The challenge for many companies is how to consistently maintain a safe workplace without creating barriers to productivity or innovation. Enter autonomous mobile robots (AMRs).
In this webinar we will look at how integrating robotics into the working world means that both cobots and autonomous systems will be important differentiators for production, processes, and innovation.
Waypoint Robotics/Productive Robotics omnidirectional 7 DoF mobile manipulator combines the easiest to use, most capable omnidirectional autonomous mobile robot with the simplest and most flexible 7 axis collaborative robot arm. The Vector AMR’s omnidirectional mobility enables fast, precise docking in any direction or orientation so the OB7 can perform accurate and precise grasping or picking tasks, taking full advantage of the cobots’ 7 degrees of freedom (7 DoF) and superior dexterity. It can be powered using Waypoint’s EnZone wireless charger that provides on-demand energy and opportunity charging for longer run times. Workers can use this mobile platform to perform repetitive tasks such as machine tending, quality assurance sampling, material replenishment, packaging, and many others, so they can focus on the high skilled jobs for which they are uniquely qualified. It has never been easier or more cost effective to deploy a mobile manipulator for manufacturing and logistics applications.
Teams from Bosnia and Herzegovina and Croatia have concocted using robots to screen honey bees while they work. An automated vehicle flies around, catching pictures of the bug, which PCs subsequently examine to uncover potential mines covered up in the ground.
Can loads be positioned dynamically, with high precision and no oscillation, despite mechanical backlash and elastic components? Yes — using an intelligent system.
Zimmer Group is announcing the introduction of an updated version of its established XYR1000 axis compensation module series.
In today’s e-commerce environment, consumers are purchasing single items with a click and that item-handling task has been pushed back upstream into distribution and fulfillment centers.
When it comes to starting and building a robotics company, a robust intellectual property protection strategy can be the driving force behind market share, strategic collaborations, and capital investments.
Deep-learning technique optimizes the arrangement of sensors on a robot’s body to ensure efficient operation.
While alignment may be within acceptable tolerances during installation, deflection due to loads and thermal expansion or contraction may lead to misalignment. The use of an appropriate flexible coupler can compensate for such minor variations in alignment.
The introduction of modern automation technology into the sensitive production areas of pharmaceutical and medical technology was rapid. However, the conditions for the entry of systems, components and robots into this sector are anything but easy to meet.
The entire face of team communications has changed, escalating the need for alternate ways to communicate with the growing mobile workforce. Internal and external communications are merging as businesses strive to reconnect with disconnected teams off-site.
Gold Solo Triple Twitter is an ultra-high-current servo drive, capable of delivering up to 270A/60VDC, 240A/80VDC, 210A/100VDC and 100A/200VDC. The drive delivers up to 17 kW electrical power in a compact package (EtherCAT: 152.68 cm3 or CAN: 144.32 cm3). This advanced, high power density servo drive provides top performance, advanced networking and built-in safety, as well as a fully featured motion controller and local intelligence. As part of the Gold product line, it is fully programmable with the Elmo Motion Control language. The Gold Solo Triple Twitter is available in a variety of models. There are multiple power rating options, different communication options, a number of feedback options and different I/O configuration possibilities. The Gold Solo Triple Twitter can be used in a variety of industrial applications, including medical, robotics, semiconductors and material handling fields.
Stretch’s mobile base allows it to go to where repetitive box lifting is required - unloading trucks, building pallets of boxes and order building. Stretch makes warehouse operations more efficient and safer for workers.
Not every deployment of new robots goes smoothly. There are significant challenges to adopting any new technology, and the complexity of cutting-edge robotics means there is serious room for error when deploying industrial robots