SU775696A1 - Photoelectric sensor of tape movement speed - Google Patents

Description

one

The invention relates to the field of instrumentation and can be used in devices for measuring the speed of movement, in particular for determining the speed of movement 5 of a magnetic tape in tape mechanisms.

A photoelectric sensor for the speed of moving a tape is known, which contains emitters optically connected through a raster and a tape with groups of photodetectors connected to the measuring unit l.

The closest technical solution to the invention is a photo-electric tape speed sensor containing radiators optically connected through a raster (acoustic mask) and tape with optical labels, with 20 groups of photodetectors connected to the measuring unit. The raster contains diaphragm groups, the first of which is located at the level of the edge of the tape, and the second parallel to the 25 strip on the tape with a step equal to the distance between the photo 1, and the outputs of the photodetectors of the first group are connected to the comparison unit of the measuring unit, and the outputs 30

the second group - to the shaper measuring unit 2.

The disadvantages of the known sensors are the complexity of their design, associated with the alignment relative to the magnetic tape, and the measurement errors of the speed of movement of the tape, caused by inaccuracies of the alignment.

The purpose of the invention is to simplify the design: the sensor and the increase in measurement accuracy.

The goal is achieved due to the fact that the diaphragms in the mask are made in the form of arcs with a total radius diametrically placed one another.

FIG. 1 shows a block diagram of a sensor; in fig. 2 - the location of the optically transparent bands on the mask.

The photoelectric sensor of the speed of moving the tape contains two radiator 1 of radiant energy, two capacitors 2, a mask 3 with two optically transparent strips 4 (FIG. 2) 0.5-1.0 mm wide, made along the radius from one center, two lenses 5 and two receiver 6 of radiant energy, the outputs of which are connected to the measuring unit.

The proposed sensor works as follows.

A sensor is mounted on the magnetic tape 7 of the checked tape drive mechanism. The non-perpendicularity of the sensor body when installed on the tape should not exceed +5 in relation to the motion vector. Non-perpendicularity is checked visually, since starting from 3 ° it is already visible with the naked eye. When the magnetic tape 7 is moved with the optically transparent band 8 in the zone of the first band 4 of mask 3, the emitter 1 interacts through these bands on the tape and mask C with the first photodetector b through lens 5, delivering a start time pulse to the measuring unit.

The interaction of the strip on the tape 8 with the second strip 4 and the mask 3 and, accordingly, the emitter 1 and the photodetector 6 by means of a capacitor 2 and a lens 5 gives a second counting pulse of the time interval.

Making the optically transparent bands on the mask along a radius from one center allows the sensor to be tilted to within ± 5 ° relative to the vector, the movement of the magnetic tape temporarily at the interval between pulses ejected by the photoreceivers at a constant speed of drawing the tape, remains unchanged, due to than the sensor does not require precise installation of it in the tape mechanism relative to the vector of movement of the magnetic tape.

Claims (2)

1. Japanese Patent 45-23875, cl. 111A1, published. 1970. 2. USSR author's certificate number 577555, cl. G 08 C 9/06, 1977 (prototype).