DE1126489B - Multi-motor drive for processing continuous webs - Google Patents

Description

Multi-motor drive for processing continuous webs For the Processing of continuous webs, such as in paper machines, are Synchronous drives known, with the help of which a number of rollers over which the Continuous path runs, kept in a mostly relative synchronism with each other will. It is usually the case, for example, in the course of the run the last roller serves as a guide roller and the one to be conveyed by the tension in the Web provides a certain amount of work, while the other rollers only provide a smaller one Have to deliver energy share, roughly in the way that in the individual fields between the rollers - each time a certain prescribed tension is exerted on the web will. By a synchronization control, for example with the help of electrical Waves is carried out, it is ensured that the individual motors stay in the set speed ratio, depending on the work process the speeds of the individual motors are not the same as one another, but rather, can be adjusted to a certain ratio. This is in the control equipment a possibility for a ratio adjustment is provided.

The invention relates to such a multi-motor drive for machining continuous paths with regulation on relative synchronism.

With drives of this type, if the web breaks, a considerable amount occurs Shift in the loads on each drive, creating undesirable Changes in their advance speed can occur.

According to the invention, a substantial improvement can be made for drives of this type can be achieved in that, depending on the condition of the tape, e.g. B. from the web tension, an additional influence on the manipulated variable in the individual fields the associated controller is provided in such a way that in the event of significant changes the tensile stress, especially when the web breaks, the load on the respective Propulsion without changing the speed of the same to restore the tensile stress will be changed. This can be done, for example, in such a way that the mechanical Tension of the web 'detected in the individual fields with the help of sensors is, so that with a substantial decrease or loss of tensile stress in one such a field of the sensor a switching element is adjusted, whereby an additional Influence on the control device is given. .

If for controlling the synchronization between the regulating device and electrical shafts are arranged for the individual motors and the guide unit, which are designed as three-phase machines, with the encoder in the control device is provided with a rotor, which in this one of the desired speed corresponding speed is driven so that in the electrical connection Alternating current is transmitted with a corresponding frequency, the additional takes place Influencing according to the invention with advantage .by the fact that the stator of the speed or rotary field encoder is additionally driven with an auxiliary speed. For many Applications, it is sufficient here if the auxiliary motor that is responsible for these stator rotations is determined when the tensile stress is removed by the switch controlled by the sensor is switched on and then continuously or briefly at a preset speed runs. However, an additional adjustment can also be made during operation take place at such a speed.

The twisting of the stator causes the in the electric shaft transmitted frequency changed, which makes it possible to use the corresponding motor so that it can be influenced by the elimination of the mechanical train due to the increase in load, it continues to run at the same speed.

An embodiment of the invention is described below with reference to discussed two figures.

In Fig. 1, the almost dried paper or cardboard web is through the machine groups 1 and 2 out and rolled up by a retractor 3 under tension. - To avoid wrinkling, the length of fabric must be between and within the Groups are kept under tension (tension). Occurs z. B. between 2 and 3 a tear-off, then the motor 5 of group 2 must do that for the paper tension P apply the necessary torque P - D / 2. The load on the motor must be via the synchronizer 10 can be changed without changing the speed of the motor as before.

If this voltage is denoted by P, then the drive motor 6 of the reel-up 3 must apply a torque of Md = Mo + P -D / 2, where Mo is the torque to be applied when the paper is tensioned O and D is the roller diameter. Motors 5 and 4 of machine groups 2 and 1 only cover the torque resulting from paper tension O.

The stand of the remote lathe operator 12 is hereby coupled to an adjusting motor 13. This motor is connected on the one hand to the tap of the synchronizer 10 and on the other hand is led to a switch 18 via a switch 17. The switches 17, 18 are influenced by a sensor 14, 15, 16 . When the sensor drops, the switch 17 is opened in the same field and the motor 13 is connected to voltage via the switch 18 in the adjacent field via the tap 27 of the potentiometer 19 so that it runs at a speed corresponding to the settings of the two potentiometers and accordingly the stand of the remote lathe operator 12 is adjusted. A pushbutton switch is also denoted by 20, with the aid of which the adjusting motor can be switched on by hand, which, for example, enables the slack to be caught up when the web is inserted.

The setting of the correct paper or cardboard tension and the synchronization is done as follows: Each subsequent group is set to an advance of about 0.5 to 2.1 / a required for drawing in using the existing belt adjusters. Before the paper or cardboard web is introduced, the taps 28 of the potentiometers 19 are set so that the voltage meters 33 indicate the voltage zero. The potentiometer position 28 then corresponds to the position of the synchronizer when the group is loaded without paper tension. B. drawn at 2, so on at tighter track and full-width of the sensing lever 15 of the switch 17. Since the lever 16 is still not raised, the adjustment motor 13 is located in a bridge circuit between the tap of the constant velocity plate 10 and 27, the potentiometer tap Motor 13 is switched in such a way that it turns the synchronizer into the position corresponding to the potentiometer tap. The desired paper tension can be set by moving the tap 27. If the web is taken over by the reel-up 3, the sensing lever 16 is raised with a tight web and full web width between 2 and 3, and the servomotor is connected to tap 28 of the potentiometer 19 from the drive 5 via contact 18. The load on the motor is reduced according to the setting made above. The paper tension is set by adjusting the potentiometer 19 from the drive 6. In Fig. 2 an embodiment is shown in which the machines are equipped with dancer rollers 30, 31, 32, with the help of which an automatic paper tension regulation can be carried out.

The setpoint adjustment of the paper or cardboard tension is then carried out Via the setpoint potentiometer 19, which is connected to the adjusting motor 13 or 24 in a bridge circuit to the actual value potentiometer 29 actuated by the sensing roller. The feeler lever 14, 15, 16 in connection with switch 17 switches the paper tension control afterwards The full width of the web is drawn in automatically.

Claims (6)

PATENT CLAIMS: 1. Multi-motor drive for processing continuous Orbits, with regulation on relative synchronism, characterized in that, for. B. an additional influence depending on the web tension in the individual fields the manipulated variable of the associated controller is provided in such a way that when essential Changes in tensile stress, especially when the web breaks, the stress on the respective advance without changing the speed of the same to restore the tensile stress will be changed. 2. Drive .nach claim 1, characterized in that in the individual Fields sensors are provided, with the help of which the mechanical tensile stress of the Railway is detected and the significant changes, especially lowering of the Tensile stress, move an adjusting member, which in turn has an additional influence causes on the control device of the adjacent field. 3. Drive according to claim 1 or 2, where between the motors and the control unit from three-phase machines existing electrical waves are switched, characterized in that the as The three-phase machine used for the encoder is designed with a rotatable stand, for the purpose of additional influencing on its part with an auxiliary speed is driven. 4. Drive according to claim 1 to 3, characterized in that in the devices for regulating the relative synchronism elements, in particular Belt adjuster, are arranged, with the help of which is adapted to the work process low speed difference can be set. 5. Drive according to claim 1 to 4, characterized in that the additional influence by an adjustment takes place on fixed, preselected setpoints. 6. Drive according to claim 1 to 5, characterized characterized that the influence via amplifiers, in particular magnetic amplifiers, he follows. Publications considered: Zeitschrift "Elektrotechnik", booklet 11, 1954, p.400 and 401; "Brown-Boveri-Mitteilungen", Hefts, 1954, pp.168 to 176.