1756-OB16I Metal forging technology has a long history in human history. More than 2000 BC, traces of hammer forging can be clearly identified on the red copper ornaments unearthed in the Qijia culture. By the Northern Song Dynasty, cold forging was already capable of making complex iron objects such as iron armor. In many versions of Riverside Scene during the Qingming Festival, we can find the figure of ancient people thrashing iron…… This form of manual workshop was not broken until the emergence of modern science, and the widely used 10,000 ton hydraulic press is derived from this.

Hydraulic presses and punches (collectively known as presses) are widely favored by the market for their high production efficiency, and they are widely used in cutting, punching, blanking, bending, riveting and forming processes. The technology of the press itself is also 1756-OB16I constantly innovating, and with the development of drive technology, the application of the servo press is more and more.

What is the difference between a servo press and a traditional press? A little slider is a big deal.

The slider movement of conventional press is generally automatically generated motion curve, and some can be modified manually. The motion trajectory of the servo press is no longer limited by the cosine curve, and the free movement of the slider can be realized through programming, thus improving the flexibility of the equipment and improving the efficiency of the production process.

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Free movement of the slider, its risk will increase accordingly. As the most important and dangerous part of the press, is there a convenient and practical solution to realize the position monitoring of the slide?

PILZ offers solutions specifically developed for 1756-OB16I press safety monitoring that combine hardware and software and comply with relevant safety standards.

Easy slider position with PSENenco

In order to ensure the safe operation of the press, we need to monitor the absolute position of the servo press slide in real time. This can usually be achieved by installing a secure absolute encoder. PILZ’s PSENenco series of security encoders is the “perfect tool” for this function.

The absolute encoder in the PSENenco family provides two distinct, independent channels of absolute position data, as well as one channel of incremental data. Two different, independent absolute location data can be accessed to the security system according to the two-channel security principle.