DE19838283C1 - Calender roller for polishing paper web surfaces has an adjustable bend with a carrier which is rotated by 180o to give selective pressure zone settings against the calender counter rollers - Google Patents

Abstract

The roller with an adjustable bend, where different pressures are applied in zones to the rotating mantle, has a carrier (23) which can be rotated in relation to the fixed head section (32) between two operating settings, where the working direction of the mantle supports is varied by a shift angle. A rotary valve (44) is formed between the carrier (23) and the head section (32) which, in the first setting, links each of the channel sections (40,41) at the head side with a channel section (45-47) at the carrier side. In the second setting, another carrier channel section is linked. The control (51) has a change-over unit (53) which, in the second setting, alters the zonal assembly of the outlets (52) from the layout for the first setting. The rotary valve (44) is formed by a journal (43) at the carrier and a cylindrical drilling (42) to hold it at the head section (32). The head section (32) has connections (38) at the end side (37), linked to the cylindrical drilling (42) by an axial drilling (40) and a radial drilling (41). The carrier (23) shift angle is 180 deg , through rotation by a motor (35). The roller has at least four pressure zones or at least 10 zones. The head section (32) is prevented from rotating by a torque support (33), and a release lock (34) prevents carrier (23) rotation. The roller is placed between two counter rollers, to form two calender nips selectively between them. The carrier can have a third operating setting, where the rotary valve is linked to an additional channel section at the carrier side, while the change-over unit sets the zone assembly accordingly.

Description

The invention relates to a deflection adjusting roller with a rotatable jacket, this one penetrating carrier, held in rotation during operation, hydrostatic supporting the jacket on the support Support elements that are essentially in a row arranged along the carrier and in zones with under different pressure can be controlled, and one zone each assigned lines from the outputs of a Zo pressure regulating control unit to connection points on a headboard at the end of the beam and from there white ter inside the carrier to the associated zones to lead.

Such deflection adjustment rolls are general known, for example from WO 97/00384 A1. The headboard is rotatably connected to the carrier and instructs to be ner front side connection points for those of the exits towards the control unit, the number of zones speaking hose lines. Line sections  in the head part connect to the inside of the Carrier extending pipe sections. Often is the front wall of the headboard with the connection points separate for the hose lines from the rest of the carrier bar so that the roller can be replaced without that the hose lines are detached from their connections should be. In the known case there are therefore two turns slide plates provided from a first position in which the cable passage is given into a second position can be brought in which the lines are closed, so that there is a separation between can make these two rotary valve plates.

The invention has for its object a bend adjustment roller of the type described above specify which offers new applications.

This object is achieved in that the carrier relative to the non-rotatable head part a first rotatable into a second operating position is in which the direction of action of the support elements by one Offset angle is changed between the beam and Head part of a rotary valve is formed, which each of the head section side line sections in the first Be drive position with a cable end on the carrier side cut and in the second operating position with a connects other carrier-side line section, and that the control unit has a converter which in the second operating position the zone assignment of the outputs changes compared to the first operating position.

From DE 689 15 705 T2 it is known that in operation non-rotatable carrier from a first into a second operating position to twist to this Wei se in a device for winding a paper orbit the direction of action of the support elements by a ver change angle of set and in this way the deflection change the winding drum. The support elements are designed as piston-cylinder units.

It is also known from DE 29 09 277 C2 to remove the carrier to leave a first in a second operating position like to see the direction of action of the Lei most trained support element to change.  

The deflection adjustment roller can therefore be divided into two drive positions with different directions of action of the hydrostatic support elements work. The change the support direction does not require separation of the Hose lines and subsequent clamping. Rather, with the help of the rotary valve and the order setters in the control unit ensures that also in the second operating position of each zone pre-selected for them see pressure is supplied.

A deflection adjustment roller according to the invention stands in contrast to deflection adjustment rollers according to DE 35 16 535 C2, in which two rows of hydrostatic Support elements are provided. Here there is Possibility to choose one or the other support load more heavily on the row of elements in order to Change the effective direction of the support elements by 180 °. Man but requires twice the number of lines to the individual zones, which is often due to space problems fails.

It is particularly favorable that the rotary valve through a pin on the carrier and a receiving cylinder the bore is formed on the head part. Cones and cylin drilling can be easily made and is easy to handle poetry.

It is recommended that the head part on his Front carries the connection points and each through an axial bore and a radial bore with the Cylinder bore are connected. Manufacturing too the cables in the head part therefore do not cause any problems difficulties.  

It is particularly recommended that the offset angle Is 180 °. This is for the deflection application adjustment roller and for the distribution of the lines sections on the rotary valve particularly cheap.

It is advantageous that at least four zones are pre-selected hen are. However, it is better to have larger zones number and at least ten zones allowed light a sensitive adjustment to the one to be treated Train. The number of zones is only by the through knife of the rotary valve limited.

It is also advantageous that the head part by means of a Torque arm is secured against rotation and one releasable locking device to prevent rotation of the carrier points. In this way, both the head are in operation part and the carrier secured against rotation.

Also recommended is an engine that allows the Trä is rotated by the offset angle. This is enough a relatively small torque.

In a preferred embodiment, ge ensures that the deflection adjustment roller between two Counter rolls is arranged and optionally with one or other counter roll forms a calender nip. At for example, the deflection adjustment roller in the first operating position with a calender ken and a full satinage of a paper web and in the second operating position with a single one Interact roller and create a matt satin, as in the unpublished DE 198 32 064 is described.  

It is also advantageous that the carrier has at least one third operating position in which the rotary valve each of the head section-side line sections with a connects another line section on the carrier and the translator changes the zones accordingly order of the outputs. Such a roller is suitable for example for a stamping calender with more as two optional embossing rollers.

The invention is based on one in the Preferred embodiment shown in the drawing described in more detail. Show here:

Fig. 1 is a schematic representation of the Durchbie gungseinstellwalze in conjunction with other rolls,

Fig. 2 is an end view from the left on the head part of the deflection roll,

Fig. 3 is a partial longitudinal section along the line AB in Fig. 2 and

Fig. 4 is a schematic representation of a Prägeka lander.

A deflection adjustment roller 20 has a jacket 21 which is supported by means of hydrostatic support elements 22 on a carrier 23 which is held in a rotationally fixed manner during operation. The support elements 22 can have any known shape, for example be designed as a support piston or as sealed fields between the carrier 23 and the jacket 21 . Spread over the length of the roller, there are ten zones in which the support elements can be subjected to different pressures.

It is essentially just a row of support elements intended. That means that on the opposite the page preferably none or at most very few hydrostatic support elements are available.

It is important for the invention that the carrier 23 can be rotated about its own axis by an offset angle 24 from a first operating position, as shown fully drawn in FIG. 1, so that the support elements 22 have the shape 22 'shown in broken lines. can take. In the first operating position, the deflection adjustment roller 20 , which bears an elastic reference, cooperates with a hard counter roller 25 , which is part of a calender 26 , which has elastic and hard rollers 27, among other things, and which enables the full satinization of a paper web. If you open the nip 28 between deflection adjustment roller 20 and counter roller 25 , rotates the carrier 23 by 180 ° and closes the gap 29 between the deflection adjustment roller 20 and the lower also an ela tical reference counter roller 30 , so you can a paper web in a single nip treat and achieve a satin finish.

An end piece 31 of the carrier is surrounded by a head part 32 which is secured against rotation by means of a torque support 33 . After releasing a lock 34 , the carrier 23 in the head part 32 can be rotated through 180 ° by means of a motor 35 and a gear 36, which is only indicated. On the end face 37 of the head part are the connection points 38 for hose lines 39 . The connection points 38 continue as axial channels 40 and radial channels 41 and open into a cylinder bore 42nd Together with a pin 43 , which is inserted into the end piece 31 of the carrier 23 , this forms a rotary slide 44 . The pin 43 has outgoing radial bores 45 and subsequent axial bores 46 , which merge into a pipe 47 and lead to the associated zone. The pin 43 and the pipes 47 are combined with the aid of a clamping screw 48 to form a unit which can be inserted into the carrier 23 .

Furthermore, the head part 32 encloses a drain chamber 49 , via which oil can drain from the interior between the jacket 21 and the carrier 23 in the direction of the arrow 50 .

A control unit 51 has outputs 52 , each of which is connected to a connection point 38 on the end face of the head part 32 via a hose assembly. In the present example there are ten zones and therefore ten connection points 38 and ten exits 52 . In the first operating state, as shown, it is assumed that the top terminal 38 of zone 10 and then clockwise the terminals 38 are assigned to zones 8 , 2 , 3 , 5 , 9 , 7 , 1 , 4 and 6 . This results in a wall-free control for support elements which are oriented vertically upwards in the example below.

If the carrier 23 is now rotated into the second operating state, then the conditions between the fixed connection points 38 on the head part 32 and the associated zones shift. Since the offset angle is 180 °, the respectively opposite connections to zones 1 to 10 are connected as indicated by the designations in brackets in FIG. 2.

In order to nevertheless achieve perfect control, the control unit 51 is provided with a converter 53 which, by means of an internal calculation or the like, ensures that the pressures at the outputs 52 are programmed differently. In such a way that zones 9 , 7 , 1 , 4 , 6 , 10 , 8 , 2 , 3 and 5 of the exits 52 are now provided - again beginning at the top and rotating clockwise.

The great advantage of this construction is that a change in the operating position of the carrier before can be taken without uncoupling the lines and would have to be coupled again.

The deflection adjustment roller is particularly suitable for the treatment of paper webs, but also comes for the treatment of sheets of cardboard, cardboard, tex tilmaterial, fiber fleece, plastic films and the like into consideration.

In Fig. 4, an embossing calender is schematically illustrated, in which three embossing rollers 60 , 61 , 62 are provided, which can optionally be placed against the central roller 63 designed according to the invention, in order to pass a continuous web, e.g. B. from plastic film, to provide un different embossing patterns. The carrier 64 therefore has three operating positions, which are each set at 90 ° and in which the support elements 65 each face the active embossing roller. In this case, the number of zones should be divisible by 4, so that the rotary valve can make the appropriate line connections in all three operating positions. The converter 53 of the control device 51 can control the outputs in three different zone assignments, so that the correct pressure supply of the individual zones is ensured in every operating position.

The embodiment shown can be varied in many respects without departing from the basic idea of the invention. Sometimes smaller offset angles 24 , for example 60 °, also come into consideration. Embossing calenders, which have only two embossing rollers, where the carrier of the roller according to the invention has only two operating positions, can also be used.

Claims (10)

1. Deflection adjusting roller with a rotatable Man tel, a penetrating, in operation rotatably held carrier, the jacket on the carrier supporting hydrostatic support elements, which are arranged essentially in a row along the carrier and can be controlled zone by zone with different pressure, and each a zone assigned lines which lead from the outputs of a control unit which defines the zone pressures to connection points at a head part at the end of the support and from there further in the interior of the support to the associated zones, characterized in that the support ( 23 ) is fixed relative to the rotation held head part ( 32 ) from a first into a second operating position is rotatable, in which the direction of action of the Stützele elements ( 22 ) by an offset angle ( 24 ) is changed that between the carrier ( 23 ) and head part ( 32 ), a rotary valve ( 44 ) is formed, which each of the head-side line sections ( 40 , 41 ) in which he Most operating position with a carrier-side line section ( 45 , 46 , 47 ) and in the second operating position with another carrier-side line section connects, and that the Steuerge advises ( 51 ) has a converter ( 53 ) which, in the second operating position, the zone assignment of Outputs ( 52 ) changes compared to the first operating position. 2. Roller according to claim 1, characterized in that the rotary slide valve ( 44 ) is formed by a pin ( 43 ) on the carrier and a cylinder bore ( 42 ) receiving it on the head part ( 32 ). 3. Roller according to claim 2, characterized in that the head part ( 32 ) on its end face ( 37 ) carries the connection points ( 38 ) and each through an axial bore ( 40 ) and a radial bore ( 41 ) with the cylinder bore ( 42 ) are connected. 4. Roller according to one of claims 1 to 3, characterized in that the offset angle ( 24 ) carries 180 ° be. 5. Roller according to one of claims 1 to 4, characterized ge indicates that at least four zones are provided are. 6. Roller according to one of claims 1 to 5, characterized ge indicates that at least ten zones are provided are. 7. Roller according to one of claims 1 to 6, characterized in that the head part ( 32 ) is secured against rotation by means of a torque support ( 33 ) and has a releasable locking means ( 34 ) for securing the support ( 23 ) against rotation. 8. Roller according to one of claims 1 to 7, characterized by a motor ( 35 ) by which the carrier ( 23 ) is rotated by the offset angle ( 34 ). 9. Roller according to one of claims 1 to 8, characterized in that it is arranged between two counter-rollers ( 25 , 30 ) and optionally forms a calender nip ( 28 , 29 ) with one or the other counter-roller. 10. Roller according to one of claims 1 to 9, characterized in that the carrier ( 64 ) has at least ei ne third operating position, in which the rotary slide connects each of the head section-side line sections with a further support-side line section and the converter a corresponding change assigns the zones to the outputs.