JM506 1.0 Introduction to Automation System
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Transcript of JM506 1.0 Introduction to Automation System
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JM506 PROGRAMMABLE LOGIC CONTROLLER
INTRODUCTION TO AUTOMATION SYSTEM
JABATAN KEJURUTERAAN MEKANIKAL
POLITEKNIK UNGKU OMAR
RUSMAY ABDULLAH
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Industry
• In a general sense the term “Industry” is definedas follows.
• Definition: Systematic Economic Activity thatcould be related to Manufacture/Service/ Trade.
• In this course, we shall be concerned withManufacturing Industries only.
• a general sense the term “Industry” is defined as shallbe concerned with Manufacturing Industries only.
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Automation
• The word ‘Automation’ is derived from Greekwords “Auto” (self) and “Matos” (moving).Automation therefore is the mechanism forsystems that “move by itself”.
• Automation can be defined as a technologyconcerned with the application of mechanical,electronic, and computer-based systems tooperate and control production.
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Reasons for Automating
1. To increase labor productivity.
Automating a manufacturing operation usuallyincreases production rate and labor productivity. Thismeans greater output per hour of labor input.
2. To reduce labor cost.
Ever-increasing labor cost has been and continuesto be the trend in the world’s industrialized societies.Consequently, higher investment in automation hasbecome economically justifiable to replace manualoperations. Machines are increasingly beingsubstituted for human labor to reduce unit productcost.
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Reasons for Automating
3. To mitigate the effects of labor shortages.
There is a general shortage of labor in manyadvanced nations, and this has stimulated thedevelopment of automated operations as a substitutefor labor.
4. To reduce or eliminate routine manual and clericaltasks.
An argument can be put forth that there is socialvalue in automating operations that are routine,boring, fatiguing, and possibly irksome. Automatingsuch tasks serves a purpose of improving the generallevel of working conditions.
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Reasons for Automating
5. To improve worker safety.
By automating a given operation and transferringthe worker from active participation in the process toa supervisory role, the work is made safer. The safetyand physical well-being of the worker has become anational objective with the enactment of the OSHA in1970. This has provided an impetus for automation.
6. To improve product quality.
Automation not only results in higher productionrates than manual operations; it also performs themanufacturing process with greater uniformity andconformity to quality specifications. Reduction offraction defect rate is one of the chief benefits ofautomation.
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Reasons for Automating
7. To reduce manufacturing lead time.
Automation helps to reduce the elapsed timebetween customer order and product delivery,providing a competitive advantage to themanufacturer for future orders. By reducingmanufacturing lead time, the manufacturer alsoreduces work-in-process inventory.
8. To accomplish processes that cannot be donemanually.
Certain operations cannot be accomplishedwithout the aid of a machine.
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Reasons for Automating
These processes have requirements for precision,miniaturization, or complexity of geometry, thatcannot be achieved manually.
Examples include certain integrated circuit fabricationoperations, rapid prototyping processes based oncomputer graphics (CAD) models, and the machiningof complex, mathematically defined surfaces usingcomputer numerical control. These processes canonly be realized by computer controlled systems.
9. To avoid the high cost of not automating.
There is a significant competitive advantagegained in automating a manufacturing plant.
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Reasons for Automating
The advantage cannot easily be demonstrated on acompany’s project authorization form.
The benefits of automation often show up inunexpected and intangible ways, such as in improvedquality, higher sales, better labor relations, and bettercompany image. Companies that do not automateare likely to find themselves at a competitivedisadvantage with their customers, their employees,and the general public.
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Classification Of Automation:
A. Fixed automationB. Programmable automationC. Flexible automation
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A. FIXED AUTOMATION
This control system is designed to perform a
specific task
Functions of control circuit is fixed and permanent.
It will be complicated if we want to do other task
apart from the existing task
Examples:
Mechanized assembly lines.
Mechanical lines.
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A. FIXED AUTOMATION
Example : Fixed Automation
Assembly lines Mechanical lines
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Characteristics:
Justified/used where production rates/volumes are
high.
High initial investment for custom engineered
equipment
Normally cannot accommodate product changes.
Depend largely on skill to organize the operations.
Produces large numbers of nearly identical parts
Product design must be stable over its life
A. FIXED AUTOMATION
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the production equipment is designed with the capability to
change the sequence of operations to accommodate
different product configurations.
The operation sequence is controlled by a program which is a
set of instructions coded so that they can be read and
interpreted by the system.
New programs can be prepared and entered in to the
equipment to produce new products.
Examples:
Numerically controlled (NC) machines.
Industrial robots
B. PROGRAMMABLE AUTOMATION:
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Example : Programmable Automation
B. PROGRAMMABLE AUTOMATION:
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Characteristics:
Sequence controlled by a program
High investment in general purpose equipment
Lower production rates
Flexibility to deal with variation
Suitable for batch production
Smaller volumes (than fixed) of many different parts
More flexible than fixed automation
Major disadvantage: setup prior to each new part
Large batch size (due to setups)
Speed sacrificed for flexibility
B. PROGRAMMABLE AUTOMATION:
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A flexible system consists of a group of processing
stations (CNC), interconnected by means of an
automated material handling and storage system, and
controlled by an integrated computer system.
Examples:
Use of pallet fixtures for holding parts.
Flexible manufacturing systems (FMS)
Automated Guided Vehicles (AGV) for material
handling
C. FLEXIBLE AUTOMATION:
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Example : Flexible Automation
FMS
AGV
C. FLEXIBLE AUTOMATION:
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Characteristics:
It is extension of programmable automation
No time lost for change over
High investment in custom-engineered systems
Production of product mix
Flexibility to deal with design variations
Low to medium quantities
Compromise between fixed and programmable automation in speed and flexibility
C. FLEXIBLE AUTOMATION:
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COMPARE THE TYPES OF AUTOMATION
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The main advantages of automation are:
1. Replacing human operators in tasks that involve
hard physical work.
2. Replacing humans in tasks done in dangerous
environments (i.e. fire, space, volcanoes, nuclear
facilities, underwater, etc.)
3. Performing tasks that are beyond human
capabilities of size, weight, speed, endurance, etc.
ADVANTAGES AND DISADVANTAGES OF
AUTOMATION CONTROL IN INDUSTRY
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4. Economy improvement: Automation may improve
in economy of enterprises, society or most of
humanity. For example, when an enterprise invests
in automation, technology recovers its investment;
or when a state or country increases its income
due to automation like Germany or Japan in the
20th Century.
5. Reduces operation time and work handling time
significantly.
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The main disadvantages of automation are:
1. Unemployment rate increases due to machines
replacing humans and putting those humans out
of their jobs.
2. Technical Limitation: Current technology is unable
to automate all the desired tasks.
3. Security Threats/Vulnerability: An automated
system may have limited level of intelligence,
hence it is most likely susceptible to commit error.
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4. Unpredictable development costs: The research
and development cost of automating a process
may exceed the cost saved by the automation
itself.
5. High initial cost: The automation of a new product
or plant requires a huge initial investment in
comparison with the unit cost of the product,
although the cost of automation is spread in
many product batches of things.
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There are five (5) of the control system based on
supply. These systems are as follows:
I. Electric Control System
II. Pneumatic Control System
III. Hydraulic Control System
IV. Electro-Pneumatic Control System
V. Electro- Hydraulic Control System
CONTROL SYSTEM BASED ON SUPPLY
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I. ELECTRIC CONTROL SYSTEM
System can be controlled manually and automatically.
Manual Electric Control System
Automatic Electric Control System
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Pneumatic control system is a system that uses compressed air to produce power/energy to perform any task.
Pneumatic systems found in many industrial systems such as food industry, petrochemical and industrial involves robotics.
Pneumatic systems requires: Compressed air supply Control valve Connecting tube Transducer
II. PNEUMATIC CONTROL SYSTEM
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Basic circuit design for single cylinder:
II. PNEUMATIC CONTROL SYSTEM
Indirect MethodDirect Method
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Hydraulic control system is a system that uses fluid to generate power/energy.
The hydraulic system used in the automobile industry such as power systems, braking systems, cranes, car jack, satellite and others.
The fluid used is oil. The hydraulic system requires: Hydraulic fluid supply Control Valve Cylinder
III. HYDRAULIC CONTROL SYSTEM
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Basic hydraulic circuit system:
III. HYDRAULIC CONTROL SYSTEM
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The primary levels of an electro-pneumatic system structure are:
Energy supply (compressed air and electricity)
Input elements (limit switches / pushbuttons / proximity sensors)
Processing elements (switching logic, solenoid valves, pneumatic to electric converters)
Actuators and final control elements (cylinders, motors, directional control valves, indicators)
IV. ELECTRO-PNEUMATIC CONTROL SYSTEM
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Electro-pneumatic circuit diagram
IV. ELECTRO-PNEUMATIC CONTROL SYSTEM
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The primary levels of an electro-pneumatic system structure are:
Energy supply (hydraulic motor and electricity)
Input elements (limit switches / pushbuttons / proximity sensors)
Processing elements (switching logic, solenoid valves)
Actuators and final control elements (cylinders, motors, directional control valves, indicators)
IV. ELECTRO-HYDRAULIC CONTROL SYSTEM
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Schematic diagram of the electro-hydraulic position control system.
IV. ELECTRO-HYDRAULIC CONTROL SYSTEM
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Relays• A relay is a switch that is turned on or off using electricity.
• Relays allow a low-power signal to control a large amount
of power.
• Most relays work by energizing a small electromagnet which
causes the contacts of a switch to close, as shown below.
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• Passing a small current through the coil causes the iron core to
become magnetized; the magnetized iron core attracts an iron
mass attached to the moveable contacts, causing the contacts to
close.
• Relays are designed so that a SMALL current flowing through the
coil leads switches a LARGER current through the contact leads.
• There are many different types of relays (not all use
electromagnets).
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Types of Relays
Single Pole – relay have 1 common
Double Pole – relay have 2 common
Single Throw – relay have NC or NO
Double Throw – relay have NC and NO
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Relay Building Diagram
A simple electromagnetic relay consists of a coil of
wire wrapped around a soft iron core,
an iron yoke which
provides a low
reluctance path for
magnetic flux, a
movable iron
armature, and one or
more sets of contacts.
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CONTACTORS
• A contactor is used to control an electric load in a control systems.
• Contactors make or break a set of contacts that control the voltage applied to some load in cooling systems.
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How the contactor works
• When current passes through the electromagnet, a magnetic
field is produced, which attracts the moving core of the
contactor.• The electromagnet coil draws
more current initially, until its
inductance increases when the
metal core enters the coil. The
moving contact is propelled by
the moving core; the force
developed by the
electromagnet holds the
moving and fixed contacts
together.
• When the contactor coil is de-
energized, gravity or a spring
returns the electromagnet core
to its initial position and opens
the contacts.
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MOTOR STARTER.
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Main Contact.
• Main contact of the contactor are normally open
contact and usually use to connect power load to the
main supply.
Auxiliary Contacts
• Auxiliary contacts are secondary switching devices
which work in conjunction with primary switching
equipment such as circuit breakers, relays, and
contactors. These contacts are physically linked to the
main switching mechanism and activate at the same
time it does.
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Examples of contactor use in motor control system
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Relay vs Contactor
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THANKS YOU