EP1424439A1 - Extended nip press and roll mantle for such a calender - Google Patents

Abstract

The casing (2) in the region of the pressure shoe (5), has a greater diameter (D) than at its axial ends (12).

Description

The invention relates to a wide nip calender with a encircling jacket that together with a counter pressure element forms a wide nip, the coat by a pressure shoe in the direction of the counter pressure element is resilient. The invention further relates to a jacket for a wide nip calender with a Press section that has a smaller axial length than the roller shell has.

Such a wide nip calender is mainly used used to satinize a paper or cardboard web, i.e. with increased pressure and usually also with an elevated temperature. The Breitnip has opposite the nip that is between two rollers is formed, a comparatively longer machining length, i.e. the paper or cardboard web is in a longer period with the necessary for the satin Parameters applied. So that's it, for example possible to reduce the compressive stresses hold as in a nip that is formed between two rollers is. This enables it to be compared similar surface properties a volume-saving Satination.

To ensure the required machining length in the wide nip To be able to, it is necessary to have the coat over a predetermined angular range on the circumference of the Letting the pressure element rest when the pressure element is designed as a roller. If the back pressure element is formed as a circumferential band that arranges on a pressure element, it is also necessary the jacket from its circular cross-sectional shape herauszubiegen. The necessary for this The cladding is subjected to deformation energy.

The back pressure element is usually heated, it therefore has a higher temperature. The higher temperature of the counter pressure element is often for Coat harmful, i.e. one must prevent the coat and the hot counter pressure element in contact with each other come. This is about the treatment range achieved by the interposition of the paper or cardboard web. Outside the treatment range you have to Lift the jacket off the counter pressure element.

This is usually achieved by using the Pressure shoe with which the coat with the interposition of the Paper or cardboard web on the counter pressure element to the system brought radially in relation to the jacket, that the coat deform accordingly on one side got to. The jacket is held at the axial ends, so that an increasing distance outside the pressure shoe between the jacket and the counter pressure element arises. However, this condition increases the mechanical Loading of the jacket. It can be a relative Observe heavy wear on the jacket.

The invention has for its object the coat less stressful.

This task is the beginning of a wide nip calender mentioned type in that the coat in Area of the pressure shoe a larger diameter than has at its axial ends.

This configuration reduces the mechanical Stress on the jacket. The coat by itself already a shape that attaches to the hot back pressure element prevented axially outside of the pressure shoe. It only becomes that way in the area of the pressure shoe deformed so that it follows the shape of the counter pressure element. A radial pulling out of the jacket in the area of Pressure shoe, however, is no longer required. Nevertheless, with this solution it is possible to make contact between the jacket and the hot counter pressure element to prevent.

The jacket preferably has one from the end of the pressure shoe decreasing towards the axial end of the jacket Diameter on. This facilitates production. The Coat does not have to be a larger one in the area of the pressure shoe Have stage that causes the diameter increase. However, due to the decreasing diameter immediately next to the working width of the jacket, i.e. axially outside of the pressure shoe, already a sufficient one Distance between the jacket and the counter pressure element causes so that a thermal overload of the jacket avoided with high reliability can be.

It is preferred that the jacket between his Ends and the pressure shoe has a transition area, which is conical. The conical formation is relatively easy to manufacture. she has moreover the advantage that the pressure shoe necessary deformation of the jacket causes easier can be. No areas need to be deformed that are perpendicular to the direction of deformation. A deformation of areas inclined to Direction of deformation is much easier possible.

It is preferred that the jacket in the transition area a lower thickness than in the area of the pressure shoe having. This allows the necessary deformation in the transition area with a lower load connect the roll shell.

It is also advantageous that the jacket on its axial Has ends with rotating side windows. In this Case it is possible without major difficulties between lubrication of the jacket and the pressure shoe with a lubricant. The side windows then prevent the lubricant from being on the axial ends flowing out of the cavity that is bordered by the coat. With suitable funding the lubricant can then be targeted from the Promote the cavity.

The task is with a jacket for a wide nip calender of the type mentioned in that he larger diameter than in the press section has at its axial ends.

The roll shell is thus already pre-shaped so that it largely approximates the desired form of operation. All that is required is a deformation in the circumferential direction, if the coat between the pressure shoe and is moved through the counter pressure element. This Deformation in the circumferential direction naturally has a corresponding one Deformation in the areas that result are outside the press section. The deformation in these areas, however, remains in much narrower Limits as a deformation of an intrinsically cylindrical one Coat that is not in the area of the pressure shoe is deformed only from its cylindrical shape, but additionally in the radial direction from the Cylinder surface is pulled out.

The jacket preferably has one from the end of the pressure shoe decreasing towards the axial end of the jacket Diameter on. It is already in the undeformed state achieved that the jacket outside the press section, in which the paper or cardboard web between the jacket and the counter-pressure element is arranged, not in contact with the hot counter pressure element comes. Among other things, this facilitates keeping the coat ready in an idle state, in which the pressure shoe still no pressure is applied and the coat is lifted off the counter pressure element.

Preferably, the jacket has between its ends and the press section a transition area, the is conical. The transition area represents so make sure the jacket is outside the press section the necessary distance to the hot counter pressure element can take.

It is preferred that the jacket in the transition area a lower thickness than in the area of the pressure shoe having. If the coat in the transition area has a lower strength, then he leaves himself there deform more easily. Accordingly, a lower one Deformation energy necessary. On the one hand, this keeps the Energy expenditure for operating the Breitnip calender small and on the other hand limits the load on the Jacket.

The jacket preferably has at its axial ends rotating side windows. As mentioned above, is it is possible with this configuration between the pressure shoe and the coat with a lubrication Lubricant. This lubricant is held in the cavity by the side windows, which is bounded by the coat. The smaller one The diameter at the axial ends also has the additional advantage that the liquid inside of the coat can be higher than this Case was without looking over the side windows must enlarge.

einzige Figur

eine schematische Ansicht eines Breitnip-Kalanders.

The invention is described below with reference to a preferred embodiment in connection with the drawing. Herein shows the

only figure

a schematic view of a wide nip calender.

A wide nip calender 1 has a circumferential jacket 2 and a counter roller 3, which with the jacket 2 Breitnip 4 forms. With the Breitnip 4 material webs, especially paper or cardboard webs, be led to there with increased pressure and increased Temperature to be applied.

The pressure in the Breitnip 4 is with the help of a pressure shoe 5 generated, the only shown schematically Way on a non-rotating through the coat 2 Support 6 is supported. The elevated temperature in Breitnip 4 is achieved in that the counter roller 3 is heated. For this purpose, the counter-roller 3 is with a heating device, also shown only schematically 7 provided. The heating device 7 can for example be formed by peripheral drilling, through which a heat transfer medium, for example hot Water, hot oil or steam. The Heating device 7 can also be used as an inductive excitation arrangement be formed using the counter roller 3 heated by eddy currents.

The jacket 2 has side windows at its two axial ends 8, which rotates with the help of roller bearings 9 are mounted on the carrier 6. The side windows 8 close a cavity 10, which is from the jacket 2nd is surrounded in the axial direction, possibly together with the bearings 9.

The jacket 2 may only in a press area 11 in which also arranged the material web, not shown is pressed against the counter roller 3. Outside this pressing area 11 is a contact of the jacket 2 with the counter roller 3 to avoid. Such one Contact would thermally damage the jacket 2. in the Press area 11, however, the material web acts as thermal "insulator" that transfers heat from the Counter roll 3 to the jacket 2 does not prevent the Heat transfer so limited that a thermal Overloading of the jacket 2 did not take place.

The jacket 2 has one in the region of its axial ends Diameter d that is smaller than a diameter D in the pressing area 11, i.e. in the area of the pressure shoe 5. Between the axial ends 12 and the pressing area 11, a transition area 13 is arranged in which the diameter of the jacket 2 from the pressure shoe 5, i.e. from the pressing area 11, i.e. from the large diameter D to small diameter d at the axial ends 12 steadily decreases. The jacket 2 is in the transition region 13 so conical. In the transition area 13 points the jacket 2 also has a slightly lower material thickness on than in the pressing area 11.

Because the jacket 2 is already in the unloaded state has a shape in which the transition region 13 is conical, the deformation forces on the jacket 2 in the area of the wide nip 4 small held. It is necessary that the jacket 2 in Circumferential direction over a predetermined angular range is brought to rest on the counter roller 3. For this it is necessary that the jacket 2 in the pressing area 11th slightly deformed out of the shape of a cylinder jacket becomes. But it is not necessary that the coat 2 noteworthy towards its axial ends 12 is deformed. The jacket 2 must therefore in the area of the pressure shoe 5 are no longer deformed as much as a jacket that inherently has the shape of a cylindrical jacket surface over the entire axial length.

Instead of the conical transition area 13 one can also use a transition area where the coat has smaller levels. A conical transition area is preferred, however, because it adheres to the axial The ends of the pressure shoe 5 can be deformed more easily.

The material of the casing 2 is preferably a Plastic used, especially a plastic, such as he also for "NipcoFlex" coats from Voith Paper GmbH, Krefeld, is used.

Due to the shape of the jacket 2, the jacket 2 also in unstressed condition no contact with the hot Counter roll 3.

It is shown that the jacket 2 with a counter roller 3 interacts as a counter-pressure element. But it is the same well possible that the coat 2 with another Counter pressure element cooperates, for example one encircling band made of metal or a comparable Material that is supported by a support shoe.

Claims (10)

Wide-nip calender with a circumferential jacket, which together with a counter-pressure element forms a wide nip, the jacket being resilient by a pressure shoe in the direction of the counter-pressure element, characterized in that the jacket (2) has a larger diameter in the area of the pressure shoe (5) (D) than at its axial ends (12). Calender according to Claim 1, characterized in that the jacket (2) has a diameter which decreases from the end of the pressure shoe (5) to the axial end (12) of the jacket (2). Calender according to claim 2, characterized in that the jacket (2) has a transition region (13) between its ends (12) and the pressure shoe (5), which is conical. Calender according to claim 3, characterized in that the jacket (2) in the transition area (13) has a lower thickness than in the area of the pressure shoe (5). Calender according to one of claims 1 to 4, characterized in that the casing has co-rotating side disks (8) at its axial ends (12). Jacket for a wide nip calender with a press section that has a shorter axial length than the roll jacket, characterized in that it has a larger diameter (D) in the press section (11) than at its axial ends (12). Jacket according to claim 6, characterized in that it has a diameter decreasing from the end of the press section (11) towards the axial end (12). Jacket according to claim 7, characterized in that it has a transition region (13) between its ends (12) and the press section (11), which is conical. Jacket according to claim 3, characterized in that it has a lower thickness in the transition area (13) than in the area of the press section (11). Jacket according to one of claims 6 to 9, characterized in that it has rotating side disks (8) at its axial ends (12).

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