Industry Briefing

A single destination for timely, editor-curated robotics news from around the world.

The Low-Magnetic Permeability LM Guide Model HSR-M3: Consistent, Accurate Linear Motion Even in Strong Magnetic Fields

The Low-Magnetic Permeability LM Guide Model HSR-M3: Consistent, Accurate Linear Motion Even in Strong Magnetic Fields

THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the development of its products, which include Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. The company serves a global clientele, providing essential components for various industries. In addition to its core offerings, THK also specializes in mechatronics products, automobile parts, and seismic isolation systems. This strategic focus on diverse product lines aims to meet the evolving needs of customers worldwide and enhance operational efficiency across multiple sectors. As of October 2023, THK continues to leverage advanced manufacturing techniques to ensure the reliability and performance of its products, reinforcing its position as a key player in the mechanical components market.

THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
How to engineer robot tracks and 7th axis systems for real-world environments

How to engineer robot tracks and 7th axis systems for real-world environments

Experts from Güdel are set to address the challenges posed by harsh and dirty environments on robotic tracks and long-axis linear motion systems. This discussion will delve into the engineering solutions necessary to adapt these systems for real-world applications, highlighting the importance of durability and reliability in demanding conditions. The insights will be shared in a forthcoming presentation, emphasizing the need for robust designs that can withstand the rigors of various operational settings. The event aims to equip industry professionals with the knowledge to enhance the performance and longevity of robotic systems in challenging environments.

Events Industrial Robots Mechanical Motion Control News Robots / Platforms
Utility Slide Advanced Wheel Guide Lineup Expanded with New Compact Model AWG18

Utility Slide Advanced Wheel Guide Lineup Expanded with New Compact Model AWG18

THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the production of various products, including Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. The company serves a global clientele, providing essential components for a wide range of industries. In addition to its core mechanical offerings, THK also specializes in the development and distribution of mechatronics products, automobile parts, and advanced seismic isolation systems. This strategic focus on diverse product lines aims to enhance operational efficiency and safety in various applications, reflecting THK's dedication to meeting the evolving needs of its customers worldwide.

THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
Expanded Lineup of Super-Heavy Load LM Guide Model NR-X/NRS-X for Machine Tools: 24 Super-Long Block Model Types Added

Expanded Lineup of Super-Heavy Load LM Guide Model NR-X/NRS-X for Machine Tools: 24 Super-Long Block Model Types Added

THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the production of essential technologies. The company specializes in the development and manufacturing of a wide range of products, including Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. With a global client base, THK also focuses on mechatronics products, automotive parts, and seismic isolation systems. This strategic expansion aims to meet the growing demand for advanced mechanical solutions across various industries. By leveraging cutting-edge technology and engineering expertise, THK continues to enhance its product offerings, ensuring they remain at the forefront of the mechanical components market.

THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
Medium-Torque Ball Spline Model LF Product Lineup Expanded with New Models LF80 and LF100

Medium-Torque Ball Spline Model LF Product Lineup Expanded with New Models LF80 and LF100

THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the development of various products, including Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. Serving clients globally, the company also specializes in mechatronics products, automobile parts, and seismic isolation systems. With a focus on meeting the diverse needs of its customers, THK continues to enhance its product offerings and expand its market reach as of October 2023.

THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
Precision Ball Screw with Finished Shaft Ends Model SDA-VZ Lineup

Precision Ball Screw with Finished Shaft Ends Model SDA-VZ Lineup

THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and global distribution. The company specializes in products such as Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators, catering to a diverse clientele worldwide. In addition to these offerings, THK also develops and distributes a range of mechatronics products, automobile parts, and seismic isolation systems. This strategic focus on advanced manufacturing and product diversity positions THK as a key player in the mechanical engineering sector, responding to the evolving needs of industries around the globe.

THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
How JLCMC is Redefining Industrial Automation Solutions for Modern Factories

How JLCMC is Redefining Industrial Automation Solutions for Modern Factories

The manufacturing industry is undergoing significant transformation as companies strive to increase production efficiency, minimize waste, and adapt to market demands while keeping costs manageable. Central to this evolution is the rise of industrial automation, supported by various suppliers that play a crucial role behind the scenes. One such emerging player in this sector is JLCMC, an online store that is gaining recognition for its contributions to the automation landscape. As manufacturers navigate these challenges, the integration of advanced technologies and innovative solutions is becoming essential for sustained growth and competitiveness in a rapidly changing environment.

Automation Industry automation engineers cnc factory automation industrial automation
Mastering the Programming of a Jointed Arm Robot for Non-Linear Tasks

Mastering the Programming of a Jointed Arm Robot for Non-Linear Tasks

JAKA, a leader in robotic technology, has developed advanced programming solutions for 6-axis robot arms, enabling them to navigate complex, non-linear trajectories with precision. Traditionally, programming such intricate paths has been a challenge, often requiring tedious point-by-point teaching that can lead to jerky movements. To address this, JAKA has integrated intuitive software interfaces that allow operators to program the robotic arms using graphical tools and drag-and-drop methods, significantly simplifying the process. The innovative design of the 6-axis robot arm provides the necessary dexterity to maneuver around obstacles and follow curves smoothly. JAKA’s precision control technology ensures that the arm can accurately interpolate motion between points, resulting in fluid movements essential for tasks like welding and sealing. Additionally, features such as waypoint recording and path smoothing algorithms help translate human-guided motions into repeatable programs. Safety and reliability are paramount in dynamic operations. JAKA's robotic arms are equipped with advanced sensors that enable real-time path corrections based on force feedback and vision input, ensuring consistent performance even in unpredictable environments. With multiple safety mechanisms in place, the robotic arms can operate safely alongside human workers. By combining cutting-edge mechanical design, intelligent software, and robust safety features, JAKA aims to make the programming of complex robotic tasks accessible and efficient, empowering programmers to fully exploit the capabilities of their 6-axis robot arms in various production settings.

Physics-informed neural controlled differential equations for long horizon multi-agent motion forecasting

Physics-informed neural controlled differential equations for long horizon multi-agent motion forecasting

Researchers are tackling the complexities of long-horizon motion forecasting for multiple autonomous robots, a task made difficult by non-linear interactions among agents and the accumulation of prediction errors over time. This initiative, which aims to enhance trajectory forecasting, is particularly relevant for applications such as travel time prediction, prediction-guided planning, and surrogate simulation. By developing efficient forecasting methods, the team seeks to improve the reliability and accuracy of autonomous systems in dynamic environments. The work is ongoing, with implications for various fields that rely on advanced robotics and automation.

Machine learning
An Electric Column for the Automation of a Container Twist Lock Handler

An Electric Column for the Automation of a Container Twist Lock Handler

TiMOTION has partnered with robotics students at the Technical University of Delft to enhance their project focused on automating container twist lock handling. The company provided an industrial electric lifting column, which serves as a crucial component in the students' efforts to develop an efficient and reliable automation solution. The electric linear actuator supplied by TiMOTION has proven to be robust and stable, meeting the students' expectations for their project. This collaboration not only supports the students' educational endeavors but also highlights TiMOTION's commitment to fostering innovation in the field of robotics.

What Are the 5 Types of Industrial Robots?

What Are the 5 Types of Industrial Robots?

JAKA, an industrial robot company, is at the forefront of automation technology, focusing on five primary types of robots that cater to various production needs. These include articulated robots, known for their flexibility and complex movements, which are essential for tasks like welding and assembly. The compact design of JAKA's Zu series exemplifies this versatility, allowing operation in confined spaces. Additionally, the SCARA robot specializes in high-speed, precise motions within a horizontal plane, making it ideal for electronics manufacturing. JAKA emphasizes engineering principles that ensure repeatability and stability in all its robotic models. The delta robot, characterized by its parallel-linked arms, excels in ultra-high-speed picking and packaging, particularly in the food and pharmaceutical industries. JAKA is committed to delivering reliable automation solutions that meet rigorous production standards. The Cartesian robot, or gantry robot, operates on three linear axes, making it suitable for applications such as 3D printing and precise dispensing. Its intuitive programming aligns with JAKA's mission to make automation accessible. Lastly, collaborative robots, or cobots, represent a significant shift towards human-centric automation, designed to work safely alongside human workers. JAKA focuses on developing accessible cobots equipped with user-friendly programming and safety features. Overall, JAKA aims to provide a diverse range of robotic solutions that enhance flexibility, efficiency, and collaboration in modern manufacturing environments.

Biomimetic Robots Discover Universal 'Movement Language' from Fish to Octopus

Biomimetic Robots Discover Universal 'Movement Language' from Fish to Octopus

Researchers at South China University of Technology have unveiled a groundbreaking universal kinematic model that captures the complex movements of a variety of animals, such as fish, snakes, and octopuses. This model integrates body curvature equations with nonlinear oscillators, providing a more streamlined and cohesive framework for designing biomimetic robots. The innovation aims to enhance the efficiency of robot movement and control, potentially transforming the field of robotics by simplifying the processes involved in generating and managing movement in these machines.

Biomimetic Robots Kinematics Robotics Research Animal Movement Control Systems
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