SU879525A1 - Plant for cheching measuring instruments - Google Patents

Description

The invention relates to the field of measurement techniques and can be used for automatic calibration of scale devices. The well-known setup for checking from measuring instruments, containing an input signal source, a scanned instrument, a reference signal source, a key stage, a measuring unit, a subtraction unit, cathode ray tubes with optical overlap, a tracking unit, an And element, a selector of video pulses of the pointer, a given delay line installation low accuracy of calibration .-. Also known is an installation for calibrating measuring instruments, which contains an input source connected to a calibrated instrument input, several N cathode ray tubes operating in a single line mode, with optical systems for projecting images of the corresponding sections of the scale on the tube screens, field of view which partially overlap, and their total field of view covers the whole scale, switch, two coincidence elements, reference source, subtraction unit, key stage, measuring unit, select p pointer video pulses, gating pulse former, delay line, pointer registration unit with scale marks, programming block / key, time interval to control voltage converter, scale mark video pulse selector, trigger block 2. This setting uses a single line scanning mode in the direction perpendicular to the direction of the scale marks and the pointer, therefore the video signal, depending on the width of the scanned object, with a large number of scale marks in The vision of the cathode ray tube is small, which leads to a decrease in the accuracy of reading. It is possible to increase the width of the scanned scale marks by decreasing their number in the field of view of each of the cathode ray tubes, i.e. it is necessary to increase the number of used cathode-ray tubes, which reduces the reliability of the installation and increases its cost. The purpose of the invention is to increase the reliability of the installation while ensuring the specified accuracy of automatic calibration.

The goal is achieved by the fact that the installation for calibration of measuring instruments, containing an input source, is connected to a calibrated prior, which in turn is connected to cathode-ray tubes with optical systems, the outputs of which are connected to the inputs of the switch, the first element I, connected through a switch with a delay line, the input of which is connected to the output of the sampling pulse former, the selector of the video pulses of the pointer, the input of which is connected to the output of the first element I and to the input m selector of scale-level video-pulses, serially connected reference source, subtraction unit, key stage and from a 4-block unit, subtractor block input, nor connected to the output of the input source, the control input of which is connected to the output of the time interval converter to the control voltage whose input through the key is connected to the output of the registration registration unit of the indicator with scale marks and to the output of the programming unit, the first and second inputs of which are connected respectively to its second output The combinator registration registration block with marks and with the first output of the computing unit, whose input is connected to the output of the second element AND, and the second output to the control input of the switch, the first input of the second element AND is connected to the output of the trigger, the selection window of the information window, block is entered extracting the axis of symmetry of the pointer and the block for allocating the axis of symmetry of the scale marks, the input of the block selecting the information window connected to the output of the switch, a. output - with the input of the first element AND the INPUT of the block of symmetry axis indexing of the pointer is connected to the output of the selector video pulses of the pointer, and the first output - with the input of the register registration block of the pointer with the scale marks and the input of the gating pulse generator, the second output, with the trigger input, input The block .division of the axis of symmetry of the scale marks is connected to the output of the selector by seeing the pulses of the scale marks, and the output - to the input of the second element I, to the input and the first output of the register registration block of the indicator with marks, scale.

In addition, the allocation unit. The axis of symmetry of the pointer is made in the form of serially connected pulse counter of the pointer and decoder, 0LOC of the axis of symmetry of the scale marks made in the form of serially connected pulse counter

each scale mark and a decoder; an information window selection unit is made in the form of four waiting multivibrators, the inputs of the first and second multivibrations are connected to the output of a cohmmutator, the inputs of the third and fourth multivibrators are connected to the outputs of the first and second multivibrators, and the outputs of the third and fourth multivibrators are matching elements.

The drawing shows the block diagram of the installation.

The installation contains a source 1, an input signal connected to the input of a rotating instrument 2, several electron-beam tubes with optical systems 3 for projecting images of the corresponding sections of the scale on the tube screens, whose field of view partially overlaps, and their total field of view covers the whole the scale, the switch 4, whose BXOjtpa is connected to the outputs of the respective cathode ray tubes, the block 5 for selecting the information window, whose input is connected to the output of the switch, the first element b of the match AND, the first The second input is connected to the output of the extraction unit 5, the information window and through the switch 7 to the delay line 8, the input of which is connected via the gate generator 9 to the output of the axis symmetry axis separation section 10, the input of which is connected to the output of the video pulse selector selector 11, the input which is connected to the output of the first element And & and with the input of the selector 12 video pulses of scale marks in series connected source of reference signal 13, subtraction unit 14, key stage 15 and measuring unit 1b, input of subtraction unit 14 is connected to the output of input source 1, the control input of which is connected to output of converter 17, input which, via the key 18, is connected to the output of the indicator registration registration unit 19 with the scale marks and the output of the programming unit 20 ,. The first and second outputs of which are connected respectively to the second output of the registration unit 19 and to the first output of the computing unit 21, the input of which is connected to the output of the second element, AND 22, and the second output to the control input of the switch 4, the second input of the second element And 22 connected with the release of 23 highlighting the axis of symmetry of the scale marks, and the first with the release of trigger 24,

The axis selection unit 10, the pointer symmetry, contains a counter, the input of which is connected to the output of the video pulse selector of the pointer 11, and a decoder, the input of which is connected to the outputs of the counter, and the trigger is connected to the gate driver 9 of the gating pulses, the combinator registration block 19 with scale marks and the trigger 24 The block 23 of introducing the axis of symmetry of the scale marks contains a counter, the input of which is connected to the output of the selector 12 video pulses of the scale marks, and a decoder whose input is connected to the output of the counter, and the output is connected to th element of coincidence, and 22, alignment unit 19, the registration indicia with the scale marks 18 and key.

The information window allocation unit 5 contains four waiting multivibrators, the inputs of the first and second multivibrators are connected to the output of the switch 4, the inputs of the third and fourth multivibrators are connected respectively to the outputs of the first and second multivibrators, and the outputs of the third and fourth multivibrators are connected to the first element b of the match I.

The installation works as follows.

In the initial state, the indicator of the instrument being checked is combined with the zero mark of the scale. The switch 4, at the command of the computing unit 21, connects the first cathode-ray tube to the block 5 for extracting the information window, and also starts its first and second multivibrators, respectively, which start the information window line by frame and frame and the third and fourth multivibrators, with the horizontal and vertical sync pulses. the selection block of the information window 5 are triggered respectively by the falling edges of the pulses produced by the first and second multivibrators, and the width of the information pulse is determined e and frame, the signals from the third and fourth multivibrators are input to the first matching element 6, which only passes the video pulses in this window, so that a sequence of video pulses of scale marks and an indicator appears in each frame at each output and the video pulses do not pass. . .

The selector of video pulses of the pointer 11 in each frame allocates the video pulses of the pointer, which are fed to the block 10 of the axis of symmetry of the pointer, the selection pulse coincides with the axis of symmetry of the pointer / and it triggers the trigger 24, which closes the second match element 22, thus the video pulses coinciding with the axis of symmetry of the marks of the scale allocated by the selector 12 video pulses of the marks of the scale. the axis of symmetry which is distinguished by the block 23 of the axis of symmetry of the scale marks, passes

through the second element of coincidence 22 only until the appearance of a video impulse that coincides with the axis of the indicator metric. Computing unit 21 summarizes the received video pulses and determines the position of the pointer. If it is not at a predetermined point of the scale, the computing unit 21 through the programmable unit 20, the time interval to control voltage converter 17 acts on the input signal source 1, which moves the pointer to the predetermined check mark.

During the registration period, combining the indicator with a calibrated mark

5 of the scale, the gating pulse shaper 9 controls the first element of the match AND 6 in such a way that it passes only the video pulse of the pointer and the video pulse nearest to it

0 scale marks, they arrive at the input of the indicator registration registration unit 19 with the scale marks, at the first output of which the output signal is formed when the pointer symmetry axis coincides with the axis of the vertical scale e5 of my scale mark. This signal is fed to the control input of the key stage 15, which connects the signal equal to the difference between the input and reference signals, to the input of the measuring unit 16, which measures the difference signal from the output of the unit, read 14, proportional to the error of the instrument for the adjustable scale mark. At the second output of block 19 of registration of the combination of the pointer with scale marks, signals are formed, corresponding to the combination of the pointer in series with all marks of the scale. These signals are sent to the programming unit 20, which opens the key 18 in accordance with a given program when the indicator is combined with the scale mark preceding the point being checked. As a result, only video pulses of the pointer and the calibrated mark enter the control voltage at the input of the time interval converter 17 to the control voltage. Converter 17 generates a voltage proportional to the time between the specified video pulses. This voltage is fed to the control input of input source 1, reducing the rate of change of the input signal to the device being turned on.

five

The use of the invention will improve the reliability of the installation and reduce its cost of reading the readings from instruments with a large number of scale marks by reducing the number of used cathode ray tubes.

Claims (4)

1. An installation for measuring instruments containing a source input signal connected to a calibrable instrument, which in turn is connected to cathode-ray tubes with optical systems, whose outputs are connected to the switch inputs, the first And element connected through a switch to the delay line whose input is connected to the output of the gating pulse former , the selector of the video pulses of the pointer, the input of which is connected to the output of the first element And and to the input of the selector of the video pulses of the scale marks, are sequentially connected to the source of the reference signal, the subtraction unit and, a key stage and a measuring unit, the input of the subtraction unit is connected to the output of the input source, the control input of which is connected to the output of the time interval converter to the control voltage, the input of which through the key is connected to the output of the register registration unit of the indicator with scale marks and with the programming unit, the first and second inputs of which are connected respectively with the output of the registration register registration unit with scale marks and with the first output of the computing unit, the input which is connected to the output of the second element I, and the second output to the control input of the switch, the first input of the second element I is connected to the output of the trigger., cJ tlI h aa so that, in order to increase the reliability work, the information window allocation block, the pointer axis symmetry selection block and the block of the axis of symmetry markers are entered into it, the input of the block of the information window is connected to the switch output, and the output is connected to the input of the first element I, and the block of the axis symmetry selection block the pointer is connected to the output of the video pulse selector pointer, and the first output is connected to the input of the registration unit — combining the pointer with the scale marks and the input of the shaper pulse generator, the second output is connected to the trigger input, the input of the allocation unit of the axis of the scale symmetry axis is connected to the output of the video pulse selector marks of the scale, and the output with the input of the second element I, with the input of the key and the first output of the registration registration block with the marks of the scale. 2. Installation according to claim 1, characterized in that the allocation block of the axis of the USA of the pointer pointer is designed as a series-connected pulse counter of the pointer and the decoder. 3. Installation according to claim 1, that is, that the block for selecting the axis of symmetry of the scale marks is made in the form of a series-connected pulse counter of each scale mark and a decoder. 4. The installation according to claim 1, of the following, CL) the selection window of the information window is designed as four waiting multivibrators, with the inputs of the first and second multivibrators connected to the output of the switch, the inputs of the third and fourth multivibrators connected the outputs of the first and second multivibrators, and the outputs of the third and fourth multivibrators are connected to the coincidence elements. Sources of information taken into account in the examination 1. USSR author's certificate No. 225313, G 01 R 35/00, 1969. 2. USSR author's certificate 771584, -kl. G 01 R 35/00, 1978.