DE1061529B - Method and device for measuring the elongation of rolling stock in motion - Google Patents

Description

Method and device for measuring elongation in motion The invention relates to a method and a device for measuring the elongation of ribbon-shaped objects in motion Rolled material by means of measuring rollers arranged before and after the rolling point, from which Rolled stock taken along, give a measure of the elongation via their circulation difference. The rolling stock can be made of either a magnetic or a non-magnetic material exist.

It is already a device for measuring the elongation of ribbon-shaped Rolled stock is known, but is only suitable for ferromagnetic materials.

With this device, a magnetic material is generated on the unlengthened rolling stock Pulse generator and a pulse pickup arranged at a certain distance from this.

An identical unit is placed on the elongated belt. The two Pulse generators generate pulses at the same time, which magnetize the belt approximately at a point. These magnetic characteristics of the tape run on the two pickups and generate stresses on these, which are used to measure the elongation. As already noted, this device is only suitable for measurements on magnetic rolling stock.

It is also a device for measuring the degree of deformation of the Rolled stock is known when rolling, with voltage generator in front of and behind the stand are arranged, which are driven by the rolling stock, the generated stresses the Belt speeds are proportional. The producers feed in the relationship measuring device showing the generated voltages. When measuring elongation with a The known device cannot be used for measuring accuracy t 0 / ovo.

The invention eliminates the above disadvantages of the known devices avoided. According to the invention, the measurement is made in each case by the difference in circulation path, whereby a certain length is given by a measuring roller. Another Training is corresponding to the measuring rollers each an equal number of evenly Circularly distributed markings assigned by which impulses are triggered, the difference of which is displayed as a measure of the elongation.

The advantages of the method according to the invention with other useful ones Formations are based on a schematically illustrated embodiment explained in more detail.

In the drawing, FIG. 1 shows the design and arrangement of the Rotational body, while FIG. 2 again shows the rotational body with the other Elements of the facility shows. The band to be lengthened is denoted by 1 and runs through the rollers 2, 3. In front of and behind the rollers 2, 3, d. H. so on the inelongated and elongated band 1, are two completely identical bodies of revolution 4, 5 arranged. These rotating bodies can be disks, drums or the like. The bodies are provided with an equal number of markings 6, for example Slots, holes, magnets or the like. Can be.

These markings are distributed in a circle on the bodies 4, 5. For the sake of clarity, the rotating bodies 4, 5 are in the drawing as Discs shown, which are provided with slots. But the bodies can too Be drums with the slots or holes arranged on the circumference. the Disks 4, 5 are driven directly by the rolling stock. The slits of the discs are illuminated in a suitable manner and, for example, when the discs are rotated scanned by photocells 7, 8, as can be seen from FIG. At the exit Each photocell 7, 8 is thus generated a pulse voltage, the number of pulses the same per revolution of the two disks and regardless of the belt speed is. The delimitation of a certain length of tape, the stitch length, takes place can be designated. When elongation occurs, the speed changes and with it also the number of pulses of disk 5 relative to disk 4 or 4 to 5 in relation the tape lengths. The difference between the pulse sums and a given one Tape length, when displayed, results in the elongation.

According to a further embodiment of the invention, the generated Pulses fed to a counter, in such a way that the difference of the Sum pulse that arises at the output of a superimposer 11, via an amplifier 12 and an Ererrer 13 and by means of a counter 14, which is used to display the relative elongation of the rolling stock is used, is counted. The counting takes place in pre- given counting sections that have a given tape length of the unlength rolled stock.

The dependency can of course also be swapped. For this purpose, for example, the disc 4 is provided with at least one control slot 9 provided, which is scanned by a further photocell 10. The generated impulse is given to a control counter 16 via an amplifier 15. The tax register 16 causes the counting amplifier 12 after a certain angle of rotation of the measuring roller or a certain adjustable number of revolutions of the disc 4, one for this proportional tape length, is blocked. By means of the photocell 10 generated pulse blocks the counting amplifier 12 only when the predetermined Tape length has run through, which corresponds to a specific counting section. With The amplifier 12 is thus terminated by the control counter 16 blocked. The value of the counter 14 is then fed to a storage device 17 and from this as a measured value of a display device 18. The transmission of the counter result from the counter 14 to the storage device 17 takes place by the action of a trigger pulse of the control counter 16 to the counter 14 at the end of the counting section.

In the exemplary embodiment, the new counting section begins when it arrives of the next control pulse 9 following the finished counting section, which is transmitted via the Control counter 16 resets the counter 14 to its original position and the Counting amplifier 12 releases. The value displayed by means of the display device 18 is changed after the end of a counting section according to the changed Corrected elongation.

The mode of operation of the counting device is briefly summarized again: The control counter 16 is set at the beginning of the measurement in such a way that the through the photocell 10 generated control pulses for a certain stitch length on the Amplifier 12 have no effect. There follows a count of those in the superimposer 11 resulting differential pulses in counter 14. Is the specified stitch length run through, then the control pulse assigned to this stitch length causes the Photocell 10 via the control counter 16 at the same time the amplifier 12 locks thus the counting is interrupted and the value Xom counter 14 is transferred to the storage device 17 passed and displayed by the device 18.

The control counter 16 can also have an automatically tilting back circuit be that after triggering the pulses for amplifier 12 and counter 14 again in the initial state tilts back. The transfer of the count value of 14 to the storage device 17 and display device 18 take place in a fraction of a revolution of the disk 4. With the next control pulse, which initiates the new counting section, the action prevents the same on the amplifier 12 again for the predetermined stitch length, since the control register 16 is already in the initial state. The repatriation of the counter 14 is in the zero position by the next control pulse causes. The counter can also be reset automatically by the Control counter 16 can be brought about by this, for example, after reaching the initial state generates a reset pulse for the counter.

PATENT CLAIMS: 1. Method of measuring elongation in motion located strip-shaped rolling stock by means of arranged before and after the rolling point Measuring rollers, which, taken along by the rolling stock, are a measure of their rotation difference result in the elongation, characterized in that the measurement is in each case by the difference in circulation path takes place, wherein a certain length is given by a measuring roller.

Claims (1)

2. Device for performing the method according to claim 1, characterized characterized in that the measuring rollers each have an equal number of uniformly circular distributed markings is assigned by which pulses are triggered, their Difference is displayed as a measure of the elongation. Considered publications: German Patent Specifications No. 918 996, 900 149, 621 409.