CA2118244A1 - Method of rebuilding a conventional tissue machine to a tad machine, and an improved c-wrap type twin wire former suitable for use therein - Google Patents
Method of rebuilding a conventional tissue machine to a tad machine, and an improved c-wrap type twin wire former suitable for use thereinInfo
- Publication number
- CA2118244A1 CA2118244A1 CA002118244A CA2118244A CA2118244A1 CA 2118244 A1 CA2118244 A1 CA 2118244A1 CA 002118244 A CA002118244 A CA 002118244A CA 2118244 A CA2118244 A CA 2118244A CA 2118244 A1 CA2118244 A1 CA 2118244A1
- Authority
- CA
- Canada
- Prior art keywords
- web
- fabric
- tad
- forming
- forming fabric
- 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.)
- Abandoned
Links
Classifications
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F11/00—Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines
- D21F11/14—Making cellulose wadding, filter or blotting paper
- D21F11/145—Making cellulose wadding, filter or blotting paper including a through-drying process
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F11/00—Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines
- D21F11/14—Making cellulose wadding, filter or blotting paper
-
- 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
Abstract
In a known method of rebuilding a conventional tissue machine having a conventional C-wrap type twin wire forming section to a TAD
machine, a TAD section, which includes a looped TAD fabric (24) and at least one TAD cylinder (22) located inside of the TAD
fabric loop for thermally predrying the formed paper web (13) by passing hot air through the web, is incorporated in the machine. The rebuilding costs can be reduced, and reduced production costs for the web (13) as well as an increased quality of the produced web can be obtained by substituting a new outer forming fabric (35 or 43) for the existing one (3), said new outer fabric being longer than the existing one and having a comparatively plane web facing surface, so that on separating the two forming fabrics from each other the formed paper web (13) will adhere to and be carried by the web facing surface of the new outer forming fabric (35 or 43), and by providing means (36, 37) for guiding the new outer forming fabric (35 or 43) with its web facing surface into contacting relationship with the TAD fabric (24) upstream of or on the TAD cylinder (22). A new C-wrap type twin wire former, which gives a drier web and is suitable for use in a TAD machine for the manufacture of high basis weight sanitary paper, is disclosed.
machine, a TAD section, which includes a looped TAD fabric (24) and at least one TAD cylinder (22) located inside of the TAD
fabric loop for thermally predrying the formed paper web (13) by passing hot air through the web, is incorporated in the machine. The rebuilding costs can be reduced, and reduced production costs for the web (13) as well as an increased quality of the produced web can be obtained by substituting a new outer forming fabric (35 or 43) for the existing one (3), said new outer fabric being longer than the existing one and having a comparatively plane web facing surface, so that on separating the two forming fabrics from each other the formed paper web (13) will adhere to and be carried by the web facing surface of the new outer forming fabric (35 or 43), and by providing means (36, 37) for guiding the new outer forming fabric (35 or 43) with its web facing surface into contacting relationship with the TAD fabric (24) upstream of or on the TAD cylinder (22). A new C-wrap type twin wire former, which gives a drier web and is suitable for use in a TAD machine for the manufacture of high basis weight sanitary paper, is disclosed.
Description
W O 93/224~8 ~ ? il 4 PC~r/SE93/00283 A M ET H O D OF ~UEBUILDIN G A C O~rENTIO N AL TISSU E M A CH~NE T O A :~;
TA D M A C HINE, A ND A N IM PR O~ED C-~VlRAP TYPE T W IN W IFUE FO~UM ER ~ ~:
S~TABLE F O R USE TEDE~EIN
llEC HNIC AL FIELD
The present invention relates to a method of rebuilding a papermaking machine, which has a conventional C-wrap type twin wire ~orming section, for the manufacture ::
of a sanitary paper web, said method including incorporating in said machine a TAD
section for thermally predrying the forrned paper web by passing hot air ~hrough the 0 web, said C-wrap type twin wire forrning section having an endless looped inner forming fabric, a forrning roll that is rotatable in a direction and is located inside of the inner forn~ing fabric loop and has a portion wrapped by a portion of the inner forrlLing fabric, an endless looped outer forming fabric partially wrapping said portion of the inner forming fabric, means for guiding the forming ~abrics so as to form between them a converging forming throat located at a lower rising quadrant of the rotatable fonning roll and curvin~ along an upstream part of said wrapped portion of the fonTIing roll, and a headbox for discharging a jet of papermaking fumish obliquely upwards into the forming throat, said fumish on drainage through at least tlle outer forming fabric being ~ ~:
formed into a paper web sandwiched between the two forming fabrics, and said TADsection including an endless looped TAD fabric and at least one hollow TAD cylinder that is rotatable in the same direction as the forming roll and has a foraminous shell for-the passage of hot air therethrough from the exterior to the interior of said at least one TAD cylinder in order to thennally predry ~he web, said at least one TAD cylinder being loc2ted inside of the TAD fabric loop and having a top portion that is wrapped by a portion of the TAD fabric.
The term "sanitary paper" as used herein is a generic term intended to include all kinds of creped or uncreped paper used for sanitary purposes, such as bathroom tissue, ! ~ ~
including toilet tissue and facial tissue, paper handkerchiefs, paper towels, kitchen or 1l :
household paper, and industrial tissue or towel paper, for example. Occasionally, the term "~issue" is used for the same pu~pose.
Similarly, the terrn "TAD" as usçd herein is intended to mean "through air : -drying" or "through air dried" depending on the context in which the teIm is used.
W 0 93/22498 2~Y~ PC~r/SE93/00283 !
The present invention also relates to a C-wrap type twin wire former of the lcind having an endless looped inner forming fabric, a rotatable forming roll that is located inside of the inner forming fabric loop and has a portion wrapped by a portion of the ~ ~ ;
inner forming fabric, an endless looped outer forming fabric partially wrapping said portion of the inner forming fabric, means for guiding the forrning fabrics so as ~o form between them a converging forming throat located at a lower rising quadrant of the rotatable forrning roll and curving along an upstream part of said wrapped portion of the forming roll, and a headbox for discharging a jet of pape~naking furnish obliquely upwards into the forming throat, said furmsh on drainage through at least the outer 0 forming fabric being formed into a paper web sandwiched between the two forming fabrics.
BACKGROUND OF THE INVENTION
In conventional C-wrap type tissue formers the outer forming fabric is separated ~;
from the web and the inner forming fabric at a position on the fom~ing roll or slightly downstream thereof. Carried by the inner forrning fabric the web runs to a pick-up location, where a looped felt or other fabric is brought into contacting relationship with the web, and the web is transferred to the felt. Downstream of the pick-up location the felt with the web is trained around a press roll, which lightly presses the web against a yankee dryer and transfers the web to the yankee dryer. After drying on the yankee dryer the web is creped off and run to a web reeling apparatus. ;
It is generally accepted that through air dIying of tissue as disclosed in U.S. -Patents No. 3,301,746 (Sanford et al.), 3,303,576 (Sisson), 3,821,068 (Shaw), 4,102,737 - (Morton), 4,440,597 (Wells et al.), and 4,481,722 (Guy et al.), for exarnple, greatly enh~nces product softness, buL~ and absorbency. While much effort is spent creating and restoring these characteristics to the conventionally manufactured products, softness . .
and absorbency are inherent in the through air process. What has been less~appreciated is the underlying economics behind the through air dried soft tissue manufacturing process. However, bearing in mind that the basis for consumer usage is the area of the tissue product and not the weight, and that to a customer a single-ply TAD product is at leas~ equivalent to a conventionally produced tw~ply product, a comparison can be ` -~
summarized as follows:
1. The ability to manufacture a product using less raw material (reduced basis weight) with the TAD process results in significant cost savings over a market equivalent sheet manufactured on a conventional machine.
TA D M A C HINE, A ND A N IM PR O~ED C-~VlRAP TYPE T W IN W IFUE FO~UM ER ~ ~:
S~TABLE F O R USE TEDE~EIN
llEC HNIC AL FIELD
The present invention relates to a method of rebuilding a papermaking machine, which has a conventional C-wrap type twin wire ~orming section, for the manufacture ::
of a sanitary paper web, said method including incorporating in said machine a TAD
section for thermally predrying the forrned paper web by passing hot air ~hrough the 0 web, said C-wrap type twin wire forrning section having an endless looped inner forming fabric, a forrning roll that is rotatable in a direction and is located inside of the inner forn~ing fabric loop and has a portion wrapped by a portion of the inner forrlLing fabric, an endless looped outer forming fabric partially wrapping said portion of the inner forming fabric, means for guiding the forming ~abrics so as to form between them a converging forming throat located at a lower rising quadrant of the rotatable fonning roll and curvin~ along an upstream part of said wrapped portion of the fonTIing roll, and a headbox for discharging a jet of papermaking fumish obliquely upwards into the forming throat, said fumish on drainage through at least tlle outer forming fabric being ~ ~:
formed into a paper web sandwiched between the two forming fabrics, and said TADsection including an endless looped TAD fabric and at least one hollow TAD cylinder that is rotatable in the same direction as the forming roll and has a foraminous shell for-the passage of hot air therethrough from the exterior to the interior of said at least one TAD cylinder in order to thennally predry ~he web, said at least one TAD cylinder being loc2ted inside of the TAD fabric loop and having a top portion that is wrapped by a portion of the TAD fabric.
The term "sanitary paper" as used herein is a generic term intended to include all kinds of creped or uncreped paper used for sanitary purposes, such as bathroom tissue, ! ~ ~
including toilet tissue and facial tissue, paper handkerchiefs, paper towels, kitchen or 1l :
household paper, and industrial tissue or towel paper, for example. Occasionally, the term "~issue" is used for the same pu~pose.
Similarly, the terrn "TAD" as usçd herein is intended to mean "through air : -drying" or "through air dried" depending on the context in which the teIm is used.
W 0 93/22498 2~Y~ PC~r/SE93/00283 !
The present invention also relates to a C-wrap type twin wire former of the lcind having an endless looped inner forming fabric, a rotatable forming roll that is located inside of the inner forming fabric loop and has a portion wrapped by a portion of the ~ ~ ;
inner forming fabric, an endless looped outer forming fabric partially wrapping said portion of the inner forming fabric, means for guiding the forrning fabrics so as ~o form between them a converging forming throat located at a lower rising quadrant of the rotatable forrning roll and curving along an upstream part of said wrapped portion of the forming roll, and a headbox for discharging a jet of pape~naking furnish obliquely upwards into the forming throat, said furmsh on drainage through at least the outer 0 forming fabric being formed into a paper web sandwiched between the two forming fabrics.
BACKGROUND OF THE INVENTION
In conventional C-wrap type tissue formers the outer forming fabric is separated ~;
from the web and the inner forming fabric at a position on the fom~ing roll or slightly downstream thereof. Carried by the inner forrning fabric the web runs to a pick-up location, where a looped felt or other fabric is brought into contacting relationship with the web, and the web is transferred to the felt. Downstream of the pick-up location the felt with the web is trained around a press roll, which lightly presses the web against a yankee dryer and transfers the web to the yankee dryer. After drying on the yankee dryer the web is creped off and run to a web reeling apparatus. ;
It is generally accepted that through air dIying of tissue as disclosed in U.S. -Patents No. 3,301,746 (Sanford et al.), 3,303,576 (Sisson), 3,821,068 (Shaw), 4,102,737 - (Morton), 4,440,597 (Wells et al.), and 4,481,722 (Guy et al.), for exarnple, greatly enh~nces product softness, buL~ and absorbency. While much effort is spent creating and restoring these characteristics to the conventionally manufactured products, softness . .
and absorbency are inherent in the through air process. What has been less~appreciated is the underlying economics behind the through air dried soft tissue manufacturing process. However, bearing in mind that the basis for consumer usage is the area of the tissue product and not the weight, and that to a customer a single-ply TAD product is at leas~ equivalent to a conventionally produced tw~ply product, a comparison can be ` -~
summarized as follows:
1. The ability to manufacture a product using less raw material (reduced basis weight) with the TAD process results in significant cost savings over a market equivalent sheet manufactured on a conventional machine.
2. Energy costs, when examined on the basis of area of saleable product, are :
actually less for the products made on a TAD machine.
actually less for the products made on a TAD machine.
3. The combined effect of less cost per unit area of producl produced and increased production rates, makes the econorr~ics of through air dried products very favorable in comparison to conventionally manufactured products.
The above advantages of the TAD technology have resulted in an increasing 0 interest of tissue mills in rebuilding conventional tissue machines to TAD machines, substantially as outlined above, which has required the incorporation of a transfer section having a transfer fabric for picking up the web from l:he inner ~orming fabric and transferring the web to the TAD fabric that replaces the felt. The incorporation of a ~nsfer section increases the rebuilding costs as well as the total number of sheet transfers, which increases fiber losses and reduces overall efficiency.
DISCLOSURE OF THE IN~NTI(:)N
According to one aspect of the present invention, one object of the invention is to provide a rebuilding method, which reduces the rebuilding costs and results in reduced production costs for the web as well as an increased quality of the produced web.
In a method of the kind described in the first palagsaph above, this object is achieved in accordance with the present invention by substituting a new outer forming fabric loop for the existing outer forming fabric loop, said new outer fabric loop being of greater length than that of the existing one and having a comparatively plane web facing surfa~e, so that on separa~ing the two forming fabrics from each o~her the fonned paper web will adhere to and be carned by said compara~ively plane web facing surface of the new outer forII~ing fabric, said length being sufficient for permitting the new outer forming fabric loop to extend to the TAD fabric, and providing means for -guidin~ the new outer fom~ing fabric with its web facing surface into contactingrelationship wi~ the TAD fabric upstream of or on the TAD cylinder.
As no separate transfer sec~on is being used, the costs for the rebuilding of the machine are reduced. Further, the number of web transfer locations is reduced, which minimizes web compaction, fiber losses are minimized, the sheet structure obtained at the ~orr~ing of the web is maintained, and the produced web will get an improved W 0 93/22498 ~ PCl'/SE93/00283 "tensile efficiency". Tensile efficiency is defined as the ratio of the tensile strengeh of a machine ~ormed web over that of a hand formed sheet of the sarne basis weight.
In order to facilitate a transfer of the web from the new outer forming fabric to the TAD fabric, a transfer suction member, e.g. a transfer suction box, may be provided S inside of the TAO fabric loop at a location where the new outer forming fabric is in contacting relationship with the TAD ~abric. The transfer suction box suitably is located either irnmediately upstream of the TAD cylinder or inside said at least one TADcylinder in contacting relationship with the foraminous shell of the TAD cylinder.
It is preferred to provide a suction box inside of the new outer forming fabric 0 loop and in contacting relationship therewith at a location illunediately upstream of where the new outer for~aing fabric contacts the TAD fabric, said suction box being adapted to raise a dry solids content of the web by sucking water out of the web prior to such contact. A further increase of the dry solids content of the web may be obtained by substituting a suction forming roll for the existing forming roll.
For raising the dry solids content of the web still more prior to the ar~ival of the ~ ~-web to the TAD fabnc it is also preferred to provide means for first separating the new outer forming fabric from the formed web and the inner forming fabric, so that the web will be carried by the inner forming fabric, provide means for then running the new outer forming fabric for a certain distance spaced frorn the inner fo~ing fabric and the web carried thereby, provide means for thereafter guiding the new outer forrning fabric into a renewed contacting relationship with the inner fo~ning fabr~c and the webca~ied ~hereby, so that the web once more will be sandwiched between the two forming ~abrics prior to a final separa~ion of the new outer forrning fabric and the web from the inner fonning fabric, provide means for ensuring at said final separation a transfer of the once more sandwiched web from the inner forming fabric to the new outer formLqg fabric, and proyide at least one suction box inside of the inner forming fabric loop and in contacting relationship therewith at a location where the new outer forming fabric is temporarily separated from the web and the inner forming fabric, said i a~ least one suction box being adapted to raise a dry solids content of the web by sucking water out of the web.
To facilitate the sucking of water out of the web by said at least one suction box, it is preferred to provide at least one steam box on the web carrying side of the inner forming fabric in a location opposite that of said at least one suction box, said at least WO 93/22498 P~/SE93/Oû283 one steam box being adapted to discharge steam onto the web. The heating of the wet web by direct steam has no deleterious effect on the fibers but heats the water to reduce its viscosity, thereby facilitating the sucking of the water out of the web.
The machine to be rebuilt usually has a yankee dryer that is rotatable in the same direction as the forming roll, and a press section interconnec~ing the forming section and the yankee dryer. The press section includes an endless looped transfer fabric, first means for guiding the transfer fabric into contacting relationship with the inner forming fabric and the web carried thereby, means for transferring the web from the inner forrning fabric to the transfer fabric, and second means for guiding the tr~sfer fabric o and the web carried thereby into contacting relationship with the yankee dryer. The second transfer fabric guiding means usually include a press roll located at a lower rising quadrant of the rotatable yankee dryer for lightly pressing the transfer fablic and the web carried thereby against the yankee dryer to ~ansfer the web to the yankee dryer. To permit maintained direction of rotation of the yankee dryer, the method according to the Jnvention preferably further comprises providing a guide memberinside of the transfer fabric loop for guiding the transfer fabric into contacting relationship with the TAD fabric and the web carried thereby downstream of said at least one TAD cylinder, providing means for transferring the web from the TAD fabric to the transfer fabric, and, if desired, substituting a new transfer ~abric for the existing one. -According to another aspect of the present invention, an other object of the invention is to provide an improved C-wrap type twin wire former, in which a high basis weight sanitary paper web of enhanced dry solids conten~ may be produced, what makes it ex~raordinarily suitable for use in a TAD machine for the manufacture of high basis weight sanitary paper.
In accordance with the present invention, this other object is achieved by providing the C-wrap twin wire former of the kind described in the fourth paragraph - above with means for first separating the outer forming fabric from the formed web and the irmer forming fabric, so that the web will be camed by the inner forming fabric;
means for then running the outer forming fabric for a certain distance spaced from the inner fonning fabric and the web carried thereby; means for thereafter guiding the outer forrming fabric into a renewed contacting relationship with the inner forming fabric and the web carried thereby, so that the web once more will be sandwiched between the , . . , - - .
W093/22498 ~ 3~ 4 PCI/SE93/00~83 two forming fabrics prior to a final separation of the outer forrr~ing fabric and the web from the inner forming fabric; means for ensuring at said final separation a transfer of the once more sandwiched web from the inner forming fabric to the outer forming fabric; and at least one suction box provided inside of the inner forming fabric loop and s in contacting relationship therewith at a location where the outer forming fabric is temporarily separated from the web and the inner forming fabric, said at least one suction box being adapted to raise a dry solids content of the web by sucking water out of the web. ;~
To facilitate the sucking of water out of the web by said at least one suction box, 0 it is preferred to provide at least one steam box on the web carrying side of the inner ~' forming fabric in a location opposite that of said at least one suction box, said at least one steam box being adapted to discharge steam onto the web. The heating of the moist web by direct stearn has no deleterious effect on the fibers but heats the wa~er to reduce its viscosity, thereby facilita~ing the sucking of the water out of the web.
Additional features that characterize the invention and what is achieved by means '~
of these features will be described below.
BRIEF DESCRIP~ION OF THE Dl?AWD~GS
Fig. 1 is a slightly simplified side elevational view of a conventional C-wrap type '~
twin wire former tissue machine. -~
Fig. 2 is a slightly simplified side elevational view of the machine shown in Fig.
1 after the rebuilding thereof in accordance with the present invention to a first preferred ernbodirnent of a TAD machine.
Fig. 3 is an enlarged scale detail similar to a portion of Fig. 2 and shows an alternative embodiment, in which a transfer suction box is located in the TAD cylinder.
Fig. 4 is a simplified side elevational view of an alternative embodiment of t,he C-wIap type twin wire forn~r ~fterithe rebuilding thereof in accordance with thepresent invention.
DETAILED DESCRIPTION OF THE PREE;ERRED EMBODIMENTS
Fig. 1 illustrates a conventional tissue machine that may be said to include a fom~ing section, a press section and a drying section. The sho vn forming section includes a conventional C-wrap type twin wire former having an endless looped inner forming fabric 1, a forming roll 2 that is rotatable in one direction and is located inside of the inner forming fabric loop and has a portion wrapped by the inner forming fabric W O 93/22498 - - ~ P~r/S~93/00283 1, and an endless looped outer forming fabric 3 partially wrapping said portion of the inner forming fabric 1. Means, such as rolls 4 and 5 located inside of the inner fonning fabric loop 1, and rolls 6 to 11 located inside of the outer forning fabric loop 3, are provided for guiding the two forming fabrics so as to form between them a eonverging 5 fo;rning throat located at a lower raising quadrant of the rotat~ble forning roll 2. Roll 11 may be termed a breast roll. A headbox 12, which may be a multilayer headbox, if desired, is provided for discharging a jet of papermaking furnish obliquely upwards into the forrning throat. On being squeezed between the two forming ~abrics 1 and 3 on the forrning roll 2, the furnish is partially dewatered at least through the outer forming o fabric 3 to fonn a consolidated but wet web 13 sandwiched between the fabrics. As illustrated, the outer forming fabric 3 is separated from the forrned web 13 ~md the inner forrning fabric 1 at a position on the forrning roll 2 or on a transfer suction box 52 slig~tly downstream thereof.
Carried by the inner forming fabric 1 the web 13 rU'lS to a pick-up location, ~ -where by means of a pick-up mernber, such as a roll 14 or a suction box (not shown), an endless looped felt 15 or other fabric is brought into contacting relations'nip with the web 13, and the web 13 is tran~ferred to the felt 15. Pick-up roll 14 and felt 15 are included in the press section as are one or two press rolls 16 and 17 located inside of the felt loop, and a plurality of guide rolls, all of which are designated 18, located inside as well as outside of the felt loop. The first press roll 16 fo~ns a first press nip with a yankee dryer 19, which is rotatable in the sarne direction as the forrning roll 2, and transfers the web 13 to the yankee dlyer 19, while the second press roll 17 fo}~ns a second press nip with the yankee dryer 19 for exposing the web 13 to a second pressing action.
On the yankee dIyer 19, which is included in the drying section and is provided with a hot air hood 20 for~ directing~ a flow of hot air against the web 13 while the web is adhered to the yan~cee dryer 19 so as to assist in the drying of the web, the web 13 is dried to final dryness. The web is creped off from the yankee dryer 19 by means of a creping doc~or 21 and then nm to a web reeling apparatus, no~ shown.
Other conventional equipment, e.g. means for keeping the fabrics and the felt clean, and means for applying an adhesive onto the eylinder surface of the yankee dryer to make the web adhere controllably thereto~ is not shown.
W O 93/22498 '~ 2 ~1~ 8 PC~r/SE93/00283 Fig. 2 shows the machine of Fig. 1 after it has been rebuilt to a TAD machine inaccordance with a first embodiment of the present invention. In the TAD machine a TAD section for thermally predrying the web by passing hot air through the web is substituted for the press section of the conventional machine. The TAD section includes a~ least one TAD cylinder 22, a TAD hood 23, an endless looped TAD fabric 24, a plurality of guide rolls designa~ed 25, 26, 27, 289 29, and 30 for the TAD fabric 24, a transfer suction member, e.g. a trans~er suction box 31, for transferring the web 13 from the forrning section to the TAD fabric 24, an endless looped transfer fabric 32, and a press roll 17, a guide roll 116 preceding the press roll 17, and a plurality of other 0 guide rolls 118 for the transfer fabric 32. The guide rolls 118 are identical with the felt guide rolls 18 in Fig. 1, but since they are rearranged in new positions they are designated 118. The second press roll 17 from Fig. 1 is used as a single press roll for ~;
lightly pressing the transfer fabric 32 and the web 13 carried thereby against the cylinder surface of the yankee dryer 19, and the guide roll 25 for the TAD fabric 24 is used as a guide roll also for the transfer fabric 32.
The TAD cylinder 22 is located inside of the TAD fabric loop 24 and has a top portion that is wrapped by a portion of the TAD fabric 24. Further, the TAD cylinder 22 is rotatable in the same direction as the forming roll 2 and the yankee dryer 19, and it is hollow and has a foraminous shell 33 for the passage of hot air therethrough from the exterior to the interior of the TAD cylinder 22 in order to thermally predry the web 13. The hot air is supplied from the TAD hood 23, which is located on top of thewrapped top portion of the TAD cylinder 22, and the hot air passes from the hood 23 through the web 13, the TAD fabric 24, and the foraminous shell 33 to the interior of the TAD cylinder 22 during absorption of moisture from the web 13. Guide walls 34 are provided inside of the foraminous shell 33 for conduc~ing the moist air out through an end wall of the TAD cylinder 22. Means, not shown, are proyided for recirculating, at least part of this air to the TAD hood 23 and for achieving a desired temperature and dryness of the hot air fed to the hood 23.
The TAD fabric 24 carrying the predried web 13 runs off from the TAD cylinder 2~ at or slightly upstream of the guide roll 25. Simultaneously therewith or slightly pnor thereto the predried web 13 will be sandwiched between the TAD fabric 24 and the transfer fabric 32 and run sandwiched between these fabrics up to the guide roll 116 imrnediately preceding press roll 17. Said guide roll 116 operates as a transfer roll W O 93/22498 ` ~ -- 4 ~r/SE93/00283 for transfe~Ting the web 13 from the TAD fabric 24 to the transfer fabric 32. To ensure tha~ the web 13 will be picked-up by the transfer fabric 32, the suction press roll 16 of Fig. 1 may be used the guide roll in this position.
ln accordance with the present invention the method of rebuilding the conven-5 tional machine shown in Fig. 1 into a TAD machine, such as the one illustrated in Fig.
2, comprises substituting a new outer forming fabric loop 35 for .Phe existing outer - ~
fonning fablic loop 3. The new outer fabric loop 35 is of greater length than that of the `-existing one and nas a comparatively plane web facing su;~ace, so that on separation of the tWQ forming fabrics 1 and 35 from each other, the fo~med paper web 13 will adhere o to and be carried by said comparatively plane web facing surface of the new outer forning fabric 35. The new outer folming fabric 35 is of such length that it will extend to the TAD fabric 24. Further, the method comprises providing means for guiding the new outer forming fabric 35 with its web facing surface into contacting relationship with the TAD fabric 24 upstream of or on the TAD cylinder 22. These guiding means include a plurality of guide rolls designated 36, 37, 38, and 39, whicn are substituted for guide roll 7 in Fig. 1. The positions of guide rolls 36 and 37 are such that between these two guide rolls the new fo~r~ing fabric 35 will run in a substantially straight line forming a tangent to the TAD cylinder 22.
By extending ~he new outer forrr~ing fabnc 3; to the TAD section and ensuring 20 tha~ the formed web 13 follows the outer forming fabric instead of the inner forming fabric, no separate transfer section for the transfer of the web from the forming section to the TAD section is necessary, and the costs for rebuilding the machine are reduced.
Further, the number of web transfer locations is reduced, which minimizes web compaction, fiber losses are minimized, the sheet structure ob~ained at the forming of 25 the web is maintained, and the produced web will get an improved tensile efficiency.
ln orde~ to facilitate a transfer of the web 13 from the new outer forming fabric 35 to the TAD fabric 24, a transfer suction member, e.g. a transfer suction box, may be provided inside of the TAD fabric loop at a location where the new outer formingfabric 3S is in contacting relationship with îhe TAD fabric 24. In the embodirnen~
30 shown in Fig. 2 the ~ransfer suction box 31 is loca~ed immediately upstream of the TAD cylinder 22. However, as illustrated in Fig. 3. the transfer suction box, here designated 40, may also be located inside the TAD cylinder 22 in contacting rela~ionship with the foraminous shell 33 of the TAD cylinder 22 at the place where the W093/22498 ~ 4 PCr/SE93/00283 new outer forrning wire 35 makes contact with the TAD fabric portion that wraps the shell 33.
It is preferred to provide a suction box 41 inside of the new outer forming fabric loop 35 and in contacting relationship therewith at a location immediately upstream of where the new outer fonning fabric 35 contacts the TAD fabric 24. The suction box 41 is adapted to raise a dry solids content of the wet web 13 by sucking water out of the web 13 prior to such contact.
Fig. 4 illustrates an other pre~erred embodiment of the C-wrap type twin wire ~orrner after the rebuilding thereof in accordance with the present invention. This other o embodiment is particularly suitable for the production of a high basis weight sanitary paper web of enhanced dry solids content, what makes it pa~ticularly suitable for use in a TAD machine for the manufacture of high basis weight sanitary paper. As in Figs. 2 and 3, a new outer forming fabric loop 43 is substituted for the existing outer forming fabric loop 3, and the new outer fabric loop 43 is of g~eater length than that of the existing one. Preferably, it is of the same type as the outer ~orming fabric 3 used in Fig. 1. The new outer forming fabric 43 also is of such length ~hat it will extend to the TAD fabric 24. Like in Fig. 2, rneans are also provided for guiding the new outer ~ -forming fabric 43 with its web facing surface into contacting relationship with the TAD
fabric 24 upstream of or on the TAD cylinder 22. These guiding means include a plurality of guide rolls designated 36, 37, and 44, guide roll 44 being substituted for :~
guide rolls 38 and 39 in Fig. 2. The positions of the guide rolls 36 and 37 are moved horizontally in a direction towards the forming roll, but they are still such that between these two guide rolls the new forming fabric 43 will run in a substantially straight line forrning a tangent to the TAD cylinder 22 as wrapped by the T~ fabric 24. E~urther, the transfer suction box for transferring the web 13 from the outer forming ~abric to the TAD fabric 24 is shown as being located at position 41 inside the TAD cylinder 22 like in Fig. 3, but it might as well be located at position 31 immediately upstream of the TAD cylinder 22 like in Fig. 2. The forming roll may be a plain surfaced forming ~oll 2 like in Fig. 1 or, if desired, it may alternatively be a suction type forming roll 42 like in Fig. 2. The positions of the forn~ing throat and the headbox 12 remain unchanged.
The prima~y difference between the two embodiments is that in the one illustra~ed in Fig. 4 there are provided:
11 , (a) Means for first separa~ing the outer forming fabric 43 from the formed web 13 '~
and the inner fom~ing fabric 1, so tha~ the web 13 will be carried by the inner forming ~
fabric 1. In the embodiment shown in Fig. 4 these means include the guide roll 6 for ' separating the outer forming fabric 43 from the inner fonning fabric 1. If desired, the separating means may also include a transfer suc~ion box 52 located inside of the inner forminp, fabric loop 1 inunediately downstream of the forming roll.
(b) Means for then running the outer forming fabric 43 for a certain distance spaced from the inner forming fabric 1 and the web 13 carried thereby. In the embodiment shown in Fig.4 these means include a first guide roll 45 spaced at least one roll diameter from the inner forming fabric 1 and located as a first roll downstream of the guide roll 6 and outside of the outer forming fabric loop 43, and a subsequent second guide roll 46 spaced less than one roll diameter from the inner forming fabric 1 and located inside of the outer forming fabric loop 43.
(c~ Means for thereafter guiding the outer forrning fabric 43 into a renewed contacting relationship with the inner forming fabric 1 and the web 13 carried thereby, so that the web 13 once more will be sandwiched between the two ~orming fabrics 1 and 43 prior to a final separation of the outer forming fabric 43 and the web 13 from the inner forming fabric 1. In the embodiment shown in Fig. 4 this means includes a roll 47 or, alternatively, a suction transfer box (not shown).
(d) Means for ensuring at said final separahon a transfer of the once more sandwiched web 13 from the inner forrning fabric 1 to the outer forming fabric 43. ln the embodiment shown in Fig. 4 the roll 47 is a pick-up roll, and the transfer ensuring means includes the plain surface of roll 47.
(e) At least' one suction box provided inside of the inner forming fabric loop 1 and in 2s contacting relationship therewith at a location where tne outer f'orming fabric 43 is temporarily separated from,the web 13 and tne inner forming fa'qrLic 1, said at least on¢
suction 'DOX being adapted to raise a dr.,v solids content of the web 13 by sucking water out of the web 13. In the embodiment shown in Fig. 4 there are three suction boxes 48, 4g, and 50 provided at said location.
To facilitate the sucking of water out of the web 13 by said at least one suction box or the suction boxes 48, 49, and 50 shown in Fig. 4, it is preferled to provide at `
least one steam box 51 on the web carrying side of the inner forming fabric 1 in a '`
location opposite that of said at least one suction box or the suction boxes 48, 49, and '-W093/22498 `~ PCI/SE93/00283 ~ ~
50, said at least one steam box 51 being adapted to discharge stearn onto the web 13. ~ :
The heating of the moist web 13 by direct steam has no deleterious effect on the fibers but heats the water to reduce its viscosity, thereby facilitating the sucking of the water out of the web 13.
While the present invention above has ~een described with reference to the drawings, which show a few preferred embodimen~s, several obvious modifications thereof are possible within the scope of the appended claims. As an illustrative example it would be obvious to modify the shown embodiments by installing one or more TAD
cylinders in addition to said at least one TAD cylinder 22, cf. U.S. Paten~s No.o 3,303~576 (Sisson), 3,956,~32 (Justus), and 4,186,496 (Beke et al.), for example. Of course, this would also require a longer TAD fabric and ~he installation of rnore guide rolls for ~la TAD fabric.
The above advantages of the TAD technology have resulted in an increasing 0 interest of tissue mills in rebuilding conventional tissue machines to TAD machines, substantially as outlined above, which has required the incorporation of a transfer section having a transfer fabric for picking up the web from l:he inner ~orming fabric and transferring the web to the TAD fabric that replaces the felt. The incorporation of a ~nsfer section increases the rebuilding costs as well as the total number of sheet transfers, which increases fiber losses and reduces overall efficiency.
DISCLOSURE OF THE IN~NTI(:)N
According to one aspect of the present invention, one object of the invention is to provide a rebuilding method, which reduces the rebuilding costs and results in reduced production costs for the web as well as an increased quality of the produced web.
In a method of the kind described in the first palagsaph above, this object is achieved in accordance with the present invention by substituting a new outer forming fabric loop for the existing outer forming fabric loop, said new outer fabric loop being of greater length than that of the existing one and having a comparatively plane web facing surfa~e, so that on separa~ing the two forming fabrics from each o~her the fonned paper web will adhere to and be carned by said compara~ively plane web facing surface of the new outer forII~ing fabric, said length being sufficient for permitting the new outer forming fabric loop to extend to the TAD fabric, and providing means for -guidin~ the new outer fom~ing fabric with its web facing surface into contactingrelationship wi~ the TAD fabric upstream of or on the TAD cylinder.
As no separate transfer sec~on is being used, the costs for the rebuilding of the machine are reduced. Further, the number of web transfer locations is reduced, which minimizes web compaction, fiber losses are minimized, the sheet structure obtained at the ~orr~ing of the web is maintained, and the produced web will get an improved W 0 93/22498 ~ PCl'/SE93/00283 "tensile efficiency". Tensile efficiency is defined as the ratio of the tensile strengeh of a machine ~ormed web over that of a hand formed sheet of the sarne basis weight.
In order to facilitate a transfer of the web from the new outer forming fabric to the TAD fabric, a transfer suction member, e.g. a transfer suction box, may be provided S inside of the TAO fabric loop at a location where the new outer forming fabric is in contacting relationship with the TAD ~abric. The transfer suction box suitably is located either irnmediately upstream of the TAD cylinder or inside said at least one TADcylinder in contacting relationship with the foraminous shell of the TAD cylinder.
It is preferred to provide a suction box inside of the new outer forming fabric 0 loop and in contacting relationship therewith at a location illunediately upstream of where the new outer for~aing fabric contacts the TAD fabric, said suction box being adapted to raise a dry solids content of the web by sucking water out of the web prior to such contact. A further increase of the dry solids content of the web may be obtained by substituting a suction forming roll for the existing forming roll.
For raising the dry solids content of the web still more prior to the ar~ival of the ~ ~-web to the TAD fabnc it is also preferred to provide means for first separating the new outer forming fabric from the formed web and the inner forming fabric, so that the web will be carried by the inner forming fabric, provide means for then running the new outer forming fabric for a certain distance spaced frorn the inner fo~ing fabric and the web carried thereby, provide means for thereafter guiding the new outer forrning fabric into a renewed contacting relationship with the inner fo~ning fabr~c and the webca~ied ~hereby, so that the web once more will be sandwiched between the two forming ~abrics prior to a final separa~ion of the new outer forrning fabric and the web from the inner fonning fabric, provide means for ensuring at said final separation a transfer of the once more sandwiched web from the inner forming fabric to the new outer formLqg fabric, and proyide at least one suction box inside of the inner forming fabric loop and in contacting relationship therewith at a location where the new outer forming fabric is temporarily separated from the web and the inner forming fabric, said i a~ least one suction box being adapted to raise a dry solids content of the web by sucking water out of the web.
To facilitate the sucking of water out of the web by said at least one suction box, it is preferred to provide at least one steam box on the web carrying side of the inner forming fabric in a location opposite that of said at least one suction box, said at least WO 93/22498 P~/SE93/Oû283 one steam box being adapted to discharge steam onto the web. The heating of the wet web by direct steam has no deleterious effect on the fibers but heats the water to reduce its viscosity, thereby facilitating the sucking of the water out of the web.
The machine to be rebuilt usually has a yankee dryer that is rotatable in the same direction as the forming roll, and a press section interconnec~ing the forming section and the yankee dryer. The press section includes an endless looped transfer fabric, first means for guiding the transfer fabric into contacting relationship with the inner forming fabric and the web carried thereby, means for transferring the web from the inner forrning fabric to the transfer fabric, and second means for guiding the tr~sfer fabric o and the web carried thereby into contacting relationship with the yankee dryer. The second transfer fabric guiding means usually include a press roll located at a lower rising quadrant of the rotatable yankee dryer for lightly pressing the transfer fablic and the web carried thereby against the yankee dryer to ~ansfer the web to the yankee dryer. To permit maintained direction of rotation of the yankee dryer, the method according to the Jnvention preferably further comprises providing a guide memberinside of the transfer fabric loop for guiding the transfer fabric into contacting relationship with the TAD fabric and the web carried thereby downstream of said at least one TAD cylinder, providing means for transferring the web from the TAD fabric to the transfer fabric, and, if desired, substituting a new transfer ~abric for the existing one. -According to another aspect of the present invention, an other object of the invention is to provide an improved C-wrap type twin wire former, in which a high basis weight sanitary paper web of enhanced dry solids conten~ may be produced, what makes it ex~raordinarily suitable for use in a TAD machine for the manufacture of high basis weight sanitary paper.
In accordance with the present invention, this other object is achieved by providing the C-wrap twin wire former of the kind described in the fourth paragraph - above with means for first separating the outer forming fabric from the formed web and the irmer forming fabric, so that the web will be camed by the inner forming fabric;
means for then running the outer forming fabric for a certain distance spaced from the inner fonning fabric and the web carried thereby; means for thereafter guiding the outer forrming fabric into a renewed contacting relationship with the inner forming fabric and the web carried thereby, so that the web once more will be sandwiched between the , . . , - - .
W093/22498 ~ 3~ 4 PCI/SE93/00~83 two forming fabrics prior to a final separation of the outer forrr~ing fabric and the web from the inner forming fabric; means for ensuring at said final separation a transfer of the once more sandwiched web from the inner forming fabric to the outer forming fabric; and at least one suction box provided inside of the inner forming fabric loop and s in contacting relationship therewith at a location where the outer forming fabric is temporarily separated from the web and the inner forming fabric, said at least one suction box being adapted to raise a dry solids content of the web by sucking water out of the web. ;~
To facilitate the sucking of water out of the web by said at least one suction box, 0 it is preferred to provide at least one steam box on the web carrying side of the inner ~' forming fabric in a location opposite that of said at least one suction box, said at least one steam box being adapted to discharge steam onto the web. The heating of the moist web by direct stearn has no deleterious effect on the fibers but heats the wa~er to reduce its viscosity, thereby facilita~ing the sucking of the water out of the web.
Additional features that characterize the invention and what is achieved by means '~
of these features will be described below.
BRIEF DESCRIP~ION OF THE Dl?AWD~GS
Fig. 1 is a slightly simplified side elevational view of a conventional C-wrap type '~
twin wire former tissue machine. -~
Fig. 2 is a slightly simplified side elevational view of the machine shown in Fig.
1 after the rebuilding thereof in accordance with the present invention to a first preferred ernbodirnent of a TAD machine.
Fig. 3 is an enlarged scale detail similar to a portion of Fig. 2 and shows an alternative embodiment, in which a transfer suction box is located in the TAD cylinder.
Fig. 4 is a simplified side elevational view of an alternative embodiment of t,he C-wIap type twin wire forn~r ~fterithe rebuilding thereof in accordance with thepresent invention.
DETAILED DESCRIPTION OF THE PREE;ERRED EMBODIMENTS
Fig. 1 illustrates a conventional tissue machine that may be said to include a fom~ing section, a press section and a drying section. The sho vn forming section includes a conventional C-wrap type twin wire former having an endless looped inner forming fabric 1, a forming roll 2 that is rotatable in one direction and is located inside of the inner forming fabric loop and has a portion wrapped by the inner forming fabric W O 93/22498 - - ~ P~r/S~93/00283 1, and an endless looped outer forming fabric 3 partially wrapping said portion of the inner forming fabric 1. Means, such as rolls 4 and 5 located inside of the inner fonning fabric loop 1, and rolls 6 to 11 located inside of the outer forning fabric loop 3, are provided for guiding the two forming fabrics so as to form between them a eonverging 5 fo;rning throat located at a lower raising quadrant of the rotat~ble forning roll 2. Roll 11 may be termed a breast roll. A headbox 12, which may be a multilayer headbox, if desired, is provided for discharging a jet of papermaking furnish obliquely upwards into the forrning throat. On being squeezed between the two forming ~abrics 1 and 3 on the forrning roll 2, the furnish is partially dewatered at least through the outer forming o fabric 3 to fonn a consolidated but wet web 13 sandwiched between the fabrics. As illustrated, the outer forming fabric 3 is separated from the forrned web 13 ~md the inner forrning fabric 1 at a position on the forrning roll 2 or on a transfer suction box 52 slig~tly downstream thereof.
Carried by the inner forming fabric 1 the web 13 rU'lS to a pick-up location, ~ -where by means of a pick-up mernber, such as a roll 14 or a suction box (not shown), an endless looped felt 15 or other fabric is brought into contacting relations'nip with the web 13, and the web 13 is tran~ferred to the felt 15. Pick-up roll 14 and felt 15 are included in the press section as are one or two press rolls 16 and 17 located inside of the felt loop, and a plurality of guide rolls, all of which are designated 18, located inside as well as outside of the felt loop. The first press roll 16 fo~ns a first press nip with a yankee dryer 19, which is rotatable in the sarne direction as the forrning roll 2, and transfers the web 13 to the yankee dlyer 19, while the second press roll 17 fo}~ns a second press nip with the yankee dryer 19 for exposing the web 13 to a second pressing action.
On the yankee dIyer 19, which is included in the drying section and is provided with a hot air hood 20 for~ directing~ a flow of hot air against the web 13 while the web is adhered to the yan~cee dryer 19 so as to assist in the drying of the web, the web 13 is dried to final dryness. The web is creped off from the yankee dryer 19 by means of a creping doc~or 21 and then nm to a web reeling apparatus, no~ shown.
Other conventional equipment, e.g. means for keeping the fabrics and the felt clean, and means for applying an adhesive onto the eylinder surface of the yankee dryer to make the web adhere controllably thereto~ is not shown.
W O 93/22498 '~ 2 ~1~ 8 PC~r/SE93/00283 Fig. 2 shows the machine of Fig. 1 after it has been rebuilt to a TAD machine inaccordance with a first embodiment of the present invention. In the TAD machine a TAD section for thermally predrying the web by passing hot air through the web is substituted for the press section of the conventional machine. The TAD section includes a~ least one TAD cylinder 22, a TAD hood 23, an endless looped TAD fabric 24, a plurality of guide rolls designa~ed 25, 26, 27, 289 29, and 30 for the TAD fabric 24, a transfer suction member, e.g. a trans~er suction box 31, for transferring the web 13 from the forrning section to the TAD fabric 24, an endless looped transfer fabric 32, and a press roll 17, a guide roll 116 preceding the press roll 17, and a plurality of other 0 guide rolls 118 for the transfer fabric 32. The guide rolls 118 are identical with the felt guide rolls 18 in Fig. 1, but since they are rearranged in new positions they are designated 118. The second press roll 17 from Fig. 1 is used as a single press roll for ~;
lightly pressing the transfer fabric 32 and the web 13 carried thereby against the cylinder surface of the yankee dryer 19, and the guide roll 25 for the TAD fabric 24 is used as a guide roll also for the transfer fabric 32.
The TAD cylinder 22 is located inside of the TAD fabric loop 24 and has a top portion that is wrapped by a portion of the TAD fabric 24. Further, the TAD cylinder 22 is rotatable in the same direction as the forming roll 2 and the yankee dryer 19, and it is hollow and has a foraminous shell 33 for the passage of hot air therethrough from the exterior to the interior of the TAD cylinder 22 in order to thermally predry the web 13. The hot air is supplied from the TAD hood 23, which is located on top of thewrapped top portion of the TAD cylinder 22, and the hot air passes from the hood 23 through the web 13, the TAD fabric 24, and the foraminous shell 33 to the interior of the TAD cylinder 22 during absorption of moisture from the web 13. Guide walls 34 are provided inside of the foraminous shell 33 for conduc~ing the moist air out through an end wall of the TAD cylinder 22. Means, not shown, are proyided for recirculating, at least part of this air to the TAD hood 23 and for achieving a desired temperature and dryness of the hot air fed to the hood 23.
The TAD fabric 24 carrying the predried web 13 runs off from the TAD cylinder 2~ at or slightly upstream of the guide roll 25. Simultaneously therewith or slightly pnor thereto the predried web 13 will be sandwiched between the TAD fabric 24 and the transfer fabric 32 and run sandwiched between these fabrics up to the guide roll 116 imrnediately preceding press roll 17. Said guide roll 116 operates as a transfer roll W O 93/22498 ` ~ -- 4 ~r/SE93/00283 for transfe~Ting the web 13 from the TAD fabric 24 to the transfer fabric 32. To ensure tha~ the web 13 will be picked-up by the transfer fabric 32, the suction press roll 16 of Fig. 1 may be used the guide roll in this position.
ln accordance with the present invention the method of rebuilding the conven-5 tional machine shown in Fig. 1 into a TAD machine, such as the one illustrated in Fig.
2, comprises substituting a new outer forming fabric loop 35 for .Phe existing outer - ~
fonning fablic loop 3. The new outer fabric loop 35 is of greater length than that of the `-existing one and nas a comparatively plane web facing su;~ace, so that on separation of the tWQ forming fabrics 1 and 35 from each other, the fo~med paper web 13 will adhere o to and be carried by said comparatively plane web facing surface of the new outer forning fabric 35. The new outer folming fabric 35 is of such length that it will extend to the TAD fabric 24. Further, the method comprises providing means for guiding the new outer forming fabric 35 with its web facing surface into contacting relationship with the TAD fabric 24 upstream of or on the TAD cylinder 22. These guiding means include a plurality of guide rolls designated 36, 37, 38, and 39, whicn are substituted for guide roll 7 in Fig. 1. The positions of guide rolls 36 and 37 are such that between these two guide rolls the new fo~r~ing fabric 35 will run in a substantially straight line forming a tangent to the TAD cylinder 22.
By extending ~he new outer forrr~ing fabnc 3; to the TAD section and ensuring 20 tha~ the formed web 13 follows the outer forming fabric instead of the inner forming fabric, no separate transfer section for the transfer of the web from the forming section to the TAD section is necessary, and the costs for rebuilding the machine are reduced.
Further, the number of web transfer locations is reduced, which minimizes web compaction, fiber losses are minimized, the sheet structure ob~ained at the forming of 25 the web is maintained, and the produced web will get an improved tensile efficiency.
ln orde~ to facilitate a transfer of the web 13 from the new outer forming fabric 35 to the TAD fabric 24, a transfer suction member, e.g. a transfer suction box, may be provided inside of the TAD fabric loop at a location where the new outer formingfabric 3S is in contacting relationship with îhe TAD fabric 24. In the embodirnen~
30 shown in Fig. 2 the ~ransfer suction box 31 is loca~ed immediately upstream of the TAD cylinder 22. However, as illustrated in Fig. 3. the transfer suction box, here designated 40, may also be located inside the TAD cylinder 22 in contacting rela~ionship with the foraminous shell 33 of the TAD cylinder 22 at the place where the W093/22498 ~ 4 PCr/SE93/00283 new outer forrning wire 35 makes contact with the TAD fabric portion that wraps the shell 33.
It is preferred to provide a suction box 41 inside of the new outer forming fabric loop 35 and in contacting relationship therewith at a location immediately upstream of where the new outer fonning fabric 35 contacts the TAD fabric 24. The suction box 41 is adapted to raise a dry solids content of the wet web 13 by sucking water out of the web 13 prior to such contact.
Fig. 4 illustrates an other pre~erred embodiment of the C-wrap type twin wire ~orrner after the rebuilding thereof in accordance with the present invention. This other o embodiment is particularly suitable for the production of a high basis weight sanitary paper web of enhanced dry solids content, what makes it pa~ticularly suitable for use in a TAD machine for the manufacture of high basis weight sanitary paper. As in Figs. 2 and 3, a new outer forming fabric loop 43 is substituted for the existing outer forming fabric loop 3, and the new outer fabric loop 43 is of g~eater length than that of the existing one. Preferably, it is of the same type as the outer ~orming fabric 3 used in Fig. 1. The new outer forming fabric 43 also is of such length ~hat it will extend to the TAD fabric 24. Like in Fig. 2, rneans are also provided for guiding the new outer ~ -forming fabric 43 with its web facing surface into contacting relationship with the TAD
fabric 24 upstream of or on the TAD cylinder 22. These guiding means include a plurality of guide rolls designated 36, 37, and 44, guide roll 44 being substituted for :~
guide rolls 38 and 39 in Fig. 2. The positions of the guide rolls 36 and 37 are moved horizontally in a direction towards the forming roll, but they are still such that between these two guide rolls the new forming fabric 43 will run in a substantially straight line forrning a tangent to the TAD cylinder 22 as wrapped by the T~ fabric 24. E~urther, the transfer suction box for transferring the web 13 from the outer forming ~abric to the TAD fabric 24 is shown as being located at position 41 inside the TAD cylinder 22 like in Fig. 3, but it might as well be located at position 31 immediately upstream of the TAD cylinder 22 like in Fig. 2. The forming roll may be a plain surfaced forming ~oll 2 like in Fig. 1 or, if desired, it may alternatively be a suction type forming roll 42 like in Fig. 2. The positions of the forn~ing throat and the headbox 12 remain unchanged.
The prima~y difference between the two embodiments is that in the one illustra~ed in Fig. 4 there are provided:
11 , (a) Means for first separa~ing the outer forming fabric 43 from the formed web 13 '~
and the inner fom~ing fabric 1, so tha~ the web 13 will be carried by the inner forming ~
fabric 1. In the embodiment shown in Fig. 4 these means include the guide roll 6 for ' separating the outer forming fabric 43 from the inner fonning fabric 1. If desired, the separating means may also include a transfer suc~ion box 52 located inside of the inner forminp, fabric loop 1 inunediately downstream of the forming roll.
(b) Means for then running the outer forming fabric 43 for a certain distance spaced from the inner forming fabric 1 and the web 13 carried thereby. In the embodiment shown in Fig.4 these means include a first guide roll 45 spaced at least one roll diameter from the inner forming fabric 1 and located as a first roll downstream of the guide roll 6 and outside of the outer forming fabric loop 43, and a subsequent second guide roll 46 spaced less than one roll diameter from the inner forming fabric 1 and located inside of the outer forming fabric loop 43.
(c~ Means for thereafter guiding the outer forrning fabric 43 into a renewed contacting relationship with the inner forming fabric 1 and the web 13 carried thereby, so that the web 13 once more will be sandwiched between the two ~orming fabrics 1 and 43 prior to a final separation of the outer forming fabric 43 and the web 13 from the inner forming fabric 1. In the embodiment shown in Fig. 4 this means includes a roll 47 or, alternatively, a suction transfer box (not shown).
(d) Means for ensuring at said final separahon a transfer of the once more sandwiched web 13 from the inner forrning fabric 1 to the outer forming fabric 43. ln the embodiment shown in Fig. 4 the roll 47 is a pick-up roll, and the transfer ensuring means includes the plain surface of roll 47.
(e) At least' one suction box provided inside of the inner forming fabric loop 1 and in 2s contacting relationship therewith at a location where tne outer f'orming fabric 43 is temporarily separated from,the web 13 and tne inner forming fa'qrLic 1, said at least on¢
suction 'DOX being adapted to raise a dr.,v solids content of the web 13 by sucking water out of the web 13. In the embodiment shown in Fig. 4 there are three suction boxes 48, 4g, and 50 provided at said location.
To facilitate the sucking of water out of the web 13 by said at least one suction box or the suction boxes 48, 49, and 50 shown in Fig. 4, it is preferled to provide at `
least one steam box 51 on the web carrying side of the inner forming fabric 1 in a '`
location opposite that of said at least one suction box or the suction boxes 48, 49, and '-W093/22498 `~ PCI/SE93/00283 ~ ~
50, said at least one steam box 51 being adapted to discharge stearn onto the web 13. ~ :
The heating of the moist web 13 by direct steam has no deleterious effect on the fibers but heats the water to reduce its viscosity, thereby facilitating the sucking of the water out of the web 13.
While the present invention above has ~een described with reference to the drawings, which show a few preferred embodimen~s, several obvious modifications thereof are possible within the scope of the appended claims. As an illustrative example it would be obvious to modify the shown embodiments by installing one or more TAD
cylinders in addition to said at least one TAD cylinder 22, cf. U.S. Paten~s No.o 3,303~576 (Sisson), 3,956,~32 (Justus), and 4,186,496 (Beke et al.), for example. Of course, this would also require a longer TAD fabric and ~he installation of rnore guide rolls for ~la TAD fabric.
Claims (11)
1. A method of rebuilding a papermaking machine, which has a conventional C-wrap type twin wire forming section, for the manufacture of a sanitary paper web (13), said method including incorporating in said machine a TAD section for thermally predrying the formed paper web (13) by passing hot air through the web (13), said C-wrap type twin wire forming section having an endless looped inner forming fabric (1), a forming roll (2) that is rotatable in a direction and is located inside of the inner forming fabric loop (1) and has a portion wrapped by a portion of the inner forming fabric (1), an endless looped outer forming fabric (3) partially wrapping said portion of the inner forming fabric (1), means (4, 5; and 6-11, respectively) for guiding the forming fabrics (1,3) so as to form between them a converging forming throat located at a lower rising quadrant of the rotatable forming roll (2) and curving along an upstream part of said wrapped portion of the forming roll (2), and a headbox (12) for discharging a jet of papermaking furnish obliquely upwards into the forming throat, said furnish on drainage through at least the outer forming fabric (3) being formed into a paper web (13) sandwiched between the two forming fabrics (1,3), and said TAD
section including an endless looped TAD fabric (24) and at least one hollow TAD
cylinder (22) that is rotatable in the same direction as the forming roll (2) and has a foraminous shell (33) for the passage of hot air therethrough from the exterior to the interior of said at least one TAD cylinder (22) in order to thermally predry the web (13), said at least one TAD cylinder (22) being located inside of the TAD fabric loop (24) and having a top portion that is wrapped by a portion of the TAD fabric (24), said method comprising:
substituting a new outer forming fabric loop (35 or 43) for the existing outer forming fabric loop (3), said new outer fabric loop (35 or 43) being of greater length than that of the existing one and having a comparatively plane web facing surface, so that on separating the two forming fabrics (1 and 35 or 43) from each other the formed paper web (13) will adhere to and be carried by said comparatively plane web facing surface of the new outer forming fabric (35 or 43), said length being sufficient for permitting the new outer forming fabric loop (35 or 43) to extend to the TAD fabric (24); and providing means (36-39 or 36, 37, 44) for guiding the new outer forming fabric (35 or 43) with its web facing surface into contacting relationship with the TAD fabric (24) upstream of or on the TAD cylinder (22).
section including an endless looped TAD fabric (24) and at least one hollow TAD
cylinder (22) that is rotatable in the same direction as the forming roll (2) and has a foraminous shell (33) for the passage of hot air therethrough from the exterior to the interior of said at least one TAD cylinder (22) in order to thermally predry the web (13), said at least one TAD cylinder (22) being located inside of the TAD fabric loop (24) and having a top portion that is wrapped by a portion of the TAD fabric (24), said method comprising:
substituting a new outer forming fabric loop (35 or 43) for the existing outer forming fabric loop (3), said new outer fabric loop (35 or 43) being of greater length than that of the existing one and having a comparatively plane web facing surface, so that on separating the two forming fabrics (1 and 35 or 43) from each other the formed paper web (13) will adhere to and be carried by said comparatively plane web facing surface of the new outer forming fabric (35 or 43), said length being sufficient for permitting the new outer forming fabric loop (35 or 43) to extend to the TAD fabric (24); and providing means (36-39 or 36, 37, 44) for guiding the new outer forming fabric (35 or 43) with its web facing surface into contacting relationship with the TAD fabric (24) upstream of or on the TAD cylinder (22).
2. A method as claimed in claim 1, further comprising:
providing a transfer suction member (31 or 40) inside of the TAD fabric loop (24) at a location where the new outer forming fabric (35 or 43) is in contacting rela-tionship with the TAD fabric (24) in order to facilitate a transfer of the web (13) from the new outer forming fabric (35 or 43) to the TAD fabric (24).
providing a transfer suction member (31 or 40) inside of the TAD fabric loop (24) at a location where the new outer forming fabric (35 or 43) is in contacting rela-tionship with the TAD fabric (24) in order to facilitate a transfer of the web (13) from the new outer forming fabric (35 or 43) to the TAD fabric (24).
3. A method as claimed in claim 2, wherein said transfer suction member is a transfer suction box (40), said method further comprising:
providing said transfer suction box (40) inside said at least one TAD cylinder (22) in contacting relationship with the foraminous shell (33) of the TAD cylinder (22).
providing said transfer suction box (40) inside said at least one TAD cylinder (22) in contacting relationship with the foraminous shell (33) of the TAD cylinder (22).
4. A method as claimed in any one of claims 1 to 3, further comprising:
providing a suction box (41) inside of the new outer forming fabric loop (35) and in contacting relationship therewith at a location immediately upstream of where the new outer forming fabric (35) contacts the TAD fabric (24), said suction box (41) being adapted to raise a dry solids content of the web (13) by sucking water out of the web (13) prior to such contact.
providing a suction box (41) inside of the new outer forming fabric loop (35) and in contacting relationship therewith at a location immediately upstream of where the new outer forming fabric (35) contacts the TAD fabric (24), said suction box (41) being adapted to raise a dry solids content of the web (13) by sucking water out of the web (13) prior to such contact.
5. A method as claimed in any one of claims 1 to 4, further comprising:
substituting a suction forming roll (42) for the existing forming roll (2).
substituting a suction forming roll (42) for the existing forming roll (2).
6. A method as claimed as any one of claims l to 4, further comprising:
providing means (at 6 and 2 or 42) for first separating the new outer forming fabric (43) from the formed web (13) and the inner forming fabric (1), so that the web (13) will be carried by the inner forming fabric (1);
providing means (45, 46) for then running the new outer forming fabric (43) for a certain distance spaced from the inner forming fabric (1) and the web (13) carried thereby;
providing means (47) for thereafter guiding the new outer forming fabric (43) into a renewed contacting relationship with the inner forming fabric (1) and the web (13) carried thereby, so that the web (13) once more will be sandwiched between the two forming fabrics (1, 43) prior to a final separation of the new outer forming fabric (43) and the web (13) from the inner forming fabric (1);
providing means (at 47) for ensuring at said final separation a transfer of the once more sandwiched web (13) from the inner forming fabric (1) to the new outer forming fabric (43); and providing at least one suction box (48-50) inside of the inner forming fabric loop (1) and in contacting relationship therewith at a location where the new outer forming fabric (43) is temporarily separated from the web (13) and the inner forming fabric (1), said at least one suction box (48-50) being adapted to raise a dry solids content of the web (13) by sucking water out of the web (13).
providing means (at 6 and 2 or 42) for first separating the new outer forming fabric (43) from the formed web (13) and the inner forming fabric (1), so that the web (13) will be carried by the inner forming fabric (1);
providing means (45, 46) for then running the new outer forming fabric (43) for a certain distance spaced from the inner forming fabric (1) and the web (13) carried thereby;
providing means (47) for thereafter guiding the new outer forming fabric (43) into a renewed contacting relationship with the inner forming fabric (1) and the web (13) carried thereby, so that the web (13) once more will be sandwiched between the two forming fabrics (1, 43) prior to a final separation of the new outer forming fabric (43) and the web (13) from the inner forming fabric (1);
providing means (at 47) for ensuring at said final separation a transfer of the once more sandwiched web (13) from the inner forming fabric (1) to the new outer forming fabric (43); and providing at least one suction box (48-50) inside of the inner forming fabric loop (1) and in contacting relationship therewith at a location where the new outer forming fabric (43) is temporarily separated from the web (13) and the inner forming fabric (1), said at least one suction box (48-50) being adapted to raise a dry solids content of the web (13) by sucking water out of the web (13).
7. A method as claimed in claim 6, further comprising:
providing at least one steam box (51) on the web carrying side of the inner forming fabric (1) in a location opposite that of said at least one suction box (48-50), said at least one steam box (51) being adapted to discharge steam onto the web (13) to facilitate the sucking of water out of the web (13) by said at least one suction box (48-50).
providing at least one steam box (51) on the web carrying side of the inner forming fabric (1) in a location opposite that of said at least one suction box (48-50), said at least one steam box (51) being adapted to discharge steam onto the web (13) to facilitate the sucking of water out of the web (13) by said at least one suction box (48-50).
8. A method as claimed in any one of claims 1 to 7 of rebuilding a machine further having a yankee dryer (19) that is rotatable in the same direction as the forming roll (2), and a press section interconnecting the forming section and the yankee dryer (19), said press section including an endless looped transfer fabric (15), first means (14, 18) for guiding the transfer fabric (15) into contacting relationship with the inner forming fabric (1) and the web (13) carried thereby, means (18) for transferring the web (13) from the inner forming fabric (1) to the transfer fabric (15), and second means (16,17) for guiding the transfer fabric (15) , and the web (13) carried thereby into contacting relationship with the yankee dryer (19), said second transfer fabric guiding means including a press roll (16) located at a lower rising quadrant of the rotatable yankee dryer (19) for pressing the transfer fabric (15) and the web (13) carried thereby against the yankee dryer (19) to transfer the web (13) to the yankee dryer (19), said method further comprising:
providing a guide member (25) inside of the transfer fabric loop (32) for guiding the transfer fabric (32) into contacting relationship with the TAD fabric (24) and the web (13) carried thereby downstream of said at least one TAD cylinder (22);
providing means (116) for transferring the web (13) from the TAD fabric (24) to the transfer fabric (32); and, if desired, substituting a new transfer fabric (32) for the existing one (15).
providing a guide member (25) inside of the transfer fabric loop (32) for guiding the transfer fabric (32) into contacting relationship with the TAD fabric (24) and the web (13) carried thereby downstream of said at least one TAD cylinder (22);
providing means (116) for transferring the web (13) from the TAD fabric (24) to the transfer fabric (32); and, if desired, substituting a new transfer fabric (32) for the existing one (15).
9. A method as claimed in claim 8, further comprising:
providing means (25, 26, 116, 118) for running the web (13) sandwiched between the TAD fabric (24) and the transfer fabric (32) for a major portion of a run from said guide member (25) to said press roll (17).
providing means (25, 26, 116, 118) for running the web (13) sandwiched between the TAD fabric (24) and the transfer fabric (32) for a major portion of a run from said guide member (25) to said press roll (17).
10. An improved C-wrap type twin wire former having an endless looped inner forming fabric (1), a rotatable forming roll (2) that is located inside of the inner forming fabric loop and has a portion wrapped by a portion of the inner forming fabric (1), an endless looped outer forming fabric (43) partially wrapping said portion of the inner forming fabric (1), means (4 and 5; and 36, 37, 44 and 8-11, respectively) for guiding the forming fabrics (1 and 43) so as to form between them a converging forming throat located at a lower rising quadrant of the rotatable forming roll (2) and curving along an upstream part of said wrapped portion of the forming roll (2), and a headbox (12) for discharging a jet of papermaking furnish obliquely upwards into the forming throat, said furnish on drainage through at least the outer forming fabric (43) being formed into a paper web (13) sandwiched between the two forming fabrics (1and 43), wherein the improvement comprises:
means (at 6 and 2) for first separating the outer forming fabric (43) from the formed web (13) and the inner forming fabric (1), so that the web (13) will be carried by the inner forming fabric (1);
means (45, 46) for then running the outer forming fabric (433 for a certain distance spaced from the inner forming fabric (1) and the web (13) carried thereby;
means (47) for thereafter guiding the outer forming fabric (43) into a renewed contacting relationship with the inner forming fabric (1) and the web (13) carried thereby, so that the web (13) once more will be sandwiched between the two forming fabrics (1 and 43) prior to a final separation of the outer forming fabric (43) and the web (13) from the inner forming fabric (1);
means (at 47) for ensuring at said final separation a transfer of the once more sandwiched web (13) from the inner forming fabric (1) to the outer forming fabric (43);
and at least one suction box (48, 49, 50) provided inside of the inner forming fabric loop (1) and in contacting relationship therewith at a location where the outer forming fabric (43) is temporarily separated from the web (13) and the inner forming fabric (1), said at least one suction box (48, 49, 50) being adapted to raise a dry solids content of the web (13) by sucking water out of the web (13).
means (at 6 and 2) for first separating the outer forming fabric (43) from the formed web (13) and the inner forming fabric (1), so that the web (13) will be carried by the inner forming fabric (1);
means (45, 46) for then running the outer forming fabric (433 for a certain distance spaced from the inner forming fabric (1) and the web (13) carried thereby;
means (47) for thereafter guiding the outer forming fabric (43) into a renewed contacting relationship with the inner forming fabric (1) and the web (13) carried thereby, so that the web (13) once more will be sandwiched between the two forming fabrics (1 and 43) prior to a final separation of the outer forming fabric (43) and the web (13) from the inner forming fabric (1);
means (at 47) for ensuring at said final separation a transfer of the once more sandwiched web (13) from the inner forming fabric (1) to the outer forming fabric (43);
and at least one suction box (48, 49, 50) provided inside of the inner forming fabric loop (1) and in contacting relationship therewith at a location where the outer forming fabric (43) is temporarily separated from the web (13) and the inner forming fabric (1), said at least one suction box (48, 49, 50) being adapted to raise a dry solids content of the web (13) by sucking water out of the web (13).
11. An improved C-wrap type twin wire former as claimed in claim 10, further comprising:
at least one steam box (51) on the web carrying side of the inner forming fabric(1) in a location opposite that of said at least one suction box (48, 49, 50), said at least one steam box (51) being adapted to discharge steam onto the web (13) to facilitate the sucking of water out of the web (13) by said at least one suction box (48, 49, 50).
at least one steam box (51) on the web carrying side of the inner forming fabric(1) in a location opposite that of said at least one suction box (48, 49, 50), said at least one steam box (51) being adapted to discharge steam onto the web (13) to facilitate the sucking of water out of the web (13) by said at least one suction box (48, 49, 50).
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| SE9201283-0 | 1992-04-23 | ||
| SE9201283A SE470134B (en) | 1992-04-23 | 1992-04-23 | Ways of converting a conventional tissue machine to a TAD machine, as well as a suitable "C-wrap" type double wire former |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA2118244A1 true CA2118244A1 (en) | 1993-11-11 |
Family
ID=20386039
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002118244A Abandoned CA2118244A1 (en) | 1992-04-23 | 1993-04-02 | Method of rebuilding a conventional tissue machine to a tad machine, and an improved c-wrap type twin wire former suitable for use therein |
Country Status (8)
| Country | Link |
|---|---|
| US (2) | US5306395A (en) |
| EP (1) | EP0641405B1 (en) |
| JP (1) | JP3243512B2 (en) |
| AT (1) | ATE177802T1 (en) |
| CA (1) | CA2118244A1 (en) |
| DE (1) | DE69324010T2 (en) |
| SE (1) | SE470134B (en) |
| WO (1) | WO1993022498A1 (en) |
Families Citing this family (27)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE4301751C2 (en) * | 1993-01-23 | 1996-10-31 | Voith Gmbh J M | Process for detaching a running fibrous web from two endless sieve belts |
| US5512139A (en) * | 1993-12-08 | 1996-04-30 | Beloit Technologies, Inc. | Method and device for making tissue |
| SE504645C2 (en) * | 1995-07-12 | 1997-03-24 | Valmet Karlstad Ab | Paper machine for making tissue paper |
| US5915813A (en) * | 1996-05-21 | 1999-06-29 | Fort James Corporation | Apparatus and method for drying a wet web and modifying the moisture profile thereof |
| CA2234305A1 (en) * | 1997-04-03 | 1998-10-03 | Fort James Corporation | High-intensity through-air-drying for conversion of conventional wet-press paper machines |
| US6209224B1 (en) | 1998-12-08 | 2001-04-03 | Kimberly-Clark Worldwide, Inc. | Method and apparatus for making a throughdried tissue product without a throughdrying fabric |
| DE10003685A1 (en) * | 2000-01-28 | 2001-08-02 | Voith Paper Patent Gmbh | Tissue paper web forming zone is a crescent assembly with an inner blanket and a suction/blower system where the blanket/fourdrinier separate and a cleaner clears the fourdrinier which has zones of different permeability |
| ATE352666T1 (en) * | 2000-05-18 | 2007-02-15 | Metso Paper Karlstad Ab | SOFT CREPE PAPER MACHINE AND PRESS SECTION THEREOF |
| CA2405162C (en) * | 2000-05-18 | 2008-12-30 | Metso Paper Karlstad Ab | Soft crepe paper machine and press section thereof |
| US6497789B1 (en) | 2000-06-30 | 2002-12-24 | Kimberly-Clark Worldwide, Inc. | Method for making tissue sheets on a modified conventional wet-pressed machine |
| US6454904B1 (en) | 2000-06-30 | 2002-09-24 | Kimberly-Clark Worldwide, Inc. | Method for making tissue sheets on a modified conventional crescent-former tissue machine |
| DE10130038A1 (en) * | 2001-06-21 | 2003-01-02 | Voith Paper Patent Gmbh | Method and machine for producing a fibrous web |
| US6551461B2 (en) | 2001-07-30 | 2003-04-22 | Kimberly-Clark Worldwide, Inc. | Process for making throughdried tissue using exhaust gas recovery |
| FI120366B (en) * | 2002-03-19 | 2009-09-30 | Metso Paper Inc | Process and plant for producing power in a paper or board plant |
| US6837972B2 (en) * | 2002-04-25 | 2005-01-04 | Weyerhaeuser Company | Tissue and towel products containing crosslinked cellulosic fibers |
| US6736935B2 (en) * | 2002-06-27 | 2004-05-18 | Kimberly-Clark Worldwide, Inc. | Drying process having a profile leveling intermediate and final drying stages |
| US6953516B2 (en) * | 2004-01-16 | 2005-10-11 | Kimberly-Clark Worldwide, Inc. | Process for making throughdried tissue by profiling exhaust gas recovery |
| US7351307B2 (en) * | 2004-01-30 | 2008-04-01 | Voith Paper Patent Gmbh | Method of dewatering a fibrous web with a press belt |
| JP4906724B2 (en) * | 2004-08-16 | 2012-03-28 | ボイス パテント ゲーエムベーハー | Paper machine with a single nip press |
| US7478463B2 (en) * | 2005-09-26 | 2009-01-20 | Kimberly-Clark Worldwide, Inc. | Manufacturing process for combining a layer of pulp fibers with another substrate |
| DE102007006960A1 (en) * | 2007-02-13 | 2008-08-14 | Voith Patent Gmbh | Device for drying a fibrous web |
| FR3030705A1 (en) * | 2014-12-17 | 2016-06-24 | Andritz Perfojet Sas | INSTALLATION FOR DRYING A WET NON-WOVEN NET |
| MX2019002752A (en) * | 2016-09-12 | 2019-08-29 | Former of water laid asset that utilizes a structured fabric as the outer wire. | |
| SE544018C2 (en) * | 2020-01-09 | 2021-11-02 | Valmet Oy | A tissue paper making machine |
| AT522459B1 (en) * | 2020-01-30 | 2020-11-15 | Andritz Ag Maschf | DEVICE AND METHOD FOR MANUFACTURING A FIBER WEB |
| WO2024028002A1 (en) | 2022-08-02 | 2024-02-08 | Voith Patent Gmbh | Tissue machine |
| EP4343059A1 (en) | 2022-09-20 | 2024-03-27 | Voith Patent GmbH | Tissue machine |
Family Cites Families (15)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3301746A (en) * | 1964-04-13 | 1967-01-31 | Procter & Gamble | Process for forming absorbent paper by imprinting a fabric knuckle pattern thereon prior to drying and paper thereof |
| US3303576A (en) * | 1965-05-28 | 1967-02-14 | Procter & Gamble | Apparatus for drying porous paper |
| FI50721C (en) * | 1972-03-29 | 1976-06-10 | Valmet Oy | Tissue paper machine. |
| US3821068A (en) * | 1972-10-17 | 1974-06-28 | Scott Paper Co | Soft,absorbent,fibrous,sheet material formed by avoiding mechanical compression of the fiber furnish until the sheet is at least 80% dry |
| US3956832A (en) * | 1974-09-13 | 1976-05-18 | Beloit Corporation | Web dryer arrangement |
| US4036684A (en) * | 1975-08-04 | 1977-07-19 | Beloit Corporation | High bulk tissue forming and drying apparatus |
| FI761030A (en) * | 1976-04-14 | 1977-10-15 | Valmet Oy | |
| US4186496A (en) * | 1977-03-15 | 1980-02-05 | Dominion Engineering Works Limited | Web drier section |
| US4102737A (en) * | 1977-05-16 | 1978-07-25 | The Procter & Gamble Company | Process and apparatus for forming a paper web having improved bulk and absorptive capacity |
| FI54164C (en) * | 1977-07-08 | 1978-10-10 | Nokia Oy Ab | FOER REQUIREMENTS FOR ANIMAL READING AV EN TISSUEPAPPERSBANA FRAON PICK-UP-VAEVNADEN OCH FOER DESS OEVERFOERING TILL EN GENOMSTROEMNINGSTORK |
| US4440597A (en) * | 1982-03-15 | 1984-04-03 | The Procter & Gamble Company | Wet-microcontracted paper and concomitant process |
| US4481722A (en) * | 1982-06-23 | 1984-11-13 | Kimberly-Clark Corporation | System for protecting a rotary dryer from thermal stress |
| SE453206B (en) * | 1983-10-21 | 1988-01-18 | Valmet Paper Machinery Inc | HYGIENE PAPER COAT, PROCEDURE FOR PREPARING THEREOF AND USING EXPANDABLE MICROSPHERES OF THERMOPLASTIC IN PREPARING HYGIENE PAPER COAT |
| SE462225B (en) * | 1988-10-25 | 1990-05-21 | Valmet Paper Machinery Inc | PAPER MACHINE MAKES TAPE MAKE |
| SE466063B (en) * | 1990-04-24 | 1991-12-09 | Valmet Paper Machinery Inc | PAPER MACHINE MAKES MAKE PAPER WITH HIGH BULK |
-
1992
- 1992-04-23 SE SE9201283A patent/SE470134B/en not_active IP Right Cessation
-
1993
- 1993-04-02 EP EP93912026A patent/EP0641405B1/en not_active Expired - Lifetime
- 1993-04-02 WO PCT/SE1993/000283 patent/WO1993022498A1/en active IP Right Grant
- 1993-04-02 AT AT93912026T patent/ATE177802T1/en not_active IP Right Cessation
- 1993-04-02 CA CA002118244A patent/CA2118244A1/en not_active Abandoned
- 1993-04-02 JP JP51916393A patent/JP3243512B2/en not_active Expired - Fee Related
- 1993-04-02 DE DE69324010T patent/DE69324010T2/en not_active Expired - Fee Related
- 1993-04-05 US US08/042,880 patent/US5306395A/en not_active Expired - Fee Related
-
1994
- 1994-01-31 US US08/189,808 patent/US5397437A/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JP3243512B2 (en) | 2002-01-07 |
| US5306395A (en) | 1994-04-26 |
| SE9201283D0 (en) | 1992-04-23 |
| ATE177802T1 (en) | 1999-04-15 |
| EP0641405A1 (en) | 1995-03-08 |
| WO1993022498A1 (en) | 1993-11-11 |
| DE69324010T2 (en) | 1999-09-02 |
| SE9201283L (en) | 1993-10-24 |
| US5397437A (en) | 1995-03-14 |
| DE69324010D1 (en) | 1999-04-22 |
| JPH07505929A (en) | 1995-06-29 |
| SE470134B (en) | 1993-11-15 |
| EP0641405B1 (en) | 1999-03-17 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CA2118244A1 (en) | Method of rebuilding a conventional tissue machine to a tad machine, and an improved c-wrap type twin wire former suitable for use therein | |
| US6398916B1 (en) | Simplified through-air drying paper making machine having a twin wire forming section | |
| CN102159767B (en) | A tissue papermaking machine and a method of manufacturing a tissue paper web | |
| EP1194638B1 (en) | Drying section | |
| US6287426B1 (en) | Paper machine for manufacturing structured soft paper | |
| EP2065514B1 (en) | Process for making througdried tissue using exhaust gas recovery | |
| US4420372A (en) | High bulk papermaking system | |
| KR0161658B1 (en) | Press section of a paper machine in which an extended-nip press is used | |
| US20070267157A1 (en) | Papermaking Machine for Forming Tissue Employing an Air Press | |
| AU2002244319A1 (en) | Process for making throughdried tissue using exhaust gas recovery | |
| CA2314347A1 (en) | Paper machine and process | |
| JP7219749B2 (en) | Method for making paper products using patterned cylinders | |
| US6736935B2 (en) | Drying process having a profile leveling intermediate and final drying stages | |
| CA2078877C (en) | Paper machine for the manufacture of high bulk soft crepe paper | |
| US8444827B2 (en) | Structured fabric | |
| WO2001000925A1 (en) | Apparatus and method for making textured tissue paper | |
| EP1012383A1 (en) | Method for control of the curl of paper in the dryer section of a paper machine and paper or board machine | |
| WO2002092908A1 (en) | Method for the manufacture of paper or board | |
| US6209224B1 (en) | Method and apparatus for making a throughdried tissue product without a throughdrying fabric | |
| EP0874083A1 (en) | High-intensity through-air-drying for conversion of conventional wet-press paper machines | |
| US8349137B2 (en) | Device for dewatering a material web | |
| CN114981500B (en) | Paper machine for household paper | |
| GB2418929A (en) | Producing paper product | |
| JPH05214692A (en) | Counterrotating extension nip press apparatus and method for pressing moving web | |
| CN101426976A (en) | Multi-layer woven creping fabric |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| EEER | Examination request | ||
| FZDE | Discontinued |