• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    In a heat transfer roller (1) having an inner axis (2) for receiving the load and an outer shell portion (4) having a surface for treating the fibrous web, the outer roller portion is for forming flow space (5) for the heat transfer medium on the inner axis attached attached. The outer shell part is made of hardenable steel, which is hardened and tempered at a temperature of 300-350 ° C so that the hardness of the outer shell part is consistently at least 450 HV. Method for producing a heat transfer roller (1).
    公开号:AT512108A2
    申请号:T1098/2012
    申请日:2012-10-10
    公开日:2013-05-15
    发明作者:
    申请人:Metso Paper Inc;
    IPC主号:
    专利说明:

    Heat transfer blanket roll and method of manufacturing a heat transfer blanket roll
    Technical area
    The present invention relates to a heat transfer roll, such as a thermo roll or a cylinder, which can be used in fibrous web machines for treating web-shaped fibrous material, such as for pressing, drying or calendering paper or paperboard. Furthermore, the invention relates to the production of a heat transfer roller. Specifically, but not exclusively, the invention relates to a double-jacket thermo roll in which the outer jacket is tightly fixed around the inner axis forming the roll body.
    State of the art
    In paper, board and pulp machines, the sheet material can be heated, dried, calendered, wet pressed and / or cooled with heat transfer rolls. Particularly in calendering applications, the heat output required by the fibrous web is generated by powerful thermo rolls, in which high heat transfer medium (heat transfer medium) (almost 300 ° c) heat transfer oil is used.
    To achieve the required heating and drying effect in demanding process applications, the
    Surface temperatures of the thermo rolls to be raised to 200-250 ° C and even higher. The heat output to be taken from the roll is known to depend on the heat transfer contact between the web to be heated and the roll and the nature of the material to be heated, such as contact duration, basis weight and moisture of the web. High production speed combined with long contact time, wet web and high thermo roll surface temperature means that the heat output to be extracted from the Thero roll must be very high.
    As is known, the heat of the thermo roll is generated by introducing liquid or gas, which acts as a heat transfer medium, into the flow channels formed in the interior of the thermo roll and in particular in the jacket existing holes, from which the heat then in the shell and continues to the roll surface passes.
    In the utility model Fi U8407 a heat transfer roller is described which has a cylindrical inner axis, an outer layer of metal surrounding the inner axis and flow channels, such as e.g. Flow grooves for the heat transfer medium comprises. During manufacture of the roll, the inner and outer layers are firmly joined together. The flow channels are formed by flow grooves which have been formed on the outer surface of the inner axis and / or on the inner surface of the outer layer prior to the assembly of the inner axis and the outer layer.
    A known heat transfer roller
    Surface construction consists, in order to achieve hardness of the surface, of a hardcover formed by welding. Welding is laborious and requires special equipment. In addition, welding involves a risk of quality because the heat affected zone created during welding weakens the material. Defects may be left in the welded material, such as voids and inclusions. The exposed on the roll surface cavities form during processing visible holes or depressions. The welded constructions must be checked very carefully with regard to welding defects by non-destructive methods.
    Even by surface hardening the surface of the heat transfer roller, large hardnesses can be achieved. However, surface hardening can cause a disadvantageous (uneven) stress distribution in the roll shell with respect to the stress of the roll.
    However, by welding and surface hardening, only a limited thickness hard layer, for example 2-8 mm, can be economically produced in the roll surface layer. Welding and surface hardening in manufacturing create an additional operation that increases manufacturing costs and manufacturing time. If material is removed from the surface of the heat transfer roller in connection with the maintenance, the roller must be used when the thin hard layer has been used up. be coated again.
    Summary of the invention
    According to a first aspect of the invention, there is provided a heat transfer roller having an inner axle for receiving the load and an outer roller member having a surface for treating the fibrous web, the outer roller member being attached to the inner axle to form a flow space for the heat transfer medium is, and the outer shell part made of hardenable steel, which is hardened and tempered at a temperature of 300-350 ° C so that the hardness of the outer shell part consistently at least 450 HV.
    Preferably, the outer shell part is tempered at a tempering temperature higher than the highest operating temperature of the heat transfer medium during operation of the heat transfer roll.
    Preferably, the outer shell part is made of hardenable engineering steel.
    Preferably, the outer shell part is made of tempered steel.
    Preferably, the outer shell part is made of forged or otherwise prepared seamless steel pipe.
    Preferably, the heat transfer roller at the interface between the inner axis and the outer shell part flow channels for the heat transfer medium.
    Preferably, the inner axis compared to the outer shell part of much tougher material, such as ferritic cast iron or mild steel, made.
    Preferably, the inner axis is made of an economically advantageous material such as cast iron.
    Preferably, the heat transfer roller is a thermo roll for a calender.
    According to a second aspect of the invention, there is provided a method of manufacturing a heat transfer roll having an inner axle for load bearing and an outer skirt member having an outer surface for treating the fibrous web, the outer jacket member being fixedly secured to the inner axle to form a flow space for the heat transfer medium and the outer shell part is made of hardenable steel, hardened and annealed at a temperature of 300-350 ° C so that it consistently receives a hardness of at least 450 HV.
    Preferably, the outer shell part is thermally shrunk onto the inner axis.
    Preference is given to the tempering temperature of the outer
    Jacket part due to the desired hardness of the outer shell part chosen so that the good strength properties of the material are retained.
    Preferably, the outer shell portion is tempered at a tempering temperature higher than the maximum operating temperature of the heat transfer medium during operation of the heat transfer roll.
    Preferably, in addition to the tempering temperature, the tempering time is selected so that the outer shell part consistently receives a hardness of at least 450 HV.
    Preferably, the inner axis is made of much tougher material than the outer shell part.
    Since the outer cladding layer is hard over its entire thickness, the life of the heat transfer roller can be prolonged as compared with the prior art. In the maintenance of the roller more material can be removed than before, before the outer sheath layer of the heat transfer roller must be renewed. The renewal of the outer cladding layer may be in the form that the worn out outer cladding layer is removed and restored to the original, i. old inner axle is applied a new outer cladding layer. The removal of the worn original outer cladding layer can be done, for example, by splitting this outer cladding layer in the longitudinal direction of the heat transfer roller.
    The residual stresses of the outer cladding layer can be maintained at a low level, and inherent voltage spikes occurring in the prior art can be avoided.
    Various embodiments of the present invention are described only in conjunction with one or more aspects of the invention. It will be understood by those skilled in the art that any embodiment of any aspect of the invention may be practiced by the same or different aspects of the invention alone or in combination with other embodiments.
    In the following, the invention will be described with reference to the accompanying diagrammatic drawings, but without limiting the invention exclusively to that shown in the drawings.
    Brief description of the drawings
    Fig. 1 shows a longitudinal section through the heat transfer roller according to an embodiment of the invention.
    Fig. 2 shows a perspective view of the heat transfer roller of FIG. 1 without axle end parts.
    Description of preferred embodiments
    In the following description, corresponding parts are assigned the same reference numerals. It should be understood that the drawings are not to scale in their entirety and are intended primarily to illustrate embodiments of the invention.
    Fig. 1 and 2 show a heatable and / or coolable heat transfer roller 1, which has a thin, made of steel outer shell part 4 and located in this outer shell part inner axis 2. At the interface between the outer layer and the inner axis, flow grooves 5 are formed to form flow channels for the heat transfer medium.
    The heat transfer roller 1 comprises an inner axle 2 serving for load receiving and end pieces 3 attached to the ends thereof. The heat transfer roller 1 is designed as a double-jacket construction, wherein the inner axle 2 forms the inner casing part (for example a hollow axle with the inner surface 6). The outer jacket part 4 is fastened on the inner jacket part 2 by thermal shrinking or by a positive fit or by another joining method, such as, for example, end-side welding. On the inner shell part 2 2a longitudinal channels 5 are formed as flow grooves for the heat transfer medium on the outside thereof.
    The outer shell part 4 has an outer surface for treating the fibrous web. In the embodiment as
    Heated roll travels the heat transfer medium through the outer shell part 4 into the fibrous web, in the embodiment as a chill roll, the heat from the fibrous web W passes through the outer shell part 4 into the heat transfer medium. The heat transfer medium is preferably oil for high temperatures, but may also be water or steam or other liquid.
    If the outer jacket part 4 is fastened on the inner jacket part 2, then the longitudinal channels 5 located on the outside of the inner jacket part form flow channels for the heat transfer medium between the jacket parts.
    The heat transfer roller 1 can be used in various calenders, such as in the supercalender, in the multi-roll calender and in the soft calender as a thermo roll. In the calender, the fibrous web may be heated and pressed in a nip formed by the thermo-roll and a counter-element in contact therewith, which may consist of a roll with or without cover or tape, especially a metal strip, or the fibrous web be dried on the surface of the thermo roll. The heat transfer roller 1 can also be used in the dryer section as a hot drying cylinder, on the surface of which the fibrous web is dried.
    The outer shell part 4 of the heat transfer roller is formed of hardenable steel, with which one at a
    Tempering temperature of 300-350 ° C can achieve a hardness of 450 HV. It then requires no separate surface hardening and achieves an over the entire material thickness reaching hardness.
    Preferably, the outer shell part is formed of forged steel. Forged steel tube blanks are commercially available. The forged steel pipe is preferably seamless. The forged steel may consist of commonly used tempered construction steel, which is readily available. Examples of such steels are 42CrMo4 and 36CrNiMo6. For example, such tempered structural steels can achieve a uniform microstructure.
    If the outer shell part is made of tempered steel, there is no tempering at high temperature associated with tempering, at which the hardness remains at a lower level (for example, about 300 HV), but final tempering occurs at a low temperature and hardness can then reach a level of over 500 HV.
    The outer shell part is hardened to the desired hardness and tempered at low temperature. The tempering of the material of the outer shell part is preferably carried out at a temperature above the maximum operating temperature of the flowing in the heat transfer roller 1 heat transfer medium temperature, preferably at 300-350 ° C. The tempering of the material of the outer shell part occurs at such a low temperature that the hardness attained during curing does not fall below 450 HV. In some cases, the tempering of the material occurs at such a temperature that a hardness of 450-500 HV or more can be achieved. The temperature and tempering time are preferably chosen so that temper brittleness is avoided.
    When hardening the outer shell part 4 and the subsequent tempering, compromises regarding the impact resistance of the material can be made. The inner axis 2 of the heat transfer roller 1 is compared to the outer shell part of much tougher material, for example, ferritic cast iron or structural steel, which is cheap and easy to work made. In spite of the smears made in the impact resistance of the outer shell part, the outer shell part of the heat transfer roller 1 can be made with an impact strength more than ten times the impact resistance of the surface layers of the mold rolls in use today.
    The outer shell part receives during hardening and the subsequent tempering reaching over its entire thickness hardness. Thus, without loss of hardness properties of the surface, the outer cladding layer can be processed deeper (e.g., by maintenance grinding) than the hard surface layers of the known heat transfer rolls. This increases the service life (service life) of the heat transfer roller and enables longer maintenance of the roller in the workshop of the paper mill before the roller · 1ϊ · must be sent to the factory for renewal of the outer jacket.
    Known are the prejudices against the use of hardenable steel, with a hardness of 450 HV can be achieved because it is believed that high hardness leads to a brittle structure. In the range or in the production program of the manufacturer of commercial forged steels no such hardness values are listed for large tubular parts. Usually, the forged steel tube suppliers' production schedule for the materials provides hardness values achieved at significantly higher tempering temperatures than 300 ° C, with the hardness remaining at a comparatively low level.
    In the foregoing, examples of some embodiments of the invention have been described. It will be understood by those skilled in the art that the invention is not limited to the details set forth but may be practiced otherwise.
    Certain features of the described embodiments may be used without the other features. As such, the above description is only to be taken as a description of principles of the invention and not as a limitation of the invention. The scope of the invention is thus limited only by the appended claims.
    claims
    权利要求:
    Claims (13)
    [1]
    GIBLER & POTH Dl DR. FERDINAND GIBLER DR DR. WOLFGANG POTH Austrian and European Patent and Trademark Attorneys PATENT OFFICES 33914 / ab PATENT CLAIMS 1. A heat transfer roller (1) having an inner axle (2) for receiving the load and an outer roller member (4), having a surface for treating the fibrous web, wherein the outer roller part is attached to image a flow space (5) for the heat transfer medium to the inner axis, characterized in that the outer shell part (4) consists of hardenable steel, the hardened and at a temperature of 300-350 ° C has been tempered so that the hardness of the outer shell part is consistently at least 450 HV.
    [2]
    2. A heat transfer roller according to claim 1, characterized in that the outer shell part (4) has been tempered at a temperature which is higher than the maximum operating temperature of the heat transfer medium during operation of the heat transfer roller (1).
    [3]
    3. Heat transfer roller according to claim 1 or 2, characterized in that the outer casing part (4) is made of forged steel pipe. · «···················································· •
    [4]
    4. Heat transfer roller according to one of claims 1 to 3, characterized in that the outer shell part (4) is made of tempered steel.
    [5]
    5. Heat transfer roller according to one of claims 1 to 4, characterized in that the heat transfer roller (1) at the interface between the inner axis (2) and the outer shell part (4) flow channels (5) for the heat transfer medium.
    [6]
    6. Heat transfer roller according to one of claims 1 to 5, characterized in that the inner axis (2) compared to the outer shell part (4) is made of much tougher material, such as ferritic cast iron or structural steel.
    [7]
    7. Heat transfer roller according to one of claims 1 to 6, characterized in that the heat transfer roller (1) is a thermo roll for a calender.
    [8]
    8. A method for producing a heat transfer roller (1) comprising an inner axle (2) for receiving a load and an outer shell part (4) with an outer surface for the treatment of the fiber web, wherein for forming flow space (5) for the heat transfer medium, the outer shell part is attached to the inner axis, characterized in that the outer shell part (4) made of hardenable steel, hardened and tempered at a temperature of 300-350 ° C, that it consistently a hardness of at least 450 HV receives.
    [9]
    9. The method according to claim 8, characterized in that the outer shell part {4) is thermally shrunk onto the inner axis (2).
    [10]
    10. The method according to claim 8 or 9, characterized in that the tempering temperature of the outer shell part (4) is chosen based on the set for the outer shell part hardness target so that the good strength properties of the material are maintained.
    [11]
    11. The method according to any one of claims 8 to 10, characterized in that the tempering temperature for the outer shell part (4) is selected a temperature which is higher than the maximum operating temperature of the heat transfer medium during operation of the heat transfer roller (1).
    [12]
    12. A method according to any one of claims 8 to 11, characterized in that in addition to the tempering temperature, the tempering period is selected so that the outer shell part (4) consistently receives a hardness of at least 450 HV.
    [13]
    13. The method according to any one of claims 8 to 12, • * ·· ** * »· · · ·« «« + ♦ ** · »* * * * * *>> >» «* * ♦ · Characterized in that the inner axis (2) compared to the outer shell part (4) is made of much tougher material. Gib (W & Poth Patent Attorneys OG UUjbU ^ lier Dr. W. Poth)
    类似技术:
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    同族专利:
    公开号 | 公开日
    FI20116029A0|2011-10-18|
    AT512108B1|2014-05-15|
    AT512108A3|2013-12-15|
    FI123316B|2013-02-15|
    CN103061195A|2013-04-24|
    DE102012218013A1|2013-04-18|
    CN103061195B|2016-03-16|
    FI20116029A|2013-02-15|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FI20116029A|FI123316B|2011-10-18|2011-10-18|Heat transfer roller and manufacturing method for a heat transfer roller|
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