EP0674043A1 - Apparatus for treating a fibrous web - Google Patents

Abstract

The invention relates to a device for treating a fibrous web (1) with an extended press nip, at least one press surface (2) being formed by a belt (4) which is formed by a hydraulic pressure device (6) consisting of at least one support element (7). with at least one piston-cylinder unit (8), is pressurized. On the basis of this, in addition to a simple structure, the easy supply of a pressure fluid to the storage pockets or the like should also be carried out. (16) of the support element (7) can be guaranteed. This is achieved in that one element (10, 11) of the piston-cylinder unit (8) is firmly connected to a carrier part (21), the support element (7) together with the other element (11, 10) of the piston Cylinder unit (8) in the pressing direction and in the web running direction (20) is slidable on or in the element (10, 11), and the supporting element (7) is supported on a stop (12) attached to the carrier part (21). <IMAGE>

Description

The invention relates to a device for treating a fibrous web according to the preamble of claim 1. The invention is used in particular for dewatering and smoothing a fibrous web.

Such devices, which aim to simplify the structural design and assembly, are already known from E-PS 345 500 and E-PS 345 501. A support shoe is carried by piston rods without a rigid mechanical connection and supported horizontally by a bearing. Because of the lack of a mechanical connection, the supply of a pressure fluid to the hydrostatic bearing pockets of the support shoe proves to be complicated.

The invention is therefore based on the object of providing a device for treating a fibrous web which, in addition to the advantages of the prior art mentioned, also ensures that the pressure fluid can be easily supplied to the bearing pockets of the support element.

According to the invention the object was achieved by the device described in claim 1, the subclaims representing special embodiments.

Characterized in that one of the two elements of the piston-cylinder unit is fixedly connected to a support part mounted in a frame and the support element with the other element of the piston-cylinder unit attached to the support element is displaceable on or in the pressing direction and in the web running direction seated element attached to the carrier, a simple supply of the pressure fluid from the pressure chamber of the piston-cylinder unit is made possible via the attached support element to the running surfaces thereof.

The support element is supported by a stop attached to the carrier part. To better absorb the transverse forces acting in the web running direction and to the To be able to act in a differentiated manner on the fibrous web, it is advantageous if the pressing device has a plurality of piston-cylinder units. This means that the pressing device has either only one support element which is pressed on via a plurality of piston-cylinder units or a plurality of support elements which are pressed on at least one piston-cylinder unit each.

Since the two elements of the piston-cylinder unit can be displaced relative to one another in two planes, a special form of sealing of the pressure space formed by both elements is necessary. This can preferably be achieved by means of at least one sealing disk which runs transversely to the pressing direction, is displaceable in the web running direction with respect to an element of the piston-cylinder unit and is fixed by this element in the pressing direction.

The belt can be lubricated hydrodynamically and / or hydrostatically via the pressure device. If there is hydrostatic lubrication, the inventive design makes it possible to use the bearing pockets or the like in the running surface of the support element facing the belt. to be supplied via a connection to the pressure chambers of the piston-cylinder units.

If there is damage to the tape due to the tape being pressed into the storage pockets due to irregular thickening of the web, it is advantageous to replace the storage bags with one or more holes that start from the running surface of the support element and are connected to the respective pressure chamber.

In a preferred embodiment, the pressing device forms a concave pressing surface and the opposite pressing surface is a rotating counter roll.

In order to influence the contact pressure profile in the web running direction, it is recommended that the support element has at least two piston-cylinder units which are arranged one behind the other in the web running direction and can be supplied with different pressures. If there are several piston-cylinder units arranged transversely to the web running direction, there is also the possibility To change the contact pressure profile transversely to the web running direction via a different pressure supply.

A correction of the contact pressure profile is also possible, however, if the end limit of the stop can be changed in the direction of web travel.

Figur 1

einen in Bahnlaufrichtung verlaufenden Teilschnitt durch eine erfindungsgemäße Walze und

Figur 2

eine andere Ausführungsform dieser Walze.

The invention will be explained in more detail below using two exemplary embodiments. In the accompanying drawing shows;

Figure 1

a partial section in the web running direction through a roller according to the invention and

Figure 2

another embodiment of this roller.

In both cases, it is a device for dewatering a fibrous web 1 with two pressing surfaces 2 and 3 exerting the dewatering pressure on the fibrous web 1, forming an extended nip, one pressing surface 2 of an impermeable belt 4 movable in the web running direction 20 and the other Press surface 3 is formed by a rotating counter roll 5. The fibrous web 1 is guided through the press nip together with at least one porous belt 9 suitable for receiving the pressed water. The band 4 can be pressed against the opposite pressing surface 3 by means of a hydraulic pressing device 6. In the case of a smoothing treatment, only the porous belt 9 would be omitted.

The pressure device 6 consists of at least one support element 7, which forms a concave pressure surface and has at least one piston-cylinder unit 8, which acts towards the pressure surface 3 and is supplied with hydraulic pressure medium. It is entirely possible that a plurality of support elements 7 are arranged next to one another in or transversely to the web running direction 20 and / or these in turn have a plurality of piston-cylinder units 8 likewise arranged next to one another in or transversely to the web running direction 20. This offers advantages in particular in the absorption of the transverse forces acting in the web running direction 20 and the differentiated influence on the fibrous web 1 with regard to the contact pressure.

In the exemplary embodiment shown in FIG. 1, the support element 7 has two piston-cylinder units 8, which are arranged one behind the other in the web running direction 20 and can be supplied with different pressure via separate feed lines 19 arranged in the carrier part 21. The pistons 10 of the piston-cylinder units 8 are in this case firmly connected to a carrier part 21 mounted in a frame of the drainage device. The support element 7, with the two cylinders 11 attached to it, is displaceable on the piston 10 in the pressing direction and in the web running direction 20.

In contrast to this, FIG. 2 shows a support element 7 with only one piston-cylinder unit 8 in the web running direction 20, although here too there may be several piston-cylinder units 8 arranged transversely to the web running direction 20 and influencing the contact pressure profile. In addition, the cylinder 11 is firmly connected to the carrier part 21 here. Accordingly, the support element 7 with the piston 10 attached to it is displaceable in the pressing direction and in the web running direction 20 in the cylinder 11.

The sealing of the pressure chamber 17 of the respective piston-cylinder unit 8 is achieved in both cases by means of a disk 13 which runs transversely to the pressing direction, is displaceable in the web running direction 20 with respect to the piston 10 and is fixed by the latter in the pressing direction. For this purpose, the disk 13 provided with an opening is located in a recess 15 of the piston 10, which offers a freedom of movement for the disk 13 in the web running direction 20. In addition, the disk 13 has an additional sealing element 14 on the contact surface with the respective cylinder 11. The pressure medium supply is secured via a feed line 19 located in the carrier part 21, which is connected to the pressure chamber 17 via a passage in the cylinder 11 or in the piston 10 .

Characterized in that the support element 7 is movable within certain limits in the web running direction 20, it can align itself according to the opposite pressing surface 3. An end limit is given by a stop 12 attached to the carrier part 21.

As indicated in FIG. 2, this stop 12 can be designed to be variable in relation to the local position of the stop surface in the web running direction 20 without any problems, so that the contact pressure profile can be influenced by the changing position of the support element.

The impermeable band 4 is lubricated hydrodynamically and hydrostatically via the pressing device 6. For this reason, the support element 7 in the running surface directed towards the belt 4 may have several storage pockets 16 transversely to the web running direction 20 and at least one in the web running direction 20. These bearing pockets 16 are connected to the pressure chambers 17 of the piston-cylinder units 8, the bearing pocket 16 in the example shown in FIG. 1 being replaced by one or more openings in bores 22 with a diameter of preferably 1 to 2 mm what should prevent damage to the tape 4.

Since the pressure medium heats up on the way along the support element 7, it is advantageous to protect the often temperature-sensitive tape 4 by removing it, for example, at the end of the pressing device 6 on the web exit side according to FIG. In the further course, the band 4 can also be cooled by spraying on appropriately tempered pressure or lubricant.

Claims (11)

Device for treating a fibrous web (1) with two pressing surfaces (2, 3) which exert the treatment pressure on the fibrous web (1) and form an extended press nip, at least one pressing surface (2) being held by an impermeable belt (20) which can be moved in the web running direction (20) 4), which can be pressed against the opposite pressing surface (3) by means of a hydraulic pressing device (6), and the pressing device (6) consists of at least one support element (7) which has at least one acting towards the pressing surface (3) hydraulic pressure medium supplied piston-cylinder unit (8),
characterized by
that one element (10, 11) of the piston-cylinder unit (8) is fixedly connected to a carrier part (21), the support element (7) together with the other element (11, 10) of the piston-cylinder unit (8 ) in the pressing direction and in the web running direction (20) slidably on or in the element (10, 11) and the supporting element (7) is supported on a stop (12) attached to the carrier part (21). Device according to claim 1,
characterized by
that the pressure device (6) has a plurality of piston-cylinder units (8). Device according to claim 1 or 2,
characterized by
that the pressure chamber (17) of the piston-cylinder unit (8) of at least one transverse to the pressing direction, in the web running direction (20) with respect to an element (10 or 11) of the piston-cylinder unit (8) displaceable and this element (10 or 11) in the pressing direction fixed disc (13) is sealed. Device according to one of claims 1 to 3,
characterized by
that the impermeable band (4) is supported hydrodynamically via the pressing device (6). Device according to one of claims 1 to 4,
characterized by
that the impermeable band (4) is supported hydrostatically via the pressing device (6). Device according to claim 5,
characterized by
that the support element (7) has bearing pockets (16) or openings of bores (22) in the running surface directed towards the belt (4). Apparatus according to claim 6,
characterized by
that the bearing pockets (16) or the openings of the bores (22) are connected to the pressure chambers (17) of the piston-cylinder units (8). Device according to one of claims 1 to 7,
characterized by
that the stop (12) with respect to its end limit in the web running direction (20) can be changed. Device according to one of claims 1 to 8,
characterized by
that the pressing device (6) forms a concave pressing surface and the opposite pressing surface (3) is a rotating counter-roller (5). Device according to one of claims 1 to 9,
characterized by
that the support element (7) has at least two piston-cylinder units (8) which are arranged one behind the other in the web running direction (20) and can be supplied with different pressures. Device according to one of claims 1 to 10,
characterized by
that the support element (7) has a plurality of piston-cylinder units (8) which are arranged transversely to the web running direction (20) and can be supplied with different pressures.

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