DE1036537B - Arrangement for observation of running paths - Google Patents

Description

Arrangement for observing running paths The invention relates to an arrangement for the photoelectric observation of at least a part of a running Railway using swiveling mirrors, partially transparent mirrors and optical ones Elements that map light sources onto the web.

It is known, a running web with respect to errors by elongated to observe photoelectric arrangements. It is also known to use pivoting and rotating mirrors a point of light on the path perpendicular to the direction of advance and let them wander here. This point of light is observed by a photocell. The previous arrangements of this type were, however, subject to considerable sources of error and in particular showed no time-independent association between the brightness the light mark and the light intensity normally reaching the photocell.

The present invention avoids these disadvantages.

According to this, there should be an opposite of the optical between the light source and the optics Axis inclined, partially transparent mirror, in its reflected beam path a photocell is located, and a movable mirror can be provided behind the optics.

The pivoting mirror moves the point of light back and forth on the track moved here. The point of light, however, no matter where it is, always becomes Light source thrown back or onto the photocell via the semi-transparent mirror thrown. The reflected point of light stands still on the photocell, although it does moves back and forth on the paper web. This gives you at all times, so time-independent, the same brightness on the photocell, while with other measuring methods the brightness changes according to the moving back and forth of the point of light.

The drawing shows an embodiment of the invention. The train 1 is broken down into small observation intervals that are perpendicular to the feed direction can be observed by a photoelectric device. The direction of advance of this Lane 1 runs perpendicular to the plane of the drawing. The interval is denoted by A. which is covered by a point of light2.

The subject of the invention is, for example, based on the drawing explained.

By optics 3, which you choose expediently very high quality, that is trains as a good anastigmat. becomes a gap of light through a diaphragm 4 is obtained from a lighting source 5, via a rotating mirror 6 onto the web 2 pictured. If the interval is not chosen too large, it is shown in this area is largely evenly sharp, d. that is, the track is still in place in the depth of field. The image of the gap in the diaphragm 4 is the light mark2. This light mark 2 is now reflected by the web 1. The beam runs in itself back, again through the mirror 6 and the optics 3. The reflected beam is partially reflected by the partially transparent mirror 7 onto the photocell 8, whereby measuring circles are acted upon. Obtained by the arrangement of the invention one in the photo cell 8 (one can also use photo elements, photo resistors or photo transistors use) a time-independent image of the light mark 2. Each darkening, d. H. every dark spot on the track brings with it an impulse that is registered and can optionally be used for sorting out when the web becomes individual Bow is cut. The mirror 6 must be a swivel mirror. A rotating mirror is therefore disadvantageous because in the steady state here the out of the measuring range disappearing light mark may only decrease in brightness as much as the new one Brand shows up. Otherwise, the brand change will already give you an impulse.

Claims (1)

PATENT CLAIM Arrangement for photoelectric observation at least a part of a running web (paper, textile, plastic, film web or. Like.) Using pivoting mirrors, partially transparent mirrors and optical Elements that image light sources on the web, characterized in that between Light source and optics are partially transparent and inclined with respect to the optical axis Mirror with a photocell in the reflected beam path, as well as behind a movable mirror is provided for the optics.