SAS Automation announces Hybrid 'HX' End Effectors for 5+ Axis Robots
LASYS 2014: basic knowledge of laser technology to be imparted during the 2-day "Short Course - Basics on Lasers and Laser Material Processing" organised by WLT e.V.
Strengthens Focus on Next Generation Motor Technology
From DARPA : DARPA tasks four companies with designing new aircraft to revolutionize vertical takeoff and landing (VTOL) flight capabilities. For generations, new designs for vertical takeoff and landing aircraft have remained unable to increase top speed without sacrificing range, efficiency or the ability to do useful work. DARPA’s VTOL Experimental Plane (VTOL X-Plane) program seeks to overcome these challenges through innovative cross-pollination between the fixed-wing and rotary-wing worlds, to enable radical improvements in vertical and cruise flight capabilities. In an important step toward that goal, DARPA has awarded prime contracts for Phase 1 of VTOL X-Plane to four companies: Aurora Flight Sciences Corporation The Boeing Company Karem Aircraft, Inc. Sikorsky Aircraft Corporation “We were looking for different approaches to solve this extremely challenging problem, and we got them,” said Ashish Bagai, DARPA program manager. “The proposals we’ve chosen aim to create new technologies and incorporate existing ones that VTOL designs so far have not succeeded in developing. We’re eager to see if the performers can integrate their ideas into designs that could potentially achieve the performance goals we’ve set.” VTOL X-Plane seeks to develop a technology demonstrator that could: Achieve a top sustained flight speed of 300 kt-400 kt Raise aircraft hover efficiency from 60 percent to at least 75 percent Present a more favorable cruise lift-to-drag ratio of at least 10, up from 5-6 Carry a useful load of at least 40 percent of the vehicle’s projected gross weight of 10,000-12,000 pounds All four winning companies proposed designs for unmanned vehicles, but the technologies that VTOL X-Plane intends to develop could apply equally well to manned aircraft. Another common element among the designs is that they all incorporate multipurpose technologies to varying degrees. Multipurpose technologies decrease the number of systems in a vehicle and its overall mechanical complexity. Multipurpose technologies also use space and weight more efficiently to improve performance and enable new and improved capabilities. The next major milestone for VTOL X-Plane is scheduled for late 2015, when the four performers are required to submit preliminary designs. At that point, DARPA plans to review the designs to decide which to build as a technology demonstrator, with the goal of performing flight tests in the 2017-18 timeframe.
As part of the France Robots Initiatives plan from the French Ministries of Industrial Renewal and Higher Education & Research, in partnership with the Rhone-Alpes Region, Innorobo will be hosting the first edition of the French Robotics General Assembly from 18 to 20 March 2014 in Lyon.
DARPA tasks four companies with designing new aircraft to revolutionize vertical takeoff and landing (VTOL) flight capabilities
DARPA has awarded prime contracts for Phase 1 of VTOL X-Plane to four companies
Combines the functions of a wire stripper and long-nose pliers in one tool
Shanghai office provides local support for key customers in Asia-Pacific region and opportunities for new market penetration
Applied Motion's powerful stepper drive costs the same as a competitors drive without a built-in power supply, and featuresâ€¦
The VISION CEO Round Table with statements from high-ranking market players in Europe, USA and Asia is now available online
Automated Deburring and Surface Finishing with NamPower Brushes; BRM Announces CNC Parts Manufacturer Case Study in Industrial Machinery Digest
Brush Research Manufacturing (BRM), maker of flexible hones and abrasive nylon brushes, announces NamPower case study in March 2014 edition of Industrial Machinery Digest. CNC part manufacturer Orange Vise uses NamPower nylon abrasive brushes to automate surface finishing and deburring at the same time, reducing labor costs and speeding high-volume parts finishing.
Evana solution will simplify the production of automobile steering assemblies for Chinese operation
Autonomous enterprise-grade video collaboration robot unlocks new applications for telepresence
Scalable, entry-level picking solution maximizes SKU density and labor productivity
MIT News : Soft robots — which don't just have soft exteriors but are also powered by fluid flowing through flexible channels — have become a sufficiently popular research topic that they now have their own journal, Soft Robotics. In the first issue of that journal, out this month, MIT researchers report the first self-contained autonomous soft robot, a "fish" that can execute an escape maneuver, convulsing its body to change direction, in just 100 milliseconds, or as quickly as a real fish can.
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Industrial Robotics - Featured Product
The ST Robotics Workspace Sentry robot and area safety system are based on a small module that sends an infrared beam across the workspace. If the user puts his hand (or any other object) in the workspace, the robot stops using programmable emergency deceleration. Each module has three beams at different angles and the distance a beam reaches is adjustable. Two or more modules can be daisy chained to watch a wider area. "A robot that is tuned to stop on impact may not be safe. Robots where the trip torque can be set at low thresholds are too slow for any practical industrial application. The best system is where the work area has proximity detectors so the robot stops before impact and that is the approach ST Robotics has taken," states President and CEO of ST Robotics David Sands.