SU1000753A1 - Ultrasonic device for measuring tape width - Google Patents

Description

The invention relates to non-destructive testing by the ultrasonic method and can be used for automatic non-contact measurement of the width of the tape.

Known ultrasonic device for measuring the width of the tape, containing emitting and receiving transducers located in the same plane of the acoustic head, an additional receiving transducer offset along the axis of radiation of the receiver, exciting pulse generator, correction amplifier, differential amplifier, adder and processing unit £ 1 ^ |.

A disadvantage of the known device is low accuracy and a small measuring range.

The closest to the proposed technical essence and the achieved result is an ultrasonic device for measuring the width of the tape, containing two electro-acoustic nodes, each of which consists of a radiating and main receiving transducers located on opposite sides of the tape, as well as an excitation oscillator, the output of which is connected to radiating transducer, and u additional receiving transducers located in one plane next to the main receiving transducer, two blocks control windows made in the form of series-connected master oscillator and adjustable amplifier, the output of which is connected to the input of the excitation oscillator, series-connected reference voltage source and integrator, the output of which is connected to the second input of the adjustable amplifier, and a correction amplifier, the output of which is connected to the second the integrator’s input, and an electronic unit, the inputs of which are connected to the outputs of the main receiving converters of both nodes Г ^{1 2}

A disadvantage of the known device is its low accuracy and small measurement range, since it is limited by the length of the measuring receiving transducer, with decreasing tape width or its axial displacement, the efficiency of compensating the influence of destabilizing factors 30 on the edge position control zone decreases as the latter moves away from the stabilization zone.

The purpose of the invention is improving accuracy and expanding the measurement range. This goal is achieved by the fact that in an ultrasonic device for measuring the width of the tape containing two electro-acoustic nodes, each of which consists of a radiating and main receiving transducers located on opposite sides of the tape, as well as an exciting generator oscillations, the output of which is connected to a radiating transducer, and c additional receiving transducers located in one plane next to the main receiving transducer by the controller, two control units made in the form of a serially connected master oscillator and an adjustable amplifier, the output of which is connected to the input of the excitation oscillator, a serially connected reference voltage source and an integrator whose output is connected to the second input of the adjustable amplifier, and a correction amplifier, the output of which is connected to the second input of the integrator, and the electronic unit, the inputs of which are connected to the outputs of the main receiving converters of both nodes, additional e receiving transducers are located in the measurement zone, and each control unit is equipped with -1 · keys, the first inputs of which are connected to additional receiving transducers, and the outputs are connected to the input of a correction amplifier, c-2 amplitude discriminators, the inputs of which are connected to additional receiving transducers, and a decoder connected between the keys and amplitude discriminators.

The drawing shows a block diagram of a device.

The device contains acoustic nodes 2 and 3 located on opposite sides of the tape 1, rigidly fastened together and moved along the bracket-ruler 4. Since the acoustic nodes 2 and 3 are identical, only the acoustic node 3 is disclosed in the drawing.

The acoustic unit 3 contains a radiating transducer 5 and a main receiving transducer 6, as well as an exciting oscillation generator 7, the output of which is connected to the <radiating transducer 5, additional receiving transducers 8-12 located in the same plane next to the main receiving transducer 6, moreover, (nye receiving transducers 8-12 are located in the measuring zone. The number of additional receiving transducers can be AND.

In addition, the device contains an electronic unit 13, the inputs of which are connected to the outputs of the main receiving transducer 6 of each acoustic unit 2 and 3.

A control unit 14 is connected to the input of the generator 7 of exciting oscillations. The control unit 14 is configured as a series-connected oscillator 15 and the adjustable amplifier 16 posledova15 Tel'nykh connected source 17 of reference voltage and an integrator 18, which is connected to the output to Auto _t rum input of adjustable amplifier 16, a correction amplifier 19, vy2Q stroke of which is connected to the second the integrator 18 input, the keys 20 - 23, the number of which can be AND -1, the first inputs of which are connected to additional receiving converters 25 8 - 11, and the outputs are connected to the input of the correction amplifier 19, the amplitude discriminators 24 - 26, the number of which can be AND -2, the inputs of which are connected to additional receiving converters 8 ... and ³⁰ and a decoder 27 connected between the keys 20 - 23 and the amplitude discriminators 24 - 26. The control unit 28 is similar to block 14 management. The device operates as follows.

The radiating transducer 5 is excited in a circuit by a master oscillator 15 — an adjustable amplifier 16 — an oscillating oscillator 7.

Equally distributed in length and intensity, the acoustic beam from the emitting transducer 5 is blocked by the edge of the tape 1 and acts only on the open part of the main receiving transducer b.

With a change in the position of the edge of the tape, the signal at its output also changes, since the amount of acoustic energy supplied to the 5Q transducer 6 changes. By analogy, the acoustic unit 3 is excited. The signals from the receiving transducers 6 of both nodes enter the electronic unit 13.

Acoustic nodes 2 and 3 are installed at the nominal value of the width ^{33 of the} monitored tape 1, which are moved along the bracket-line 4. The average signals of the receiving transducers 6 correspond to this position of the acoustic nodes. At the same time, the nominal value of the tape width is entered into block 13 using the block 29 of the reference width. Algebraic summation of the deviations of the ribbon edges of the right and left acoustic nodes 2 and 3 from their average position with the setting value allows us to determine the true value of the tape width. Thus, the device measures the deviation of the width from the set value. Compensation of the destabilizing effect of the medium on the measurement zone is carried out by control units 14 and 28 and additional receiving transducers 8-12 in each acoustic unit.

When increasing the width of the tape or its axial displacement, causing the receiving transducer 6 to overlap, part of the acoustic beam from the radiating transducer 5 acts on an additional receiving transducer 8, which is outside the measurement zone and not blocked by the edge of the tape. Additional receiving converters 9-12 are closed, the signal at their outputs is zero. At the same time, the signals at the outputs of the amplitude discriminators 24 - 26 are equal to logical zero. These signals ensure that the logical 1 * ¹ appears at the output of the decoder 27 and the key 20 is turned on. The latter connects to the correction amplifier 19 the first additional receiving transducer 8. The signal at the output of the receiving transducer 8 is kept constant and equal to the specified set by the reference voltage source, regardless from which of the destabilizing factors affects the measurement zone along the circuit, an additional receiving transducer 8 - correction amplifier 19 - integrator

- adjustable amplifier 16, generator 7 of exciting oscillations, emitting transducer 5 - additional receiving transducer 8.

Signal stabilization at the first additional receiving transducer 8 provides signal stabilization with the required degree of compensation of the influence of external factors only over the part of the measuring receiver located in close proximity to the first additional receiving transducer 8 and equal in length to the length of the additional receiving transducer 9 As the tape width decreases or when its axial displacement, causing further opening by the edge of the tape of the main receiving transducer 6, fully opening etsya receiving transducer 9 and a portion of the transducer 10. The amplitude discriminator 26 is adjusted to the minimum signal receiving transducer 10 and the high potential at the output shows the full opening of additional receiving transducer 9 and used the possibility to use it as a correction. In this case, a high potential only appears. At the output of the decoder 27 and, accordingly, an additional receiving transducer 9 is connected to the input of the correction amplifier 19 via a key 21, which follows the receiving transducer 8. Similar shifts of the correction eons occur upon further opening of the main receiving transducer 6 of both acoustic units 2 and 3.

Thus, the proposed device allows to increase accuracy and expand the range of measurements.

Claims (2)

as the latter moves away from the stabilization zone. The purpose of the invention is to improve the accuracy and expand the range of measurements. The goal is achieved by the fact that in an ultrasonic device for measuring the width of a tape containing two electroacoustic units, each of which consists of an emitting and main receiving transducers located on opposite sides of the tape, as well as a generator of exciting oscillations, the output of which is connected to a radiating transducer, and vi additional receiving transducers located in the same plane next to the main receiving transducer two control units made in the form of sequentially A connected master oscillator and an adjustable amplifier, the output of which is connected to the input of a generator of exciting oscillations, are serially connected to a source of reference voltage, an integrator, the output of which is connected to the second input of an adjustable amplifier, and a correction amplifier, the output of which is connected to the second input of the integrator, and the electronic unit , the inputs of which are connected to the outputs of the main receiving transducers of both nodes, additional receiving transducers are located in the measurement zone, and each The control unit is equipped with AND -1 keys, the first inputs of which are connected to additional receiving transducers, and the outputs are connected to the input of a correction amplifier, V1-2 amplitude discriminators, whose inputs are connected to additional reception transducers, and a decoder connected between the keys and amplitude discriminators ramie. The drawing shows a block diagram of the device. The device contains acoustic nodes 2 and 3 that are located on opposite sides of the tape 1 and are rigidly fastened together and moved along a bracket-ruler 4. Since acoustic nodes 2 and 3 are identical, only acoustic node 3 is revealed in the drawing. Acoustic node 3 contains emitting a transducer 5 and a main receiving transducer b, as well as an oscillating oscillator 7, the output of which is connected to the radiating transducer 5, additional receiving transducers 8-12 located in one plane adjacent to the bases th receiving transducer 6, wherein additional receiving transducers 8-12 are arranged in the measuring zone. The number of additional receiving transducers can be And. In addition, the device contains an electronic unit 13, the inputs of which are connected to the outputs of the main receiving transducer 6 of each acoustic unit 2 and 3. The control unit 14 is connected to the input of the oscillating oscillator 7. The control unit 14 is made in the form of series-connected master oscillator 15 and adjustable amplifier 16, serially connected to source 17 of reference voltage and integrator 18, the output of which is connected to the second input of adjustable amplifier 16, correction amplifier 19, whose output is connected to the second input of integrator 18 , keys 20–23, the number of which can be I –1, the first inputs of which are connected to additional receiving converters 8–11, and the outputs are connected to the input of a correction amplifier 19, amplitude g iskriminator 24 - 26, the number of which may be And -2, the inputs of which are connected to additional receiving converters 8 ... and, and a decoder 27 connected between the keys 20 - 23 and amplitude discriminators 24 - 26. The control unit 28 is similar to block 14 management The device works as follows. The radiating transducer 5 excites in a circuit the master oscillator 15 - an adjustable amplifier 16 a generator 7 excitation oscillations. The acoustic beam equally distributed in length and intensity from radiating transducer 5 overlaps with the edge of leita 1 and affects only the open part of the main receiving transducer 6. As the position of the tape edge changes, the signal at its output also changes as the amount of acoustic energy supplied to transducer 6. By analogy, acoustic node 3 is excited. Signals from receiving transducers 6 of both nodes are fed to electronic unit 13. At the nominal width of the monitored flax You set the acoustic units 2 and 3, moving the "1s along the bracket-line 4. This position of the acoustic units corresponds to the average signals of the receiving transducers 6. At the same time, the nominal value of the tape width is led to block 13 using the block 9 of the reference width. Algebraic summation of the values of deviations of the tape edge of the right and left acoustic nodes 2 and 3 from their average position with the value of the setting allows us to determine the true value of the tape width. Thus, the device measures the deviation of the width from the predetermined value. The destabilizing influence of the medium on the measurement zone is compensated by blocks 14 and 28 of the control and additional receiving converters 8-12 in each acoustic node. As the width of the tape increases or its axial displacement causes overlap of the receiving transducer b, part of the acoustic beam from the radiating transducer 5 acts on the additional receiving transducer 8 that is outside the measurement zone and is not covered by the tape edge. Additional receiving transducers 9-12 are blocked, the signal at their outputs is zero. At the same time, the signals at the outputs of the amplitude disk of the Ruminator 24 to 26 are equal to a logical zero. These signals provide the output of the decoder 27 of the logical i and turn on the key 20. The latter connects to the correction amplifier 19 the first additional receiving converter 8. The signal at the output of the receiving converter 8 is kept constant equal to the set, set by the source of the reference voltage, regardless of which of the destabilizing factors affect the measurement zones along the circuit receiving transducer 8 — correction amplifier 19 — integrator 18 — adjustable amplifier 16 oscillator 7 excitation oscillating transducer 5 — additional receiving transducer 8. Stabilizing the signal at the first additional receiving transducer 8 provides stabilization of the signal with the required degree of compensation of external factors just above the part of the measuring receiver located in the immediate vicinity of the first additional receiving converter 8 and in length (and equal to As the width of the tape decreases or when it axially displaces, causing further opening by the ribbon edge of the main receiving converter 6, the receiving converter 9 and part of the converter 10 open completely. The amplitude discriminator 26 adjusts to the minimum signal of the receiving converter 10 and The high potential at your turn indicates the complete opening of the additional receiving converter 9 and the possibility of using it as a corrective one. In this case, a high potential appears only. At the output of the decoder 27 and, accordingly, an additional receiving transducer 9 is connected to the input of the correction amplifier 19 via a switch 21, followed by the receiving converter 8. Similar displacement of the correction zone occurs upon further opening of the main receiving converter 6 both acoustic nodes 2 and 3.. Thus, the proposed device allows to increase the accuracy and expand the range of measurements. An ultrasonic device for measuring the width of a tape containing two electroacoustic units, each of which consists of an emitting and main receiving transducers located on opposite sides of the tape, as well as a generator of exciting oscillations, the output of which is connected to the emitting transducer, and additional receiving transducers, located in the same plane next to the main receiving transducer, two control units made in the form of serially connected sets its generator and adjustable amplifier, the output of which is connected to the input of the generator of excitation oscillations, are connected in series with the source of the reference voltage and the integrator, whose input is connected to the second input of the adjustable amplifier, and the correction amplifier whose output is connected to the second input of the integrator, and the electronic unit, inputs which are connected to the outputs of the main receiving transducers of both nodes, characterized in that, in order to increase the accuracy and expand the measurement range, additional the receiving transducers are located in the measurement zone, and each control unit is provided with U1 -1 keys, the first inputs of which are connected to additional reception transducers, and the outputs are connected to the input of a correction amplifier, I-2 amplitude discriminators, whose inputs are connected to additional reception transducers, and a decoder connected between the keys and amplitude discriminators. Sources of information taken into account in the examination 1. USSR author's certificate for application 2906929 / 25-28, cl. G 01 B 17/02, 1979. 2. USSR author's certificate number 702803, cl. G 01 B 17/02, 1979 (prototype).