SU586474A1 - Device for reading out graphic information - Google Patents

Description

(54) DEVICE FOR READING GRAPHIC

INFORMATION

Claims (2)

The invention relates to automation and computing, in particular to devices for reading graphic information. Apparatuses for reading graphic information are known. One of them contains an electroacoustic transducer associated with a sound excitation unit, microphones connected to coordinate measurement units connected to a pulse generator and control unit 1. The disadvantage of this device is the low accuracy of coordinate measurements. Another device closest to the invention contains an electroacoustic transducer connected to the first and second coordinate measurement units and through the sound excitation unit to the control unit, the first and second microphones connected to the first and second coordinate measurement units connected to the pulse generator 2. A disadvantage of such a device is also the low accuracy of reading graphic information. The purpose of the invention is to improve the accuracy of the device. This is achieved by inserting a coordinate correction unit in the device, connected to the first and second coordinate measurement units and a control unit, a third coordinate measurement unit, the inputs of which are connected to a pulse generator and an electroacoustic converter, and the output is connected to a coordinate correction unit, and a third microphone connected to the third coordinate measurement unit. The drawing shows a diagram of the device. The device includes an electroacoustic transducer 1, the first 2 second 3 and third 4 microphones, control unit 5, sound vibration excitation unit 6, pulse generator 7, first 8, second 9 and third 10 coordinate measurement units, of which contains amplifier 11, amplitude the discriminator 12, the trigger 13, the element And 14 and the counter 15. In addition, the unit 16 includes the coordinate correction unit 16 and the working field of the tablet 17. The device works as follows. The memory of block 16 stores the number of minimum units of the distance scale of the device corresponding to a fixed distance between the centers of the microphones 2 and 3 (distance OD). The measurement of the coordinates of any point, for example, point M, begins with the combination of the sight of the electroacoustic transducer 1 with this point. Then push the knol placed on the converter housing. In this case, a start pulse from the control unit 5 through the unit of excitation of sound vibrations is fed to the transducer 1 and triggers 13 blocks 8-10. The electroacoustic transducer I emits a short ultrasonic pulse, the triggers 13 are set to one, and through the elements AND 14 the filling pulses begin to be delivered to the counters 15. At the moments of the arrival of the ultrasonic wave to the microphones 2-4, the trigger 13 the filling into the counters 15 through the elements AND 14-15 is terminated. In the counters of blocks 8--10, the registered numbers are proportional to the distances MA, MB, and MS. Since the frequency of the pulses of the generator 20 7 is constant, and the parameters of the air change, block 16, by command from the control unit, recalculates the coordinates, taking into account the appropriately chosen conversion factor. Thus, the proposed device implements the idea of taking into account the parameters of the medium directly within the field of reading the coordinates. The introduction of new units and new design 30 25 th e connection between them allowed increasing the accuracy of the device by 1.3-1.4 times. The invention The device for reading graphic information containing an electro-acoustic transducer connected to the first and second coordinate measurement units and through a sound excitation unit with a control unit, distinguishes the first and second microphones connected to the first and second coordinate measurement units connected to the pulse generator. Now, in order to increase the accuracy of the device, it contains a coordinate correction block connected to the first and second coordinate measuring blocks and to the control, the third coordinate measurement unit, the inputs of which are connected to the pulse helirator and electroacoustic transducer, and the output connected to the coordinate correction unit, and a third microphone connected to the third coordinate measurement unit. Sources of information taken into account in the examination 1.Patent of France No. 1566289, cl. G 06К 11/00, published 1969. 2. Express-information, series “Computing Technique, 1970, No. 45, p. 16-20.