In recent years, there have been many factories in various parts of the world who prefer to switch to using machines and robots rather than employing employees or laborers for reasons of performance and productivity that are much better when using machine applications and robot automation. To that end, several robotics manufacturers around the world also began to flock to produce the latest technology for industrial robot applications. However, the ball screw is a concern because most industrial robots have this part. The process of ball screw repair can be done alone by a technician or using the assistance of ball screw repair service providers discover more.
Recently the company Seiko Epson Corporation stated that it has made a breakthrough from the robot arm for its industry namely the S250 which is a continuation of the series of high-precision force sensors.
Not much different from Autonics, using its Epson Piezoelectric quartz technology, Epson claims that this sensor technology will be more durable and more sensitive when compared to the previous series. With the use of 6-axis, the robot arm can feel a variety of pressures even with the smallest unit of the six pressure directions. To facilitate the automation of industrial activities, Epson also equips its robot arm with a command operation function for sensors.
According to information from Epson, the S250 Industrial robot arm is claimed to have the sensitivity to feel a pressure of up to 0.1 N. In other words, this Epson robot arm can do some fairly complex and complex things automatically, such as assembling small components.
Not only that, but Epson’s robot arm can also be said to have a sense of taste like humans, being able to do a variety of human work that requires a sense of taste such as polishing and deburring, using a sensor system.
According to several robotics experts and industry experts, Southeast Asia and the Asia Pacific region includes regions with high demand for the use of robot applications in various types of industries. The high demand is based on the potential seen from the use of pressure sensors to support the performance and productivity of a difficult job through the automation system itself.