Ethen Laing’s Post

A robotic manipulator arm is a versatile and reprogrammable mechanical device designed to move materials, parts, objects, or tools through programmed motions to perform a variety of tasks. These devices consist of a series of jointed segments that create an arm-like structure. A robotic manipulator can automatically handle or move objects based on its degrees of freedom, also referred to as axes. The number of axes corresponds to the number of motors within the robot, with configurations ranging from two to ten or more. In industrial applications, most robots typically have between four to six axes. Six-axis robotic manipulators are particularly common, as their range of motion closely resembles that of a human arm, offering the flexibility necessary to automate numerous industrial processes effectively. #QualityControl #ManufacturingPrecision #ErrorReduction #SmartTech #B2BManufacturing #AutomationExcellence

🌍 The Future of Manufacturing: Robots, Vision Systems, and Adaptation to Changing society. As industries face rapid shifts due to labor shortages and evolving consumer demands, the adoption of advanced robotics and vision systems has become more than just a technological upgrade—it’s a necessity. From high-mix, low-volume production to high-mix, high-volume efficiency, robotics are helping manufacturers stay competitive and flexible. 💡 3D vision systems are enabling robots to achieve unprecedented levels of precision, reducing errors, and cutting costs, while collaborative robots (cobots) are transforming how humans and machines work together. Discover how these advancements are reshaping the future of manufacturing and why companies need to adapt to stay ahead. 🚀 Full read : https://lnkd.in/gjByn7S4 (KOR and ENG) #Robotics #3DVision #Manufacturing #Automation #Innovation #Industry40 #CollaborativeRobots #pickit #robotguidance #pickitkorea #bin-picking #sanding #assembly

Revolutionizing #manufacturing Pre-Cut Processing Machine + Teach-Less #Palletizing Robot Coordinates tasks such as material stacking, spacer placement, and scrap material disposal autonomously, utilizing CAD/CAM data, without the need for vision or prescriptive teaching. #MujinController uses machine intelligence technology (MujinMI) to give robotic systems real-time decision-making ability that enables truly autonomous, #reliable, and production-capable robot applications for #logistics and manufacturing. MujinMI controls multi-axis machines and enables smarter applications with multiple degrees of freedom, empowering robots to move with precision and flexibility like never before. What sets #Mujin apart is not just our technology - it's our commitment to pushing the boundaries of what's possible in robotics. #automation

Aubo collaborative robots make wheel hub painting smarter,more economical,and safer! • Precision and Efficiency:Aubo collaborative robots ensure accurate painting,enhancing the quality rate. • Cost Savings:Minimize paint waste,reducing material and labor costs. • Flexible and Safe:Quick deployment without downtime,touch-stop feature for operational safety. • Quality Improvement:Uniform painting with no color difference and good gloss. • Efficiency Multiplier:Continuous operation,reduced touch-ups,increasing production efficiency. • Environmental and Health:Less paint waste,improved working conditions for workers. • Easy Operation:Drag-and-teach,quick programming,reducing operation difficulty. #sprayrobot #Auborobot #automation #aispray

Repetitive motion in robotics often leads to 𝘁𝗼𝗼𝘁𝗵 𝗳𝗮𝗶𝗹𝘂𝗿𝗲—a common and inevitable risk with traditional gear systems. But what if this problem could soon be a thing of the past? 🤔🚫 Industrial robots naturally wear down over time 🔄⚙️, yet the Archimedes Drive introduces a groundbreaking solution: it offers predictable, 𝗰𝗼𝗻𝘁𝗿𝗼𝗹𝗹𝗲𝗱 𝘄𝗲𝗮𝗿 𝘁𝗼 𝗵𝗲𝗹𝗽 𝗽𝗿𝗲𝘃𝗲𝗻𝘁 𝘀𝘂𝗱𝗱𝗲𝗻 𝗯𝗿𝗲𝗮𝗸𝗱𝗼𝘄𝗻𝘀. 📍𝘏𝘰𝘸 𝘥𝘰𝘦𝘴 𝘪𝘵 𝘸𝘰𝘳𝘬? Unlike conventional drives, the Archimedes Drive is built with tractive hollow cylinders instead of gears: - 𝗣𝗿𝗲𝗱𝗶𝗰𝘁𝗮𝗯𝗹𝗲 𝗪𝗲𝗮𝗿: The Archimedes Drive’s hollow cylinder mechanism wears gradually and predictably, reducing unexpected failures and eliminating backlash. ⚖️👌 - 𝗡𝗼 𝗧𝗼𝗼𝘁𝗵 𝗕𝗿𝗲𝗮𝗸𝗮𝗴𝗲: With traditional gears, repetitive stress can lead to tooth breakage. The Archimedes Drive’s cylinder design makes this issue obsolete. 🙅♂️❌ - 𝗢𝘃𝗲𝗿𝘁𝗼𝗿𝗾𝘂𝗲 𝗣𝗿𝗼𝘁𝗲𝗰𝘁𝗶𝗼𝗻: Its rolling mechanism allows the robot joint to slip in response to shocks, boosting durability and minimizing downtime. 🛡️⏱️ Learn how the Archimedes Drive can keep your production line running smoothly, reduce downtime, and maintain precision by visiting 🔗https://lnkd.in/efRuJ2Uv #IndustrialAutomation #Manufacturing #Robotics #Innovation #Engineering #Precision #AutomationTechnology

🤔 Why Do Robotic Joints Need Two Encoders? Precision and safety are critical in robotics. One effective way to enhance both is by using two encoders. 🔍 Better Accuracy and Performance: The types of gearboxes in lightweight robot designs can have a flexible structure, which poses challenges for maintaining smooth and dynamic motion trajectories. Andrija Feher, CTO of Synapticon, points out that adding a secondary encoder greatly improves control and system responsiveness. 🛡 Built-In Redundancy for Safety: Dual encoders add a crucial safety net. If one encoder fails or if there is a mechanical issue, it can be detected and the robot safely stopped. 💥 Collision Detection and Force Measurement: Beyond improving motion, two encoders can detect collisions and measure force directly through gear torsion. This capability makes robots not only more precise but also more aware of their environment. ✨ The Future of Robotics: Integrating two encoders is a simple change that significantly boosts robot reliability and functionality. Curious about how these technological advances are shaping the future of robotics? Stay tuned for the release of our latest podcast episode with Andrija Feher. #Robotics #Automation #Engineering 🤔 What breakthroughs do you see on the horizon for robotic technology? Share your views below! 👇 👍 Like this post if you found it informative! ➡ Follow me for more updates on the cutting-edge of robotics and automation. 📩 DM me to discuss how go from boring to epic industrial B2B marketing.

Master-Slave 7-Axis Parallel Link Robot with μDD Motors Looking for a flexible, intuitive, and powerful master-slave robot system? By utilizing our ultra-compact Direct Drive Motors, we've developed a tabletop-size manipulator that can be easily operated with precision! Key Features: 1️⃣Backdrivability at Its Best With excellent backdrivability, the slave device moves seamlessly based on the master device's real-time actions, with zero time lag. 2️⃣ Low Mechanical Error & Silent Operation Thanks to the gearless structure, our system minimizes mechanical errors while ensuring ultra-silent operation. 3️⃣ 7-Axis Precision and Flexibility The 7-axis structure (XYZ, Roll, Pitch) allows for maximum flexibility without compromising accuracy. It's perfect for applications requiring precise movement in complex environments. 4️⃣ Wide Hollow Shaft Design The large hollow shaft makes it easy to integrate into your setup, allowing for features like air tube pass-throughs for pick-and-place equipment. Key Motors Used: 1. MDH-2018-36KE Ultra-Compact Direct Drive Motor ・Outer diameter: φ21mm, ・Hollow diameter: φ2.6mm, ・144,000 C/R resolution, ・130mNm peak torque 2. MDH-7018-648KE Small Hollow Shaft Direct Drive Motor ・Outer diameter: φ70mm, ・Hollow diameter: φ25mm, ・65,536 C/R resolution, ・3Nm peak torque By integrating μDD motors, anyone can intuitively operate this powerful robot system with ease. Interested in taking your robotics design to the next level? Visit our product page for more details, or reach out to discuss how this technology can work for you. #DDMotor #DeltaRobot #Automation #Robotics #MTLJapan #Manufacturing #HumanoidRobot #IndustrialRobot

🚀 Meet the MAX-200-P: Your Next-Level Industrial Robot! 🚀 The MAX-200-P is the latest and largest model in the MAX series, featuring a 200kg payload and an incredible 2.5m reach. But don't let its size fool you—it delivers the same high precision as the smaller models! 🔧 Why Choose the MAX-200-P? Robust Design: Handles high dynamic forces and rapid movements effortlessly. Unmatched Accuracy: Even with a 200kg payload, it achieves flawless precision in every task. Perfect for Metal Machining: Whether working with steel or aluminium, it ensures high metal removal rates and top-tier precision. Ready to take your production to the next level? The MAX-200-P is built for performance, speed, and reliability. Let’s automate your future! 👉 What’s your next project? Let’s talk about how the MAX-200-P can boost your operations! #MAX200 #CNCrobotics #RunMyRobot #PrecisionRobots #CNC #RobotAutomation #NeovikTechnologies

What if Robots could see ? An e-book covering the important aspects of  implementation of vision systems on Robots. By being able to determine positions precisely, this technology has the potential to accelerate numerous processes. Challenges, such as integrating the technology into existing structures, are analyzed in this e-book. Solution approaches are also presented and illustrated using practical examples. Detailed insights into the technology and sensor options have also been included. We at SICK are striving to make the usage of vision system into a simple task. Companies that adopt vision systems on robotics and advanced sensor solutions can position themselves competitively by being forward-thinking. Here’s how: 1.  Cost Reduction: Robots can perform tasks more efficiently thus  reducing production costs. 2.  Productivity Enhancement: Automation through vision systems on robotics improves overall productivity. 3.  Risk Mitigation: Robots can handle hazardous or repetitive tasks, reducing risks to human workers. Integration of safety functionality into vision solutions can enhance the safety of working in collaboration with a robot 4.  Addressing Skill Shortages: In industries facing workforce shortages, robots can fill the gap. Vision systems are simplifying this process of filling the gap. 5.  New Business Models: Companies can explore innovative ways to integrate human workers and machines for maximum benefit For any questions/comments feel free to contact us . #sicksensorsisrael #sicksensorIntelligence