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EP0850334B1 - Wear-resistant blade element - Google Patents

Wear-resistant blade element Download PDF

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Publication number
EP0850334B1
EP0850334B1 EP96930244A EP96930244A EP0850334B1 EP 0850334 B1 EP0850334 B1 EP 0850334B1 EP 96930244 A EP96930244 A EP 96930244A EP 96930244 A EP96930244 A EP 96930244A EP 0850334 B1 EP0850334 B1 EP 0850334B1
Authority
EP
European Patent Office
Prior art keywords
blade
blade element
elements
wear
resistant
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP96930244A
Other languages
German (de)
French (fr)
Other versions
EP0850334A1 (en
Inventor
Paul John Smith
Nicholas James Fecitt
William Ian Wilson
Simon Taylor
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
International Syalons Newcastle Ltd
Original Assignee
International Syalons Newcastle Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by International Syalons Newcastle Ltd filed Critical International Syalons Newcastle Ltd
Publication of EP0850334A1 publication Critical patent/EP0850334A1/en
Application granted granted Critical
Publication of EP0850334B1 publication Critical patent/EP0850334B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F1/00Wet end of machines for making continuous webs of paper
    • D21F1/48Suction apparatus
    • D21F1/483Drainage foils and bars

Definitions

  • This invention relates to a wear-resistant blade element for use in the assembly of wear-resistant blades in a de-watering section of a paper-making machine.
  • Such wear-resistant blades are required to extend for the full width of the paper-making machine and so need to have a length of typically up to 10 metres.
  • ceramic alumina, zirconia or zirconia-toughened alumina
  • Such an assembly of clamped blade elements is mounted in a synthetic resin carrier which has been machined to the correct size to suit the machine.
  • the upper surfaces of the assembled blade elements are then polished in situ using a tracked grinding machine to a high surface finish to provide a smooth working surface to the blade.
  • the individual blade elements are relatively short, ie the distance between their ends is typically less than the distance between leading and trailing edges thereof.
  • the leading and trailing edges of the blade elements are those which, in use, are located respectively upstream and downstream relative to the direction of travel of pulp through the de-watering section of the paper-making machine.
  • 300 to 400 blade elements may be required for a 10 metre length of blade.
  • the ceramic blade elements can be produced relatively cheaply by means of a die pressing operation, the mutually abutting end faces thereof need to be machined so that they can accurately abut against the end faces of adjacent blade elements upon assembly. Such machining operations are relatively time consuming and add considerably to the overall cost of the assembled blade.
  • these relatively short blades can twist out of line (so-called 'piano-keying') and thereby hinder de-watering of the pulp.
  • GB-A-1232681 discloses a device for extracting water from the paper or pulp in a paper making or wet pulp machine.
  • the device has an upper surface for sliding cooperation with the wire or felt of the machine with at least substantial parts of the surface being formed by elements made of hard oxide ceramic material.
  • the elements are embedded into or supported by support means made of a water-repellent non-brittle synthetic plastics material which is softer than the oxide ceramic material.
  • AT-A-294560 also relates to components such as suction plates, suction bars, sieve table coats, stripping bars or foil bars which are in sliding contact with the sieve or felt of a paper machine or cellulose-draining machine.
  • the components have a sliding surface which is formed from hard elements, particularly oxide ceramic elements with each hard element having a groove extending along its longitudinal direction.
  • the hard elements are connected together by aligning the grooves of adjacent hard elements and at least partially filling them with a plastic filling such as epoxide resin.
  • a wear-resistant blade element for use in the assembly of a wear-resistant blade in a de-watering section of a paper-making machine, said blade element comprising a unitary ceramic body having (a) an upper region defining an upper, working surface, (b) ends, (c) leading and trailing edges, and (d) a lower region shaped so as to be engageable with a carrier for a multiplicity of blade elements assembled in end-to-end relationship, wherein the body is elongated between said ends so that the length of the ceramic body between said ends is no less than three times the width thereof between said leading and trailing edges; characterised in that the ceramic body is formed of silicon aluminium oxynitride.
  • the lower region of the body is provided with a hollow or a recess therein which extends longitudinally of the body between said ends and which is of a size to receive a plurality of clamping rods for use in clamping adjacent blade elements together in end-to-end relationship.
  • a wear-resistant blade comprising a multiplicity of wear-resistant blade elements disposed in end-to-end relationship in a row, and securing means for the row of blade elements; characterised in that the blade elements are in accordance with said first aspect of the invention.
  • the securing means comprises a plurality of clamping rods extending through said hollows or recesses in said blade elements to engage clamping elements at the ends of the row of blade elements to clamp said row together.
  • the blade elements are slip-cast elements, although they may be isostatically-pressed or extruded elements, if desired.
  • the blade elements can be produced in lengths of up to about 1200mm, typically 300 to 1200mm. Thus, as few as 9 or 10 blade elements may be all that is required to span a 10 metre wide paper making machine.
  • the ceramic body prefferably has a substantially constant wall thickness of typically about 4 to 8mm, most preferably about 6mm.
  • the hollow is preferably located mainly in said lower region of the body and preferably has a cross-sectional shape such that its dimension widthwise of the body exceeds its dimension heightwise of the body.
  • the hollow communicates with the underside of the body by means of a slot extending longitudinally through a bottom wall of the body.
  • said recess is preferably defined between longitudinally extending legs in the lower region of the body, said legs being shaped to be engageable with the carrier.
  • the upper region of the body may be solid, it is within the scope of the present invention to provide one or more longitudinally extending hollows or recesses therein to reduce the quantity of ceramic material needed to form the body and/or to facilitate formation of the body.
  • the blade element illustrated therein comprises a unitary ceramic body 10 formed by a horizontal drain slip casting operation out of SYALON 101 available from International Syalons Newcastle Limited of Wallsend, United Kingdom. Following slip casting, the body 10 is sintered at temperatures above 1690 °C and generally below 1800 °C to produce a body formed of silicon aluminium oxynitride of the formula Si 6-x Al x N 8-x O x (where x can vary from a small positive number to approximately 4, but which is typically 0 - 2) together with a minor amount of a glassy phase.
  • the ceramic body 10 comprises an upper region 10a, a dovetail-shaped lower region 10b including a bottom wall.
  • the upper region 10a defines an upper, working surface 10c of the body 10.
  • the body 10 has leading and trailing edges 10d and 10e, respectively and opposite ends 10f and 10g, respectively.
  • the working surface 10c is that surface of the element over which paper pulp passes for de-watering.
  • the leading and trailing edges 10d and 10e are those edges which lie respectively upstream and downstream relative to the direction of travel of the pulp through the de-watering section.
  • the body 10 is formed with a relatively large hollow 12 therein which extends longitudinally through the body 10 between and through the ends 10f and 10g (See Fig 2).
  • the hollow 12 is of approximately oval cross-section and has an as-cast surface finish whereby its dimension widthwise of the body 10 exceeds its dimension heightwise of the body 10.
  • the hollow 12 is of a size such that the resultant body 10 has an approximately constant wall section. This facilitates slip casting and subsequent sintering of the body 10 and also assists in minimising the amount of material used to produce the body.
  • the ends 10f and 10g are accurately machined after sintering so as to ensure that they mate closely with the respective ends of adjacent blade elements.
  • the external surfaces of the upper and lower regions 10a and 10b, including the upper surface 10c and the leading and trailing edges 10d and 10e are likewise machined after sintering.
  • each blade element between the ends 10f and 10g is typically in the range of 300 to 1200mm whilst the width thereof between the edges 10d and 10e is typically about 40 to 70mm.
  • the lower region 10b is of dovetail section for engagement with a correspondingly dovetailed recess in a polyethylene carrier 16 illustrated in Fig 5.
  • the lower region 10b is formed without a bottom wall so as to define splayed legs extending longitudinally of the body 10.
  • recess 12 is defined between the splayed legs.
  • recess 12 is formed so that it extends widthwise of the body 10 within the upper region 10a towards the leading and trailing edges 10d and 10e.
  • a multiplicity of the blade elements (only one shown in Fig.5) of the type described above in relation to Fig. 1 are assembled together in end-to-end abutment in a row, and a pair of stainless steel clamping rods 18 is passed through the hollows 12 in the bodies 10 of these blade elements and engaged with end plates (only one shown -see dotted line 20) and nuts (not shown) which engage screw-threaded ends of the rods 18 to clamp the row of blade elements together.
  • the clamped blade elements are engaged with their dovetail-shaped lower regions 10b in a correspondingly dovetail-shaped groove 22 in a synthetic resin carrier 16 which has been previously machined to the required size having regard to the paper-making machine to which it is to be fitted. Then, the blade elements are bonded to the carrier 16 by means of epoxy resin injected through a longitudinal extending row of holes 24 in a bottom wall 26 of the carrier 16. Finally, the carrier 16 with elements bonded thereto is machined on the upper surfaces 10c of the bodies 10 to produce the required smooth flat working surface over which the pulp passes for de-watering during the paper-making process.
  • the body 10 of the blade element has an interior hollow 12 which communicates with the underside of the element 10 via a central slot 10h extending longitudinally of the body 10 through the bottom wall of lower region 10b.

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  • Paper (AREA)
  • Sealing Devices (AREA)
  • Multiple-Way Valves (AREA)
  • Coating Apparatus (AREA)
  • Pallets (AREA)

Abstract

A wear-resistant blade element is disclosed for use in the assembly of a wear-resistant blade in a de-watering section of a paper-making machine. The blade element comprises a unitary ceramic body (10) having an upper region (10a) defining an upper, working surface (10c); ends (10f and 10g); leading and trailing edges (10d and 10e); and a lower dovetail-shaped region (10b) engageable with a carrier (16) for a multiplicity of blade elements assembled in end-to-end relationship. The body (10) is elongated between its ends (10f and 10g) so that its length between said ends is no less than three times the width thereof between said leading and trailing edges (10d and 10e). The body (10) has a longitudinal hollow (12) therethrough which is large enough to receive two clamping rods (18) which clamp the elements together.

Description

This invention relates to a wear-resistant blade element for use in the assembly of wear-resistant blades in a de-watering section of a paper-making machine.
Such wear-resistant blades are required to extend for the full width of the paper-making machine and so need to have a length of typically up to 10 metres. In order to impart the required degree of wear-resistance, it is known to form the blade from a multiplicity of ceramic (alumina, zirconia or zirconia-toughened alumina) blade elements held together in end-to-end relationship by two or more stainless steel rods. These rods extend through respective aligned holes passing through the blade elements from one end to the other. The rods pass through common end clamping elements which can be tightened down using clamping nuts engaging screw-threaded ends of the clamping rods to clamp the blade elements together. Such an assembly of clamped blade elements is mounted in a synthetic resin carrier which has been machined to the correct size to suit the machine. The upper surfaces of the assembled blade elements are then polished in situ using a tracked grinding machine to a high surface finish to provide a smooth working surface to the blade.
With this known form of blade, the individual blade elements are relatively short, ie the distance between their ends is typically less than the distance between leading and trailing edges thereof. The leading and trailing edges of the blade elements are those which, in use, are located respectively upstream and downstream relative to the direction of travel of pulp through the de-watering section of the paper-making machine. Thus, as many as 300 to 400 blade elements may be required for a 10 metre length of blade. Although the ceramic blade elements can be produced relatively cheaply by means of a die pressing operation, the mutually abutting end faces thereof need to be machined so that they can accurately abut against the end faces of adjacent blade elements upon assembly. Such machining operations are relatively time consuming and add considerably to the overall cost of the assembled blade. Also, in use, these relatively short blades can twist out of line (so-called 'piano-keying') and thereby hinder de-watering of the pulp.
GB-A-1232681 discloses a device for extracting water from the paper or pulp in a paper making or wet pulp machine. The device has an upper surface for sliding cooperation with the wire or felt of the machine with at least substantial parts of the surface being formed by elements made of hard oxide ceramic material. The elements are embedded into or supported by support means made of a water-repellent non-brittle synthetic plastics material which is softer than the oxide ceramic material. AT-A-294560 also relates to components such as suction plates, suction bars, sieve table coats, stripping bars or foil bars which are in sliding contact with the sieve or felt of a paper machine or cellulose-draining machine. The components have a sliding surface which is formed from hard elements, particularly oxide ceramic elements with each hard element having a groove extending along its longitudinal direction. The hard elements are connected together by aligning the grooves of adjacent hard elements and at least partially filling them with a plastic filling such as epoxide resin.
It is an object of the present invention to mitigate these disadvantages.
According to a first aspect of the present invention, there is provided a wear-resistant blade element for use in the assembly of a wear-resistant blade in a de-watering section of a paper-making machine, said blade element comprising a unitary ceramic body having (a) an upper region defining an upper, working surface, (b) ends, (c) leading and trailing edges, and (d) a lower region shaped so as to be engageable with a carrier for a multiplicity of blade elements assembled in end-to-end relationship, wherein the body is elongated between said ends so that the length of the ceramic body between said ends is no less than three times the width thereof between said leading and trailing edges; characterised in that the ceramic body is formed of silicon aluminium oxynitride.
Preferably, the lower region of the body is provided with a hollow or a recess therein which extends longitudinally of the body between said ends and which is of a size to receive a plurality of clamping rods for use in clamping adjacent blade elements together in end-to-end relationship.
According to a second aspect of the present invention, there is provided a wear-resistant blade comprising a multiplicity of wear-resistant blade elements disposed in end-to-end relationship in a row, and securing means for the row of blade elements; characterised in that the blade elements are in accordance with said first aspect of the invention.
Preferably, the securing means comprises a plurality of clamping rods extending through said hollows or recesses in said blade elements to engage clamping elements at the ends of the row of blade elements to clamp said row together.
Preferably, the blade elements are slip-cast elements, although they may be isostatically-pressed or extruded elements, if desired.
It is found that the blade elements can be produced in lengths of up to about 1200mm, typically 300 to 1200mm. Thus, as few as 9 or 10 blade elements may be all that is required to span a 10 metre wide paper making machine.
It is preferred for the ceramic body to have a substantially constant wall thickness of typically about 4 to 8mm, most preferably about 6mm.
Where the hollow is provided in the body for receiving the clamping rods, such hollow is preferably located mainly in said lower region of the body and preferably has a cross-sectional shape such that its dimension widthwise of the body exceeds its dimension heightwise of the body. In a particularly convenient embodiment, the hollow communicates with the underside of the body by means of a slot extending longitudinally through a bottom wall of the body.
Where the recess is provided in the body for receiving the rods, said recess is preferably defined between longitudinally extending legs in the lower region of the body, said legs being shaped to be engageable with the carrier.
Whilst the upper region of the body may be solid, it is within the scope of the present invention to provide one or more longitudinally extending hollows or recesses therein to reduce the quantity of ceramic material needed to form the body and/or to facilitate formation of the body.
Embodiments of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:-
  • Fig 1 is a cross-sectional view through one embodiment of blade element according to the present invention,
  • Fig 2 is a plan view showing the underside of the blade element of Fig 1,
  • Figs 3 and 4 are cross-sectional views of second and third embodiments of blade element,
  • Fig 5 is a cross-sectional view showing the manner in which the blade elements illustrated in Fig.1 are held in a carrier to form a blade, and
  • Fig. 6 is a cross-sectional view of a fourth embodiment of blade element.
    • Referring now to Figs 1 and 2 of the drawings, the blade element illustrated therein comprises a unitary ceramic body 10 formed by a horizontal drain slip casting operation out of SYALON 101 available from International Syalons Newcastle Limited of Wallsend, United Kingdom. Following slip casting, the body 10 is sintered at temperatures above 1690 °C and generally below 1800 °C to produce a body formed of silicon aluminium oxynitride of the formula Si6-xAlxN8-xOx (where x can vary from a small positive number to approximately 4, but which is typically 0 - 2) together with a minor amount of a glassy phase.
    The ceramic body 10 comprises an upper region 10a, a dovetail-shaped lower region 10b including a bottom wall. The upper region 10a defines an upper, working surface 10c of the body 10. The body 10 has leading and trailing edges 10d and 10e, respectively and opposite ends 10f and 10g, respectively. The working surface 10c is that surface of the element over which paper pulp passes for de-watering. The leading and trailing edges 10d and 10e are those edges which lie respectively upstream and downstream relative to the direction of travel of the pulp through the de-watering section. The paper-making process is well known in the art and so will not be described in any detail herein.
    The body 10 is formed with a relatively large hollow 12 therein which extends longitudinally through the body 10 between and through the ends 10f and 10g (See Fig 2). As can be seen from Fig 1, the hollow 12 is of approximately oval cross-section and has an as-cast surface finish whereby its dimension widthwise of the body 10 exceeds its dimension heightwise of the body 10. The hollow 12 is of a size such that the resultant body 10 has an approximately constant wall section. This facilitates slip casting and subsequent sintering of the body 10 and also assists in minimising the amount of material used to produce the body.
    The ends 10f and 10g are accurately machined after sintering so as to ensure that they mate closely with the respective ends of adjacent blade elements. The external surfaces of the upper and lower regions 10a and 10b, including the upper surface 10c and the leading and trailing edges 10d and 10e are likewise machined after sintering.
    The length of each blade element between the ends 10f and 10g is typically in the range of 300 to 1200mm whilst the width thereof between the edges 10d and 10e is typically about 40 to 70mm.
    As can be seen from Fig 1, the lower region 10b is of dovetail section for engagement with a correspondingly dovetailed recess in a polyethylene carrier 16 illustrated in Fig 5.
    In the alternative embodiment illustrated in Fig 3, the lower region 10b is formed without a bottom wall so as to define splayed legs extending longitudinally of the body 10. Thus, recess 12 is defined between the splayed legs.
    In the alternative embodiment of Fig 4, recess 12 is formed so that it extends widthwise of the body 10 within the upper region 10a towards the leading and trailing edges 10d and 10e.
    Referring now to Fig. 5, a multiplicity of the blade elements (only one shown in Fig.5) of the type described above in relation to Fig. 1 are assembled together in end-to-end abutment in a row, and a pair of stainless steel clamping rods 18 is passed through the hollows 12 in the bodies 10 of these blade elements and engaged with end plates (only one shown -see dotted line 20) and nuts (not shown) which engage screw-threaded ends of the rods 18 to clamp the row of blade elements together. Following this, the clamped blade elements are engaged with their dovetail-shaped lower regions 10b in a correspondingly dovetail-shaped groove 22 in a synthetic resin carrier 16 which has been previously machined to the required size having regard to the paper-making machine to which it is to be fitted. Then, the blade elements are bonded to the carrier 16 by means of epoxy resin injected through a longitudinal extending row of holes 24 in a bottom wall 26 of the carrier 16. Finally, the carrier 16 with elements bonded thereto is machined on the upper surfaces 10c of the bodies 10 to produce the required smooth flat working surface over which the pulp passes for de-watering during the paper-making process.
    In Fig. 6, the body 10 of the blade element has an interior hollow 12 which communicates with the underside of the element 10 via a central slot 10h extending longitudinally of the body 10 through the bottom wall of lower region 10b.

    Claims (12)

    1. A wear-resistant blade element for use in the assembly of a wear-resistant blade in a de-watering section of a paper-making machine, said blade element comprising a unitary ceramic body (10) having (i) an upper region (10a) defining an upper, working surface (10c), (ii) ends (10f, 10g), (iii) leading and trailing edges (10d,10e), and (iv) a lower region (10b) shaped so as to be engageable with a carrier (16) for a multiplicity of blade elements assembled in end-to-end relationship, wherein the body (10) is elongated between said ends (10f,10g) so that the length of the ceramic body (10) between said ends (10f,10g) is no less than three times the width thereof between said leading and trailing edges (10d,10e); characterised in that the ceramic body (10) is formed of silicon aluminium oxynitride.
    2. A blade element as claimed in claim 1, wherein the body (10) is a slip-cast body.
    3. A blade element as claimed in claim 1 or 2, wherein the lower region (10c) of the body is provided with a hollow (12) or a recess therein which extends longitudinally of the body (10) between said ends (10f,10g) and which is of a size to receive a plurality of clamping rods (18) for use in clamping adjacent blade elements together in end-to-end relationship.
    4. A blade element as claimed in claim 3, wherein the hollow (12) is located mainly in said lower region (10b) of the body (10).
    5. A blade element as claimed in claim 4, wherein the hollow (12) has a cross-sectional shape such that its dimension widthwise of the body (10) exceeds its dimension heightwise of the body (10).
    6. A blade element as claimed in claim 3, 4 or 5, wherein the hollow (12) communicates with the underside of the body (10) by means of a slot (10h) extending longitudinally through a bottom wall of the body.
    7. A blade element as claimed in claim 3, wherein the recess is defined between longitudinally extending legs in the lower region (10b) of the body (10), said legs being shaped to be engageable with the carrier (16).
    8. A blade element as claimed in any preceding claim, wherein the ceramic body (10) has a substantially constant wall thickness.
    9. A blade element as claimed in claim 8, wherein the wall of the ceramic body has a thickness of about 4 to 8 mm.
    10. A blade element as claimed in claim 8, wherein the wall of the ceramic body (10) has a thickness of about 6 mm.
    11. A wear-resistant blade comprising a multiplicity of wear-resistant blade elements disposed in end-to-end relationship in a row, and securing means (18) for the row of blade elements; characterised in that the blade elements are as claimed in any preceding claim.
    12. A wear-resistant blade as claimed in claim 11, wherein each blade element is as defined in claim 3, wherein the securing means comprises a plurality of clamping rods extending through said hollows (12) or recesses in said blade elements to engage clamping elements at the ends of the row of blade elements to clamp said row together.
    EP96930244A 1995-09-13 1996-09-10 Wear-resistant blade element Expired - Lifetime EP0850334B1 (en)

    Applications Claiming Priority (3)

    Application Number Priority Date Filing Date Title
    GB9518713 1995-09-13
    GBGB9518713.4A GB9518713D0 (en) 1995-09-13 1995-09-13 Wear-resistant blade element
    PCT/GB1996/002235 WO1997010381A1 (en) 1995-09-13 1996-09-10 Wear-resistant blade element

    Publications (2)

    Publication Number Publication Date
    EP0850334A1 EP0850334A1 (en) 1998-07-01
    EP0850334B1 true EP0850334B1 (en) 2002-03-27

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    Family Applications (1)

    Application Number Title Priority Date Filing Date
    EP96930244A Expired - Lifetime EP0850334B1 (en) 1995-09-13 1996-09-10 Wear-resistant blade element

    Country Status (7)

    Country Link
    EP (1) EP0850334B1 (en)
    AT (1) ATE215145T1 (en)
    CA (1) CA2231694A1 (en)
    DE (1) DE69620202T2 (en)
    ES (1) ES2174099T3 (en)
    GB (1) GB9518713D0 (en)
    WO (1) WO1997010381A1 (en)

    Families Citing this family (3)

    * Cited by examiner, † Cited by third party
    Publication number Priority date Publication date Assignee Title
    DE10130323A1 (en) * 2001-06-22 2003-01-02 Voith Paper Patent Gmbh Wear body in laminated construction, in particular in a paper or board machine, process for its production and its use
    CN100335718C (en) * 2004-02-18 2007-09-05 克劳斯·巴特尔马斯 Device for a paper-making machine having at least one wire for making paper
    CN104099796A (en) * 2014-06-17 2014-10-15 常熟鼎天赫机械有限公司 Ceramic dehydration element for paper making machine

    Family Cites Families (9)

    * Cited by examiner, † Cited by third party
    Publication number Priority date Publication date Assignee Title
    SE349341B (en) * 1967-04-17 1972-09-25 Leder & Riemen Patent
    AT294560B (en) * 1969-07-08 1971-11-25 Leder & Riemen Patent Component that is in sliding contact with the wire or felt of a paper machine or pulp dewatering machine
    CA902405A (en) * 1970-03-10 1972-06-13 Jwi Ltd. Insert for paper machine drainage elements
    USRE29417E (en) * 1974-03-28 1977-09-27 International Paper Company Papermaking system including a flexible ceramic member having a pre-loaded tensile force applying means
    AT372993B (en) * 1977-02-23 1983-12-12 Bartelmuss Heinz Mag HOLDING DEVICE FOR THE SUPPORT BODY FOR A LUG CARRIER (SCREEN) OF DRAINAGE MACHINES
    US4238286A (en) * 1979-05-22 1980-12-09 Rudolf Poeschl Dewatering table bar for the wire cloth or felt in a pulp-dewatering machine
    US4334958A (en) * 1980-08-25 1982-06-15 Fred W. Meyers Production of conveyor support bars for paper making machinery
    DE3306457C2 (en) * 1983-02-24 1986-05-07 Feldmühle AG, 4000 Düsseldorf Drainage element for the wet part of a paper machine
    JPH01275475A (en) * 1986-06-09 1989-11-06 Albany Internatl Corp Apparatus for fixing ceramic segment to base

    Also Published As

    Publication number Publication date
    ES2174099T3 (en) 2002-11-01
    WO1997010381A1 (en) 1997-03-20
    DE69620202D1 (en) 2002-05-02
    DE69620202T2 (en) 2002-10-24
    EP0850334A1 (en) 1998-07-01
    ATE215145T1 (en) 2002-04-15
    GB9518713D0 (en) 1995-11-15
    CA2231694A1 (en) 1997-03-20

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