SU150923A1 - Photoelectric method of converting the angle of rotation into pulse code signals - Google Patents

Description

The known photoelectric methods of converting the rotation angle into the pulse code signals have a low measurement accuracy and do not ensure reliable operation of devices that realize this.

way to.

The proposed photoelectric method of converting the rotation angle to the pulse code signals differs from the known ones in that the narrow light beam of the rotation system is fed to a constantly moving perforated tape. On one part of the tape there are perforations of even numbers, and on the other - odd signs of the code. The light pulses, past the perforations of the tape, are directed through the fiber to the photodetector. This difference will significantly improve the accuracy

measurements.

The drawing shows a schematic diagram of a device implementing the proposed method.

The input element of the device is the sensor 1, the rotation angle of the movable part 2 of which is to be converted into signals of the pulse code. A mirror 3 is placed on the moving part 2, which reflects the light beam with a narrow beam in the direction of the continuously moving tape 4. A light-sensitive element is placed behind the tape 4, made, for example, in the form of a light guide 5 with photodetectors 6. The light-sensitive element is designed to convert the angle noBOj of the company’s moving part sensor to pulse code signals. For this purpose, the opaque tape 4 has several rows of holes displaced perpendicular to its direction of movement. The number and length of the holes on the tape correspond to a certain pulse code signal received to display the magnitude of the rotation angle of the moving part of the sensor.

No. 150923- 2. The measuring mechanism of electrical measuring instruments with a light pointer, a pressure gauge, a position or displacement sensor can be used as a sensor. In this case, the largest angle of rotation of the movable part of the sensor a must be such that the beam is placed within the width of the tape.

In order to eliminate the simultaneous generation of even and odd signals, even code marks are applied on one part of the tape, and odd ones on another part. In addition, the even and odd code digits are shifted each oTHocnTevTbHo is different along the tape by a certain amount, which ensures that the characters are located in different zones.

The proposed photoelectric method of converting the angle of rotation into pulsed code signals can find wide applications in computing, for example, to convert geophysical quantities into signals of a pulsed Morse code, for the purpose of telemetry of these quantities.

Subject invention

A photoelectric method of converting the rotation angle into pulse code signals, characterized in that, in order to improve measurement accuracy, the narrow light beam of the rotation system is fed to a constantly moving perforated tape, on one part of which perforations of even numbers are applied, and on the other - odd code signs, and light pulses from the output of the tape are directed through the fiber to the photodetector.