Precise and efficient web control, web edge monitoring, and web width measurement
In the consumer goods industry, especially in printing and packaging, the processing of continuous webs is a challenge. Exact guidance of the material web, correct material tension in the machine, and cutting the web at the right spot at the end are essential for efficient and precise process results. SICK solutions help with every one of these process steps with registration sensors or automation light grids made for such tasks.
The web must be correctly guided from the drum to the processing area all the way to the processing point. The AS30 array sensors offers assistance here. They work on a scanning principle and use a line of light to reliably detect the finest of edges based on grayscale differences. The position of the web in a cross offset is detected with a repeatability of up to 30 µm. The position is issued via an analog output or IO-Link.
Operation with retro-reflectors in the background is possible with certain device variants to enable the processing of transparent material webs as well. This allows for reliable detection of the edges of transparent webs.
VIDEO: Control and handling of endless web material
In addition, users can now monitor both web edges and process many different width formats with one device. The MLG-2 WebChecker automation light grid is a flexible and versatile solution for web running control and quality assurance.
Features such as the patented crossbeam technology, light intensity measurement, and individual evaluation of up to every 500 beams result in an accuracy of ± 0.3 mm and a resolution of 0.1 mm per web edge. This ensures highly precise measurement of the web width.
At the same time, the MLG-2 WebChecker generates position information for both web edges. If these move out of the specified target positions, this is output to the machine controller via switching outputs of the light grid. Within a selected detection range of 150 mm to 3,150 mm, the user can also monitor smaller formats without having to readjust sensors or reparameterize the light grid for the format change.
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Monitoring of continuous web materials tension
A so-called dancer serves to compensate for irregularities when unwinding the packaging foil and to apply a constant web tension for the infeed process. To do this, the dancer position is regulated to its center position.
The MPS-T position sensors attached to the pneumatic cylinder accurately detect any deviations from this position. The web then runs precisely, with the correct tension, and defects such as those that can arise with imprecise sealing of pillow bags do not occur.
Cutting – with or without print marks
After correct guidance and monitoring of the web tension occurs, the end of process chain is reached and it now requires precise cutting of endless web for the packing or product. To ensure cutting in the correct location, the cutting position is indicated by a print mark on the web.
The KTS Prime contrast sensor is perfectly suited for the detection of print marks. Even at very high speeds, it reliably detects grayscale variations between the mark and the background on matte, shiny, and transparent surfaces.
The KTS Prime has a modern design with a high-precision RGB LED and VISTAL® housing. It impresses in print mark detection with TwinEye technology®, color mode, high switching frequency, excellent grayscale resolution, 7-segment display, and IO-Link. The response time of 10 µs and a jitter of 5 µs ensures accurate detection of contrast differences, even at high machine speeds. Commissioning is more flexible and the process is more stable due to the KTS Prime’s various teach-in processes, integrated color mode, and variable sensor adjustment. The KTS Prime provides additional diagnosis and analysis data via IO-Link. This can lower costs caused by scrap and increases productivity.
The PS30 pattern sensor enables precise cutting of endless webs without making any print marks. The PS30 locates the cutting position precisely without print marks, even at high process speeds of up to 10 m/s. The sensor reads a pattern based only on the contrasts in the printed image and calculates the position sought from that pattern. This opens up a completely new world of design freedom for more attractive labels.