EP3856975A1 - Machine and method for producing a fibrous web - Google Patents

Abstract

The invention relates to a machine (1) for producing a fibrous web (2), in particular a tissue web, with at least one pressing device (6) which comprises a pressing element (7) and a counter-element (8) with a closed surface for forming a pressure nip (9), and with a water-absorbing belt (3) with a web side (4) and an opposite pressing element side (5) which can be guided together with the fibrous web (2) through the pressure nip (9) in such a way that the fibrous web (2) is separated at the end of the pressure nip from the web side (4) of the water-absorbing belt (3) and runs further with the counter-element (8). The machine (1) according to the invention is characterized in that the water-absorbing belt (3) comprises at least a first ply (15) and a second ply (16), and in that, as viewed in the thickness direction of the water-absorbing belt (3), the belt (3) has a layer (18) on the half which faces the pressing element (7), which layer (18) has a higher specific throughflow resistance than the first ply (15) and/or the second ply (16).

Description

 Machine and method for producing a fibrous web

The invention relates to a machine for producing a fibrous web, in particular a tissue web, with at least one press device, which comprises a press element and a counter element with a closed surface to form a press nip, and with a water-absorbing belt with a web side and an opposite press element side, which together with the fibrous web can be guided through the press nip in such a way that the fibrous web is separated from the web side of the water-absorbing belt at the end of the press nip and continues to run with the counter element.

The invention also relates to a method for producing a fibrous web and a water-absorbing belt for use in a machine for producing a fibrous web.

Machines of the type mentioned are known. The document EP0926296 B1 shows a machine for producing a tissue web. In the forming area, a felt belt is partly guided around a forming roller together with a forming screen, forming an inlet gap. A pulp suspension is fed into the inlet gap via a headbox, from which the tissue web is formed. After the forming roll, the forming screen is guided away and the tissue web lying on the felt belt is guided to a press nip, which is formed by a shoe roll and a Yankee drying cylinder. After the press nip, the tissue web with the Yankee drying cylinder continues for further drying. In the loop formed by the felt belt, a suction device for loading the felt belt and the tissue web carried along is provided in front of the press nip.

It is also known to arrange a suction element for conditioning the felt belt between the press nip and the forming area outside the loop formed by the felt belt. Such suction elements are also known as Uhle boxes. The conditioning in water contained in the felt belt is removed before the pulp suspension is given up.

The object of the invention is to provide a machine and a circulating belt and a method for reducing the energy expenditure for conditioning the circulating belt.

The object is achieved by features of claim 1. It becomes a machine for producing a fibrous web, in particular a tissue web, with at least one pressing device, which comprises a pressing element and a counter element with a closed surface to form a press nip, and with a water-absorbing belt with a web side and an opposite pressing element side, which together with the The fibrous web can be guided through the press nip in such a way that the fibrous web is separated from the web side of the water-absorbing belt at the end of the press nip and continues to run with the counter element. According to the invention, the water-absorbing belt (3) comprises at least a first layer (15) and a second layer (16) and that the belt (3), viewed in the thickness direction of the water-absorbing belt (3), on which the pressing element (7 ) facing half, has a layer (18) which has a higher specific flow resistance than the first layer (15) and / or the second layer (16).

Due to the higher flow resistance, the layer prevents or minimizes a backflow of the water contained in the press element-side half of the water-absorbing belt in the direction of the web side. The water can thus be removed more easily by a suction device arranged on the pressing element side. The flow resistance of a layer or layer can be determined, for example, by flowing water through the layer or layer in the thickness direction on a flow surface at a predetermined pressure difference and measuring the flow volume flow and relating it to the thickness of the layer or layer. Should he Flow resistance of different layers or layers are compared, boundary conditions must be kept constant.

The first layer advantageously forms the web side and preferably comprises a fiber fabric made of plastic fibers. The first layer can be felt-like. The plastic fibers can be connected to the second layer, for example needled.

The second layer can be a woven layer and the first layer can preferably be connected, in particular needled, to the second layer.

The layer is advantageously connected to the second layer.

Furthermore, the layer can be connected to the second layer and form the pressing element side of the water-absorbing belt.

It is also conceivable that the layer forms the pressing element side. In this case, it forms the running side of the water-absorbing belt and is in contact with the pressing element. The layer can be optimized with regard to low wear due to mechanical abrasion and at the same time with regard to the flow resistance.

In addition, a further layer can be provided on the half of the water-absorbing belt facing the pressing element, which preferably comprises a fiber fabric made of plastic fibers. The further layer can be needled with the layer and / or with the second layer.

In a practical embodiment, the layer can be arranged between the second layer and the further layer.

It is also possible to arrange the layer within the further layer.

In a possible further embodiment, the layer can be arranged adjacent to the further layer and form the pressing element side. The water-absorbing belt can be designed as a press felt.

In one possible development, the layer can be designed as a membrane with openings. This can be, for example, a plastic film with needled or punched or laser-drilled holes.

It is also possible to carry out the layer as a scrim made of fine fibers. The fiber fineness can preferably be less than or equal to 3 dtex.

The layer can preferably at least partially comprise components made of thermoplastic polyurethane elastomer (TPU).

In one possible development, the water-absorbing belt is guided through the pressing element on a partial route from the end of the press nip.

Furthermore, a suction device for dewatering the water-absorbing belt can be provided on the pressing element side of the water-absorbing belt in a region of the water-absorbing belt that is free of fibrous material.

By guiding the water-absorbing belt on a section of the press element, the water-absorbing belt is immediately separated from the fibrous web at the end of the press nip and counteracted rewetting. The arrangement of the suction device within the loop formed by the water-absorbing belt for conditioning the water-absorbing belt has the advantage that the water contained in the belt can be removed with less energy. This is supported by the negative pressure created in the gusset between the water-absorbing belt and the pressing element. The water thrown back from the surface of the pressing element by the centrifugal force onto the water-absorbing belt can thus be removed directly from the surface of the belt by the suction device.

In a practical embodiment, the counter element is formed by a drying cylinder, in particular by a Yankee drying cylinder.

In a further possible embodiment, the pressing element is formed by a pressing roller, preferably with an open, preferably grooved and / or drilled, surface.

If the press roll has an open surface, the invention has a particularly advantageous effect, since the water collected in the open surface and spun off at the end of the press nip is removed directly from the inside of the water-absorbing belt by the suction device.

The pressing element can also be formed by a shoe pressing unit. The invention has a particularly advantageous effect when using a shoe press, since larger amounts of water have to be drained off.

The open surface can comprise holes made as blind holes.

In a practical case, the shoe press unit can comprise a water-impermeable jacket and a press shoe arranged inside the jacket and pressable against the counter element.

Furthermore, the side of the jacket facing the pressing element side of the water-absorbing belt can have an open, preferably grooved and / or drilled, surface. In the case of an open surface, the invention also has a particularly advantageous effect here, since that which has collected in the open surface and at the end of the press nip tends towards the strip centrifuged water is removed directly from the inside of the water-absorbing belt by the suction device.

The partial section is preferably selected such that the direction of the water-absorbing belt which is carried away is at an angle of more than 10 °, in particular more than 15 °, preferably in the range of 20 °, to a tangent applied to the counter element at the end of the press nip. This counteracts rewetting of the fibrous web by the water-absorbing belt.

Furthermore, the suction device can have a covering with openings, which are preferably designed as bores and / or slots.

The machine can advantageously be designed as a crescent former. The fibrous web is guided from the forming area to the press nip on the water-absorbing belt.

The object of the invention is also achieved by a method for producing a fibrous web, in particular a tissue web, with at least one press device which comprises a press element and a counter element with a closed surface for forming a press nip, and with a water-absorbing belt with one web side and one opposite press element side, which is guided together with the fibrous web through the press nip such that the fibrous web is separated from the web side of the water-absorbing belt at the end of the press nip and continues to run with the counter element. It is essential to the invention that the water-absorbing band comprises at least a first layer and a second layer and that the band, viewed in the thickness direction of the water-absorbing band, has a layer on the half facing the pressing element which has a higher specific flow resistance than the first layer and / or the second layer .. Further features and advantages of the invention result from the following description of preferred exemplary embodiments with reference to the drawings.

Show it

 Figure 1 shows an embodiment of a machine according to the invention

 Production of a fibrous web in a schematic representation;

Figure 2 shows an embodiment of a pressing device of the

 Machine according to the invention in a schematic representation;

Figure 3 shows an embodiment of a water-absorbing belt of a machine according to the invention for producing a

 Fibrous web in a schematic representation;

Figure 4 shows another embodiment of a water-absorbing

 Belt of a machine according to the invention for producing a fibrous web in a schematic representation;

Figure 1 shows an embodiment of a machine 1 according to the invention for producing a fibrous web 2 in a schematic representation. In the forming area, a water-absorbing belt 3 is partially guided around a forming roller 24 together with an outer screen 25, forming an inlet gap. A fiber suspension is fed into the inlet gap via a headbox 23, from which the fiber web 2 is formed. After the forming roller 24, the outer wire 25 is guided away and the fibrous web 2 lying on the web side 4 of the water-absorbing belt 3 is guided to a press device 6 with a press nip 9, which is formed between a press element 7 and a Yankee drying cylinder 8. In this example, the pressing element 7 is formed by a shoe roller 7. The cylindrical surface of the Yankee drying cylinder 8 is smooth. After this Press nip 9 runs the fibrous web 2 with the Yankee drying cylinder 8 for further drying by means of an impact flow through a hood 21 and is creped and removed by a crepe scraper and taken to a further machine section. Within the loop formed by the water-absorbing belt 3, a suction-deflected roller (not shown here) or a suction element 22 for suctioning the water-absorbing belt 3 and the fiber web 2 carried along can be provided in front of the press nip 9. A steam or hot air blowing hood can be arranged opposite the suction element 22 in order to increase the drainage capacity. A suction device 12 is arranged between the press nip 9 and the forming area within the loop formed by the water-absorbing belt 3 for conditioning the water-absorbing belt 3. The suction device 12 has a covering with openings through which the water is sucked into the suction element and which are preferably designed as bores and / or slots. The suction device 12 is arranged in an area in which the water-absorbing belt 3 is free of a fibrous web 2. This facilitates and improves conditioning. The water of the water-absorbing belt 3 is drained to the inside, that is to the pressing element side 5, by the suction device 12. The shoe roll 7 comprises a press shoe 10 which can be pressed against the Yankee drying cylinder 8 to generate a press pressure in the press nip. Between the press shoe 10 and the fibrous web 2, the jacket 11 surrounding the press shoe 10 runs through the press nip 9. To increase the drainage of the fibrous web 2 in the press nip 9, the side of the jacket 11 coming into contact with the press element side 5 of the water-absorbing belt 3 Grooves on. The water squeezed out of the fibrous web 2 in the area of the press nip 9 partly passes through the water-absorbing belt 3 into the grooves of the jacket 11 and is thrown from there after the press nip 9 partly due to the centrifugal force against the pressing element side 5 of the water-absorbing belt 3. Thus, the water-absorbing tape 3 is rewetted. This centrifuged water can be efficiently and with the arrangement of the suction device 12 according to the invention little energy is removed without having to suck it through the entire thickness of the water-absorbing belt 3. In addition, the suction device 12 can be seen in the running direction 26 of the water-absorbing belt 3, if necessary a suction element 20 can be arranged downstream.

FIG. 2 shows an embodiment of a pressing device 6 of the machine 1 according to the invention in a schematic illustration. The fibrous web 2 is guided on the web side 4 of the water-absorbing belt 3 to a press device 6 with a press nip 9, which is formed between a press element 7 and a Yankee drying cylinder 8. In this example, the pressing element 7 is formed by a shoe roller 7. The cylindrical surface of the Yankee drying cylinder 8 is made smooth. The shoe roller 7 comprises a press shoe 10 which can be pressed against the Yankee drying cylinder 8 to generate a press pressure in the press nip 9. Between the press shoe 10 and the fibrous web 2, the jacket 11 surrounding the press shoe 10 runs through the press nip 9. To increase the drainage of the fibrous web 2 in the press nip 9, the side of the jacket 11 coming into contact with the press element side 5 of the water-absorbing belt 3 an open surface, in this example grooves. The water squeezed out of the fibrous web 2 in the area of the press nip 9 partially passes through the water-absorbing belt 3 into the grooves of the jacket 11.

The water-absorbing belt 3 is guided from the end of the press nip 9 through the press element 7 on a partial route. The length of the section is selected such that the direction of the water-absorbing belt 3 carried away to an tangent 13 applied to the counter element 8 at the end of the press nip is at an angle 14 of more than 10 °, in particular more than 15 °, preferably in the range of 20 ° occupies. This counteracts rewetting of the fibrous web 2 by the water-absorbing belt 3. The conditioning of the water-absorbing belt 3 is supported by the negative pressure which arises in the gusset between the water-absorbing belt 3 and the pressing element 7. FIG. 3 shows an embodiment of a water-absorbing belt 3 of a machine 1 according to the invention for producing a fibrous web 2 in a schematic representation. The water-absorbing belt 3 comprises a first layer 15, a second layer 16, a further layer 17 and a layer 18 which has a higher specific flow resistance than the first layer 15 and / or the second layer 16 and / or the further layer 17. The web side 4 is formed by the first layer 15 and the pressing element side 5 by the further layer 17. Seen in the thickness direction of the water-absorbing belt 3, the layer 18 is arranged on the half facing the pressing element 7. The higher flow resistance of the layer 18 prevents or minimizes a backflow of the water contained in the press element side half of the water-absorbing belt 3 in the direction of the web side 4. The water can thus be removed more easily by the suction device 12 arranged on the pressing element side 5. The first layer 15 forming the web side 4 comprises a felt-like fiber fabric and is needled to the second layer 16. The second layer 16 is a woven layer. In this example, the layer 18 is worked into the further layer 17 between the second layer 16 and the pressing element side 5 and thus lies within the further layer 17. The layer 18 can also directly adjoin the second layer 16 and with it, for example by needling , be connected. The further layer 17 forming the pressing element side likewise comprises a felt-like fiber fabric and is needled to the second layer 16. The layer 18 is designed as a membrane with openings. This can be, for example, a plastic film with needled or punched or laser-drilled holes. It is also possible within the scope of the invention to design the layer 18 as a fiber scrim made of fine fibers. The fiber fineness can preferably be less than or equal to 3 dtex. The layer 18 contains at least partially components made of thermoplastic polyurethane elastomer (TPU). This increases the elasticity of the band 3. FIG. 4 shows a further embodiment of a water-absorbing belt 3 of a machine 1 according to the invention for producing a fibrous web 2 in a schematic representation. It differs from the embodiment in FIG. 4 only in the arrangement of the layer 18 in the thickness direction of the water-absorbing belt 3. The layer 18 is connected to the further layer 17 and forms the pressing element side 5 of the water-absorbing belt 3. The layer 1 comes in the machine 1 18 in contact with the pressing element 7. The layer 18 is optimized with regard to low wear due to mechanical abrasion and at the same time with regard to the flow resistance.

Corresponding elements of the exemplary embodiments in the figures are provided with the same reference symbols. The functions of such elements in the individual figures correspond to one another, unless otherwise described and it does not lead to contradictions. A repeated description is therefore omitted. It is also pointed out that the different features of the exemplary embodiments shown can be interchanged and combined with one another. The invention is therefore not limited to the combinations of features shown in the exemplary embodiments shown.

Reference list

machine

 Fibrous web

water absorbing tape

 Web side

 Press element side

 Pre s device

 Pressing element

 Counter element, drying cylinder

 Press nip

 Press shoe

 coat

 Suction device

 tangent

 angle

first layer

second layer

further location

 layer

 Press felt

 Mammal

 Hood

 Suction element

 Headbox

 Forming roller

 Outer wire, forming wire

 Running direction

Claims

Claims

1. machine (1) for producing a fibrous web (2),

 in particular a tissue web, with at least one

 Press device (6), which a press element (7) and a

 Counter element (8) with a closed surface to form a press nip (9), and with a water-absorbing belt (3) with a web side (4) and an opposite press element side (5), which together with the fibrous web (2) through the press nip (9) it is feasible that the

 Fibrous web (2) at the end of the press nip is separated from the web side (4) of the water-absorbing belt (3) and continues with the counter element (8),

 characterized in that

 the water-absorbing belt (3) comprises at least a first layer (15) and a second layer (16) and that the belt (3), viewed in the thickness direction of the water-absorbing belt (3), has one on the half facing the pressing element (7) Layer (18), which has a higher specific

 Flow resistance than the first layer (15) and / or the second layer (16).

2. Machine according to claim 1,

 characterized in that

 the first layer (15) forms the web side (4) and preferably comprises a fiber fabric made of plastic fibers.

3. Machine according to claim 1 or 2,

 characterized in that

 the second layer (16) is a woven layer and that preferably the first layer (15) is connected to the second layer (16),

 in particular is needled.

4. Machine according to one of the preceding claims,

 characterized in that

the layer (18) is connected to the second layer (16).

5. Machine according to one of the preceding claims,

 characterized in that

 the layer (18) forms the pressing element side (5).

6. Machine according to one of claims 1 to 4,

 characterized in that

 on the half of the pressing element (7) facing

 water-absorbing belt (3) a further layer (17), preferably comprising a fiber fabric made of plastic fibers, is provided.

7. Machine according to claim 6,

 characterized in that

 the layer (18) is arranged between the second layer (16) and the further layer (17).

8. Machine according to claim 6,

 characterized in that

 the layer (18) is arranged within the further layer (17).

9. Machine according to claim 6,

 characterized in that

 the layer (18) is arranged adjacent to the further layer (17) and forms the pressing element side (5).

10. Machine according to one of the preceding claims,

 characterized in that

 the layer (18) is designed as a membrane with openings.

1 1. Machine according to one of the preceding claims,

 characterized in that

 the layer (18) is designed as a fiber scrim made of fibers with a fiber fineness of preferably less than 3 dtex.

12. Machine according to one of the preceding claims,

 characterized in that

the layer (18) comprises at least partially thermoplastic polyurethane elastomer.

13. Machine according to one of the preceding claims,

 characterized in that

 A suction device (12) for dewatering the water-absorbing belt (3) is provided on the pressing element side (5) of the water-absorbing belt (3) in a region of the water-absorbing belt (3) free of fibrous web.

14. A water-absorbing belt (3) for use in a machine according to claim 1.

 characterized in that

 the water-absorbing band (3) comprises at least a first layer (15) and a second layer (16) and that the band (3), in

 Seen thickness direction of the water-absorbing belt (3), on the half facing the pressing element (7) has a layer (18) which has a higher specific

 Flow resistance than the first layer (15) and / or the second layer (16).

15. A method for producing a fibrous web, in particular a tissue web, with at least one press device (6), which comprises a press element (7) and a counter element (8) with a closed surface to form a press nip (9), and with a water-absorbing belt ( 3) with a web side (4) and an opposite pressing element side (5), which

 is guided together with the fibrous web (2) through the press nip (9) such that the fibrous web (2) at the end of the

 Press nip (9) from the web side (4) of the water-absorbing belt (3) is separated and with the counter element (8)

 continues,

 characterized in that

 the water-absorbing band (3) comprises at least a first layer (15) and a second layer (16) and that the band (3), in

 Seen thickness direction of the water-absorbing belt (3), on the half facing the pressing element (7) has a layer (18) which has a higher specific

 Flow resistance than the first layer (15) and / or the second layer (16).