SU813127A1 - Device for measuring length of moving articles - Google Patents

Description

The invention relates to a measurement technique and can be used to measure the length of lengthy articles of magnetic non-magnetic materials. A device for measuring the length of moving articles, comprising marking and reading magnetic heads and a reading unit 1, is known. A disadvantage of this device is its limited scope. neither The closest to the present invention is a device for measuring the length of moving articles, a labeling unit, a tag reading unit, a control unit connected by an input to an output of a tag reading unit, and a first output to an input of a labeling unit, and a totalizing counter G2. The disadvantage of this device is the low accuracy of the measurement due to the presence of an error associated with the delay in the finding of magnetic labels. The purpose of the invention is to increase measurement accuracy. The goal is achieved by the fact that the device is equipped with a length correction block, made in the form of two key elements, a generator, pulses, two frequency dividers and a counter, the output of the pulse generator is connected to the signal inputs of the key elements, the control inputs of which are connected respectively to the second and third the control unit inputs, the output of the first key element through the first frequency divider is connected to a counter, the outputs of which are connected to the control inputs of the second frequency divider, the signal input coupled to an output of the second key member, the second frequency divider output coupled to a second input of the summing counter, a first input coupled to the first output of the control unit. In addition, the labeling unit is made in the form of two marking tin, located on equal height from one another and from the tag reading unit. Figure 1 shows the block diagram of the device being predicated; Fig.2 distribution of labels along the length of the product.

A device for measuring the length of moving parts contains a labeling unit, made in the form of marking heads 1 and .2, whose inputs are combined and connected to the first input of the totalizer counter 3 and to one of the outputs of the control unit 4, the input of which is connected to the reading unit 5, and two outputs with control inputs of key elements 6 and 7, the signal inputs of which are connected to the generator of 8 pulses. The output of the key element 7 is connected to a frequency divider 9, the output of which is connected to the input of the counter 10. The outputs of the counter 10 are connected to the control inputs of the frequency divider 11 with a division factor N, the signal input of which is connected to the output of the key element 6, and the output to the second input total counter 3. Elements 6 - 11 constitute a length correction block. The positions 12–15 denote labels applicable to the item being measured. The marking heads 1 and 2 are located at equal distance IT from one another and from the reading unit.

The device works as follows.

The signal from the control unit 4 is supplied to the marking heads 1.2 and to the summation of the counter 3, which leads to the simultaneous application of two marks 12 and 13 on the surface of the moving article and the calculation of the discrete distance 3) by the summing counter. When mark 12 reaches reading unit 5, a pulse appears at its output, which is fed to control unit 4, and from it to marking heads 1 and 2 for applying the next two marks 14 and 15, to the first input SE of summing counter 3 and key element. 7. Due to the inertia of the marking process, the pair of marks 14 and 15 is shifted relative to the pair of marks 12 and 13 to the distance D1, which determines the measurement error, which is determined by the length correction unit. The measurement of the distance g 1 is carried out by summing counter 3 at the second input 2d1. This distance decreases with decreasing product speed and, conversely, increases with increasing product speed. When the signal from control unit 4 arrives at key element 7, it opens and the pulses from generator 8 arrive at frequency divider 9, the division factor of which is 10, where n is the number of bits of summing counter 3 measuring the sum l1. The frequency of the generator 8 pulses and the number of bits of the counter Sul depends on the selected measurement accuracy d1

The pulses from the divider 9 frequency arrive at the counter 10 and are counted by it. When tag 13 of block 5 is reached, a pulse appears at its output, which goes to control block 4, and from it to key elements b and 7. With this pulse, key element 7 is closed, and key element 6 is opened, and impulse from generator 8 the frequency fp is fed to the divider

11 frequency, which is controlled by the counter 10. Pulses from the divider 11 frequency frequency arrive at the summation of the counter 3 to the input SA. When the mark 14 reaches the readout unit 5, a pulse appears at its output, which is fed to the control unit 4, and from there to the marking head 1 and 2 to apply the next pair of marks to the summing counter 3 to the input 23l1, Key elements 6 and 7. The impulse from control unit 4 to key element b closes it, and key element 7 opens.

g The whole process is repeated. The number of pulses counted by the summing counter 3 at the input SAI during the open state of the key element b is equal to the number of quanta of length placed in the beam l 1. The length of the quantum depends on the chosen accuracy of measuring the length d1. Thus, counter 3 counts the number of discrete multiples of unit 1, the length of which does not depend on the speed of movement of the item being measured, and also counts the number of quanta placed in segment d1, the length of which changes depending on the speed of movement

For the product and, accordingly, the frequency of the pulses from the output of the counter 10 varies, the number of which determines the length of the segment L). The length of the lengthy product is equal to E.

5 The proposed device, by eliminating the error caused by the delay in the application of pulses, makes it possible to increase the measurement accuracy.

Claims (2)

Invention Formula An apparatus for measuring the length of moving articles comprising a unit 55 labeling, a tag reading unit, a control unit connected by the input to the output of the tag reading unit, and the first output to the input of the labeling unit, and a totalizing counter, 60 by the fact that, in order to improve the accuracy of measurements, it is equipped with a length correction unit, made in the form of two key elements, a pulse generator, two frequency dividers and the counter, the output of the pulse generator is connected to the signal inputs of the key elements, the control inputs of which are connected respectively to the second and third outputs of the control unit, the output of the first key element through the first frequency divider is connected to a counter, the outputs of which are connected to the control inputs of the second frequency divider The signal input of which is connected to the output of the second key element, the output of the second frequency divider is connected to the second input of the summing counter, the first input of which is connected to the first th output block simp laziness. 2. The device according to claim 1, is distinguished by its e-c in that the marking unit is made in the form of two marking heads, spaced equally from one another and from the tag reading unit. Sources of information taken into account in the examination 1. Japanese Patent No. 52-16371, cl. 106 O Oh, pub. 1977. 2. USSR author's certificate 399715, cl. G 01 B 7/04, 1971 (prototype). g -15 / "J ag.f // f2 / “L7 FIG. 2