SU515931A1 - Device for measuring linear dimensions of objects - Google Patents

Claims (1)

The invention relates to television. A device for measuring the linear dimensions of objects is known, comprising a camera, phase-shifting units connected in series and a mixer, as well as an indicator unit. However, the known device does not provide high accuracy in measuring the linear dimensions of objects when the distance from the camera changes. The purpose of the invention is to improve the accuracy of measuring the linear dimensions of objects when the distance from the camera changes. To do this, a position sensor associated with a camera lens, a potentiometer, a square pulse generator and a horizontal frequency divider are additionally introduced into the proposed device, while the second phase-shifting unit is connected to a potentiometer connected to the input of the indicator unit through an amplifier connected to the position sensor, and generator, to the input of which a horizontal frequency divider is connected. The drawing shows the structure of the proposed device. A device for measuring the linear dimensions of objects contains a camera 1, phase-shifting units 2, 3 connected in series and a mixer 4, the output of which is connected to the video monitoring unit 5, and also an indicator unit 6 consisting of a coincidence circuit 6, a generator of counting pulses 8 and a counting unit 9 , a position sensor 10 mounted on the focusing ring 11 of the lens 12 of the camera 1, potentiometers 13 and 14, a generator of rectangular pulses 15 and a horizontal frequency divider 16, while the phase shifting unit 3 is connected to a potentiometer 13, p CONNECTIONS entry to the display unit 6 via an amplifier 17 coupled to the position sensor 10, and a generator of rectangular pulses 15, which is connected to the input line frequency divider 16. The device operates as follows. Synchronizing string pulses are received in phase-shifting unit 2, where the formation of pulses with adjustable rear (j) poHTOM occurs. The differentiated signal corresponding to the rising edge of the generated pulse triggers the phase-shifting unit 3. The pulse duration is controlled by potentiometers 13 and 14. From the outputs of the phase-shifting units 2 and 3, the differentiated pulses go through the mixer 4 to the input of the video monitor unit 5 simultaneously with the image signals from the telecamera 1, forming the screen of the kinescope of the video control unit 5 two vertical stripes, moved operatively within the television raster The time interval between the strips, ovmeschennymi with the edges of the object image, mimics noslednego angular size. To generate a pulse proportional to the linear size of the object being measured, a voltage across the position sensor 10 is applied to the square pulse generator 15 through the amplifier 17. The gain of the amplifier 17 is determined by the magnitude of the voltages taken from the position sensor 10 and the potentiometer 13. Value The voltage taken from the position sensor 10 is determined by the position of the focusing ring 11 of the objective 12 of the camera 1 (the distance to the plane of the object). A 15-pulse formed in the generator of rectangular pulses, proportional to the size of the object to be measured, arrives at a coincidence circuit 7, where simultaneously counting pulses are received from the counting pulse generator 8. At the output of the coincidence circuit 7, a signal is formed with a number m of counting pulses proportional to the linear size of the object. Depending on the distance of the object, the duration of the rectangular impulse 15 generated in the generator 15 may exceed the length of the television decomposition line, but this will start the rectangular impulse generator 15 through a horizontal frequency divider 16. Formula for measuring the linear dimensions of objects containing a camera serially connected phase-shifting units and a mixer, as well as an indicator unit, which is HI, that is, in order to increase the measurement accuracy of linear times When changing the distance from the camera, the position sensor associated with the camera lens, the potentiometer, the square pulse generator and the horizontal frequency divider, the second phase shift, 1 is connected to the potentiometer connected to the indicator unit input through an amplifier, connected to a position sensor, and a generator, to the input of which the switch is a horizontal frequency divider.