WO1999053136A1 - Improvements in roll covers - Google Patents

Abstract

A roll cover (12), which may be in the form of a belt which is removed from contact over part of a roll, is provided with a porous nonwoven structure, for example a layer of sintered particles (55) or with or without a fabric reinforcement (57) or a layer which is rendered porous by leaching out particles or fibers, or by breaching hollow fibres (75) or which is compared by a reticulate microporous foam (60). The layer may be supported on a perforated membrane (50) or a textile base layer (62) and a nonwoven layer (54) may be provided between the support layer and the surface layer (56). The cover may provide a capillary dewatering membrane.

Description

IMPROVEMENTS IN ROLL COVERS

This invention relates to a dewatering membrane structure such as

a roll cover for example for use as a dewatering membrane on a capillary

dewatering roll, of the kind disclosed for example in U.S. 5,701 ,682,

assigned to Kimberley-Clark Worldwide, Inc., but also applicable to all

industrial rolls and rollers, especially those used in papermaking machines.

There is an ever increasing demand in present day paper machines for

paper machine clothing with a fine paper-contacting surface. A fine surface

is understood to mean one which is very smooth and provides a high degree

of support for the paper fibres. However, there is a limit to how fine a

surface can be formed on a long felt, as either the flexibility, strength, or

dimensional stability of the belt will eventually be impaired.

Rolls are used in paper machines and the like in providing press-nips;

and may as in CA-A-1335420 be provided with short belts in place of

conventional sleeve-form roll covers.

In U.S. Patent 5,701 ,682 above mentioned, a paper web is passed

about a substantial part of the periphery of a dewatering roll, supported on

a carrier fabric. Suction is applied from the interior of the drum to draw

water from the web. The roll is covered by a capillary membrane having

capillary pores therethrough, which supports the fabric on the roll, and acts

to cause the water to be drawn off from the web towards the interior of the roll.

The U.S. Patent discloses a number of capillary fabrics, comprising

a composite of a capillary membrane surface, supported by one, two or

three mesh layers preferably of successively coarser mesh size away from

the capillary membrane, and made for example of metal or synthetic plastics

material. These structures are laminated by adhesive or sinter bonding as

appropriate, but are subject to delamination.

It is an object of the invention to provide a fabric for a dewatering

capillary membrane such as a roll cover, felt or other fabric which has a

reduced risk of delamination as compared with composite fabrics of the type

set forth in the above U.S. Patent.

In accordance with the invention, this is achieved by providing a

membrane, characterised in that the membrane has an outwardly presented

work-contacting surface which has a porous non-woven structure. This

may for example be a capillary dewatering membrane, embodied as a roll

cover, or papermachine felt.

The invention also provides a capillary dewatering roll characterised

in that it is provided with a capillary membrane having an outwardly

presented web-contacting surface which has a porous non-woven structure.

The web-contacting surface may be provided by a coating or layer

forming the outermost part of a composite roll cover structure. The coating or layer may contain textile reinforcement, in the form

either of a woven or a non-woven fabric, or of fibres dispersed through the

layer.

The coating or layer may comprise particles of polymeric material, or

of metal, or of thermoplastic or metal fibres which are sintered, or partially

fused on contacting surfaces to provide a porous layer.

A further possibility is that the coating or layer comprises a

coagulated polymer, or a cloth impregnated with such a coagulated

polymer.

The membrane or roll cover or other fabric may comprise a support

layer or structure in addition to the said coating or layer comprising a fine

mesh or perforated membrane of a suitable plastics material, which may

include reinforcing yarns extending in the circumferential direction of the

roll, and/or in the longitudinal direction of the roll, and this may include a

fibrous non-woven batt or felted layer laminated on the outer surface of the

membrane, with the said coating or layer provided in turn on the outer

surface of said non-woven layer.

The coating or layer may alternatively comprise a microporous foam,

which may be reticulate, and may be applied by transfer from a release

medium.

The coating or layer may be of a plastics material which has been rendered porous by leaching out of soluble components, eg a so-called

"porum", or comprise a layer made porous by embodying soluble yarns or

fibres which are subsequently dissolved out to leave pores, or hollow fibres

abraded to breach the fibres and provide passages through the coating or

layer for air or moisture.

The coating or layer may contain textile or fibre reinforcement, which

may be fully embedded in the layer, or may lie below the porous coating or

layer as a support.

Features of the alternative coatings or layers suggested above, may

be combined, for example teachable particles may be included in sintered

layers, to provide enhanced porosity.

Preferred embodiments of the invention will now be further described

by way of example, with reference to the accompanying drawings,

wherein:-

Figure 1 is a diagrammatic longitudinal sectional view of a dewatering

roll provided with a capillary membrane according to the

invention;

Figure 2 is an enlarged diagrammatic cross-section of one embodiment

of roll cover according to the invention;

Figure 3 is an enlarged diagrammatic cross-section of a second

embodiment of roll cover according to the invention; and Figure 4 is an enlarged diagrammatic cross-section of a further

embodiment of roll cover according to the invention.

Fig. 1 shows a dewatering roll 10, having a perforated cylinder body

30, with a syphon 20 which creates an underpressure Pv in the interior of

the roll, to draw water into the interior through the cylinder body 30. A

carrier fabric 14 carries a wet web W of fibrous paper precursor into

contact with the roll 10, about a substantial part of the periphery of the roll

so as to be subjected to suction from the interior of the roll to draw off

water from the web W.

The cylinder body 30 is clad with a capillary dewatering membrane

12, through which water from the web W is led into the interior of the roll

by a combination of capillary action and suction.

A cleansing shower 18 is also provided to wash the membrane 12

after the web W and its carrier fabric 14 have been drawn from the roll.

Nip roll 16 serves to apply the web 14 to the surface of roll 10.

This is substantially as described in U.S. 5,701 ,682 referred to

hereinbefore.

Embodiments of capillary membrane fabric suitable for forming the

dewatering membrane 12, in accordance with the invention will now be

described by way of example, with reference to Figs. 2, 3 and 4.

Fig. 2 is an enlarged fragmentary cross-section of a capillary dewatering membrane such as 12, according to the invention.

A perforated membrane 50, of a plastics material such as polyamide,

etc comprises apertures 51 separated by lands 52, which incorporate

reinforcing yarns 53 which are disposed to run for example in the

circumferential direction of the roller. Membrane 50 supports a non-woven

fibrous batt or scrim layer 54 which is laminated to the membrane, and

carries a surface layer 55, which provides a paper-contacting outer surface

56. Layer 55 is composed of an eg woven fabric reinforcement 57

embedded and encapsulated in the layer 55. The layer 55 comprises

particles of a thermoplastic polymeric material which have been partially

fused under heat and pressure to adhere together at contacting surfaces

whilst leaving pores defined by interstices between the particles. The

particles may be granular, or beads or spheroids, or strands, fibres or fibrils

of the material.

Alternatively the layer 55 may comprise a sintered layer of metallic

particles, or a layer of coagulated polymer impregnating the fabric 57 and

forming a deposit on each surface of the fabric 57.

In Fig. 3, a microporous reticulate layer 60 is eg transfer coated onto

a stratum 61 of polymer or metal particles which have been fused together

by heat and pressure, and this structure is in turn supported by a woven

fabric support 62. ln Fig. 4, a membrane 70, with apertures 71 and lands 72 supports

a sheet 73 which has been formed by weaving a fabric with hollow tubular

weft threads 74, encapsulating the fabric in resin, and abrading both sides

of the fabric to grind away the knuckles of threads 74 to expose the hollow

cores of the threads 74. These provide passages 75 from one face of the

sheet 73 to the other, thereby rendering the sheet 73 porous. Sheet 73

may if desired carry a further sintered layer or microporous coating (not

shown).

Capillary dewatering membranes according to the invention are

intended for use in particular on drums as illustrated in the above mentioned

U.S. Patent, but may be used in dewatering installations in other types of

papermachine.

Straight pores may be provided by sintering the metal or polymer

material 55 or 61 in a circular mould, or on release medium containing pores

which leave holes in the layer to form the desired pores.

Fig. 5 is a longitudinal sectional view of a roller 80, having a cover

90 according to the invention, in which the flow of air is reversed with

respect to that shown in Fig. 1 , i.e. air is admitted via bore 85 in trunnion

84 to flow along axial shaft 86 and out into the body of the roller through

apertures 87, and then from the roller through apertures 88 in a cylindrical

roller sleeve 81 , and through the roller cover 90. This arrangement may be used for example in a transfer roller for transferring a paper sheet from the

press to the dryer section in a papermaking machine, by blowing the sheet

from the roll 80 onto a receiving fabric or roller leading into the dryer

section. The fine surface of the transfer roller would reduce or prevent

marking compared with the use of conventional rolls.

Roll covers according to the invention are intended for use mainly in

the press and dewatering sections of a paper machine, and allows suction

to be generated within the roll, as shown, to further assist dewatering. In

some applications however, the suction force may be used simply to hold a sheet against the surface of the roll.

Although designed to be used in place of paper machine clothing, the

roll covers can be used in place of conventional hard or soft covers in

combination with a fabric.

The covers may not only be used for press rolls but also may be used

for calender rolls, air impingement dryer rolls, suction or vacuum rolls, guide

rolls, turning rolls, or transfer rolls in a paper machine.

In other industries, the roll covers may be adapted for use with

printing rolls, corrugator machine weight roller sleeves, or for coating

machine applicator etc rolls, or filtration rolls.

The dewatering membrane of the invention provides a single layer

material with excellent resistance to wear and delamination, as well as having a finer surface which is less likely to mark a web. This fine surface

will allow greater pressure to be applied to the web, increasing the rate of

dewatering. Even a small increase in the web dryness caused by improved

dewatering significantly reduces the energy consumption required in a

subsequent through air dryer, or Yankee cylinder to dry the moist web.

Claims

1 . A roll cover for a roll, characterised in that the roll cover has an

outwardly presented work-contacting surface which has a porous

nonwoven structure.

2. A roll cover according to claim 1 wherein said work-contacting

surface is provided by a coating or layer forming the outermost part

of a composite roll cover structure.

3. A roll cover according to claim 2 wherein said coating or layer

contains a textile reinforcing structure in the form of a woven or

nonwoven fabric, or of fibres dispersed through the coating or layer.

4. A roll cover according to claim 2 wherein said coating or layer

comprises a coagulated polymer.

5. A roll cover according to claim 4 wherein said coating or layer

comprises a cloth impregnated with said coagulated polymer.

6. A roll cover according to any one of claims 2 to 5 wherein said roll

cover further comprises a fine mesh or perforated membrane of a

plastics material, in addition to said coating or layer.

7. A roll cover according to claim 6 wherein said perforated membrane

includes reinforcing yarns extending in the circumferential direction

of the roll and/or in the longitudinal direction of the roll.

8. A roll cover according to claim 6 or 7 wherein a fibrous nonwoven batt of felted layer is laminated to the outer surface of the membrane,

said coating or layer being in turn provided on the outer surface of

the batt or felted layer.

9. A roll cover according to any of claims 2 to 8 wherein the coating or

layer comprises a reticulate microporous foam.

10. A roll cover according to any of claims 2 to 8 wherein the coating or

layer comprises a plastics material which has been rendered porous

by leaching out soluble components.

1 1 . A roll cover according to any of claims 2 to 8 wherein the coating or

layer comprises a layer made porous by embodying soluble or hollow

yarns or fibres which are subsequently respectively dissolved out to

leave pores, or abraded to breach the fibres or yarns and provide

passages through the coating or layer.

12. A roll cover according to claim 2 wherein said coating or layer

comprises a mixture of sintered particles and leachable particles, the

latter being dissolved out after sintering.

13. A roll characterised in that it is provided with a roll cover according

to any one of claims 1 to 12.

14. A roll cover according to any preceding claim wherein said cover

provides a capillary membrane to enable the roll to be used as a

capillary dewatering roll.