ICT systems (and fully operational!) Risk of wrong parts arriving Environmental concerns due to number of deliveries. More info… JIT involves an ICT dependent system that tells the factory and its supplier how many of a product is needed and when by. The factory will have a logistics division that are responsible for getting the part from the supplier just in time for it to be assembled into the final product.

QRM and e-POS QRM (Quick Response Manufacturing) Most manufacturers cannot afford to manufacture products into stock or storage before sale. QRM means you save on storage costs too. Companies that manufacture like this risk not being able to sell their products as their may have been a sudden change in the market. Jaguar opt for a ‘Made to order’ system. Customers are allowed to choose various options before manufacturing on their product starts. Of course, this means a longer wait time! e-POS (Electronic Point of Sale) Barcodes are an essential part of QRM. They allow the JIT ordering of components and products and re-stocking. For example when ASDA gets close to running out of Walkers crisps the computer will automatically place an order with the factory for the quantity required.

AS Exam Style Question

Exam Style Questions Use pages: 206-220 for help