festo basic pnuematics
TRANSCRIPT
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University of Sto.TomasAugust 28, 2006
Air is our medium
Motion is our business
Service is our mission
FESTO DIDACTIC
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University of Sto.TomasAugust 28, 2006
Industrial Pneumatics
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University of Sto.TomasAugust 28, 2006
Topic Outline:
– Physical principles of Pneumatic and Electrical system– Functions and use of Electro-Pneumatic components– Recognizing and drawing of pneumatic and Electro-
Pneumatic symbols and circuit diagrams– Reprensentation of motion sequences and operating
status– Drawing of pneumatic and electrical circuits diagrams– Direct and indirect manual controls– Direct and indirect stroke-dependent controls– Logical AND/OR function of switch-on signals– Time dependent controls with Time-Delay Valves– Pressure-dependent controls with PE converters– Pre-select counters– Trouble-shooting Electro-Pneumatic controls
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University of Sto.TomasAugust 28, 2006
• PNEUMA - Greek root term means “breath”
•It is the industrial implementation and application of air powered actuators (cylinders and motors) and their control devices (valves) needed in their operation.
• Branch of science which deals with the study of gases especially air, its properties and application at pressure higher (compressed) or lower (vacuum) than atmospheric.
What is Pneumatics?
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University of Sto.TomasAugust 28, 2006
Compressed Air as a Working MediumADVANTAGES:– Air is available everywhere– Compressed air is easily conveyed in pipelines over
large distances– Compressed air is insensitive to temperature
fluctuations– Compressed air need not be returned– Compressed air is explosion proof– Compressed air is clean– Compressed air is fast– Straight line movement can be produced directly
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University of Sto.TomasAugust 28, 2006
Compressed Air as a Working Medium
DISADVANTAGES– Compressed air is a relatively expensive means
of conveying energy– Compressed air requires good conditioning– It is only economical up to a certain force
expenditure– Air is compressible– Exhaust air is loud (reduced by using silencers)– The oil mist mixed with air for lubricating
purposes exhaust or escapes to the atmosphere
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COMPRESSOR
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University of Sto.TomasAugust 28, 2006
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Single Acting Cylinder Diameters 10mm to 32mm
Stroke Lengths 5mm to 50mm
Sample of Single Acting Cylinders
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Piston
Rod
Spring
Connection
Seal
Bearing
Vent
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University of Sto.TomasAugust 28, 2006
Single Acting Cylinders
If compressed air is supplied, air hits the piston surface and the piston rod moves out. When air is released, the return spring moves the piston to its initial position.Single acting cylinders do work in one way, therefore they are ideal for tensioning, ejecting, compressing etc.
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Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Force = Pressure x Area (piston)
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Force = Pressure x Area (piston)
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Force = Pressure x Area (piston)
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Force = Pressure x Area (piston)
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Force = Pressure x Area (piston)
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Force = Pressure x Area (piston)
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
Operation of Single Acting Cylinders
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University of Sto.TomasAugust 28, 2006
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DOUBLE-ACTING CYLINDERS
Stroke Length 100mm (max)
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Piston
Rod
Connections
Base end Rod end
Seals
Bearing
Wiper
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Double Acting Cylinders with Air Cushioning
When the piston approaches its final position, the damping piston shuts off the direct air-outlet. Excess pressure sets up an air-cushion in the remaining cylinder volume and kinetic energy is converted into pressure. At this stage, air may only leave the cylinder through a controlled cross section of stream discharge.
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Cushioning sleeves
Cushioning adjustment
Seals
Non-return valve
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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University of Sto.TomasAugust 28, 2006
Operation of Double Acting Cylinders with Air Cushioning
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Operation of Double Acting Cylinders with Air Cushioning
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Operation of Double Acting Cylinders with Air Cushioning
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Operation of Double Acting Cylinders with Air Cushioning
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Operation of Double Acting Cylinders with Air Cushioning
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Mechanically coupled Magnetically coupled
Rodless cylinders or Linear Drives are used when long strokes are required or little fitting space is available.
Rodless Cylinders
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Conventional Double Acting Cylinders require space to house the cylinder.Plus space to carry out the work.
More effective use of the available space can be made by using
Rodless Cylinders
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PNEUMATIC VALVES
FUNCTIONS :
open and close flow paths
regulate pressure
directs flow to various paths
adjust flow volume
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SWITCHING SYMBOLS FOR VALVES
The valve switching position is shown by a square.
The number of squares corresponds to the number of switching position.
Lines indicate the flow paths, arrows indicate the direction of flow.
Closed ports are shown by two lines drawn at right angles to one another.
The connecting lines for supply and exhaust air are drawn outside the square.
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Ports and Switching Position
Number of ports Number of switching positions
2/2 – way valve, normally open position
3/2 – way valve, normally closed position
3/2 – way valve, normally open position
5/2 – way valve, flow from 1-2 and from 4-5
3
1 3
1
2
2
1
2
2
3
4
5 1
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Actuation methods
MANUAL MECHANICAL ELECTRICAL PNEUMATIC
General
Push Button
Lever
Pedal
Detent
Spring
Button
Roller
Idle Roller
Solenoid Pneumatic
? ?
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SWITCHES
POSITONS :
normally open
normally closed
CONTACT CONFIGURATIONS :
normally open contact
normally closed contact
changeover contactContact load---------------1A (max)Power consumption------0.48W
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DEFINITION:
a device which is primarily used as an electromagnet used to drive a plunger for the purpose of control actuation.
OPERATING PRINCIPLE:
passing an electric current through a coil of copper wire generates an electromagnetic field
adding turns to the coil strengthens the EMF while the lines of force are concentrated through the circular form of the coil and the EMF is greatly increased
SOLENOIDS
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3/2 - way Directional Control Valve, Solenoid Actuated, Spring Returned
When an electric current is applied to the coil, an EMF is generated which lifts the lower sealing lips of the armature and opens the passage for pilot air. Pilot air then applies pressure on the diaphragm which then causes the valve to switch its position.Upon removal of the current, the pilot air passage closes and a spring returns the valve to its normal switching position.
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ELECTRICAL SIGNALAPPLIED TO SOLENOID
SOLENOID ACTUATES PILOT VALVE
PILOT ACTUATES MAIN VALVE
PILOT SIGNAL FLOW
By using pilot control, the size of the solenoidCan be kept to a minimum.
Main Advantages :
@ It reduced power consumption@ it reduced heat generation
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Relays
Relays are electro-magnetically actuated switches. They consist of a housing with electromagnet and movable contacts. An electromagnetic field is created when a voltage is applied to the coil of the electromagnet. This results in attraction of the movable armature to the coil core. The armature actuates the contact assembly.This contact assembly can open or close a specific number of contacts by mechanical means. If the flow of current through the coil is interrupted, a spring returns the armature to its original position.
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Relays
K
A1
A2
1
2 4
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Advantages of Relays
– Easily adapted to various operating voltages– Not much affected by the temperature of their
surroundings– Relatively high resistance between contacts in the off
state– Several independent circuits can be switched
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Disadvantages of Relays
– Working surface of contacts wear through oxidation– Large space requirement compare to transistors– Noise is created during the switching operation– The contacts are affected by contamination– Limited switching speed of 3ms - 17ms
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5/2 - way Directional Control Valve, Solenoid Actuated, Spring Returned
When the solenoid is energized, the armature moves and the pilot air passage opens. The pilot air applies pressure to the left side of the valve piston resulting to the valve switching its position.Upon removal of the electrical signal, a spring returns the valve to its neutral switching position.Used for the control of double acting cylinders.
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5/2 - way Directional Control Valve, Double Solenoid Actuated
Because of the absence of a return spring, double solenoid actuated valves retain the last signal administered to them. They remain in their last switched position even with power removed from both solenoids.Effectively, this means that this valve has “memory characteristic”.
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What are sensors?
A sensor is a technical converter, which converts a physical value such as temperature, pressure, flow, or distance, into a different value which is easier to evaluate. This is usually an electrical signal such as voltage, current, resistance or frequency of oscillation.
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Sensor Classifications
E le c trica l L im it S w itch
P re ssu re S en so rs
C o n tac t S en so rs
M a gn e tic
In d uc tive
C a p ac it ive
O p tica l
U ltra so n ic
C o n tac tle ss S en so rs
S e n so r C la ssif ica tionA ccord ing to
P rin c ip le o f O p era tion
P N P S en sors
N P N S en sors
S en sor C lass ifica tionA ccord in g to
O u tp u t S ig n a l P o la rity
2 -W ire S e n so rs
3 -W ire S e n so rs
4 -W ire S e n so rs
S e n so r C la ssif ica tionA ccord ing to
W irin g
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Devices which convert physical variables into form of electrical signals to gather data, monitor or control a process.
TYPES:
Contact Sensors – mechanical in nature, subject to mechanical wear and with predictable failure rate. Contact sensors include limit switches, roller switches, and pressure sensors.
Contactless Sensors – Proximity sensors (reed switch, inductive, capacitive, and optical sensors).
SENSORS
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+ 18 to 30 Volts DC.
Output
24v DC
0v
PNP Type
Output is Positive
Positive switching
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+ 18 to 30 Volts DC.
Output
24v DC
0v
NPN Type
Output switches through to 0v
Negative switching
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BN
BK
BU
Note:
For metallic materials only
INDUCTIVE PROXIMITY SENSORS
Switching Voltage --------------------------------- 10-30 V DCNominal switching distance ---------------------- 4mm Switching frequency------------------------------- 800Hz (max)Output function ------------------------------------ NO contact, PNP switchingOutput current ------------------------------------- 400 mA (max)
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BN
BK
BU
CAPACITIVE PROXIMITY SENSORS
Switching Voltage -------------------------- 10-30V DCNominal switching distance --------------- 4mm Switching frequency ------------------------ 100 Hz (max)Output function ------------------------------ NO contact, PNP switchingOutput current ------------------------------- 200mA (max)
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BN
BK
BU
OPTICAL PROXIMITY SENSORS
Switching Voltage -------------------------10-30 V DCNominal Switching distance ------------- 0-100 mm (adjustable)Switching frequency ---------------------- 200 Hz (max)Output function ---------------------------- NO contact, PNP switchingOutput current ----------------------------- 100mA (max)
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SENSORS
Magnetic Sensor
Optical SensorInductive Sensor
Optical Sensor
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Pneumatic-Electric Converter
When a pneumatic signal of sufficient pressure to overcome the spring force is applied to the diaphragm, the resultant force operates the stem. The force required to operate the stem is controlled by the adjusting screw. Movement of the stem actuates a micro switch via a switching lever which results to switching of contacts.
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•Time relay with switch on delay
•Time relay with switch off delay
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Switch on Delay Timer
S1
+
-
D1
R1R2C1
K1
When S1 is actuated, current flows to capacitor C1 through adjustable resistance R1. Diode D1, which is connected in parallel, does not permit the flow of current in this direction. After capacitor C1 has become charged to the switching voltage of the relay K1, the relay switches.
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Switch off Delay Timer
S1
+
-
D1
R1R2C1
K1
When S1 is actuated, the current flows through diode D1, which is connected in the free flow direction, to capacitor C1 and the relay K1. The relay switches at once. After release of pushbutton S1, the circuit is interrupted. Capacitor C1 can now discharge solely via adjustable resistor R1 and resistance R2.
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SUGGESTED PATTERN IN DESIGNING SEQUENCE CONTROL USING RELAYS
1. The CONTROL CIRCUIT is the part of the relay ladder, which processes input signals.
2. The POWER CIRCUIT is the part of the relay ladder, which directly controls the electrical loads. (ie., solenoid coils, motors, lamps, buzzers)
3. In the control circuit, each working step is assigned its own STEP RELAY.
4. Each step relay, except the last step relay, employs a self holding contact.
5. A NO contact of the step relay N is placed in series with the first step relay.
6. A NC contact of the last step relay is placed in series with the first step relay.
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Sequence Control System
This is a control system using a mandatory step by step sequence, in which the sequencing from one step to the next programmed step depends on certain conditions being satisfied.
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Representations
– Chronological OrderCylinder 1.0 extends and lifts the boxCylinder 2.0 extends and pushes the boxCylinder 1.0 retracts, thenCylinder 2.0 retracts
– Tabular FormWork Step Motion of Cylinder 1.0 Motion of Cylinder 2.0
1 out - 2 - out 3 in - 4 - in
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– Abbreviated NotationExtension represented by : + 1.0 +Retraction represented by : - 2.0 +
1.0 - 2.0 -
Representations
– Vector DiagramExtension represented by 1.0Retraction represented by 2.0
1.0
2.0
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Representations
1.0
2.0
1 2 3 4 5 = 1
– Motion Step Diagram
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PNEUMATIC APPLICATIONS
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Pressing Welding
Assembling Painting
Automobilemanufacturing
Powertrain lines
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Pneumatics for Welding guns
Welding
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Food and Packaging Industry
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Electronic Industry
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FESTO PHILIPPINES:•Head Office
Festo, Inc.
Km 18, West Service Road,
Sucat, Parañaque City
Tel. No. (02) 776-6888
E-mail: [email protected]
Website: http://www.festo.com
•Branch Office
Festo, Inc.
Mercedes Commercial Center,
A. C. Cortes Ave., Mandaue City
Tel. No. (032) 345-1120
E-mail: [email protected]
CONTACT US. . . .
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Thank you for your attention