Pneumatics Fundamentals from Udemy

What's inside

Learning objectives

Understand concepts of compressed air generation, treatment and distribution
Draw pneumatic symbols
Identify and use various pneumatic control valves & actuators

Analyse the pneumatic circuits
Develop pneumatic logic circuits

Understand concepts of compressed air generation, treatment and distribution
Draw pneumatic symbols
Identify and use various pneumatic control valves & actuators
Analyse the pneumatic circuits
Develop pneumatic logic circuits

Syllabus

Introduction

This is the introduction of the course. This video also provides you many practical applications of compressed air. Advantages and limitations of pneumatics are also discussed in this video.

This lecture discusses the compressor elements and working of the compressor. It also shows one animation of a lobe compressor.

The functions of a compressed air reservoir go beyond air storage. Let us explore more about the same in this lecture.

This quiz is based on the fundamentals of compressed air generation and storage.

Compressed air can not be used directly in the circuit. It needs to be conditioned before it is used. This lecture provides you with the process of conditioning the compressed air and the importance of the same.

Compressed air is distributed through various types of pipes and hoses. Connectors and elbows also play vital roles. Let's explore more of the types of importance of the air distribution system.

This lecture demonstrates the various components used in any pneumatic circuit. Pressure control valves, flow control valves, logic valves, indicators, manifolds, and other components are very useful to know before we actually start understanding the pneumatic circuits.

This quiz is based on Lecture 4 and 5

Pneumatic cylinders are widely used actuators in pneumatic applications. This is the time to understand the functions and types of pneumatic cylinders in this lecture.

This lecture is very important. This provides information on the Direction Control Valve, their types, symbols, and actuating methods. Slowly we are moving towards understanding the pneumatic circuits.

In this lecture, the construction and working of Direction Control Valves is well elaborated. I am sure the learning will be more clear with the animations used in this lecture.

Do watch this lecture. You are now entering the pneumatic circuits. A cylinder is being actuated by a pilot operated DCV.

Quick exhaust valves are used for quickly releasing the air into the atmosphere. Let us understand in this video, how easy and essential it is to release the air using this valve.

Air motor is required to be controlled by direction control valves for starting and stopping. This lecture demonstrates the way to do it using DCVs.

Automatic reciprocation of cylinder.

Cylinders are required to extend fast for some distance and slow for remaining distance. This lecture gives you the ways to achieve the same.

You must watch this lecture to understand the ways to do sequencing of two cylinders.

Cylinder speed should be reduced at the end of the stroke. Watch this lecture to understand the combinations of DCVs done for the same.

Combination of Hydraulics & Pneumatics

This quiz is based on pneumatic circuits

Logic can be developed without using any electronic sensors. Let's explore the ways to do the same in this lecture.

Development of "AND" logic.

It is a joyful learning experience to understand the circuit having logic gate "OR" developed by using very simple valves.

This lecture gives the information about construction and working of memory valve and time delay valves.

Two types of timers are very popular in pneumatic systems. This lecture gives you the way learn time sensing circuits.

This quiz is based on logic gates.

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Read about what's good

what should give you pause

and possible dealbreakers

Provides a strong foundation in pneumatics, covering compressed air generation, treatment, distribution, and basic pneumatic symbols, which are essential for understanding industrial applications

Explores pneumatic circuits for controlling actuators like air motors and pneumatic cylinders, offering practical knowledge applicable in various industrial settings

Covers hydropneumatics, an emerging field combining hydraulics and pneumatics, which is valuable for those seeking to expand their knowledge in integrated systems

Explains the development of logic circuits using pneumatic valves, offering alternative solutions for circuit development without relying on electronic devices

Includes content on timers, time delay valves, and memory valves, expanding the understanding of pneumatic system applications and control mechanisms

Focuses on fundamental concepts, which may require learners to seek additional resources for advanced applications and complex pneumatic system designs

Reviews summary

Foundational pneumatics concepts explained

According to learners, this course offers a positive introduction to the world of pneumatics, focusing on fundamental concepts. Students appreciate the clear explanations of compressed air generation, treatment, distribution, and essential pneumatic symbols and components. The sections on Direction Control Valves and basic pneumatic circuits, including automatic motion and sequencing, are frequently mentioned as helpful. Some learners noted the coverage of logic gates and Hydropneumatics as valuable additions. While providing a solid foundation for beginners, some reviews suggest the course could benefit from more practical, hands-on examples or delve into greater depth for those seeking advanced knowledge, indicating it's best suited for those starting out.

Unique section on pneumatic logic circuits.

"The section on developing logic gates without electronics was fascinating and well-covered."

"I hadn't seen pneumatic logic circuits explained so clearly before this course."

"Learning how to create AND/OR logic using just valves was a great addition."

"The videos on logic circuits added a unique dimension to the course content."

Introduces essential pneumatic circuits.

"Understanding the automatic reciprocation and sequencing circuits was very useful."

"The course covered various pneumatic circuits used in industry, which was a highlight."

"I found the explanation of different circuit types and their applications practical."

"The lecture on quick exhaust valves and actuator control was quite informative for circuit analysis."

Complex topics are explained simply and clearly.

"The explanations of pneumatic symbols and circuits were very clear and easy to follow."

"I appreciated how the instructor broke down the function of different valves and components."

"The part about Direction Control Valves was particularly well explained, making complex ideas understandable."

"The concepts regarding compressed air generation and distribution were presented very clearly."

Provides a strong introduction for beginners.

"The course provides a very good foundation on the fundamentals of pneumatics."

"I liked the clarity and depth with which the fundamentals were covered."

"It's a great starting point if you are new to pneumatics, covering all the core concepts you need to know."

"This course gave me a solid understanding of how pneumatic systems work from generation to application."

Some reviews mention quality concerns.

"A few times the audio quality was not the best, making it slightly difficult to hear."

"Some videos seemed a bit dated or had lower resolution than expected."

"While the content is good, updating the video and audio quality would make it even better."

"I noticed some inconsistencies in audio levels between lectures."

Could use more hands-on examples or simulations.

"While the theory is covered well, I wish there were more practical examples or simulations."

"The course is very theoretical; more practical application would improve it significantly."

"Could benefit from more hands-on demonstrations of building or troubleshooting circuits."

"I was hoping for more real-world scenarios and problem-solving exercises."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Pneumatics Fundamentals with these activities:

Review Basic Physics Concepts

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Reinforce your understanding of fundamental physics principles, as pneumatics relies on these concepts to function. Reviewing these concepts will help you better understand how compressed air systems operate.

Browse courses on Pressure

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Review notes on pressure, force, and energy.
Solve practice problems related to fluid mechanics.

Follow Online Pneumatics Tutorials

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Refine your skills by following online tutorials that demonstrate specific pneumatic techniques. This will provide hands-on experience and reinforce your understanding.

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Search for online tutorials on specific pneumatic topics.
Follow the steps in the tutorial carefully.
Experiment with variations of the techniques.

Read 'Pneumatic Handbook'

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Gain a deeper understanding of pneumatic systems by studying a comprehensive handbook. This will supplement the course material and provide practical insights.

View Pneumatic Handbook on Amazon

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Obtain a copy of the 'Pneumatic Handbook'.
Read chapters related to course topics.
Take notes on key concepts and applications.

Four other activities

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Practice Drawing Pneumatic Symbols

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Improve your ability to quickly and accurately interpret pneumatic circuit diagrams. This will help you better understand the circuits discussed in the course.

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Find a list of common pneumatic symbols.
Practice drawing each symbol multiple times.
Test yourself by identifying symbols in sample circuits.

Explore 'Industrial Pneumatics'

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Expand your understanding of real-world applications of pneumatics by reading a book focused on industrial uses. This will provide context for the theoretical concepts learned in the course.

View Alter Ego: A Novel on Amazon

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Find a copy of 'Industrial Pneumatics'.
Read chapters related to your area of interest.
Analyze the case studies presented in the book.

Create a Pneumatic Circuit Simulation

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Solidify your understanding of pneumatic circuits by building a simulation. This will allow you to experiment with different configurations and observe their behavior.

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Choose a pneumatic simulation software.
Design a circuit based on a course example.
Simulate the circuit and analyze its performance.
Modify the circuit and observe the changes.

Design a Simple Pneumatic System

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Apply your knowledge by designing a pneumatic system for a specific application. This will help you integrate the concepts learned in the course.

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Identify a real-world application for pneumatics.
Define the requirements and specifications of the system.
Select appropriate pneumatic components.
Create a detailed circuit diagram.

Career center

Learners who complete Pneumatics Fundamentals will develop knowledge and skills that may be useful to these careers:

Pneumatic Technician

A Pneumatic Technician installs, maintains, and repairs pneumatic systems and components. Because this course covers compressed air generation, treatment, and distribution, it builds a strong foundation for understanding the principles behind these systems. The ability to draw pneumatic symbols, which this course teaches, is essential for interpreting schematics and troubleshooting issues. The course's focus on identifying and using various pneumatic control valves and actuators directly applies to the technician's daily tasks, helping them quickly diagnose and resolve problems in pneumatic circuits.

See salaries and explore the career path for Pneumatic Technician

Fluid Power Engineer

A Fluid Power Engineer designs and develops systems that use hydraulics and pneumatics to transmit power. This course builds a foundational understanding of pneumatics, which is essential for this role. You will learn about compressed air generation, treatment, and distribution, as well as the principles behind pneumatic circuits. The ability to analyze pneumatic circuits, which is covered extensively in the course, is crucial for designing and optimizing fluid power systems. The section on hydropneumatics is especially relevant, as it combines hydraulics and pneumatics, providing a comprehensive understanding of fluid power technologies.

See salaries and explore the career path for Fluid Power Engineer

Manufacturing Engineer

A Manufacturing Engineer optimizes manufacturing processes, frequently involving pneumatic systems for automation and control. This course builds a foundational understanding of pneumatics. The coverage of compressed air generation, treatment, and distribution is essential for optimizing the efficiency of pneumatic systems in a manufacturing setting. The ability to analyze pneumatic circuits, covered in the course, is crucial for troubleshooting and improving manufacturing processes. A manufacturing engineer may find the course's discussion of pneumatic logic circuits and timers useful to enhance automation and control in manufacturing operations. The study of pneumatic circuits can help enhance a manufacturing engineer's expertise.

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Automation Engineer

An Automation Engineer designs and implements automated systems, often utilizing pneumatic components. This course may be useful for understanding the fundamentals of pneumatics, including compressed air generation, treatment, and distribution. The course helps you to analyze pneumatic circuits, which is essential for designing efficient and effective automated systems. Furthermore, the ability to develop pneumatic logic circuits, as covered in the course, may prove useful when creating automated solutions. The detailed explanations of direction control valves and pneumatic cylinders covered in the course may contribute to proficiency in designing automated systems.

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Test Engineer

A Test Engineer designs and conducts tests on products and systems, including those that utilize pneumatic components. As this course covers the fundamentals of pneumatics, it builds a strong foundation for understanding the principles behind these systems. The ability to analyze pneumatic circuits, which is covered extensively in the course, is crucial for designing effective test procedures and interpreting results. A test engineer may find the detailed explanations of valves and actuators covered in the course helpful in evaluating their performance. The knowledge of pneumatic logic circuits may be useful when developing automated test setups.

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Maintenance Technician

A Maintenance Technician is responsible for maintaining and repairing equipment, much of which may rely on pneumatic systems. This course may be helpful for gaining a foundational understanding of pneumatics, especially regarding compressed air generation and distribution. The course provides insights into pneumatic circuits and circuit development, skills crucial for diagnosing and resolving issues with pneumatic components. The detailed explanations of pneumatic cylinders and direction control valves may be useful for understanding and troubleshooting these common components in industrial machinery. A maintenance technician may find the various pneumatic circuits explained to be directly applicable to real-world maintenance scenarios.

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Control Systems Technician

A Control Systems Technician installs, maintains, and repairs control systems, which often include pneumatic components. This course may be useful for understanding the fundamentals of pneumatics, particularly the sections on pneumatic symbols and control valves. The course helps control systems technicians to analyze pneumatic circuits, which is essential for troubleshooting and maintaining control systems. Furthermore, the knowledge of pneumatic logic circuits provides insights into the design and operation of complex control systems. The detailed explanations of timers and time delay valves covered in the course may be helpful for understanding timing and sequencing aspects of control systems.

See salaries and explore the career path for Control Systems Technician

Design Engineer

A Design Engineer creates designs for new products and systems, which may include pneumatic components. This course helps build a strong foundation in pneumatics. The course covers compressed air generation, treatment, and distribution, providing them with a strong understanding of the fundamentals. The ability to draw pneumatic symbols, which is covered in the course, can help ensure clear and accurate documentation in design projects. The study of pneumatic circuits may contribute to success as a design engineer. The course provides a basic knowledge of pneumatic systems.

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Robotics Technician

A Robotics Technician builds, maintains, and repairs robots, some of which utilize pneumatic systems for actuation and control. This course may be useful for gaining a foundational understanding of pneumatics, particularly the sections on pneumatic cylinders and direction control valves. The course helps robotics technicians analyze pneumatic circuits, which is essential for troubleshooting and maintaining robotic systems. The course's coverage of pneumatic logic circuits provides insights into the design and operation of complex robotic control systems. The detailed explanations of timers and time delay valves covered in the course may be helpful for understanding timing and sequencing aspects of robotic operations.

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Hydraulics Engineer

A Hydraulics Engineer designs and develops hydraulic systems, but also might need to integrate basic pneumatic elements. This course may be useful in developing foundational understanding of pneumatics, especially regarding compressed air generation and distribution. The course gives practical understanding of pneumatic circuits, which may be useful when integrating both types of systems. The detailed explanations of pneumatic cylinders and direction control valves are helpful for understanding and troubleshooting related components, even in predominantly hydraulic systems. The section on hydropneumatics is particularly valuable, as it covers the combination of hydraulics and pneumatics, offering a comprehensive understanding of fluid power technologies.

See salaries and explore the career path for Hydraulics Engineer

Mechanical Engineer

A Mechanical Engineer designs and develops mechanical systems, some of which might incorporate pneumatic components. This course may be helpful for building a foundational understanding of pneumatics. The course covers compressed air generation, treatment, and distribution, and the course may improve the design and analysis of systems involving pneumatic elements. Mechanical Engineers may find the sections on pneumatic cylinders and direction control valves particularly relevant, as these components are commonly used in mechanical designs. The course provides exposure to various pneumatic circuits, which can inform decisions about integrating pneumatics into larger mechanical systems.

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Industrial Engineering Technician

An Industrial Engineering Technician assists in the design, development, and implementation of efficient systems and processes, which can include pneumatic systems. This course may be helpful for understanding the basics of pneumatics. The discussion of compressed air generation, treatment, and distribution may be useful for improving the design and operation of industrial processes. The course's focus on pneumatic circuits provides helpful context for understanding how pneumatic systems integrate into larger industrial operations. An industrial engineering technician may find the exploration of logic gates and timers useful when optimizing automated processes.

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Agricultural Engineer

An Agricultural Engineer designs and develops agricultural machinery and systems, which can include pneumatic components. This course may be useful for understanding the basics of pneumatics, and the application of compressed air in agricultural settings. The course's focus on pneumatic cylinders and valves can help Agricultural Engineers design and optimize equipment for planting, harvesting, and processing. An agricultural engineer may find the exploration of logic gates and timers useful when designing automated systems for irrigation, climate control, and crop handling.

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Aerospace Engineer

An Aerospace Engineer designs and develops aircraft and spacecraft, and they may use pneumatic systems for various functions. This course may be useful for understanding the fundamentals of pneumatics. The aerospace engineer may find the course's treatment of compressed air generation, treatment, and distribution relevant. The focus on pneumatic circuits may contribute to proficiency in designing pneumatic systems for aerospace applications. The detailed explanations of the different pneumatic valves may benefit an aerospace engineer. Aerospace engineers typically possess a master's degree or doctorate.

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Facilities Manager

A Facilities Manager oversees the maintenance and operation of buildings and infrastructure, which may include pneumatic systems for HVAC, compressed air, and other functions. This course may be helpful for understanding the basics of pneumatics, particularly the sections on compressed air generation, treatment, and distribution. This knowledge helps facilities managers optimize the performance and efficiency of pneumatic systems within their facilities. Facilities managers may find the understanding of pneumatic circuits useful for troubleshooting issues. The course may be helpful for keeping the facilities manager abreast of basic knowledge.

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Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Pneumatics Fundamentals.

Pneumatic Handbook

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This handbook provides a comprehensive overview of pneumatic systems and components. It covers topics such as compressed air generation, distribution, actuators, and control valves in detail. It serves as a valuable reference for understanding the practical applications of pneumatics in various industries. is commonly used by industry professionals.

Pneumatic Handbook

Kindle Edition

$$$$

Alter Ego

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Focuses on the practical applications of pneumatics in industrial settings. It provides real-world examples and case studies to illustrate the use of pneumatic systems in various industries. It is more valuable as additional reading to broaden your understanding of pneumatics. It also helps to understand the challenges and solutions associated with implementing pneumatic systems in real-world scenarios.

Alter Ego: A Novel

Paperback

Pneumatics Fundamentals

What's inside

Learning objectives

Syllabus

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Reviews summary

Foundational pneumatics concepts explained

Activities

Career center

Reading list

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