Pneumatic actuator
paheerathans
619 views
6 slides
Dec 10, 2020
Slide 1 of 6
1
2
3
4
5
6
About This Presentation
Actuators are output devices which convert energy from compressed air into the required type of action or motion.
Slide Content
PNEUMATICS
S.PAHEERATHAN P a g e | 1
PNEUMATIC ACTUATORS
Actuators are output devices which convert energy from
compressed air into the required type of action or motion.
In general, pneumatic systems are used for gripping and/or
moving operations in industry.
These operations are carried out by using actuators.
Two types of actuators
1. ROTARY ACTUATOR
a. Gear Motor
b. Vane motor
2. LINEAR ACTUATOR
a. Single acting cylinder
b. Double acting cylinder
ROTARY ACTUATOR
These devices convert pneumatic energy into
rotary motion.
Rotary actuators are similar to electric motors but
are run on pneumatic power.
Example : pneumatic Gear Motor
S.PAHEERATHAN P a g e | 1
PNEUMATIC ACTUATORS
Actuators are output devices which convert energy from
compressed air into the required type of action or motion.
In general, pneumatic systems are used for gripping and/or
moving operations in industry.
These operations are carried out by using actuators.
Two types of actuators
1. ROTARY ACTUATOR
a. Gear Motor
b. Vane motor
2. LINEAR ACTUATOR
a. Single acting cylinder
b. Double acting cylinder
ROTARY ACTUATOR
These devices convert pneumatic energy into
rotary motion.
Rotary actuators are similar to electric motors but
are run on pneumatic power.
Example : pneumatic Gear Motor
PNEUMATICS
S.PAHEERATHAN P a g e | 2
Pneumatic vane motor.
The rotor is placed eccentrically with the housing. Air enters
from the inlet port, rotates the rotor and thus torque is
produced.
Air is then released from the exhaust port (outlet).
LINEAR ACTUATORS:
These devices convert pneumatic energy into
linear motion.
Linear actuators are two types.
S.PAHEERATHAN P a g e | 2
Pneumatic vane motor.
The rotor is placed eccentrically with the housing. Air enters
from the inlet port, rotates the rotor and thus torque is
produced.
Air is then released from the exhaust port (outlet).
LINEAR ACTUATORS:
These devices convert pneumatic energy into
linear motion.
Linear actuators are two types.
PNEUMATICS
S.PAHEERATHAN P a g e | 3
1. Single acting cylinder
2. Double acting cylinder
SINGLE ACTING CYLINDER
single acting cylinders used in a linear motion to
perform movements such as clamping, positioning
and punching.
Single acting cylinders have one port where pressurized air enters
in one direction. A spring, or a load, is usually fitted to the piston.
Once air is cleaned and compressed it enters through the single
port forcing the piston to extend in one direction compressing the
spring.
Symbol
Actual image
S.PAHEERATHAN P a g e | 3
1. Single acting cylinder
2. Double acting cylinder
SINGLE ACTING CYLINDER
single acting cylinders used in a linear motion to
perform movements such as clamping, positioning
and punching.
Single acting cylinders have one port where pressurized air enters
in one direction. A spring, or a load, is usually fitted to the piston.
Once air is cleaned and compressed it enters through the single
port forcing the piston to extend in one direction compressing the
spring.
Symbol
Actual image
PNEUMATICS
S.PAHEERATHAN P a g e | 4
DOUBLE ACTING CYLINDER
Double-acting cylinders use the force of air to
move in both extend and retract strokes.
Symbol
Actual image
S.PAHEERATHAN P a g e | 4
DOUBLE ACTING CYLINDER
Double-acting cylinders use the force of air to
move in both extend and retract strokes.
Symbol
Actual image
PNEUMATICS
S.PAHEERATHAN P a g e | 5
CYLINDER END CUSHIONING
cylinder cushions at the end of the cylinder to slow down the
movement of the piston near the end of the stroke.
Cushioning arrangement avoids the damage due to the impact
occurred when a fast moving piston is stopped by the end caps.
Actual shapes
S.PAHEERATHAN P a g e | 5
CYLINDER END CUSHIONING
cylinder cushions at the end of the cylinder to slow down the
movement of the piston near the end of the stroke.
Cushioning arrangement avoids the damage due to the impact
occurred when a fast moving piston is stopped by the end caps.
Actual shapes
PNEUMATICS
S.PAHEERATHAN P a g e | 6
For more info watch this:
https://www.youtube.com/watch?v=hmz1h5fk2bI&t=1s
https://www.youtube.com/watch?v=mAUYQUovZzc
S.PAHEERATHAN P a g e | 6
For more info watch this:
https://www.youtube.com/watch?v=hmz1h5fk2bI&t=1s
https://www.youtube.com/watch?v=mAUYQUovZzc
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 619
- Slides 6
- Favorites 2
- Age 1818 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
30 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
32 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
30 views
14
Fertility awareness methods for women in the society
Isaiah47
29 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
26 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
28 views