Classifications

• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
  • D21F2/00—Transferring continuous webs from wet ends to press sections
• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
  • D21F1/00—Wet end of machines for making continuous webs of paper
  • D21F1/66—Pulp catching, de-watering, or recovering; Re-use of pulp-water
  • D21F1/80—Pulp catching, de-watering, or recovering; Re-use of pulp-water using endless screening belts
• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
  • D21F9/00—Complete machines for making continuous webs of paper
  • D21F9/003—Complete machines for making continuous webs of paper of the twin-wire type
• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21G—CALENDERS; ACCESSORIES FOR PAPER-MAKING MACHINES
  • D21G3/00—Doctors
  • D21G3/005—Doctor knifes

Definitions

• the present invention relates in general to a fibre dewatering press and in particular to arrangement for removing a fibre web from a wire in a wire press.
• Dewatering presses for dewatering of a fibre suspension and forming of a continuous web thereof are previously known.
• a known dewatering press is a twin- wire press, see e.g. the published international patent application WO 2008/ 105706.
• Dewatering of the pulp is usually done from an inlet pulp concentration of 3-8 % by weight to an output pulp concentration of 30-50 % by weight.
• twin-wire presses comprises two endless wires cooperating for dewatering fibre suspensions provided between them. The fibres form a continuous fibre web provided at an outlet from the twin- wire press.
• doctor blades are typically provided at the surface of the wires at the outlet from the twin-wire press. It is desired that the doctor blade follows the surface of the wire in close proximity when there is a potential risk for fragments of the fibre web to follow the wire.
• the roll driving the wire which roll typically is made of a relatively soft rubber material, is easily worn. After some operation time, the roll presents a worn and uneven surface. Consequently, the wire that is formed according to the roll surface therefore also often exhibits an uneven surface, even if the wire itself is undamaged.
• a doctor blade originally mounted in close proximity to the original wire surface is thereby separated from at least parts of the wire surface. Also, if the doctor blade is pushed against such an uneven surface, the doctor blade may damage the raised parts of the wire.
• the operating conditions at this position are also relatively demanding.
• the temperature is often in the range of 70-90 0 C and may vary with time and the environment typically comprises peroxides.
• the doctor blade is typically made of a polymer material, typically a high-molecular polythene material. Furthermore, at these temperatures, plastic deformation of the material is not unusual as well as displacements resulting from changing temperatures in different parts of the press.
• doctor blade arrangements cause too much wear on the wire and/ or cannot compensate for worn wires, doctor blade deformation or shifting surrounding temperatures.
• Doctor blades as such are also utilized e.g. in connection with paper machines, such as e.g. disclosed in the US patents 1,566,358 or 2,914,788.
• the fibre web in a paper machine is considerably lighter than for pulp applications.
• the basis weight is typically higher than 1000 g/m 2 .
• other conditions differ considerable between pulp and paper applications. Fibre webs of different weights and at different conditions will behave very differently and doctor blade solutions found in paper manufacturing applications cannot without careful modifications be utilized for pulp manufacturing purposes.
• an object of the present invention is therefore to provide a doctor blade arrangement presenting low wear on the wire, well adapted resilience behaviour and suitable scraping properties.
• the above objects are achieved by arrangements and methods according to the enclosed patent claims.
• an arrangement for removal of a fibre web from a fibre conveying support comprises a doctor beam and a doctor blade having a web contacting edge.
• the fibre web has a basis weight over 1000 g/m 2 .
• the doctor blade and the doctor beam are attached to each other by a pivotable attachment.
• the arrangement further comprises a hose for fluids arranged for applying a force between the doctor beam and the doctor blade at a distance from the pivotable attachment when being pressurized to move the web contacting edge towards the fibre conveying support by pivoting the doctor blade relative to the doctor beam.
• a twin-wire press for dewatering of a fibre suspension comprising lower rolls, an endless lower wire, upper rolls and an endless upper wire, and an arrangement according to the first aspect arranged for removal of a fibre web from at least one of the endless upper wire and the endless lower wire.
• a method for operating an arrangement for removal of a fibre web from a fibre conveying support comprises pressurizing of a hose for fluids arranged for applying a force between a doctor beam and a doctor blade at a distance from a pivotable attachment between the doctor beam and the doctor blade to move a web contacting edge of the doctor blade towards the fibre conveying support by pivoting the doctor blade relative to the doctor beam.
• the method further comprises controlling of the pressurizing dependent on an operating condition of a device providing the fibre web.
• One advantage with the present invention is that the wear on doctor blades and fibre conveying supports are significantly lowered.
• FIG. 1 is a schematic illustration of a twin-wire press
• FIG. 2 is a schematic illustration of an embodiment of a doctor arrangement according to the present invention
• FIG. 3 is a schematic illustration of the embodiment of Fig. 2 with pressurized hose
• FIG. 4 is a block diagram of an embodiment of a twin- wire press arrangement according to the present invention.
• FIG. 5 is a flow diagram of steps of an embodiment of a method according to the present invention.
• FIG. 6 is a schematic illustration of another embodiment of a doctor arrangement according to the present invention.
• Fig. 1 illustrates schematically a twin- wire press 1.
• the illustration is very simplified in order to facilitate the understanding of the general principle.
• the twin -wire press 1 comprises an endless upper wire 6A running in a path around upper rolls 8A.
• the twin-wire press 1 also comprises an endless lower wire 6B running in a path around lower rolls 8B.
• a fibre suspension is entered into the space between the endless upper wire 6A and the endless lower wire 6B through a headbox 10 at an inlet 2 of the twin-wire press 1.
• the flow path of fibre suspension/ web is indicated by the arrows 5.
• the fibre suspension is thus provided into a space 14 between the endless upper wire 6A and the endless lower wire 6B.
• the two wires 6 A, 6B cooperate with each other through a dewatering section 20 of the path 5, in which the wires 6A, 6B form a wedge-shaped dewatering space for the fibre suspension between each other.
• the wires 6A, 6B thus successively compress the fibre suspension in the wedge-shaped space, whereby the fibre suspension is initially pressed and dewatered and formed to a continuous fibre web between the wires 6A, 6B.
• the fibre web is released from the wires 6A, 6B and collected in a shredder 12.
• Doctor arrangements 30 are provided at the surface of the wires 6A, 6B at a respective roll 8 A, 8B.
• the fibre web is peeled off from the wires. In most situations, the fibre web is uniting in itself and the fibre web is typically released from the wires without problems. However, at some occasions, e.g. when starting or stopping the twin-wire press or when disturbances normal operation conditions appear, there might be portions
• a doctor arrangement 30 is therefore typically provided in connection with the outlet 3 from the twin-wire press 1. As described in the background section, prior art doctor arrangements have a number of drawbacks. The doctor arrangement 30 is provided at at least one of the wires 6A, 6B, and typically at both.
• a roll 8 drives a fibre conveying support 21, in this embodiment an endless wire 6, in a conveying direction 26.
• the fibre conveying support 21 could e.g. be the surface of a roll.
• a fibre web in this embodiment a web of cellulose pulp, is intended to be conveyed on a surface 24 of the endless wire 6 and be released therefrom before the endless wire 6 returns into the interior of the twin-wire press.
• the doctor arrangement 30 comprises a doctor blade 32 attached to a doctor beam 34.
• the doctor blade 32 is provided for prohibiting any parts of the fibre web to follow the fibre conveying support beyond the outlet 3.
• the doctor blade 32 is mechanically supported by the doctor beam 34, and the doctor beam 34 constitutes the attachment of the doctor blade 32 to the main fibre handling equipment, i.e. in this embodiment the twin wire press.
• a portion of the doctor beam is formed as a clamping plate 36, which clamps the doctor blade 32 against the doctor beam 34 with a pivoting point 35.
• the clamping plate 36 is firmly attached to the main part of the doctor beam 34, in this embodiment by bolts 38.
• the clamping plate 36 is in the present embodiment bent in such a way that outside the pivoting point 35, there is a distance 39 between the doctor blade 32 and the clamping plate 36, which allows the doctor blade to pivot out from the doctor beam surface around the pivoting point 35.
• the clamping plate 36 and the end of the doctor beam 34 thus together form a pivotable attachment 37 of the doctor blade 32.
• the doctor arrangement 30 is preferably originally mounted in such a way that a web contacting edge 33 of the doctor blade 32 is placed just at the surface 24 of the wire 6, when the doctor blade 32 is positioned along the surface of the doctor beam 34.
• a slit may be left between the web contacting edge 33 and the surface 24 of the wire.
• a hose 40 for fluids is provided in a recess 41 of the doctor blade 32.
• the hose 40 can generally be pressurized with any fluid - gas or liquid and is therefore adapted for being connected to a hose pressurizing arrangement. In the present embodiment, the hose 40 is intended to be pressurized by air.
• Fig. 3 illustrates a situation when the hose 40 is pressurized by a (not shown) hose pressurizing arrangement.
• the hose 40 expands and protrudes outside the recess 41 and applies a force onto a support surface 42 of the doctor beam 34.
• This support surface 42 can be a portion of the main doctor beam 34 itself or be a portion provided with a surface coating adapted for interaction with the expanded hose 40.
• the hose 40 is arranged for applying a force between the doctor beam 34 and the doctor blade 32 at a distance from the pivoting point 35 when being pressurized. The rear end of the doctor blade 32 is thereby moved out from the surface of the doctor beam 34, leaving a space 43 there between.
• This force acts to move the web contacting edge 33 towards the fibre conveying means 21, in this embodiment the wire 6.
• the web contacting edge 33 is thereby held against the surface 24 of the wire 6 with a force that is determined by the pressure applied in the hose 40.
• the pivoting of the doctor blade 32 is typically limited by the distance 39 to the clamping plate 36.
• the web contacting edge 33 follows the surface 24 of the wire 6 even if the roll or wire is unevenly worn. Also mechanical movements in the doctor arrangement 30 as a result of e.g. temperature differences are compensated by such an arrangement.
• the doctor blade 32 itself, which typically is made of high-molecular polythene, undergoes plastic deformation, also this is compensated.
• the doctor blade 32 is preferably manufactured in a material that is relatively soft, such as e.g. high-molecular polythene, which allows the doctor blade 32 to adapt and/ or be worn according to the surface profile of the wire and/ or roll.
• the release of the fibre web functions without any need for assistance from any fluid loaded doctor arrangements.
• the upper doctor blade of a twin-wire press is typically in no contact with the pulp mat when the machine is running.
• the doctor blade only picks up or pulls out small amount of fibres that is stuck into the wire.
• the smaller fibre particles more or less follow the wire, even if the doctor blade has loosened the fibre from the wire.
• Spraying systems are typically provided to handle these particles later.
• the lower doctor blade is in no contact to the pulp mat when the machine is running properly.
• the pulp mat structure and its own weight is pulling the pulp mat out from the wire so that the doctor blade goes free without contact to the pulp mat.
• a further advantageous function for the lower doctor blade arrangement is to provide for a contact between the pulp mat and the clamping plate. This stabilizes the pulp mat on its way to the shredder screw. Without this contact, the pulp mat is more easily broken because of the action of the forces that are applied at the shredder screw and from the weight itself. When a break occurs, the pulp mat looses the force from its own weight that pulls out the pulp mat and there is typically a doctor blade contact against this very thick pulp mat that gives more fibre losses and wearing on the doctor blade.
• the speed of the wire is in the range of 10-40 m/min at normal operation.
• a fibre handling system is illustrated in Fig. 4.
• a twin-wire press 1 for dewatering of a fibre suspension has doctor arrangements 30, e.g. according to the embodiment of Figs 2 and 3, mounted at the outlet from the twin-wire press 1.
• a hose pressurizing arrangement 50 is connected to a hose of the doctor arrangements 30.
• a controller 52 is arranged for controlling the hose pressurizing arrangement 50.
• the controller 52 is connected for receiving information about the operation conditions of the twin-wire press 1. Based on this information, the controller 52 can pressurize the hoses of the doctor arrangements 30 when needed, e.g. during starting or stopping of the twin- wire press 1, or when other disturbances in the operation is detected.
• the controller 52 can instead allow a release of the pressure and thereby allow the doctor blade to pivot out from the wire surface.
• Fig. 5 illustrates a flow diagram of steps of an embodiment of a method according to the present invention.
• a method for operating an arrangement for removal of a fibre web from a wire starts in step 200.
• a hose for fluids is pressurized.
• the hose is arranged for applying a force between a doctor beam and a doctor blade at a distance from a pivotable attachment between the doctor beam and the doctor blade to move a web contacting edge of the doctor blade towards the wire.
• the pressurizing is in step 212 controlled dependent on an operating condition of a device providing the fibre web.
• the embodiment illustrated in Figs 2 and 3 has the hose provided in a recess in the doctor blade and arranged to actuate on the doctor beam. Furthermore, the hose applies the force on the doctor blade at a side opposite to the web contacting edge relative to the pivotable attachment 37 and pivoting point 35.
• the hose 40 is provided in a recess 41 in the doctor beam 34 instead. The hose 40 is thereby arranged to actuate on a support surface 42 at the doctor blade 32.
• the hose 40 can be provided such that the hose applies the force on the doctor blade at a same side as the web contacting edge relative to the pivotable attachment.
• the fibre conveying support is exemplified by a wire.
• the present ideas also operate well with also other types of fibre conveying support, such as e.g. different kinds of rolls.
• the conditions at the outlet from a fibre web handling arrangement are relatively special.
• the environment is hazardous, typically comprising peroxides.
• the temperatures are often in the range of 70-90°C, but may also vary considerably, in particular at starting and stopping the fibre web handling arrangement.
• the presented solutions are well adapted to withstand such environments at the same time as they provide for simple and cost-efficient operation.
• the embodiments described above are to be understood as a few illustrative examples of the present invention. It will be understood by those skilled in the art that various modifications, combinations and changes may be made to the embodiments without departing from the scope of the present invention. In particular, different part solutions in the different embodiments can be combined in other configurations, where technically possible.
• the scope of the present invention is, however, defined by the appended claims.

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Citations (8)

Family Cites Families (3)

• 2009
  • 2009-04-14 SE SE0950242A patent/SE534503C2/sv not_active IP Right Cessation
• 2010
  • 2010-03-29 WO PCT/SE2010/050344 patent/WO2010120228A1/en active Application Filing
  • 2010-03-29 EP EP10764734A patent/EP2419562A4/en not_active Withdrawn
  • 2010-03-29 US US13/258,566 patent/US20120012267A1/en not_active Abandoned
  • 2010-03-29 CA CA2756641A patent/CA2756641A1/en not_active Abandoned

Patent Citations (8)

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