Actuator Applications in Automation and Robotics: A Beginner’s Guide
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- čas přidán 5. 08. 2024
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⌚Timestamps:
00:00 - Intro
01:08 - Examples of actuators
01:47 - Importance of actuators in manufacturing
02:25 - Introduction to robots
04:06 - Smart actuators
04:41 - Soft robots
05:10 - Conclusion
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Let's kick things off with a quick discussion about the term "Actuator".
An actuator is a device that makes something move or operate.
Digging a bit deeper we find that an actuator receives a source of energy and uses it to move something. In other words, an actuator converts a source of energy into a physical mechanical motion.
There are 3 sources of energy used by an actuator to produce the physical-mechanical motion.
- Pneumatic actuators are operated by compressed air.
- Hydraulic actuators use a variety of liquids as a source of energy.
- Electric actuators use some form of electric energy to operate.
A pneumatic actuator receives a pneumatic signal through a top port. This pneumatic signal exerts pressure on a diaphragm plate. This pressure will move the valve stem downward in a way that moves, or strokes the control valve.
As the industry becomes more and more dependent on automated systems and machines, the demand for more actuators increases.
Actuators are used extensively in a multitude of manufacturing processes such as assembly lines and material handling.
With the advances in actuator technology, there are a vast number of actuators at our disposal with different strokes, speeds, shapes, sizes, and capacities to best satisfy any specific process requirements.
Without actuators, many processes would require human intervention to move or position many mechanisms.
This is a good time to introduce you to the device called a “Robot”.
A robot is an automated machine that can execute specific tasks with little or no human involvement and with speed, accuracy, and precision.
These tasks can be as simple as moving a finished product from a conveyor to a pallet.
Robots are very good at pick-and-place tasks, welding, and painting.
Robots are excellent at doing tedious repeatable tasks that were performed by a human a few years ago.
Robots can be used for more complex assignments such as manufacturing automobiles on an assembly line or executing very delicate and precise tasks in the surgical operating room.
Robots come in many shapes and sizes. The type of robot is defined by how many axes are used.
The main component of every robot is the servo motor actuator. For each axis, there is at least one servo motor actuator that moves to support that part of the robot.
For example, a 6-axis robot has 6 servo motor actuators.
A servo motor actuator receives a command to go to a specific position and then acts on that command.
The Smart Actuator contains an integrated sensor. This device is capable of providing actuation or movement in response to sensed physical properties such as light, heat, and humidity.
You’ll see smart actuators used in applications as complex as nuclear reactor process control systems, and as simple as home automation and security systems.
Peering into the near future, we see a device called a “Soft Robot”.
A Soft robot has soft actuators integrated and distributed throughout the robot, unlike a Hard Robot with actuators for every joint.
Adding Artificial Intelligence to the mix, Biomimetic intelligence provides a robot with the ability to learn new environments and the decision-making ability to respond to external changes.
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QUICK TIP if would be talking to professional the numbers of the joints are starting at the base and ends in the flange of the robot you have the opposite logic.
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