Linear robotics

06.07.2020   |   by Mojas

Motion solutions for every market. Simple and economical, screw driven actuators are highly modifiable for different applications and perfect for lighter loads and high accuracy positioning. Robotic Transport Units. Tensioning Tools. Actuator Mounting Kits. With automation on the rise, the case for linear robotics, has expanded.

The three sliding joints correspond to moving the wrist; up and down, back and forth, as well as in and out. Linear robots with horizontal members supported at both ends are referred to as Gantry robots. Because there are no rotating axes, linear robotics tend to have a higher degree of accuracy, making them the ideal automation solution for those mundane repetitive tasks.

Unlike other automation machines, linear robotics systems can be reprogrammed to accommodate product changes quickly, and are flexible to meet unique requirements. Many industries today require automated processes to ensure process repeatability, reduce variability, meet quality expectations and lower manufacturing costs. Automation is vital to many companies to meet lead-time demands and remain competitive. Robotic systems offer the best cost investment as they can be reprogrammed or repurposed to meet product variety and life cycles.

Linear robotics are a versatile solutions for these challenges. Toggle navigation. T-Slot Sensors. Replacement Parts. Motor Mounts. What Is Linear Robotics? There are many different uses for Linear robotics, but the most common are: Pick and Place Solutions — High-speed pick and place robots move a product from one location to another with spot-on accuracy. Manual errors like placing the wrong item in the wrong place can be replaced with linear robotics.

Implementing a pick and place system to place items in certain spots and on assembly lines can greatly improve efficiency and accuracy, as well as prevent injuries. Sorting — A linear robot can streamline the traditionally manual and monotonous process of sorting, making it more efficient and safer.

When coupled to a vision system, accurate distinctions can be made with greater consistency. Allowing production to run non-stop would be extremely difficult for laborers to manually handle. This eliminates the need for a 3rd shift crew. This is a great way to improve turnaround time. Palletizing — A palletizer takes products and places them in a predetermined pattern to form layers and then place them onto a pallet. Without automation, this could be a dangerous heavy-lifting manual job.

Robotic systems greatly increase productivity and reliability for palletizing processes. They have a minimal equipment footprint and have become a more ideal solution for a wider range of packaging scenarios. Assembly Processes — Many processes such as dispensing, cutting, forming, welding etc. Subscribe Today! Categories Multi-Axis Single-Axis.Linear robots are a type of industrial robot that move only in a straight line as opposed to rotating in all directions.

They typically feature two or three principal axes and function at right angles to each other. Linear robots are a highly specialized type of industrial robot that prove highly beneficial in certain applications. Not all environments are conducive to the use of linear robots, but there are advantages to using linear robots in certain scenarios.

Since linear robots have no rotating axes and are built to only move in one direction, they are typically more accurate than traditional industrial robots. Their mechanical structure inherently limits rotational movements, helping to increase not only the accuracy but also the repeatability of linear robots.

linear robotics

Repeatability is a key attribute of industrial robots and one of their most distinct advantages. Repeatability leads to higher quality products and more consistent products with predictable production volumes. Linear robots, when used in the correct application, can bring greater product quality and consistency through process repeatability.

Not all applications will benefit from linear robots, but some common industrial applications that do include:. Linear robots are best for mundane, repetitive tasks where their high levels of repeatability can maximize productivity. While the uses listed above are some of the most common for linear robots, they are far from an exhaustive list of applications that may benefit from linear robots.

To learn more about the industrial applications of linear robots, read our member-published tech paper on linear robots. T: - F: Sign In Register. The Benefits of Linear Robots Since linear robots have no rotating axes and are built to only move in one direction, they are typically more accurate than traditional industrial robots.

Not all applications will benefit from linear robots, but some common industrial applications that do include: Pick and place Sorting Packaging Palletizing Assembly Linear robots are best for mundane, repetitive tasks where their high levels of repeatability can maximize productivity.

Best Practices in Robotic Grinding and Finishing. Enter E-mail Address:. Visit our other association websites.Andrew is also an electronics and robotics enthusiast and has created and curated robotics exhibits for the Children's Museum of Somerset County, NJ and taught robotics classes for the Kaleidoscope Enrichment in Blairstown, NJ and for a public primary school.

Andrew is always looking for ways to engage makers and educators. Watch for our robot themed posts during May in honor of Make: Vol.

Linear Robots.

There are lots of types of actuators on robots. Unlike wheels or servo-driven arms, linear actuators operate by pushing or pulling along a straight line. There are many potential uses for this, from finely positioning an X-Y table for an automated tool to having your robot servant push a door bell button for you when your finger gets tired.

linear robotics

Here are five different types of linear actuators you can integrate into a future robot build. You can make a powerful linear actuator with a threaded rod, some matching nuts, and a battery operated drill.

Or you could make a very precise one using a stepper motor, which is exactly what you see on many 3D printers. Pneumatics are a form of fluid control using pressurized gasses, usually air, to apply a force. Pneumatic cylinders are available in a variety of sizes. They are strong, durable, simple mechanisms, with many industrial applications.

One advantage of pneumatics is that unlike motors or servos, they can generally hold their position once pressurized, without requiring additional power. He explained how an onboard compressor pressurizes a storage tank, with regulators to set the working pressures for the cylinders. The robot could easily pick up and stack plastic storage bins as shown in the picture below.

Many robots use motors or servos as actuators, both of which provide rotational motion. You can turn that rotation into a linear motion with a mechanism called a Scotch Yoke. A pin on a rotating wheel is inserted in the slot, and when the wheel turns, the rod moves back and forth.

Robotic Solutions

This mechanism is used in many reciprocating tools. A solenoid is an electric coil which, when energized, either pulls or pushes an iron or steel plunger. The plunger can be spring-loaded so that it returns when the solenoid is not energized. Solenoids are used in electric locks in cars and security doors, old door bells, electrically controlled valves, and many other applications.

You can use a braided mesh tube with a skinny balloon inside and the ends clamped to create a pneumatic muscle. When the balloon is inflated, it cannot expand along its length because it is clamped to the braid. It can only expand radially, causing the braid to contract. You can use opposing sets of these artificial muscles to bend an arm just like in the human body, or anywhere you need to pull on something. This can be essential in robots designed to work closely with humans.

Soft robotics are likely to find uses in more and more personal service robots, where a traditional actuator might easily cause an injury. Latest Andrew Terranova. By Andrew Terranova Andrew Terranova.

linear robotics

Piscataway High School Robotics Team. Related Stories from Make:. Send this to a friend Your email Recipient email Send Cancel. Thanks for signing up. Please try again.Our primary goal is bringing the highest quality and best designed products in the automation industry.

LINEAR ACTUATOR

New products introduced on a regular basis using the latest technology available in the industry. Our main product lines include electric linear actuators, control systems and accessories. All products and selections you see on the website are in-stock and available to ship out same day.

You can customize our electric actuators according to:. Keep in mind that these are just a few examples of our comprehensive customization options. Various models can be modified in different ways. Please give us a call to describe exactly what you need and we will get started on it right away. The lead time for custom orders is business days.

Like all of our products, your custom built units are covered by our 12 month warranty. We are devoted to helping you find the perfect linear actuator and accessory best suited for your specific project or application.

REV Linear Slide V2 Tutorial FIRST Global 2018

Our highly trained and experienced engineer support team offers hands-on support for any questions and concerns you may have with our products. We will take you through the process of finding your ideal actuator from beginning to end.

We want to make sure your design is built within your budget and specifications in the most effective way possible when you purchase an electric actuator or control system from us. Contact us today during business hours with any questions you might have.

From Simple Domestic Automation. Custom Orders All products and selections you see on the website are in-stock and available to ship out same day.

You can customize our electric actuators according to: Voltage Stroke Size Force Speed and more Keep in mind that these are just a few examples of our comprehensive customization options.

Customer Service We are devoted to helping you find the perfect linear actuator and accessory best suited for your specific project or application.

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Create a new list.You are using an outdated browser version of the Internet Explorers. Please update your browser for ideal presentation of the website. With KUKA linear units, you add a further axis to the robot, thereby considerably extending the work envelope of the robot.

The linear units are controlled by the same controller as the robot. They can thus be integrated seamlessly into the work sequence — without the need for additional equipment. Up to four robots can be operated on a single linear unit. KUKA linear units are available in various sizes and payload categories, according to the robot series installed on them. It is operated as the external axis of a robot and is thus controlled by the corresponding robot controller.

The KL can be used with up to four robots of the KR 30 and KR 60 series with a combined total weight of up to 1, kilograms. Maximize your productivity all the way down the line: with KUKA linear units, you can radically extend the work envelope and radius of action of your KUKA robots. This website uses cookies find out more in order to offer you the best service online as well.

If you simply continue to use our website, we will only use cookies required for technical purposes. KUKA linear units.Our modular linear robotic systems are characterised by a high degree of adaptability. You can rely on a wide range of products with practical equipment options in terms of sizes, axes, axial drives and lengths, as well as different designs and special versions.

Extensive interfaces for gripper and peripherals enable you to tailor automation to meet your individual requirements. Rotary encoder All operations are combined in a single process. It also performs insertion of the sensor, transfer of the magnetic disc in the mould and final assembly. The three servo-electric axes of the linear robotic system can be synchronised with the machine movements.

Micro counter wheel Dynamic injection using a position-regulated screw, for example, ensures the required precision and compliance with tolerances in the micron range.

In order to offer you the best possible service, this website uses cookies. With the use of our services, you also agree to us placing cookies on your device. Linear robotic systems. More images on this topic. One contact person: Compete, CE-certified production units from a single source One control system: the same approach is common to all machines and robotic systems, so that they can be programmed intuitively using graphical symbols Extended real-time communication: greater functionality, synchronised processes and high-speed cycles Practical assistance functions: easy set-up and quick start-up Wide range of applications: A wide variety of construction methods and special designs are possible, e.

Multi-axis robots.Different uses for Linear robotics. With automation on the rise, the case for linear robotics, has expanded.

What Is Linear Robotics?

Linear robots are a type of industrial robot with two or three principal axes that move in a straight line rather than rotate, functioning at right angles to each-other. The three sliding joints correspond to moving the wrist; up and down, back and forth, as well as in and out.

Linear robots with horizontal members supported at both ends are referred to as Gantry robots. Because there are no rotating axes, linear robotics tend to have a higher degree of accuracy, making them the ideal automation solution for those mundane repetitive tasks.

Unlike other automation machines, linear robotics systems can be reprogrammed to accommodate product changes quickly, and are flexible to meet unique requirements. Many industries today require automated processes to ensure process repeatability, reduce variability, meet quality expectations and lower manufacturing costs. Automation is vital to many companies to meet lead-time demands and remain competitive. Robotic systems offer the best cost investment as they can be reprogrammed or repurposed to meet product variety and life cycles.

Linear robotics are a versatile solutions for these challenges. Pick and Place Solutions — High-speed pick and place robots move a product from one location to another with spot-on accuracy. Manual errors like placing the wrong item in the wrong place can be replaced with linear robotics. Implementing a pick and place system to place items in certain spots and on assembly lines can greatly improve efficiency and accuracy, as well as prevent injuries.

Sorting — A linear robot can streamline the traditionally manual and monotonous process of sorting, making it more efficient and safer. When coupled to a vision system, accurate distinctions can be made with greater consistency. Allowing production to run non-stop would be extremely difficult for laborers to manually handle. This eliminates the need for a 3rd shift crew. This is a great way to improve turnaround time. Palletizing — A palletizer takes products and places them in a predetermined pattern to form layers and then place them onto a pallet.


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