EP1225141A2 - Method and device for continuosly winding a fibrous material web - Google Patents

Abstract

The method for continuously winding a web (P) of tissue on to a drum (1) comprises feeding it over a support roller (4) before winding. The pressure in the nip between the support roller and drum is measured using a device (10) in the drum mounting arm. An Independent claim is included for a device for carrying out the method.

Description

The invention relates to a method and a device for continuous Winding up a fibrous web, in particular paper web, for example tissue web, the web being guided over a carrying drum and subsequently on a winding device is wound up.

Such methods and devices are used in the production of paper webs known for a long time. A disadvantage of the known devices is that either the contact pressure of the drum on the support roller is such that the Drum is driven by the force generated by friction, or when a separate drive of the reel is provided, the contact pressure can not be set exactly because there are too many places where not calculable losses e.g. caused by friction. The given pressure, the is set in the pressure cylinders, therefore does not define the actual Contact force between the drum and drum. Especially with tissue paper with high volume, a low contact pressure is desirable to the high volume not to be destroyed again by the contact pressure. With the previous ones conventional devices, however, the contact pressure can only be set inaccurately and the losses due to friction in the mechanical parts are already above that necessary contact pressure, so that an exact regulation cannot take place. Due to uneven contact forces in the primary arm and in the secondary arm, the Paper quality is not constant at conventional facilities must be kept and it usually has to be the beginning of the paper web as scrap to be led back.

The aim of the invention is therefore to propose a method and a device, in which good controllability during the entire winding process is given.

The invention is therefore characterized in that the contact pressure in the nip between drum (winding shaft) and carrier drum during the entire Winding process is measured lossless. Through the lossless measurement the exact contact pressure can always be determined and continuously adjusted.

This applies in particular to the transition from the primary arm to the secondary arm.

An advantageous development of the invention is characterized in that the measurement result of the contact pressure for regulation to a desired contact force is used. A low contact pressure can also be set in this way become.

An advantageous embodiment of the invention is characterized in that a linear guide is provided and the pressure force and the travel via an in integrated measuring system regulating the contact pressure generating pressure cylinders becomes.

A favorable development of the invention is characterized in that the Pressure force is continuously adapted to the changing contact pressure. This can result in a low contact pressure and subsequently maintenance of the volume can be achieved especially from high-volume tissue paper.

The invention also relates to a device for carrying out the method with a carrying drum and a drum, which is characterized in that the Drum is stored in the primary arm with force measuring devices. So that becomes a direct and loss-free measurement of the contact pressure possible, including one ensures uniform paper quality over the entire winding process can be.

An advantageous development of the invention is characterized in that the reel is slidably supported by cylinders using roller bearings. In order to can continuously adjust the contact pressure during the whole Winding process can be guaranteed.

A favorable embodiment of the invention is characterized in that the Force measuring device is integrated in the cylinder. This is a compact design of the primary arm possible.

A favorable development of the invention is characterized in that the Drum in a horizontally displaceable holding device on force measuring devices is stored. By combining force measuring devices in the Primary arm and in the secondary arm (sliding holding device) is one constant pressure of the drum against the drum during the guaranteed throughout the winding process. This then leads to a constant Quality of the paper from the very first moment it is rolled up. The committee can therefore be reduced to a minimum (e.g. glue points).

The invention will now be described by way of example with reference to the drawings, wherein Fig. 1 shows a system according to the invention, Fig. 2 shows a section of Fig. 1 and

Fig. 3 shows a section along line III-III in Fig. 2.

The mode of operation of the device will now be described with reference to FIG. 1. The The winding shaft (drum) 1 is inserted into the primary arm 3 via a lowering device 2 inserted and clamped hydraulically vertically above the support drum 4. On the driver's side FS is a geared motor 6, which is on a plate in the axial direction is slidably mounted. This is with the winding shaft 1 coupled to bring them to machine speed.

The primary arm 3 is now by means of a pivoting device 7 as long as Axis of the support drum 4 rotated until the winding shaft 1 touches it. there takes over the winding shaft 1 with the help of a suitable device Paper web P in full width and starts winding it up and enlarges it their diameter. The required contact pressure between winding shaft 1 and

Carrier drum 4 is connected to hydraulic cylinders 8, which have a force measuring device 10 are equipped, applied and regulated. Thereby the Compensation for the weight of the winding shaft 1 is taken into account. The primary arm 3 is now pivoted further about the axis of the support drum 4 until the winding shaft 1 comes into a horizontal position. The thickness of the paper roll increases continuously up to a maximum of 350 mm. The outer part of the primary arm 3 moves telescopes outwards. It is guided on roller bearings 9 to the To keep the influence of friction on the nip force as low as possible. The paper wrap is placed on a horizontally displaceable holding device 11 and clamped. The holding device 11 consists of a receiving part 12 with two hydraulically operated clamping levers 13, 14 and sits on a force measuring device 16 which in turn is mounted on the sliding part 17. The entire unit is also called the secondary arm. On the drive side is an in Axial direction movable gear motor with the holding device 11 connected. As soon as the paper wrap is in a horizontal position, this drive coupled on the drive side to the winding shaft 1 and the drive 6 in Primary arm 3 disengaged. During the further winding process, the Secondary arm the horizontal nip force A (contact pressure between drum 1 and Carrier roller 4) via a hydraulic cylinder 19 on the driver side and drive side generated and regulated via the force measuring devices 16.

During the further winding process in the secondary arm 3 in the primary arm next winding shaft 1 prepared. Once the paper wrap is the size you want has reached, it is pulled away from the carrying drum 4, the new winding shaft 1 in the primary arm 3 in the winding position on the support drum 4 and the full paper web P taken over. After ejecting the finished roll of paper from the secondary arm this moves again to the carrying drum 4 and takes over then the new winding shaft 1 from the primary arm 3. The force measuring devices 16 are designed in such a way that they only apply those actually applied Detect horizontal forces in the nip between drum 1 and carrier drum 4.

Vertical components from the drives or from the changed dead weight of the paper roll does not affect the measured values. The measured value signals acquired control the movement of the two hydraulic cylinders 19, so that It is ensured that the secondary arms on the driver's side and

Drive side and a preselected nip force curve (constant or variable) via the entire winding process is secured. The sliding part 17 of the secondary arm is mounted on horizontally running support rollers 21, in order here too To keep the influence of friction low.

FIG. 2 shows a detail from FIG. 1, which represents the primary arm 3. Here is the Position of the winding shaft (drum) 1 shown, in which the drive 6, the winding shaft 1 takes over. During the wrapping process, the entire primary arm is in Direction of rotation of the support drum 4 pivoted. The winding roll 1 is through unrolled a backdrop 23 with the aid of a roller 24 along a guide plate 25 and thus approaches the surface of the carrier drum 4. At the moment of Contact of the winding roll 1 with the support drum 4, the paper is torn off and on the, with the same peripheral speed as the carrier drum 4, running winding shaft 1 immediately further wound. By the force measuring device 10 is the contact pressure of the winding shaft 1 and the support drum 4 and also the travel of the cylinder 8 measured and accordingly regulated. By storing the primary arm on the roller bearings 9 can be a lossless shift and therefore also a continuous one Adjustment of the contact pressure even with the smallest contact pressures (up to at least 0.1 N / mm) can be guaranteed. The winding process continues, until the horizontal position is reached. There the winding shaft 1 is connected to the force measuring devices 16 passed in the holding device 11, so that the Drum 1 during the entire reeling process, on force measuring devices is stored, with a uniform paper quality over the entire Winding process can be guaranteed. This is especially with high volume Tissue papers desirable.

Fig. 3 now shows a section in Fig. 2 along line III-III. You can clearly see them here Storage of the primary arm 3 by means of the roller bearing 9 and the pressure cylinder, the performs the telescopic movement.

Claims (8)

Process for the continuous winding of a fibrous web, in particular paper, for example tissue web, the web being guided over a carrying drum and subsequently wound on a winding device, characterized in that the contact pressure in the nip between the drum and carrying drum is measured without loss during the entire winding process , A method according to claim 1, characterized in that the measurement result of the contact pressure is used to control a desired contact pressure. A method according to claim 2, characterized in that a linear guide is provided and the pressure force in the pressure cylinder generating the contact pressure is regulated. A method according to claim 3, characterized in that the pressure force is continuously adapted to the changing pressure force. Device for carrying out the method, with a carrying drum (4) and a drum (1), characterized in that the drum (1) is mounted in the primary arm (3) with force measuring devices (10). Apparatus according to claim 5, characterized in that the drum (1) is mounted displaceably by means of cylinders (8) by means of roller bearings (9). Apparatus according to claim 5 or 6, characterized in that the force measuring device (10) is integrated in the cylinder (8). Device according to one of claims 5 to 7, characterized in that the drum (1) is mounted in a horizontally displaceable holding device (11) on force measuring devices (16).

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