DE2952232A1 - MEASURING DEVICE FOR DETECTING THE GAP OF A WORKING ROLLER PAIR - Google Patents

Description

79 ^ 3-37 Bremen, the I9. December 1979

_ Sin / ka

United Flugtechnische Werke-Fokker Company with limited liability

Measuring device for detecting the gap in a pair of work rolls

The invention relates to a measuring device for detecting the gap of a work roller assembly with two over a common sanies swivel bearings attached to the roll stand and having sensors Lever rods on which a measuring device for generating an actual value signal for a roll gap control device is provided is.

In rolling mills, it is customary to regulate the strip thickness in order to achieve tight strip thickness tolerances. For this purpose, in addition to the solution of the dynamic requirements placed on such a control, a sufficiently fast actuating system and a detection of the controlled variable that is as delay-free as possible is required. For measuring the roll gap g - <. * There are a number of measuring devices in which two correspond: nde encoder parts measure the distance between the work rolls, without each other. stir, measure. The measurement itself can

be done with inductive, capacitive or other suitable measuring methods. But it looks like from DE-PS 19 31 known, meanwhile a clear trend in favor of inductive Measurement methods highlighted. The roll gap can be both through Detecting the absolute distance, as known from the aforementioned publication, as well as being measured and controlled by detecting the relative roll gap. The latter method works from DE-OS 22 24 909 emerges.

In addition to the above-mentioned measurement methods, DE-OS 25 30 a so-called stand-fixed roll gap measuring device is known. This roll gap measuring device consists of two with one common Swivel bearings on the roll stand arranged lever rods, which use sensors to scan the position of the work rolls. The measuring device consists of two non-contact transmitter parts, each arranged on a lever rod, which depend on the influence each other's distance and generate an analog electrical actual value signal. This roll gap measuring device has proven itself in use because, in addition to the achievable accuracy, the structure can cope with the rough rolling mill operation on the one hand and, on the other hand, this structure is also the one that is often required Roll change does not bother. Despite these very good properties is still unsatisfactory that this roll gap measuring device for a digital roll gap regulation is unsuitable. As in many Areas of technology, there is also a desire for digital control for roll gap control, but for this purpose digital roll- gap measuring devices are required.

The invention is therefore based on the object of providing a roll gap measuring device of the type mentioned in the introduction [.age is to record the roll gap both analogously and digitally. According to the invention, this object is achieved in that one of the lever rods has an actuator that is one on the other Lever rod arranged measuring arrangement adjusted slip-free.

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In a further development of the invention, it is expedient for the actuator the one lever t> t ange to train as a rack that is attached to a tensioned gear of an adjustment shaft on the other lever angt; arranged melie in the direction of combs. The rack can be equipped with a pull rope, preferably designed as a steel wire be connected, one side of which via a damping cylinder and a pulley to a connection point of the other lever rod leads and the other side via a pulley and a tensioning device with the lever rod carrying the measuring device connected is.

The invention is explained in more detail with reference to the accompanying drawing .

The drawing shows a side view of a roll gap measuring device, in which two lever rods 1, 2 are hinged to a common pivot bearing '3. The pivot bearing 3 has a Klanseh 4 for connection to a not shown whale zgcriist. To scan the roll position, the free ends of the lever rods 1, 2. are provided with movably connected coolers 5 »6, which are located on barrel ends 9» 10 of indicated work rolls 7, ύ. To press the sensors 5> 6 provided on the lever rods In 2, a pneumatic actuating cylinder 11 is provided, which is attached to the upper lever rod 2 in an articulated manner. The piston rod 13 of the piston 12 provided in the actuating cylinder 11 is also articulated, specifically connected to the lower lever rod 1. Both lever rods 1, 2 are provided with corresponding recesses to accommodate the adjusting cylinder 11.

A steel wire Ik serving as a pull rope, which is fastened at the level of the sensors 5, 6 to the upper lever rod 2 with known means, not shown in detail, leads over a deflector 15 provided at the same height on the lower lever rod 1

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and a damping and opann / y 1 ι nd »r Io / u t.im.r rack 17. From the other side this rack 1 ~ / is dt: r steel wire 14 over a pulley Id out to a tension spring Iy, the other side of which is firmly connected to the lever rod 1. The rack 17 is in one Rod guide 20 out of play and combs in a known manner play-free on a gear 21, which is on the adjustment shaft 22 of a Meiigebers 2 '} is seated. Free this measuring transducer 23 »for its installation corresponding recesses are provided in the lever rods 1, 2, both digital sensors and analog sensors, e.g. a Synchro, can be used. To protect the steel wire 14 iet between the pulley 15 and the connection point at the top Lever rod 2 is provided with a conical spring 25 and a bellows 24 striped over it, which is a sufficient safety measure for the preferably consisting of a thin spring wire with a thickness of approx. 0.2 to 0.3 mm Represent steel wire 14.

The rolling gap measuring device according to the invention is, as already, mentioned, able to record the roll gap both analogously and digitally. This only depends on the one used Transducer off. The transducer can also be arranged transversely in the lower lever rod 1 at the level of the deflecting roller I3 and can be adjusted using a suitably designed pull rope. The function of the pulley 15 is then shown in this potash is fulfilled by the drive wheel of the measuring transducer sitting on the setting shaft is thus from the sensors 51 *> the II «Ijc · 1st an / M η 1, 2 scans and over the always tensioned steel wire 14 and the rack 17 on the gear 21 of the encoder 23 are transmitted. Rapid fluctuations in the roll gap do not result in natural vibrations, as the Damping device 16 forwards roll gap changes damped to the transducer 23. The roll gap measuring device according to the invention detects the absolute roll gap without any loss of accuracy, which depends only on the accuracy of the transducer. Compared to Wa 1 / spa 1 tmeli devices with non-contact sensors This roll gap tmeiivor i rectification has the advantage of always with the same

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To measure sensitivity, which, for example, cannot be achieved with inductive or capacitive measuring methods due to the non-linearity of such measuring methods. The measure of the same sensitivity within the measuring range also facilitates the necessary calibration processes, since the zero point and the associated signal zero setting is easily possible by moving the working drum (s) together. In the roll gap measuring device according to the invention, the provided adjusting cylinder 11 is used to quickly move the lever rods 1, <d together or apart by applying pressure to one of the working spaces and thus facilitates the roll changes frequently required in rolling mills. When measuring, the adjusting cylinder 11 always ensures that the sensors 5 »6 rest securely on the barrel ends 9-10 of the work rolls 7» 'd and thus ensures perfect detection of the actual value signal for a roll gap control device. The use of a synchro in conjunction with a synchro-digital converter is particularly advantageous. This encoder system supplies an interference-insensitive, absolutely coded digital output signal that can be further processed in one.

Claims (7)

7923-37 Bremen, December 20, 1979 Sm / ka Vereinigte Flugtechnische Werke-Fokker limited liability company Patent claims 1.)) Measuring device for recording the gap of a work- pair of rollers with two lever rods attached to the roll stand via a common pivot bearing and having sensors, on which a measuring device for generating an actual value signal for a roll gap control device is provided is characterized in that one of the lever rods (2) has an actuator (14 »17), one on the other lever rod (l) Measuring device (23) adjusted without slippage. 2.) Meßvorr ichturig according to claim 1, characterized in that one of the lever rods (2) is a rack () 7), which is set on a tensioned gear (21) of a Linstellwelle (22) on the other lever rod (l) arranged measuring device (Z l) combs. 3.) Measuring device according to claim 1 or 2, characterized in that the rack (l7) for setting the measuring device (23) is connected to a pull rope (l4), one side of which has a damping and tensioning cylinder (l6) and a pulley (15) to a connection point of the other lift! > tange (2) and its other side over one. «Swivel castor (1H) and a tensioning device (19) on the lever rod (1) Ik Tt-Sl 1 uA carrying the measuring device (23). -Z- ORIGINAL INSPECTED 4 ·) measuring device according to claim .J, characterized geke η η - ν. ". I mean that a thin steel wire (14) is set for the pulling rope. 5.) A rivet device according to any one of claims 1 to 4 »characterized in that a digital value ε i GNU] t measurement value generating means is provided for the measuring device (2i). 6.) Moßvorrichtung according to any one of claims 1 to 4 »characterized in that the measuring device (23)"; in <. analog measuring device, preferably a synchro, is used. 7.) Measuring device according to one of the preceding claims, characterized in that the output signal of the synchro is fed to a computer of the digital roll gap control device via a synchro-digital converter,