Latest news with #collaborativerobots
Al Bawaba
09-06-2025
- Business
- Al Bawaba
Epson Developing Collaborative Robot
Seiko Epson Corporation (TSE: 6724, "Epson") is developing its first collaborative robot solution, with a planned launch in 2025. Designed to enhance efficiency and productivity across a wide range of industries-including manufacturing, logistics, and the rapidly evolving life sciences and pharmaceutical sectors—this new solution represents a significant expansion of Epson's automation portfolio. Initial sales are planned for Japan and Europe, with a phased rollout to additional regions to follow.A robot arm designed with smooth, flowing curvesAn intuitive head-mounted control button for easy operationBuilding on over 40years of expertise in industrial robotics, Epson aims to expand its automation offerings beyond traditional manufacturing. By addressing diverse operational needs in sectors such as laboratories and research facilities, the company is accelerating its efforts to deliver versatile, task-specific automation solutions across an increasingly broad spectrum of recent years, the manufacturing sector has faced a decline in skilled labor and mounting pressure to improve productivity. At the same time, the life sciences industry demands exceptional precision, reproducibility, and rigorous hygiene standards to prevent contamination. As a result, there is a growing need in laboratory and pharmaceutical environments for collaborative robots capable of performing delicate tasks both safely and this launch, Epson will not only advance automation in manufacturing but will also enable smarter, cleaner, and more efficient operations in life sciences, pharmaceuticals, and FeaturesOptimally balanced robot armWith a payload capacity of 6kg and an arm length of 900mm, the robot arm features an industry-leading1 lightweight and space-saving design, making it suitable for both laboratory transportation and production line integration. Weighing only 17kg, its lightweight construction allows for easy relocation and reconfiguration. Its compact form factor makes it ideal for use in space-constrained environments and facilitates adaptation to changes in operational layouts, ensuring flexible deployment in a wide range of settings.1 Per Epson researchCompact, lightweight controller designed for installation on mobile robotsDesigned for integration with mobile robots such as automated guided vehicles (AGVs) and autonomous mobile robots (AMRs), the controller measures W 440 x D 205 x H 135 mm and weighs less than 6kg. Its compact, lightweight form factor enables efficient, space-saving power source compatibilityThe collaborative robot is compatible with power sources ranging from 100 to 230 VAC and 48VDC, making it adaptable to various installation for cleanroomsThis collaborative robot features clean transfer capabilities compliant with ISO 14644-1 Class 5 standards and IP54-compliant protection against dust and splashing water2. Its smooth chassis, free of screw holes and sharp edges, minimizes dust accumulation, thereby reducing contamination risks in cleanrooms.2 Compliance with ISO 14644-1 Class 5 and IP54 is based on design evaluation and is not guaranteed at the time of programming support The robot supports Python programming, which is widely used across industry. This compatibility facilitates smooth adoption and flexible customization at R&D and system integration sites, eliminating the need for users to learn a new specialized programming language.
Irish Times
29-05-2025
- Business
- Irish Times
March of the cobots: The technology lowering the barrier to automation
Cobots, or 'collaborative robots ', are a type of industrial robot designed to operate safely alongside human workers. Like conventional robots, they tend to take the form of a multi-jointed arm that can rotate, swivel, bend and contort to approach a job from any angle. Interchangeable tools at the end of their arms allow cobots to perform countless tasks, from assembling electronics and packaging pharmaceuticals to gluing and even welding. But the machines are smaller and more flexible than traditional robots, and are designed to be integrated with the workforce rather than separated from it, making automation attainable even for smaller companies. The first cobot was invented in the mid-1990s by two professors from Northwestern University in Illinois in the US, with commercial versions hitting the market a decade later. Since then the technology has surged in popularity as demand for automation soars in sectors from packaging to electronics, particularly among small and medium-sized enterprises. READ MORE Cobots accounted for 11 per cent of all industrial robots installed in 2023, the most recent year for which data is available, according to the International Federation of Robotics (IFR). The cobot industry now has sales of almost $3 billion (€2.64 billion) a year, according to California-based consultancy Grand View Research, which forecasts annual growth of more than 30 per cent to the end of the decade as adoption spreads. Ben Morgan, interim chief executive of the Advanced Manufacturing Research Centre (AMRC) at the University of Sheffield in the UK, said that while cobots were 'starting to come to the fore' around the start of the last decade, 'now they're far more commonplace. You see them in SMEs, you see them in multinationals, original equipment manufacturers, in lots of different applications'. Robots have been used in heavy industry for decades, boosting productivity in sectors such as car-making and metalworking. They tend to be large, expensive machines limited to a single task and their power requires them to be fenced off from workers to limit the possibility of injuries. The technical expertise required for their programming means deployment can carry the additional cost of hiring or contracting specialists, putting them out of reach for all but the largest of companies. Cobots share their older siblings' reliability and consistency but are smaller and tend to be far cheaper, with a faster return on investment, allowing easy integration into existing workflows and lowering the barrier to automation. Cobots can help companies improve productivity, quality and consistency by introducing automation at lower effort, and with less disruption to the existing production line, than traditional robots — Susanne Bieller, International Federation of Robotics Typically worktop-mounted, they are equipped with sensors that halt their motion if a person or unexpected object gets in the way, allowing them to operate more safely alongside human colleagues without the need for costly safety caging. They do not always require specialist programmers. Many boast intuitive touchscreen technology or functions that allow a human operator to manipulate them, rather like a stop-motion animator, in a way the cobot learns and can then repeat. Such 'plug and play' capabilities, combined with their portable size, makes them flexible – able to be switched to different tasks elsewhere on the production line. 'Cobots can help companies improve productivity, quality and consistency by introducing automation at lower effort, and with less disruption to the existing production line, than traditional robots,' said Susanne Bieller, general secretary of the IFR. Morgan of the AMRC said cobots provide smaller companies with a 'soft entry' to robotics and automation. The flexible nature of the technology has led to their adoption for a multitude of tasks. In the manufacturing industry, for example, cobots assemble products by manipulating their constituent parts together, fixing them with screws or glue, spraying them with paint, and even performing visual quality control. They are also ideal for 'pack-and-place' warehouse tasks, picking up products and arranging them in boxes or pallets for storage or shipping without the risk of damage that human involvement can bring. [ How robots are helping to set a sustainable course for Irish farming Opens in new window ] Cobots are increasingly used in welding, a skill in decline in many markets, and in the plastics industry for tasks that are potentially hazardous for humans such as polishing and injection moulding. But the vast range of appendages to their arms means the possibilities are virtually endless. Leading makers of cobots include Denmark's Universal Robots, Japan's Fanuc, ABB of Switzerland and Germany's Kuka, which claims to have created the first commercial version of the technology. But surging demand has created 'quite a crowded market', according to Morgan, with a steady flow of new entrants. Like industrial robots, cobots can work faster and with greater precision than people, raising the prospect that they could eventually replace the workforce. But advocates of automation say productivity gains help companies grow, which normally leads to larger rather than smaller workforces. Morgan of the AMRC acknowledged that when robots or cobots are put into a factory, 'it's fair to say that the process they're part of has less humans in it', but he said displaced individuals were usually deployed in other parts of the business. He added that robotics 'tends to help with the four 'Ds' – tasks that are difficult, dangerous, dull or dirty', for which it can be difficult to hire workers. – Copyright The Financial Times Limited 2025
