SAS Automation's complete line of modular components allows you to rapidly build your end-of-arm tools in your own plant, meeting your ever-changing automation needs on-demand. And with our newly enhanced Online Shopping Cart, it's never been easier! IT'S SHOPPING MADE SIMPLE, with features like: • Responsive Design so you can access anytime -- desktop, tablet or phone -- with ease • CAD Model Access with 3D Software Integration • Order History • Saved Quotes • Tool Builder • Product Comparisons • Enhanced Search • Social Media Sharing • Product Reviews
The ATI Robotic Tool Changer provides the flexibility to automatically change end-effectors or other peripheral tooling. These tool changers are designed to function reliably for millions of cycles at rated load while maintaining extremely high repeatability. For this reason, the ATI Tool Changer has become the number-one tool changer of choice around the world. ATI Tool Changer models cover a wide range of applications, from very small payloads to heavy payload applications requiring significantly large moment capacity.
The BLE2 Series replaces our popular BLE Series and continues our brushless motor advantages by featuring an all new compact, high-power and high-efficiency brushless DC motor combined with a Driver that can be digitally set and controlled via external DC voltage or by the front panel. The BLE2 Series can easily compete with larger 3-phase inverter driven motors in many more applications, with built-in simple holding torque function, saving space and increasing performance thanks to the advantages of a brushless motor design. The BLE2 Series has a maximum speed of 4000 r/min, achieving a speed ratio of 1:50 (80 to 4000 r/min). The new motor structure is small than previous models and enables high power and high efficiency while incorporating easy setting, installation and wiring. The new motor connector offers IP66 degree of protection and allows for easy and direct connection between motor and driver with two available orientation of cable outlet direction. Standardized use of stain
RTX64 turns the Microsoft 64-bit Windows operating system into a Real-time operating system (RTOS). RTX64 enhances Windows by providing hard real-time and control capabilities to a general purpose operating system that is familiar to both developers and end users. RTX64 consists of a separate real-time subsystem (RTSS) that schedules and controls all RTSS applications independently of Windows.RTX64 is a key component of the IntervalZero RTOS Platform that comprises x86 and x64 multicore multiprocessors, Windows, and real-time Ethernet (e.g. EtherCAT or PROFINET) to outperform real-time hardware such as DSPs and radically reduce the development costs for systems that require determinism or hard real-time.
The NEW Collaborative Robot Vacuum Tool (CRVT) from Bimba adds unparalleled flexibility to your collaborative robot. The standard CRVT is highly configurable to meet your application needs, but simple to install and operate. This fully integrated tool means all you need to supply is compressed air and a signal to control the valve. A variety of standard and custom options make the Bimba CRVT the perfect tool for your next collaborative robot project.
IO-Link is the first standardized IO technology worldwide for communication from the control system to the lowest level of automation.
AS40 Conveyors are designed for ease of use and simple integration with robotic applications. Built on a rigid aluminum frame, they feature tee slots for rapid accessory mounting and a tail that flips up at the push of a button for easy under-belt cleaning and belt changes. Nosebar tails are available for transferring small parts between conveyors. All conveyors include a 10 Year Warranty and most are available with a fast five day lead time.
Schmalz Technology Development - Vacuum Generation without Compressed Air - Flexible and Intelligent
• Vacuum generation that's 100% electrical; • Integrated intelligence for energy and process control; • Extensive communication options through IO-Link interface; Schmalz already offers a large range of solutions that can optimize handling process from single components such as vacuum generators to complete gripping systems. Particularly when used in autonomous warehouse, conventional vacuum generation with compressed air reaches its limits. Compressed air often is unavailable in warehouses. Schmalz therefore is introducing a new technology development: a gripper with vacuum generation that does not use compressed air. The vacuum is generated 100% electrically. This makes the gripper both energy efficient and mobile. At the same time, warehouses need systems with integrated intelligence to deliver information and learn. This enables the use of mobile and self-sufficient robots, which pick production order at various locations in the warehouse. Furthermore, Schmalz provides various modular connection options from its wide range of end effectors in order to handle different products reliably and safely.
Honeywell Intelligrated has deep experience implementing robotic solutions that work seamlessly with existing automated equipment and is recognized by the Robotic Industries Association as a certified robot integrator. The company's extensive robotic integration capabilities include solution development, design engineering and project management, complete manufacturing capabilities, installation and commissioning, and lifecycle support services.
Our fully autonomous intelligent vehicles will help you to transform the way you move materials and route your workflows. Increase throughput, eliminate material flow errors, improve traceability, maximize flexibility and allow your employees to focus on higher level tasks. Unlike traditional AGV's, our mobile robotics navigate using the natural features of your facility and do not require expensive facility modifications or guidance. Our AIV's can adapt to changes in their environment and work freely and safely with your staff. Our mobile robots are intelligent enough to quickly learn their environment and then automatically find the optimal path to where they need to go. They also automatically make adjust for dynamic environments and can work together in fleets of up to 100 robots.