Future of Automotive Robotics Market Outlook 2030

1.     +1 217 636 3356 +44 20 3289 9440 sales@mobilityforesights.com    Your Cart 0   Company Market Reports Consumer Research Advisory Services Exports - Imports Careers Contact Us Blog Your cart is empty Your Name Return to Shop Business Email Global Automotive Robotics Market 2024-2030 Country Phone Number +82 Company Name Single User License : $ 3,500 Your message Corporate User License : $ 6,000 By submitting this form, you are agreeing to the  Request Sample Terms of Use and Privacy Policy. I'm not a robot reCAPTCHA Privacy - Terms BUY NOW DOWNLOAD SAMPLE DESCRIPTION TABLE OF CONTENTS AUTOMOTIVE ROBOTICS MARKET INTRODUCTION Auto manufacturing robots provide a competitive edge to automotive firms. They boost productivity and remove blockages, as well as shield employees from filthy, unpleasant, and risky stunts. Robots are used solely in automobile production factories for welding processes and repainting, but there are several more chances to deploy robotics across the supply chain. OEMs, Tier 1s, as well as other part manufacturers all expect to profit from using robotics in the automotive sector. Component volatility is reduced by car industry robots. These are very reproducible, never fatigue or become side-tracked, and each cycle is conducted in the very same manner. They also do not drop components or manage things in a manner that damages them. This eliminates waste due by stupid error, resulting in reduced unpredictability in automobile manufacturing. Automobile robots equipped with machine vision may identify variations in materials and components and adjust their pre-set trajectories accordingly. This results in improved user satisfaction, fewer errors, and cheaper warranty costs. Operations and supply networks are lean, with little inventory to compensate for manufacturing bottlenecks. We use cookies to understand site usage and improve content and offerings on our site. To learn more, refer to our Privacy Policy. By continuing to use this site, or closing this box, 0  Learn more you consent to our use of cookies. Got it! Send message Continue Shopping Many professions in the automobile industry are dangerous. The hazards are clear at times, such as when pouring molten metal in a furnace. At instances, they’re extremely subtle, such as musculoskeletal diseases caused by raising, turning, and repetitive movements. These dangers to humans can be avoided by using robots. Robots in vehicle assembly protect employees from soldering and repainting chemicals, along with weld flashing and pressing machine noise. AUTOMOTIVE ROBOTICS MARKET DEVELOPMENTS AND INNOVATIONS S Overview of Region of Development Detailing Possible Future Outcomes No Development Development Eureka Robotics, a tech rotational from Nanyang Technological University, Singapore (NTU New software Singapore), had also allows constructed Dynamis, an industrial advanced technologies robots to that helps make advanced This would enhance better Technologies and 1 achieve touch manufacturing robotic Global Scale production sensitivity and arms nimbler and almost precision close as responsive as human to human hands, allowing them to try hands to influence millimetre- sized different lenses, electronics elements, or engine gearboxes without impacting people. AUTOMOTIVE ROBOTICS MARKET DYNAMICS The car production sector has historically been one of the first and most widespread users of industrial automation systems, and this trend has not abated. In some manner, robotics are utilized in practically every aspect of automobile production, and it remains one of its most heavily automated supply chains in the country. Although there are numerous robotics software applications in the sector, and the most valued technologies on the marketplace. Armoured robots account for a substantial portion of automotive robots, and by functionality, welding is the most common usage of robots in the automobile sector. Automated systems inside the automobile sector are more cost-effective, efficient, more secure than human companions since they can complete their tasks faster. This exceptional expansion of electric cars is encouraging the deployment of robotics to suit the industry’s expanding customer demand. Automobile robotics are developed to assist in the manufacture of vehicles in the automotive sector. The automobile industry is the backbone, with over 100,000 units deployed at all facilities across the world.

2. The rise in mechanization in the automobile industry, as well as improvements in accuracy, safety, and productivity, are expected to fuel the growth of the global automotive robotics market. Furthermore, the decrease in labour costs in businesses is fuelling market expansion. However, the expensive cost of industrial robots is impeding industry expansion. Additionally, variables such as the adoption of Industry 4.0 are expected to give significant opportunities for the growth of the automobile robots market. AUTOMOTIVE ROBOTICS MARKET SEGMENTATION The Global Automotive Robotics Market can be segmented into following categories for further analysis. By End User Type Vehicle Manufacturers Automotive Component Manufacturers By Component of Application Type Controller Robotic Arm End Effector Drive and Sensors By Technology Focus Type Cartesian Robots SCARA Robots Articulated Robots Other Product Focus By Technological Usage Type Welding Robots Painting Robots Assembling and Disassembling Robots Cutting and Milling Robots By Regional Classi?cation Asia Pacific Region – APAC Middle East and Gulf Region Africa Region North America Region Europe Region Latin America and Caribbean Region RECENT MARKET TECHNOLOGICAL TRENDS IN GLOBAL AUTOMOTIVE ROBOTICS MARKET Robots have been playing an increasingly important part in vehicle manufacture for many years. Many steps of the car manufacturing process, from engine compartment construction through interior, trim, and door assembly, may be handled by robotic applications. On these manufacturing lines, robots are more efficient, precise, adaptable, and dependable. This technology enables the automobile sector to maintain among the most mechanized manufacturing chains in the world, as well as one of the most prolific adopters of robots. With hundreds of cables and pieces in each car, getting elements toward where there need to be requires a sophisticated manufacturing procedure. Among the most advanced technology on the market is robotics sensing. Because it can see what it’s doing, a small industrial mechanical system with eyes can perform more accurate tasks. The laser and camera array on the robot’s wrist provides fast input to the machine. Since they understand in which the part goes, robots can now do correct offsetting while installing it. The placement of side panels, windscreens, and bumpers seems to be more precise using robotic eyesight than it was with traditional robotic systems. Spot welding on big body panels is handled by large industrial robots with extended arms and increased payload capacities. Shorter robotics weld lightweight components like mounts and braces. Robotic titanium inert gas (TIG) and gas metal arc (MIG) welders may always set the flame in the same configuration. Because of the reproducible arc and speed gap, it is possible to maintain good soldering requirements in each and every manufacturing. AUTOMOTIVE ROBOTICS MARKET RECENT LAUNCH Nissan has developed a new method for fabricating automotive parts from sheet steel using robots. This, according to the Japanese manufacturer, is a breakthrough that could increase the availability of replacement components for retired models. Nissan plans to commercialise the dual-sided dieless forming technology. It features two synchronised robots operating from opposite sides of a steel sheet, gradually shaping the steel with diamond-coated tools. According to the company, the new technology allows for flexible production, short lead times, and low upfront expenses. Also, this technology could enable a wide range of after-service and part replacement in small amounts for Nissan’s retired vehicles. Developing and producing dies for stamped parts was previously impossible due to large upfront costs and extended lead times. Nissan’s Production Engineering Research and Development Center and Nissan’s Research Division worked together to create the technology. Nissan intends to mass-produce this technology, while its dedicated R&D division works to improve its flexibility and efficiency. AUTOMOTIVE ROBOTICS MARKET RECENT PARTNERSHIP With the purpose of expanding robots and mobility to realise progress for humanity, Hyundai Motor Group will purchase a controlling interest in Boston Dynamics for $1.1 billion. The combination of Hyundai Motor Group and Boston Dynamics’ highly complementary technology, as well as SoftBank Group’s continuous engagement, will accelerate the development and commercialization of advanced robotics. Autonomous vehicles, UAMs, and smart factories will all benefit from robotics technologies. Hyundai Motor Group and Boston Dynamics will work together to develop a robotics value chain that includes everything from robot component manufacturing to smart logistics solutions. The primary parameters of the agreement between Hyundai Motor Group and SoftBank Group Corp. (SoftBank) have been agreed upon, with Hyundai Motor Group acquiring a majority interest in Boston Dynamics for $1.1 billion. Hyundai Motor Group anticipates the transformation of human existence by merging world-leading robotics technologies with its mobility

3. capabilities, as evidenced by this agreement. The financial details were kept under wraps. The acquisition will help Hyundai Motor Group continue its strategic transition into a Smart Mobility Solution Provider by developing a leadership footprint in the field of robotics. Hyundai Motor Group has made significant investments in the development of future technologies, including autonomous driving technology, connectivity, eco-friendly vehicles, smart factories, new materials, artificial intelligence (AI), and robotics, to help accelerate this change. AUTOMOTIVE ROBOTICS MARKET COMPETITIVE LANDSCAPE Furthermore, automobile assembly robots give automotive company an edge by improving quality, increasing capacity, lowering warranty costs, and protecting employees from tough and risky duties. Furthermore, automotive robots is mostly used in automobile assembly factories for operations such as welding joints, painting, and others; however, there are several additional chances to apply automobile robotics across the distribution network. ABB Automotive is a leading developer of the automotive robots in the market. The IRB 1100 robotic architecture was optimised with only a 10% lower footprint and over 20% weight reduction comparison to the prior generations for space efficient implementation in different situations such as semiconductors production facilities. Because of the tiny footprint, numerous robots may be installed at the same time to collaborate undertake automation activities, allowing for more flexible handling of heavily loaded procedures with complicated tools/end transcription factors. The IRB 1100, which is powered by ABB’s new Omni Core controller, has superior motion – based characteristics, making it perfect for members can easily construction, pick-and-place, and handling of materials tasks. The Kawasaki heavy industries is part of the robotic development focused on automotive manufacturing in the market. The R,B and CX Class series model of robots are of major importance in the industrial segment and focus of operations. Kawasaki’s renowned sophisticated technology and considerable automobile knowledge have been used to build the B series Robots for laser welding operations, taking company to greater heights. The robots have through-arm cable routing, a spatially structure with a large work area, heavy-duty motors, and excellent gesture control technologies, making the B robot a championship sprinter. These capabilities save production line setup and digital engineering time, facilitate installation in “slightly elevated” situations, and allow faster speeds relatively brief motions, rendering the B series Robots suitable for welding joints. AUTOMOTIVE ROBOTICS MARKET COMPANIES PROFILED Kawasaki Heavy Industries ABB Automotive Honda Motor Co Ltd Yaskawa Electric Harmonic Drive Systems Nachi Fujikoshi Corporation FANUC Omron Adept Robotics RELATED REPORTS MARKET REPORTS CONSUMER RESEARCH INFORMATION ADVISORY SERVICES CONTACT INFORMATION  172/1, 2nd Floor, 5th Main, 9th Cross Rd, Opposite to Kairalee Nikethan Education Trust, Indira Nagar 1st Stage, Bengaluru, Karnataka 560038, INDIA  +1 217 636 3356, +44 20 3289 9440  sales@mobilityforesights.com Working Hours: Mon - Fri (9 AM - 9 PM IST) Connect with us     © Copyright 2017-2023. Mobility Foresights. All Rights Reserved.