List of Other industrial robots products
- classification:Other industrial robots
1276~1290 item / All 3442 items
Stabilizing the quality of TIG welding, which is influenced by the technician! An explanation of why a Japanese company introduced collaborative robots into the welding process.
- Other industrial robots
[Collaborative Robot Implementation Case] A case study of the introduction of collaborative robots at Fujita Works Co., Ltd., a leading company in high-precision sheet metal fabrication.
**Reasons for Japanese Companies to Introduce Collaborative Robots in Welding Processes** **Overview:** Fujita Works Co., Ltd., a leading company in high-precision sheet metal fabrication, was considering automation to achieve TIG welding that is not dependent on the skill level of craftsmen. After repeated trials with a system integrator, they developed a UR robot solution that enables even young employees to perform high-quality TIG welding. Additionally, they automated the work of loading materials into metal press processing machines, resulting in improved work efficiency, reduced physical burden on workers, and increased satisfaction. **Challenges:** The quality of TIG welding is influenced by the technician's skill. There are concerns about a future shortage of skilled workers. **After Implementation:** By dividing the welding process into tack welding and final welding, with workers performing the tack welding and robots handling the final welding, they achieved not only stable quality but also improved work efficiency. The division of labor allowed welding tasks that previously took over three years to master to be learned in just a few months. *For details on the decisive factors for robot implementation and horizontal expansion to other processes, please refer to the linked page.* *If you would like to view a list of UR collaborative robots, please download it from the related catalog.*
Utilize universal robots to optimize the production process and improve work efficiency.
- Other industrial robots
[Collaborative Robot Implementation Case] Implementation case of collaborative robots at SHAD, a motorcycle parts manufacturer in Spain.
**Utilizing Universal Robots to Optimize the Production Process** Overview: SHAD, a motorcycle parts manufacturer in Spain, is considering the automation of assembly processes to enable workers to operate in a more rational environment. As production processes change, they sought a flexible system and introduced collaborative robots. As a result, the working environment for the screw tightening process improved, and two workers were freed from many repetitive tasks. Challenges: They want to automate to respond to increased demand, but there is no space to build an automation system. They aim to improve the repetitive tasks of workers. After Implementation: The UR5 was introduced in the screw tightening process, allowing it to be placed right next to the workers, enabling collaboration in a shared space. By replacing repetitive tasks with robots, work efficiency also improved. *For details on the decisive factors for robot implementation and horizontal deployment to other processes, please see the linked page. *If you would like to view a list of UR collaborative robots, please download it from the related catalog.*
A metal processing manufacturer struggling with labor shortages has increased its operating hours by 2.5 times through the introduction of robots.
- Other industrial robots
[Collaborative Robot Implementation Case] Case study of collaborative robot implementation at All Axis Machining, a metal processing manufacturer in Dallas, Texas.
"Metal processing manufacturer struggling with labor shortages increases operating hours by 2.5 times through robot implementation" Summary: At All Axis Machining, a metal processing manufacturer in Dallas, Texas, downtime due to labor shortages had led to missed deadlines. However, by introducing collaborative robots in processes such as polishing, inspection, and machine tending, the company resolved this issue. In the first project after implementation, operating hours increased by 2.5 times, and profits rose by 60%. Challenges: Downtime caused by labor shortages, outdated equipment, and space limitations made it difficult to introduce industrial robots. After Implementation: After introducing the UR10, the turnaround time for jobs that typically took 4-5 months was reduced to 2.5 months, resulting in a 60% profit increase from this work alone (with an ROI of 4 months), and operating hours increased from 8 hours to 20 hours. Additionally, the UR10 was utilized for manual polishing tasks, leading to improved quality. *For details on the decisive factors for robot implementation and horizontal expansion to other processes, please see the link. *If you would like to view the list of UR collaborative robots, please download it from the related catalog.
We have introduced robots into the seedling cultivation process, achieving significant labor savings.
- Other industrial robots
[Collaborative Robot Implementation Case] A case study of the introduction of collaborative robots by Osakaringyo Co., Ltd., which has been producing and providing seedlings for 70 years in Tokachi, Hokkaido.
"Introduction of Robots in Seedling Cultivation Process Achieves Significant Labor Savings" Overview: Osaka Forestry Co., Ltd., which has been producing and supplying seedlings in Tokachi, Hokkaido for 70 years, has successfully automated part of the seedling cultivation process that was traditionally reliant on manual labor. Amidst difficulties in securing workers due to aging, significant labor savings have been achieved. Challenges: There is a high dependence on skilled workers, and with the aging workforce, there are concerns about future labor shortages, as humans need to work right next to the robots. After Implementation: UR robots were introduced in the first step of seedling production, which involves placing containers onto a conveyor belt, allowing one person to perform a task that previously required two. *For details on the decisive factors for robot introduction and horizontal deployment to other processes, please see the linked source. *If you would like to view the list of UR collaborative robots, please download it from the related catalog.
Achieving automation and productivity improvements in the mountain cutting line without changes to the production process [Video available].
- Other industrial robots
Automation of the experience and intuition of skilled workers by robots! Successful stable supply of high-quality products without relying on experts.
- Other industrial robots
Providing solutions to the aging workforce! Reducing labor costs for auxiliary workers at global automotive manufacturers.
- Other industrial robots
Collaboration between cobots and humans implemented within the company alleviates labor shortages! Contributes to improving employee morale.
- Other industrial robots
Improving productivity by utilizing collaborative robots while enhancing employee job satisfaction.
- Other industrial robots
Free workers from monotonous tasks and improve productivity! Introducing a flexible solution.
- Other industrial robots
Two universal robots contribute to the rapid analysis of blood samples!
- Other industrial robots
Introducing collaborative robots to free employees from simple tasks! Provided high competitiveness to glass manufacturers.
- Other industrial robots
An ultra-advanced camera control system. Here we introduce a case study of the implementation of universal robots that can easily perform complex movements.
- Other industrial robots
We will introduce examples of how Universal Robots improved worker safety and productivity.
- Other industrial robots
Thanks to collaborative robots, the amount of materials used in the packaging department has been optimized, reducing cardboard waste!
- Other industrial robots