DE1912392A1 - Mechanical-electrical device for monitoring the parallel adjustment of the rolls of a calender - Google Patents

Description

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Hermann Beratorff Maschinenbau GmbH., 3 Hannover-Kleefeld, An der Breiten Wiese 3/5

Mechanical-electrical device for monitoring the parallel adjustment of the rolls of a calender

The invention relates to a mechanical-electrical device for monitoring the parallel adjustment in rolls a calender or other machine with similar devices, their rolls or devices with the help of two each laterally arranged adjusting gear ^ consisting of motor, gear and motion spindles, can be moved together or apart, with each adjustment mechanism being independent of the other is to be switched.

For the production of rolling stock (textile, paper, plastic, rubber , etc.) with biokines that differ from case to case, such devices are used for adjusting the nips

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necessary. This setting must be made in parallel, because otherwise the calendered material will have uneven thicknesses. About that In addition, if the roller gap is not set parallel to the roller bearings, edge pressure occurs, which leads to bearing damage and ultimately lead to roll neck breakage. An exchange of bearings and rollers is due to the new acquisition and production downtime is associated with considerable costs.

^{The so-called "electric shaft 11" is} known to meet the requirements of achieving parallelism using two adjusting devices. Here, two motors are switched on and off together via a switch within the movement spindles as well as deviating degrees of efficiency of the adjustment gears influence the motor speed and prevent the motors from running completely synchronously. This circumstance becomes noticeable in the form of speed deviations, especially when the motors are switched several times, and leads to the aforementioned non-parallelism of the roller gap and to operational malfunctions Installation of switches that enable the motors to be started up separately and thus a correction, it is still necessary to check the roller gap for parallelism at certain time intervals, also with the help of counters that are sent to each adjustment l device are coupled, the speed deviations can only be determined, but not prevented, unless they would keep the engine speeds synchronized with considerable electronic effort.

It is also known to drive two transmissions via a continuous shaft with just a single motor. For purposes of correction, a clutch is provided between the gears. However, this setup requires considerable manual labor.

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The invention is based on the clear recognition and elimination of the proposed solutions belonging to the prior art. The invention is characterized in that a switching element is connected to the two worm shafts of the worm gear is, which deflects against a contact with a previously determinable speed deviation of both shafts and both adjusting motors blocked in such a way that only a change in the direction of rotation of the motors is possible through parallel or individual switching » whereby the speed deviation can be corrected.

Compartment of a first embodiment of the invention possesses the switching element designed as a switching sleeve has a threaded bore into which a threaded pin of one shaft engages ! in such a way that the shift sleeve is moved in one or the other switching direction.

According to a further practical form of implementation of the inventive concept, the switching element is designed in two parts, wherein the part firmly connected to the one shaft has a pin which frictionally engages against a wedge surface of the other part applies in such a way that in the event of a speed deviation of the shafts, one part of the switching element moves in the holding direction will.

Due to the design according to the invention, the deviation from the once set parallelism of the roll gap are kept in predetermined sizes without the need for complicated and failure-prone devices. Besides Damage to the roller bearings due to non-parallel adjustment is perfectly prevented by the invention.

Two exemplary embodiments of the invention are explained in somewhat greater detail in the drawing. In this show in a purely schematic manner

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Pig. 1 is a view of a first embodiment the device according to the invention

Fig. 2 is a view of a second embodiment of the device according to the invention.

With 1, 2 are the two rolls of a two-roll calender denotes, of which the upper roller 2 can be raised and lowered. The invention is based on the two-roll calender of course not restricted | rather, it can can also be used advantageously in multi-roll calenders and all similarly operating devices and machines.

The upper roller 2 is raised and lowered via threaded spindles 3, 4, which via worm gears 5, 6 and adjusting motors 7, 8 are rotatable. The threaded spindles 3, 4, act directly on the two bearings of the roller 2. By raising or lowering these two accordingly The roller 2 can be adjusted relative to the lower roller 1 by bearings so that the nip and thus the wall thickness of the film or plate can be changed.

To adjust the upper roller 2 evenly, the two adjusting motors 7, 8 must run at synchronous speed, which, based on experience, cannot always be achieved for the reasons mentioned at the beginning.

D _u rch the inventive measure, 8 are blocked so on reaching a predeterminable speed deviation of the screw shafts 9, 1o, the two adjustment motors 7 that only a change in direction of the motors is possible by parallel or Einzelsohaltung can be corrected so that the speed deviation. For this purpose, the embodiment shown in Fig. 1 of the drawing is a sleeve-shaped

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Switching element 11 is provided which is connected to one worm shaft 9 so as to be displaceable in the axial direction. This happens at the embodiment shown in Fig. 1 of the drawing by means of a length compensation 9a in the form of a splined shaft. The sleeve-shaped Switching element 11 has a threaded bore 11a into which a threaded pin 1oa of a shaft 1o engages.

With 12, 13 switching contacts are referred to, which cooperate with the switching element 11 so that when the contact closes both adjusting motors 7, 8 are blocked so that only a change in the direction of rotation of the motors by parallel or individual connection is possible, whereby the speed deviation can be corrected.

When the speed of the shaft 1o is greater than the speed of the shaft 9, so that the adjusting motor 8 runs faster than the adjusting motor 7, the threaded pin 1oa screws into the threaded hole 11a, with the result that the Sohaltglied 11 is moved to the right in the drawing until it rests against the switch contact 13 and thereby both adjustment motors blocked so that only nooh change the direction of rotation The motors can be held in parallel or individually, whereby the speed deviation is corrected.

If, on the other hand, the adjusting motor 7 runs faster than the adjusting motor 8, the holding element 11 is screwed off the threaded pin 1oa from, so that this Sohaltglied 11 is moved to the left in the drawing until it hits the switch contact 12 strikes. In this case too, both adjusting motors 7 »8 are blocked, as mentioned above.

In the embodiment according to FIG. 2 of the drawing, the switching element 14 is designed in two parts, the two dents being denoted by the reference numerals Ha ₁ Ub. Here is the

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Connection of the worm shaft 9 with the part Ha is designed as a spring 15, so that this part 14a is within limits in the axial direction is adjustable.

The part 14b- has a pin 14c with a Wedge surface 14d of part 14a is in a force-locking connection.

16 with a switching contact is referred to, which cooperates with the part 14a of the switching element 14.

The speed of the shaft outweighs 1o compared to that of the shaft 9, the pin 14c acting as a driver moves the part 14a of the switching element 14 in the drawing left, until this part 14a rests against the switching contact 16. The consequence of this contact is that the adjusting motors, as already mentioned, are blocked.

Even if the speed of the shaft 9 predominates over that of the shaft 1o, the part 14a of the switching element 14 becomes Moved to the left in the drawing, since the relative movement of the part 14a with respect to the part 14b of the pin 14c on the Wedge surface 14d exerts a compressive force. After the part 14a has been placed on the switching contact 16, both adjusting motors, switched as described above.

- patent claims -

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Claims (4)

Claims . 1.yMechanical-electrical device for monitoring the Parallel adjustment for rolls on calenders and others. Machines with similar facilities, their rollers with Can be moved together or apart with the help of two laterally arranged adjusting motors and worm gears, characterized in that with the two worm shafts (9 »10) of the worm gear (5> 6) a switching element (11, 14) is connected to a previously determinable difference in the speed of the shafts (9, 10) of the worm gear (5, 6) by stopping against a contact (12, 13, 16) both adjusting motors (7, 8) blocked so that a change in the direction of rotation of the motors by parallel or Individual switching and thus a correction of the speed deviation is possible. 2. Calender according to claim 1, characterized in that the switching element (11, 14) with the a shaft (9) of the worm gear (5) is connected to be axially displaceable. 3. Calender according to claim 1 and 2, characterized that the switching element (11) designed as a switching sleeve has a threaded hole (11a), in which a threaded pin (10a) of a shaft (10) engages in such a way that at a difference in the speeds of the Waves (9, 10 ″) the switching element (11) is moved in one or the other switching direction. 4. Calender according to Claims 1 and 2, characterized in that the switching element (14) is constructed in two parts is, and that with the one shaft (10) firmly connected part (14b) has a pin (14c) which rests against a wedge surface (14d) of the other part (14a) in a non-positive manner in such a way that when there is a difference in speeds of the shafts (9, 10) of which one part (14a) of the switching element (14) is moved in the switching direction. 009838/1193