SU922496A1 - Method and device for measuring article elongation - Google Patents

Description

(5) METHOD OF MEASUREMENT OF PRODUCT EXTENSION AND DEVICE FOR ITS IMPLEMENTATION

The invention relates to a measurement technique and can be used to measure the elongation of a product, for example, a transformer belt during rolling. A known method for measuring the stretching of a strip during rolling, is that the difference in the rotational speeds of the contact rollers before and after rolling is converted into a strip elongation value. It is also known a device for measuring the strip stretching during rolling, containing contact rollers pacno / ia on both sides of the rolls, tachogenerators mechanically connected to the contact rollers and connected to an electrical circuit for determining the stretch strip size. A disadvantage of the known method and device is the comparatively low measurement accuracy due to the slipping of the rollers, the change in their diameters with a change in temperature and as a result of wear. The closest to the invention to the technical essence is a method of measuring the elongation of the product, which consists in that the moving product before the stretch is marked on the base distance from one another, the transit time is determined by the mark of the base distance, the period after the stretch is fixed the time between the passage of two successively marked marks and the ratio of the difference between the calculated times and the time of the passage of the mark of the base spread-. The relative elongation of the article is determined. This method is implemented using a device for measuring the elongation of a product containing a labeling unit, three tag reading sensors, the first of which is connected to the input of the labeling unit and is located at a predetermined distance from it along

the line of motion of the product, the pulse counting unit and the pulse generator connected to the input of the pulse counting unit, another input of which is connected to the output of the second sensor of the tag reading,

In this device, the strip elongation is measured using radioactive labels, the distance between which is determined by the number of impulses of the generator, the rator associated with the roller for moving strip 2. The disadvantage of the device is low languor, as the measurement result is affected roller slippage with changes in the speed of movement of the strip. The purpose of the invention is to improve the measurement accuracy. In the method, this goal is achieved by the fact that the time of passage of the tag of the base distance is determined after stretching. In the device, the goal is achieved by the fact that it is equipped with a single pulse generator connected in series, an AND element, an additional pulse counting unit connected by another input to the pulse generator output, and a dividing unit OR element, one input of which is connected to the second tag reading sensor and the other input is with the third tag reading sensor and the generator input of a single pulse, and the output is with the second input of the element I, and the subtraction unit, the inputs of which are connected respectively to the outputs pulse counting unit and an additional pulse counting unit, and the output is with the second input of the dividing unit. FIG. 1 shows a block diagram of a device for implementing a method for measuring the elongation of an article; in fig. 2 - voltage diagrams at the outputs of the device blocks. The device for measuring the product elongation contains sensors T - 3 for reading tags and a block A for applying tags located along the lines of movement of the product 5, with sensor 1 for reading tags and block for applying tags connected to the input of sensor 1 for reading tags 6 distance i from each other, selected depending on the rolling speed and speed of the electric circuit, sensors 2 and 3

Claims (2)

after reading the rolls 6 are also at a distance from one another, the pulse counting unit 7, the pulse generator 8 connected to the input of the pulse counting unit 7, the other input of which is connected to the output of the tag reading sensor 2, additional pulse counting unit 9, the generator 10 of a single pulse connected to the output of the sensor 3 reading the tags, the subtracting unit 11, the dividing unit 12, the element 13 AND, the k element OR, whose inputs are connected to the outputs of the sensors. 2 and 3 read the tags, and the output is connected to the first input of the element 13 I, the second input of which is connected to the generator 10 of a single pulse, and the output of the element 13 I is connected to the input of the additional counting block 9. pulses, the second input of which is connected to the output of the pulse generator 8, and the output is connected to one input of dividing unit 12 and one input of subtracting unit 11, the other input of which is connected to pulse counting unit 7, and the output to another input of dividing unit 12, whose output is a device output and can be connected to a rolling process control device (not shown). The distance between the marks (M t and M |) to the rolls 6 is equal to E,. and after the rolls, taking into account the elongation of the product after rolling. FIG. 2 graphics A - impulses. at the output of the sensor 2 read labels, graph B - pulses at the output of sensor 3 read labels, graph B pulses at the output of the generator 10 of a single pulse, graph D - pulses at the output of an additional block 9 of pulse counting, graph D pulses at the output of block 7 pulse counting, graph E — pulses at the output of subtraction unit 11. The method is implemented using the described device as follows. The labeling unit L applies a tag to the moving article 5, for example, radioactive. The sensor for reading the tags 1, registering the time of the passage of the tag, gives a pulse to start the block of tags, and the next mark is applied at a distance from the previous one. As a result of rolling, the product is lengthened, and the distance between the marks is increased to the value of / 1, and the elongation value is ut V. As a result of the product elongation, the pulses from the sensors 2 and 3 of the tag reading will be shifted relative to each other by the value of At proportional to the elongation D and arrives through element 1 OR to the first time of element 13 I, and the pulse from sensor 3 of the tag reading simultaneously starts the generator 10 of a single pulse. At the same time, the pulse duration of the 10-pulse generator (graph B) is chosen longer, but less than t (FIG. 2, tpa Fi E), where the time between the moments is the time between the moments of the passage of the same mark over the sensors 2 and 3 readings. As can be seen from the graphs in FIG. 1, the first time pulse from sensor 2 of reading tags (FIG. 2, schedule A) will not pass through element 13 AND, since at this time there is no pulse at its second input. First impulse x; Sensor 3 of reading the tags (FIG. 2, graph B) passes through element 13 I, since simultaneously a pulse from generator 10 of a single pulse (FIG. 2, graph B) and an additional unit 9 of pulse counting will arrive at its second input. The next impulse from the sensor 2 of reading the tags (Fig 2, graph A) arrives at the first input of element 13 And after time dt, and since there is still a pulse at the output of the generator 10 of a single impulse, it will pass through element 13 And close an additional unit 9 for counting pulses, From the output of an additional unit E for counting pulses, a certain number of pulses will arrive at the first input of dividing unit 12 at time t (Fig. 2, graph D), At the first inlet of subtracting unit 11 there will be a number of pulses from unit 7 of counting pulses pulses corresponding to times t between the pulses from the sensor 2 of reading the tags, equal to the travel time of each distance mark, to the other input of the subtraction unit 11 the number of pulses corresponding to the time it comes from the output of the additional unit 9 of the pulse counting, From the output of the subtracting unit 11 to the second input of the division block 12 the number of pulses corresponding to the time t is the time of passage of each label of the distance B between the sensors 2 and 3 of the reading of the tags, and only after that the output of dividing unit 12 will be equal to the ratio & t. , Since At where V is the speed of movement of the product after the mill rolls 6, then the magnitude of the LE on the –r - –y is the desired relation 1. elongation and does not depend on the speed of movement of the product. Thus, by determining the time taken for the base distance to be traced after stretching, the proposed selection has improved the measurement accuracy, bringing the absolute value of the measurement error to 0.1, which gives an annual economic effect of 620 thousand , rubles. Claim 1, A method for measuring the elongation of a product, in that the moving product is marked at a base distance from one another before the stretch, the transit time is determined by the mark of the basic distance, and after a stretch the time between two moments of passage is fixed sequentially applied marks and relative to the difference between the calculated times and the time of passage of the base distance mark, the relative elongation of the product is determined, characterized in that, in order to increase the measurement accuracy, the time The walking distance of the baseline is determined after stretching. 2. A device for measuring the product extension, containing a labeling unit, three sensors for reading labels, the first of which is connected to the input of the labeling unit and located at a base distance from it along the line of movement of the product, a pulse counting unit and a pulse generator, with the input of the pulse counting unit, the other input of which is connected to the output of the second tag reading sensor, characterized in that it is provided with a single pulse generator connected in series, an AND element, an additional block ohm counting pulses connected by another input to the output of the pulse generator, and the division unit, element