The industry swiftly moves towards the Future Of Industrial Robotics, i.e., the Fourth Industrial Revolution (FIR). With this, industries and production plants are moving towards digital technology and probably reaching an efficient automation solution. To pursue this goal, industries are marching to develop their enterprises and production sites with robotic technology.
Robotic technology is increasing in sophistication and complexities. It is also going through a vast evolution of its use case and efficiency. In earlier times, where robots were much slower, inefficient, and less capable. While with modern technology, robotics now progresses much faster, with more efficient and competent robots. The robotic market is blooming with the advancement of sensors, communications technology, processing technology, storage systems, battery technology, and electronic components’ general efficiency and power.
This boom of the robotic market is not only for the industrial robotic paradigm, but even the common consumer market is experiencing this boom, its in pair with the increasing availability, accessibility, and ease of use of robotic technology at all sides. Consequently, today robots are not only available for industries and production plants but also in the general consumer space. Hence, the robotic industry itself is rising as a capacity market.
The robotic industry is growing at an unprecedented rate. With demands soaring through the sky, the robotic industry swiftly rises as one of the biggest markets. One of the most significant demands of robotic technology and robots is the industrial market with various industries and production sites. And since several types of industries currently “run” the world and robotic technology are at the forefront of these industries, it's one of the essential cornerstones of our future world.
With various robotic companies researching and developing innovative solutions and technologies within robotics, they are also propelling numerous industries towards success, efficiency, and even the future of the industrial robotics market, Industry 4.0. Furthermore, with robots simplifying and increasing the capabilities of industries, the robotic industry is also experiencing rapid growth. Consequently, researchers expect that the industrial robotic services alone will cross 4 Billion US Dollars in market value.
FS Studio is an innovative company that provides various state-of-the-art digital technology services like Robotic Simulation Services, Offline Programming, AI, AR, and VR. It also monitors the industry closely to prepare itself and its solutions to excel more in the future and essentially be future-proof. Reports from this monitoring help our clients and partners to identify various companies and opportunities lying within them. Furthermore, it will help them plan out different strategies regarding the robotic services they are planning to get and optimize their market position and plans.
Following are the ten companies that will dominate the industrial market in robotics.
With its establishment of robotic systems in 1980, Mitsubishi Electric has possibly been the leader in industrial robotics with automation since then. The company provides its services with a wide range of robotic systems and automation solutions that help to improve productivity and efficiency around the industry. It also specializes in high-speed and precision performance systems in the industry. Mitsubishi Electric provides RH-CH compact Selective Compliance Assembly Robot Arm (SCARA) and articulated arm robotic systems and provides delta style robots from leader innovator or pick and place robots, Codian Robotics. Mitsubishi Electric generally provides lightweight and value-for-money robot systems with reasonable costs and a warranty of about three years in a robot purchase.
(ABB) ASEA Brown Bover
ABB, or ASEA Brown Bover, is a robotic company with an international reach in over 100 countries. With its establishment in 1883, ABB remains to be a leader in robotic technology innovation. ABB also holds the prestige to be a company to pioneer the first electric microprocessor-controlled robot and be the world’s first company to produce an industrial paint robot. It has sold over 300 thousand robot units worldwide by 2019 and remains a multinational robot company with expertise in the automation and motion department. Some of its essential products include FlexPainter robots (IRB 5500-22), Pre-machining robots (IRB 6660), Press tending robots (IRB 6660), Dual-arm robot YuMi (IRB 14000), and SCARA robots (IRB 910SC).
B+M Surface Systems GmbH
In 1992, B+M Surface Systems had a high reputation for automation systems and remained the leader in high-quality painting plants with automation and different surface application systems. As its name implies, it's a world-leading robotic company in surface design and painting, all from design and installation to maintenance and support. They help their customers in all fronts of robot technology usage with high customization for their customers. It is a leader in surface painting robots with products like Painting Robots with its T1 X5 Series robots and Adhesive Dosing Systems with its T2 X5 series robots.
In 1915, Yaskawa led its journey towards the robotic industry by releasing the all-electric industrial robot, Motoman, in 1977. Since its release, Yaskawa has sold over 300 thousand units of Motoman, which is an all-electric industrial robot. Yaskawa remains the leader in applications like welding, packaging, assembly and material removal, material cutting, and dispensing. It has sold vast numbers of products, including over 18 million inverters and 10 million servos. Its essential products include Arc Welding Robot with VA1400, Assembly Robots with HP20F, Pick and Pack robot with its G series robots, and Spot Welding with MH255.
Omron Adept Technologies
In 1948, Omron Adept Technologies was the leader in guidance systems with computer vision systems. It excels in designing and manufacturing these robots. It is also the largest robotics company that is based out of the USA. It usually provides cost-effective robotic solutions with the integration of various use-cases and automation.
Omron Adept Technologies also includes application software solutions with automation systems/equipment and mobile robots. Some of the critical robot products from Omron include Hornet, Cobra, eCobra, and Delta robot systems.
FANUC is a leader in integrating Artificial Intelligence systems in robots and providing a wide range of industrial applications with robots of over 100 different models. It works on dynamic and smart solutions with AI integration and maintains its competitive edge with great flexibility. The FANUC robots are generally easy to operate, smart, and provide dynamic solutions. Some of the best FANUC robotic solutions include articulated robots of M-20B/25 series, collaborative robots with FANUC CR series, robots of R2000iC series, SCARA robots, and delta-style robots with M-1/2/3 series.
Kuka is a German company that leads the robotic industry with its automated range of fully customizable software solutions with integrated robots with control technology and embedded automation systems. With its foundation going back to 1898, its focus and dedication to automation with robotics began in 2004 when the company either sold or closed other non-core departments to shift its primary focus towards automation and robotics. Some of the critical robotic systems of Kuka include Press-to-Press robots, Palletizing robots with its QUANTEC robots, some shelf-mounted robots, AGILUS robot system, which is a hygiene machine variant, and its KR AGILUS series, including KR 30 and 60 F series robots.
EPSON is probably prominently known for its printing solutions in small printers. But the company was initially known for its automation systems and later became a major company dealing with various manufacturing sites with its different machinery solutions. Robotic technology from Epson excels in automation with several compact SCARA robots, PC-based and controlled robots. Its main products include G-series robots, SCARA with T-Series robots, and LS and RS series robots.
In 1896, Kawasaki became a leading robotic technology company with over 160 thousand robot systems sold and installed. Kawasaki was thought to be the future of industrial robotics in Japan as it was the first company to commercialize industrial robots in Japan. It also pioneered and highly contributed to industry robot popularity and integration of various labor-saving systems and solutions. One of the most prominent products of Kawasaki has been its SCARA robot, duAro, which is a dual-arm robot with human collaboration capabilities. Some of its critical robotic products include Painting solutions with its K Series robots, Pick-and-Place robotic solutions with its Y-series robots, B-series robots for Spot welding, M series robots for medical and pharmaceutical solutions, and duAro SCARA robots.
Though with a wide range of solutions, Staubli excels in Robots, Textiles, and Connectors. From its inception in 1892 in Switzerland with the textile business, Staubli began its industrial robotic journey devoted to quality engineering and factory floor solutions. Currently, Staubli also provides connector solutions with its expertise in both fluid and electrical connectors. With its accession of Unimation, Staubli is firm in its position towards being a most innovative industrial robotic solution provider company. It also provides various software solutions and various collaborative robots. Some of the significant products of Staubli include its RX series robots, TX2 series robots, CS series robots, TS80 robots, and TP90 robots. Various industries and production facilities are looking to invest in robotic technology. The whole industry is marching towards automation and its digital transformation to prepare itself for the future of industrial robotics with Industry 4.0. The robotic industry sets the path for these industries with its innovative robotic solutions and automation solutions. And these companies will undoubtedly be at the forefront when the industry sets its foot into this new landscape of Industry 4.0.
Industrial painting and coating technology are constantly evolving. As a result, innovative companies are always coming up with new ways to make the most of their time, energy, and resources.
Contractors, manufacturers are increasingly using these mechanical wonders to help them do what they do best – make things better!
Industrial Robots are especially appealing for large-scale painting and coating projects because they deliver precision and consistency that humans can't match. It's hard work to hand-paint or coat an entire plant, but a robot does it without breaking a sweat!
Industrial paint and coating robots are a great way to automate your painting and coating process. They allow you to produce higher quality products, reduce labor costs, increase production rates, improve accuracy and ensure consistency.
The key is understanding how painting and coating robots work so that you can get the most out of them for your company.
In this blog post, we'll be discussing what robot painters do for a living, as well as the benefits of using one in your company's manufacturing process
Why Use Industrial Robots for Painting and Coating?
Today's robot technology has led to a myriad of improvements in the workspace.
With slimmer models that can reach farther and dual-armed robots with anti-collision software for working together closely without incident, these bots are taking up less space while still performing all sorts of tasks from installing paintings like artistry on walls or shelves to ground level painting the floor tiles!
These new technologies offer some profound benefits, especially regarding safety, efficiency, and speed.
In the past, manufacturers kept robots in cages in industrial settings due to their proximity with humans and other automated machines around them.
However, today, there are no longer complicated safety procedures for these types of robotics.
Programming determines specific space restrictions that enhance workplace protection while requiring employees to follow standard protocol on how close they get or what tasks they perform near robots.
The use of painting robots is a great way to minimize the risk for human workers.
The chemical compounds found within paints can cause adverse health effects among those who work with them occasionally
Such problems become less likely through these industrial alternatives- simply due to not being around whenever toxic chemicals might leak out into open air while performing various tasks like spraying walls and ceilings near windows where fumes could easily drift back inside.
The industrial manufacturing and aircraft finishing industry is challenging as workers retire or leave for other opportunities. Although an increasingly smaller workforce is trying to keep up with demand by doing more with less these days, some companies can't seem to get enough hands on deck!
Industrial painting robots are sophisticated machines with the capacity to paint faster and more efficiently than human hands.
By integrating these automated finishing tools into your operation, you can free up floor space for other uses while increasing productivity by eliminating repetitive tasks that would otherwise need doing on an almost daily basis.
Integrating a robot finisher into an existing business could have many benefits, including increased worker efficiency (reducing human resources requirements) and freeing up valuable workstations.
Not to mention fewer insurance costs since accidents don't happen frequently enough when using such bots around any day/night cycle due to their ability to work 24/7.
Why Should you Care about Painting and Coating your Equipment?
Equipment that looks tired and broken will not only hurt your company's image, but also the appearance of paint-covered equipment sends out an unprofessional message. In addition, keeping all metal surfaces painted in one color scheme makes for much more visually appealing facilities, leading to higher customer satisfaction rates!
The improved look removes both interior business aspects: it helps establish confidence within clients while bringing them back into regular contact due to their enhanced perception when coming across any building or machines belonging to you run!!!
However, it would help if you kept an eye out for wear-and-tear fatigue when it comes time to get new parts installed.
Then, it will make things run smoothly without any pesky problems popping up between inspections from other companies.
You should also ensure that prospective clients are impressed with what you have going on at your facility.
Thermal Protection of Equipment:
Industrial equipment is sensitive to elevated temperatures, and paint manufacturers have developed various coatings that provide adequate thermal protection.
Painting and coating protect high-temperature service and also acts as insulation corrosion in varying environments. And Paints can also withstand extreme conditions like fire retardants or UV inhibitors.
Extended equipment service life:
The world of industrial equipment is an unforgiving one. Most machines take a long time to break down, so if you want your investment in painting or coating techniques, ensure that every part gets attention and care!
Please don't get caught with a used machine that's past its prime!
Extending your industrial equipment service life is a significant investment and will maximize returns.
For example, painting machinery can be restored to its original finish, which usually breaks
down within two or three years--by following basic coatings techniques.
Rust and corrosion prevention:
Corrosion and rust are two of the biggest enemies for machines, and they will eventually lead to a more significant component or even total machine failure. This prolonged downtime can be expensive if you don't take preventative measures now!
The best way to keep your machines running is by protecting them from rust and corrosion. Unfortunately, once you have an impacted component, it will be harder for the device in question; this results in prolonged downtime and extra costs!
Protecting your machines from the ravages of rust and corrosion is a surefire way to keep them running smoothly. However, this will result in prolonged downtime, extra costs for parts if it's an entire machine that fails due to this condition - not just components like before--and may even lead right back into problems with new equipment coming online later down the line!
It is essential to take care of your industrial equipment and protect it from harsh elements. In addition, the regular painting will help keep the paint job looking fresh, year after year!
The best protection for your machinery is a durable, UV-resistant coating system. These coatings can prevent oxidative damage from moisture exposure and harsh conditions like salt air corrosion or acid rain.
They also protect against fading in sunlight due to sun rays hitting an object's surface.
The yellowing happens as they absorb color over time ( paint cracking) when exposed continuously day after day without any breaks between applications, plus peeling away at raw material because of accumulated salts on its exterior.
With a proper maintenance schedule, your industrial equipment will last far longer than if you let it fall into disrepair. Not only that but the frequency of unplanned downtime is reduced by over half when adequately maintained!
We are talking about benefits down the road, too- with all these repairs done more effectively and less often, fewer costly breakdowns mean more enormous profits for everyone involved in any business process whatsoever!
Industrial robot companies are revolutionizing their painting and coating systems. Industrial robots are now capable of spraying paints on surfaces with incredible precision, making a big difference in quality control.
These robots are faster than human painters, they can paint more surfaces at once, and they don't get tired or distracted like humans do (which means perfect consistency).
With robotic painting technology becoming more common in factories worldwide, industrial managers need to understand what this type of automation entails.
Industrial robot painting and coating technology are evolving rapidly. Industries now use robots to paint cars, boats, trains, airplanes, and even space shuttles.
The most significant advantage of using an industrial robot for painting purposes is that you can program it in advance with specific tasks for any given day or week.
Hence, there is no downtime while the machine waits around between jobs. The disadvantage? Robots require programming knowledge which means you have to hire someone who knows how to do it if you don't already have these skills on staff.
Do you know anything about robot painting and coating technology? If not, it's time to learn.