EP1015684A1 - Mehrlagiges perforiertes band mit entfernbaren verbindungsgarnen - Google Patents
Mehrlagiges perforiertes band mit entfernbaren verbindungsgarnenInfo
- Publication number
- EP1015684A1 EP1015684A1 EP98940518A EP98940518A EP1015684A1 EP 1015684 A1 EP1015684 A1 EP 1015684A1 EP 98940518 A EP98940518 A EP 98940518A EP 98940518 A EP98940518 A EP 98940518A EP 1015684 A1 EP1015684 A1 EP 1015684A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- layer
- yams
- tie
- belt
- layers
- 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.)
- Granted
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
- D21F11/006—Making patterned paper
Definitions
- the present invention relates to belts, and more particularly to foraminous belts comprising a resinous framework and a reinforcing structure that are useful in papermaking. Still more particularly the present invention relates to such belts having a reinforcing structure with at least two layers wherein the reinforcing structure has removable tie yarns which temporarily join the layers.
- Cellulosic fibrous structures such as paper towels, facial tissues, and toilet tissues, are a staple of every day life.
- the large demand for and constant usage of such consumer products has created a demand for improved versions of these products and, likewise, improvement in the methods of their manufacture.
- Such cellulosic fibrous structures are manufactured by depositing an aqueous slurry from a headbox onto a Fourdrinier wire or a twin wire papermaking machine. Either such type forming wire is an endless belt through which initial dewatering occurs and fiber rearrangement takes place.
- the papermaking machine transports the web to the dry end of the papermaking machine.
- a press felt compacts the web into a single region cellulosic fibrous structure prior to final drying.
- the final drying is usually accomplished by a heated drum, such as a Yankee drying drum.
- through-air drying like press felt drying, the web begins on a forming wire, which receives an aqueous slurry of less than one percent consistency from a headbox. Typically, initial dewatering takes place on the forming wire. The forming wire is not typically exposed to web consistencies of greater than about 30 percent. From the forming wire, the web is transferred to an air pervious through-air-drying fabric.
- Air passes through the web and the through-air-drying fabric to continue the dewatering process.
- the air passes the through-air-drying fabric and the web while the belt and the web are driven over vacuum transfer slots, other vacuum boxes or shoes, predryer rolls, etc.
- the web is molded to the topography of the through-air- drying fabric and the consistency of the web increases.
- Such molding creates a more three-dimensional web, but also can cause pinholes, if the fibers are deflected so far in the third dimension that a breach in fiber continuity occurs.
- a pinhole is a small diameter hole in a paper web caused by incomplete formation of the web.
- the through-air-drying fabric transfers the web to a heated drum, such as a Yankee drying drum for final drying. During this transfer, portions of the web are densified during imprinting, to yield a multi-region structure. Many such multi-region structures have been widely accepted as preferred consumer products.
- An example of an early through-air-drying fabric which achieved great commercial success is described in commonly assigned U.S. Patent 3,301,746, issued Jan. 31, 1967 to Sanford et al.
- a significant improvement in through-air-drying fabrics is the use of a resinous framework on a reinforcing structure to provide through-air-drying belts.
- This arrangement allows drying belts to impart, continuous patterns, or, patterns in any desired form, rather than only the discrete patterns achievable by the woven belts of the prior art. Examples of such belts and the cellulosic fibrous structures made thereby can be found in commonly assigned U.S. Patents 4,514,345, issued Apr. 30, 1985 to Johnson et al.; 4,528,239, issued Jul. 9, 1985 to Trokhan; 4,529,480, issued Jul. 16, 1985 to Trokhan; and 4,637,859, issued Jan. 20, 1987 to Trokhan.
- such through-air-drying belts used a reinforcing element to stabilize the resin.
- the reinforcing element also controlled the deflection of the papermaking fibers resulting; from vacuum applied to the backside of the belt and airflow through the belt.
- the early belts of this type used a fine mesh reinforcing element. While such a fine mesh was acceptable from the standpoint of controlling fiber deflection into the belt, it was unable to withstand the environment of a typical papermaking machine for extended periods of running time. For example, such a belt was so flexible that destructive folds and creases often occurred. Also, the fine yarns did not provide adequate seam strength and would often burn at the high temperatures encountered in papermaking causing holes in the tissue web.
- Such dual layer designs allowed the use of coarser weave patterns and larger diameter yarns to address the seam strength and burn-through issues while, at the same time maintaining sufficient stiffness to resist folding and creasing on a papermaking machine.
- tissue making is the formation of small pinholes in the deflected areas of the web. Pinholes are strongly related to the depth that the web deflects into the belt. The depth comprises both the thickness of the resin on the reinforcing structure, and any pockets within the reinforcing structure that permits the fibers to deflect beyond the imaginary top surface plane of the reinforcing structure.
- Typical stacked machine direction yarn dual layer reinforcing structure designs have a variety of depths resulting from the particular weave configuration. The deeper the depth within a particular location of the weave that is registered with a deflection conduit in the resin, the greater the proclivity for a pinhole to occur in that area.
- Triple layer reinforcing structures comprise two completely independent woven layers, each having its own particular machine direction and cross-machine direction mesh.
- the two independent woven layers are typically linked together with tie yarns.
- the triple layer belt preferably uses a finer mesh square weave as the upper layer, to contact the web and minimize pinholes.
- the lower layer or machine facing layer utilizes coarser yarns to increase rigidity and improve seam strength.
- the tie yarns may be machine direction or cross-machine direction yarns specifically added and which were not present in either layer (adjunct tie yarns).
- the tie yarns may be comprised of cross-machine direction or machine direction tie yarns from the upper and/or lower layer of the reinforcing structure (integral tie yams).
- Machine direction yarns are preferred for the tie yarns because of the increased seam strength they provide. While such triple layer belts have provided considerable improvement in pinhole reduction, further improvements are still desirable.
- the presence of tie yams in a conduit causes those conduits where a tie yam is present to have a smaller projected open area than conduits where no tie yams are present with resulting differences in permeability. As a result fibers may deflect differently into conduits having a tie yam present than such fibers would deflect into the remaining conduits without such tie yams.
- the papermaking art has considered increasing the permeability of fabrics used on papermaking machines.
- needled drying felts originally used a relatively open woven base cloth onto which staple fibers could be needled to form the felt.
- the art developed a support structure comprising a sheet of uniformly spaced, parallel warp threads as a replacement for the woven base cloth (weftless felts).
- weftless felts had deficient structural stability during the needling process and when running on a papermaking machine.
- Such lack of structural stability is known to the art as "sleaziness”.
- One approach to improved structural stability is described in British Patent Specification 1,230,654, published on May 5, 1971 in the name Scapa-Porritt Limited.
- Disclosed therein is a method of producing a needled paper machine felt where the woven base cloth has machine- direction yarns as are typically employed and cross-machine direction yams at least some of which are insoluble in aqueous media and at least some of which are said to be soluble in aqueous media. Dissolving out the soluble yams (or parts thereof) of the base cloth is also disclosed. While improvements in sleaziness may be obtained from the use of soluble yams in papermaking felts, such improvements fail to address the differences in fiber deflection resulting from the use of tie yams that is discussed above. Further, the '654 patent specification fails to address the need to maintain the filaments (layers) of a multiple layer fabric in a preferred relationship as is provided by the tie yams of the triple layer fabrics discussed above.
- Another area of needed improvement is additional pinhole reduction or elimination.
- a belt comprising a reinforcing structure with top layer integral tie yams
- the loss of support whenever the tie yam dives to the lower layer to join the two layers can cause pinholes. That is, when integral tie yams are used, different conduits have differing potential for pinholing with resulting increased difficulty in control of the papermaking process. Accordingly, it is an object of this invention to provide a belt which has improved uniformity in open area and reduced pinholing potential among the deflection conduits thereof.
- the present invention comprises a support belt for a cellulosic fibrous structure.
- the belt comprises a reinforcing structure and a pattern layer.
- the reinforcing structure comprises two layers a web facing layer and a machine facing layer.
- the web facing layer is woven from yams that are substantially transparent to actinic radiation.
- the two layers are joined by fugitive tie yams which stabilize the relationship between the layers while the belt is being produced.
- the tie yams may be adjunct cross- machine direction or adjunct machine direction tie yams interwoven with respective machine direction yams or cross-machine direction yams of the first and second layers.
- the tie yams may also be integral tie yams which tie the first layer and second layer relative to one another and which are woven within the respective planes of the first and second layers and additionally are interwoven with the respective yams of the other layer.
- the pattern layer extends from the backside of the machine facing layer through and beyond the web facing layer to form at least a portion of the web contacting surface of the belt.
- the pattern layer comprises a cured photosensitive resin.
- the pattern layer is further provided with a plurality of conduits that extend through the cured resin so the web contacting surface and the backside of the belt are in fluid contact.
- the web facing layer and the machine facing layer of the reinforcing structure are also temporarily joined by fugitive adjunct tie yams that are interwoven with each layer.
- the tie yarns are substantially transparent to actinic radiation and can be removed by chemical or mechanical processes when they are no longer needed to stabilize the relationship between the web facing layer and the machine facing layer of the reinforcing structure.
- That portion of the fugitive adjunct tie yams that lies within the conduits can be removed so that belt properties, such as projected open area, are substantially isotropic across the belt.
- a preferred means to remove the fugitive adjunct tie yams is the combination of solubilization and mechanical energy provided by the showering systems that are part of the beltmaking and papermaking processes. Suitable materials are those that can be controllably removed by chemical or mechanical means.
- Figure 1 is a fragmentary top plan view of a belt of the present invention having the first and second layers tied together by fugitive adjunct tie yams from the second layer, and shown partially in cutaway for clarity.
- Figure 2 is a vertical sectional view taken along line 2-2 of Figure 1.
- Figure 3 is a fragmentary top plan view of a belt according to the prior art, having permanent adjunct tie ya s and shown partially in cutaway for clarity.
- Figure 4 is a vertical sectional view taken along line 4-4 of Figure 3 and having the pattern layers partially removed for clarity.
- Figure 5 A is a plan view identifying key elements of Figure 5B.
- Figure 5B is a photomicrograph of a belt according to the present invention showing a fugitive adjunct tie yam.
- Figure 6A is a plan view identifying key elements of Figure 6B.
- Figure 6B is a photomicrograph of a belt according to the present invention after the fugitive adjunct tie yam of Figures 5 A and 5B have been removed by washing.
- the belt 10 of present invention is preferably an endless belt intended to convey cellulosic fibers and like materials from one part of a papermaking process to another.
- belt 10 is suitable for receiving such fibers in a fiber deposition step (i. e. serving as a forming wire) or for carrying such fibers from a forming wire to a drying step.
- Belt 10 comprises two primary elements: a reinforcing stmcture 12 and a pattern layer 30.
- the reinforcing stmcture 12 is further comprised of at least two layers, a web facing first layer 16 and a machine facing second layer 18.
- Each layer 16, 18 of the reinforcing structure 12 is further comprised of interwoven machine direction yams 120, 220 and cross-machine direction yams 122, 222.
- the preferred reinforcing stmcture 12 further comprises fugitive adjunct tie yams 322 interwoven with the respective yams 100 of the web facing layer 16 and the machine facing layer 18.
- yams 100 is generic to and inclusive of machine direction yams 120, cross-machine direction yams 122 of the first layer 16, as well as machine direction yams 220 and cross-machine direction yams 222 of the second layer 18.
- the second primary element of the belt 10 is the pattern layer 30.
- the pattern layer 30 is cast from a resin onto the top of the first layer 16 of the reinforcing stmcture 12.
- the pattern layer 30 penetrates the reinforcing stmcture 12 and is cured into any desired pattern by irradiating liquid resin with actinic radiation through a mask having a pattern of opaque sections and transparent sections.
- the belt 10 has two opposed surfaces, a web contacting surface 40 disposed on the outwardly facing surface of the pattern layer 30 and an opposed backside 42.
- the backside 42 of the belt 10 contacts the machinery used during the papermaking operation.
- Such machinery includes a vacuum pickup shoe, vacuum box, various rollers, etc.
- the belt 10 may further comprise conduits 44 extending from and in fluid communication with the web contacting surface 40 of the belt 10 to the backside 42 of the belt 10.
- the conduits 44 allow deflection of the cellulosic fibers normal to the plane of the belt 10 during the papermaking operation.
- the conduits 44 may be discrete, as shown, if an essentially continuous pattern layer 30 is selected.
- the pattern layer 30 can be discrete and the conduits 44 may be essentially continuous or both the pattern layer 30 and the conduits 44 may be semi-continuous.
- a discrete pattern layer 30 and continuous conduits 44 is easily envisioned by one skilled in the art as generally opposite that illustrated in Figure 1.
- Such an arrangement, having a discrete pattern layer 30 and an essentially continuous conduit 44, is illustrated in Figure 4 of the aforementioned U.S. Patent 4,514,345 issued to Johnson et al. and incorporated herein by reference.
- a semi-continuous conduit is described in commonly assigned U.S. Patent 5,628,876, issued to Ayers, et al. on May 13, 1997, the disclosure of which is incorporated herein by reference.
- any combination of discrete, continuous, and semi-continuous patterns may be selected as well.
- the pattern layer 30 is cast from photosensitive resin, as described above and in the aforementioned patents incorporated herein by reference.
- the preferred method for applying the photosensitive resin forming the pattern layer 30 to the reinforcing stmcture 12 in the desired pattern is to coat the reinforcing layer with the photosensitive resin in a liquid form.
- Actinic radiation having an activating wavelength matched to the cure of the resin, illuminates the liquid photosensitive resin through a mask having transparent and opaque regions. The actinic radiation passes through the transparent regions and cures the resin therebelow into the desired pattern.
- the liquid resin shielded by the opaque regions of the mask is not cured and is washed away, leaving the conduits 44 in the pattern layer 30.
- the backside texture is registered with the yams 220, 222 of the second layer 18 having the second opacity and which are substantially opaque to actinic radiation. Air flow through the cellulosic fibrous stmcture and through the backside texture removes water from the cellulosic fibrous stmcture.
- the pattern layer 30 extends from the backside 42 of the second layer 18 of the reinforcing stmcture 12, outwardly from and beyond the first layer 16 of the reinforcing stmcture 12. Of course, as discussed more fully below, not all of the pattern layer 30 extends to the outermost plane of the backside 42 of the belt 10. Instead, some portions of the pattern layer 30 do not extend below particular yarns 220, 222 of the second layer discussed above. The pattern layer 30 also extends beyond and outwardly from the web facing surface of the first layer 16 to, at least partially, define the depth of the deflection conduits 44.
- the pattern layer 30 extends a distance of about 0.002 inches (0.05 millimeter) to about 0.050 inches (1.3 millimeters) outwardly from the web facing surface of the first layer 16.
- the dimension of the pattern layer 30 perpendicular to and beyond the first layer 16 generally increases as the pattern becomes coarser.
- the distance the pattern layer 30 extends from the web facing surface of the first layer 16 is measured from the plane 46 in the first layer 16, furthest from the backside 42 of the second layer 18.
- a "knuckle" is the intersection of a machine direction yam 120, 220 and a cross-machine direction yam 122, 222.
- machine direction refers to that direction which is parallel to the principal flow of the paper web through the papermaking apparatus.
- cross-machine direction is perpendicular to the machine direction and lies within the plane of the belt 10.
- yams 100 of the belt 10 may have a different opacity.
- the opacity of a yam 100 is the ratio of the amount of actinic radiation which does not pass through the yam 100 (due to either reflectance, scattering or absorption) to the amount actinic radiation incident upon the yam 100.
- the "specific opacity" of a yam 100 refers to the opacity per unit diameter of a round yam 100. It is to be recognized that the local opacity may vary throughout a given cross section of the yam 100. However, that opacity refers to the aggregate opacity of a particular cross section, as described above, and not to the opacity represented by any of the different elements comprising the diameter.
- the machine direction and cross-machine direction yams 120, 122 are interwoven into a web facing first layer 16.
- a first layer 16 may have a one-over, one-under square weave, or any other weave which has a minimal deviation from the top plane 46.
- the machine direction and cross-machine direction yarns 120, 122 comprising the first layer 16 have a first opacity.
- the first opacity should be low enough so that the machine direction and cross-machine direction yams 120, 122 comprising the first layer 16 are substantially transparent to actinic radiation which is used to cure the pattern layer 30.
- Such yams 120, 122 are considered to be substantially transparent if actinic radiation can pass through the greatest cross-sectional dimension of the yams 120, 122 in a direction generally perpendicular to the plane of the belt 10 and still sufficiently cure the photosensitive resin therebelow.
- the machine direction yams 220 and cross-machine direction yams 222 are also interwoven into a machine facing second layer 18.
- the yams 220, 222, particularly the cross-machine direction yams 222, of the machine facing second layer 18 are preferably larger than the yams 120, 122 of the first layer 16, to improve seam strength.
- This result may he accomplished by providing cross-machine direction yarns 222 of the second layer 18 which are larger in diameter than the machine direction yams 120 of the first layer — if yams 100 having a round cross section are utilized. If yams 100 having a different cross section are utilized, this may be accomplished by providing machine direction yams 220 in the second layer having a greater incident light path length than the machine direction yams 120 of the first layer. Altematively, and less preferably, the machine direction yarns 220 of the second layer 18 may be made of a material having a greater tensile strength than the yams 120, 122 of the first layer 16.
- the machine direction and/or cross-machine direction yams 220, 222 of the second layer 18 have a second opacity and/or second specific opacity, which is greater than the first opacity and/or first specific opacity, respectively, of the yams 120, 122 of the first layer 16.
- the yams 220, 222 of the second layer are preferably substantially opaque to actinic radiation.
- substantially opaque it is meant that liquid resin in the shadow of yams 220, 222 having such opacity does not cure to a functional pattern layer 30, but instead is washed away as part of the belt 10 manufacturing process.
- the machine direction and cross-machine direction yams 220, 222 comprising the second layer 18 may be woven in any suitable pattern, such as a square weave, as shown, or a twill or broken twill weave and/or any suitable shed.
- the second layer 18 has a square weave, in order to maximize seam strength.
- the second layer 18 may have a cross-machine direction yam 222 in every other position, corresponding to the cross-machine direction yams 122 of the first layer.
- the machine direction yams 220 of the second layer 18 occur with a frequency coincident that of the machine direction yams 120 of the first layer 16, in order to preserve seam strength.
- Fugitive tie yams 322 join the first layer 16 and the second layer 18.
- the fugitive tie yams 322 may be adjunct cross-machine direction or adjunct machine direction tie yams interwoven with respective machine direction yarns or cross-machine direction yams of the first and second layers. That is, adjunct tie yams are independent of any weave selected for either of the first or second layers 16, 18, but, instead, such tie yams are in addition to and may even disrupt the ordinary weave of such layers 16, 18.
- the tie yams may also be integral tie yams which tie the first layer and second layer relative to one another and which are woven within the respective planes (i. e.
- first and second layers 16, 18 are interwoven with the respective yams of the other layer.
- Adjunct and integral tie yams are discussed in greater detail in the aforementioned U.S. Patent 5,566,724. While either integral or adjunct fugitive tie yams are suitable for joining the first and second layers 16, 18 of the present invention, the first and second layers 16 and 18 are preferably joined by cross-machine direction fugitive adjunct tie yams 322.
- the preferred fugitive adjunct tie yams 322 are interwoven between the first layer 16 and the second layer 18 to join the layers. As shown in Figures 1 and 2, the preferred fugitive adjunct tie yams 322 are cross-machine direction tie yams 322, which are interwoven with the respective machine direction yams 120, 220 of the first and second layers 16, 18. Altematively, the tie yams may be machine direction tie yams (not shown) which are interwoven with respective cross-machine direction yams 122, 222 of the first and second layers 16, 18.
- such tie yams are smaller in diameter than the yams 100 of the first and second layers 16, 18, so such tie yams do not unduly reduce the projected open area of the belt 10.
- a tie yam can be considered "fugitive" if at least a portion of the tie yam can be at least partially removed by means that are encountered in the beltmaking process, the papermaking process, on in a process specifically designed to remove such yams.
- a preferred weave pattern for the fugitive adjunct tie yams 322 has the least number of tie points necessary to stabilize the first layer 16 relative to the second layer 18.
- the tie yams 322 are preferably oriented in the cross-machine direction because this arrangement is generally easier to weave.
- a suitable weave pattern is shown in Figure 1.
- the stabilizing effect of the pattern layer 30 minimizes the number of tie yams 322 necessary to engage the first layer 16 and the second layer 18. This is because the pattern layer 30 stabilizes the first layer 16 relative to the second layer 18 once casting is complete and during the paper manufacturing process. Accordingly, smaller and fewer fugitive adjunct tie yams 322 may be selected, than the yams 100 used to make the first or second layers 16, 18.
- the prior art addresses this problem by providing permanent adjunct tie yams 422 comprising relatively fewer and smaller yams, because the permanent adjunct tie yams 422, of course, block the projected open area through the belt 10.
- Such stmcture minimizes the effect of the tie yams 422 on product uniformity.
- the present invention further improves product uniformity by providing fugitive adjunct tie yams 322 wherein the tie yam is removed in either the belt making process (after the pattern layer 30 stabilizes the first layer 16 relative to the second layer 18), in a process designed to remove such tie yams, or on a papermaking machine.
- the present invention i.e. removing a tie yam from a conduit 44 where one is present results in an increase in projected open area of between about 5% and about 20% for that conduit when compared to belts of the prior art.
- the increase in projected open area is about 14%.
- the projected open area of a belt 10 may be determined (providing it is not too transparent) in accordance with the method for determining projected average pore size set forth in commonly assigned U.S. Patent 5,277,761 issued Jan. 11, 1994 to Phan and Trokhan, which patent is incorporated herein by reference for the purpose of showing a method to determine the projected open area of the reinforcing stmcture.
- such belts have an air permeability of at least about 600 standard cubic feet per minute per square foot (183 cubic meters per minute per square meter). More preferably, the air permeability is at least about 900 standard cubic feet per minute per square foot (274 cubic meters per minute per square meter), he term "air permeability" as used herein is measured as the number of cubic feet (cubic meters) of air per minute that pass through a one square foot (one square meter) area of the belt 10 at a pressure drop across the thickness of the belt 10 equal to about 0.5 inch (1.2 centimeter) of water. The air permeability is measured using a Valmet permeability measuring device (Model Wigo Taifun Type 1000) available from the Valmet Corp. of Helsinki, Finland.
- Valmet permeability measuring device Model Wigo Taifun Type 1000
- the fugitive adjunct tie yams 322 are treated in essentially the same manner as permanent adjunct tie yams 422 of the prior art. That is, prior art weave pattems that use tie yams 422 or the like are also suitable for stabilizing the reinforcing stmcture 12 of the present invention.
- fugitive adjunct tie yams provide additional weave pattern flexibility (not shown). Examples of such flexibility include:
- tie yams can be readily removed by simple process steps, weave pattems having more tie yams than would be typically used by the prior art could be used. Such additional tie yams could be used for applications where maintenance of registration between layers of a reinforcing stmcture is particularly important or where the photosensitive resin is particularly valuable and the removable volume of a fugitive tie yarn prevents such valuable resin from filling volume that would be part of a conduit in the finished belt.
- Fugitive yams could also be used to replace certain of the machine direction or cross direction yams that form a portion of the backside surface 42 of a belt (e.g. certain of yarns 220 or 222). Since such yarns can be removed by additional process steps, their removal is an alternate means to provide texture for facilitating air flow as is discussed above. Obviously, the designer would need to be careful that any weave pattern chosen would not replace so many of the yams 220, 222 that the resulting substrate would be inadequate in any required property, such as seam strength.
- the fugitive adjunct tie yams 322 In order that the fugitive adjunct tie yams 322 are removed in either the belt making process (after the pattern layer 30 stabilizes the first layer 16 relative to the second layer 18) or on a papermaking machine, the fugitive adjunct tie yams 322 must comprise a material that can be removed from the conduits 44 by biological means, chemical means, mechanical means, or any combination of biological, chemical and mechanical means. That is, the fugitive adjunct tie yams 322 may be removed by dissolution, hydrolysis (chemical or enzymatically catalyzed), photodegradation, oxidation, or by providing predetermined sites of mechanical failure. For example, a monofilament yam extmded from the polyacrylate resin described in U.S.
- the fugitive adjunct tie yams 322 comprise a material which is removable by the combination of mechanical energy and solubilization that is provided by the showers that are part of the beltmaking and papermaking processes.
- the fugitive adjunct tie yams 322 comprise a material that is not removed until after the resin comprising the pattern layer 30 penetrates the reinforcing stmcture 12 and is cured.
- the fugitive adjunct tie yams 322 comprise a polymeric material that has partial water solubility. In this manner, the tie yams 322 will maintain at least partial mechanical integrity until after the resin comprising the pattern layer 30 is cured.
- the fugitive adjunct tie yams 322 can comprise polymeric materials such as poly (ethylene oxide) or polyvinyl alcohol.
- Polyvinyl alcohol is particularly preferred because, controlling the degree of hydrolysis of the precursor polyvinyl acetate, controls the water solubility of the resulting polyvinyl alcohol.
- Such yams can be either monofilament yarns or multifilament yams. Suitable polyvinyl alcohol yarns having a fiber dissolution temperature of about 80°C are available from Kuraray Co., Ltd. of Osaka, Japan as Kuralon K-II.
- fugitive adjunct tie yarns 322 comprising such limited solubility resins are resistant to the initial showering that is part of the beltmaking process.
- reinforcing stmctures 12 of the present invention maintain a form similar to that shown in Figure 4 throughout the beltmaking process, providing needed stability to the reinforcing stmcture 12.
- the solubilization and mechanical energy of further showering removes that portion of the fugitive tie yams that lie in the conduits 44 so that the projected open area is maximized.
- Such showering can take place either on a beltmaking apparatus or on a papermaking machine.
- the fugitive adjunct tie yarns 322 also have an opacity and/or specific opacity which is less than the second opacity and/or second specific opacity, respectively, of the machine direction yams 220 of the second layer 18.
- the fugitive adjunct tie yams 322 are substantially transparent to actinic radiation.
- the fugitive adjunct tie yams 322 can be provided with predetermined sites of mechanical failure whereby the tie yams 322 are weakened such that they can be removed by mechanical energy (e. g. as provided by showering).
- a monofilament material that is suitable for use as a tie yam 422 of the prior art could be provided with a pattem of notches having a repeat length on the order of or less than the repeat length of the pattem of conduits 44 so it becomes suitable as a fugitive adjunct tie yam 322.
- the probability of at least such notch lying in most of the conduits having a tie yam is high. Since the notches weaken the tie yarn, the combination of machine stretch and showering energy will cause such weakened tie yarns to break within the conduit 44.
- a suitable method of casting a belt 10 having a reinforcing stmcture 12 comprising fugitive tie yarns 322 and removing the yams after they are no longer needed is as follows.
- a reinforcing stmcture 12 can be woven such that it comprises fugitive tie yams 322 having a solubilization temperature tailored to the desired shower water temperature (as is discussed below) according to the present invention.
- Such casting methods include showering to remove the uncured resin to form the conduits 44 (Preferably, the shower water temperature for such a showering step is between about 50°C and about 90°C).
- shower the belt 10 a second time using shower water wherein the temperature has been increased about 10°C such that it above the solubilization temperature of the resin used to extrude the fugitive tie yam 322 to remove that portion of the fugitive tie yam 322 lying in the conduits 44.
- the fugitive tie yams 322 could be cooled to less than its brittle/ductile transition temperature (the remaining yams 100, 200 and the cured photosensitive resin remaining above their respective brittle/ductile transition temperatures) and mechanical energy applied to cause the tie yarns 322 to shatter so they open up the conduits 44.
- the fugitive tie yams 322 could comprise a material having a melting point substantially lower than the remaining yams 100 used to weave the reinforcing stmcture 12.
- a reinforcing stmcture 12 according to the art as shown in Figures 3 and 4 can be woven according to methods known to those of skill in the art.
- Such a stmcture 12 comprises 11 machine direction yams 120 per centimeter in the first layer 16 and 11 machine direction yams 220 per centimeter in the second layer 18.
- Both yams 120 and 220 comprise polyester monofilament 0.24 millimeters in diameter as is available from Shakespeare, Monofilament Division of Columbia, SC.
- the reinforcing stmcture 12 also comprises 11 cross-machine direction yams 122 per centimeter in the first layer 16 and 6 cross-machine direction yams 222 per centimeter in the second layer 18.
- Monofilament yams having a 0.25 millimeter diameter and 0.3 millimeter were used as yams 122 and 222 respectively. Such yams are also available from Shakespeare.
- the reinforcing stmcture 12 still further comprises 6 cross-machine direction tie yams 422 per centimeter.
- a suitable non fugitive tie yam 422 has a diameter of 0.15 millimeter and is available from Shakespeare.
- Such woven reinforcing stmctures 12 are available from Albany International, Appleton Wire Division of Appleton, WI.
- one of these tie yams is replaced by two strands of a water soluble (80°C), polyvinyl alcohol yarn (available from Kuraray Co., Ltd. of Osaka Japan) to provide a fugitive tie yam 322 (see Figures 5A and 5B).
- a pattem layer 30 is cast on the above described reinforcing stmcture 12 by exposing a photosensitive resin to light through a mask according to the methods described in the above mentioned U.S. Patent 5,566,724. Washing with water having a temperature of about 75°C removes uncured resin from the nascent belt 10.
- Figures 5A and 5B depict a portion of the belt after the uncured resin has been removed with the fugitive tie yarn 322 visible in the center of the conduit 44.
- raising the water temperature by about 10°C and washing a second time substantially dissolves that portion of the fugitive tie yam 322 that lies in the conduit 44.
Landscapes
- Paper (AREA)
- Yarns And Mechanical Finishing Of Yarns Or Ropes (AREA)
- Woven Fabrics (AREA)
- Laminated Bodies (AREA)
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US93732697A | 1997-09-18 | 1997-09-18 | |
US937326 | 1997-09-18 | ||
PCT/IB1998/001442 WO1999014425A1 (en) | 1997-09-18 | 1998-09-17 | Multiple layer foraminous belts with fugitive tie yarns |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1015684A1 true EP1015684A1 (de) | 2000-07-05 |
EP1015684B1 EP1015684B1 (de) | 2006-02-22 |
Family
ID=25469784
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP98940518A Expired - Lifetime EP1015684B1 (de) | 1997-09-18 | 1998-09-17 | Mehrlagiges perforiertes band mit entfernbaren verbindungsgarnen |
Country Status (10)
Country | Link |
---|---|
EP (1) | EP1015684B1 (de) |
JP (1) | JP2001516819A (de) |
KR (1) | KR20010024095A (de) |
CN (1) | CN1278879A (de) |
AT (1) | ATE318341T1 (de) |
AU (1) | AU740001B2 (de) |
BR (1) | BR9812819A (de) |
CA (1) | CA2304075A1 (de) |
DE (1) | DE69833555T2 (de) |
WO (1) | WO1999014425A1 (de) |
Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6576090B1 (en) | 2000-10-24 | 2003-06-10 | The Procter & Gamble Company | Deflection member having suspended portions and process for making same |
US6420100B1 (en) | 2000-10-24 | 2002-07-16 | The Procter & Gamble Company | Process for making deflection member using three-dimensional mask |
US6743571B1 (en) | 2000-10-24 | 2004-06-01 | The Procter & Gamble Company | Mask for differential curing and process for making same |
US6576091B1 (en) | 2000-10-24 | 2003-06-10 | The Procter & Gamble Company | Multi-layer deflection member and process for making same |
US6660129B1 (en) | 2000-10-24 | 2003-12-09 | The Procter & Gamble Company | Fibrous structure having increased surface area |
DE10145782A1 (de) | 2001-09-17 | 2003-04-10 | Giesecke & Devrient Gmbh | Papiersieb zur Erzeugung zweistufiger Wasserzeichen und Verfahren zu dessen Herstellung |
US8152959B2 (en) | 2006-05-25 | 2012-04-10 | The Procter & Gamble Company | Embossed multi-ply fibrous structure product |
US7799411B2 (en) | 2006-10-31 | 2010-09-21 | The Procter & Gamble Company | Absorbent paper product having non-embossed surface features |
US7914649B2 (en) | 2006-10-31 | 2011-03-29 | The Procter & Gamble Company | Papermaking belt for making multi-elevation paper structures |
USD618920S1 (en) | 2007-05-02 | 2010-07-06 | The Procter & Gamble Company | Paper product |
JP6822782B2 (ja) * | 2016-04-28 | 2021-01-27 | 日本フイルコン株式会社 | 不織布用二層織物 |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1230654A (de) * | 1968-10-16 | 1971-05-05 | ||
DE2437303A1 (de) * | 1974-08-02 | 1976-02-12 | Marx Gmbh J J | Filztuch |
US5500277A (en) * | 1994-06-02 | 1996-03-19 | The Procter & Gamble Company | Multiple layer, multiple opacity backside textured belt |
-
1998
- 1998-09-17 CA CA002304075A patent/CA2304075A1/en not_active Abandoned
- 1998-09-17 AT AT98940518T patent/ATE318341T1/de not_active IP Right Cessation
- 1998-09-17 EP EP98940518A patent/EP1015684B1/de not_active Expired - Lifetime
- 1998-09-17 KR KR1020007002845A patent/KR20010024095A/ko not_active Application Discontinuation
- 1998-09-17 AU AU88821/98A patent/AU740001B2/en not_active Ceased
- 1998-09-17 WO PCT/IB1998/001442 patent/WO1999014425A1/en active IP Right Grant
- 1998-09-17 JP JP2000511953A patent/JP2001516819A/ja not_active Withdrawn
- 1998-09-17 BR BR9812819-1A patent/BR9812819A/pt not_active IP Right Cessation
- 1998-09-17 CN CN98811098A patent/CN1278879A/zh active Pending
- 1998-09-17 DE DE69833555T patent/DE69833555T2/de not_active Expired - Fee Related
Non-Patent Citations (1)
Title |
---|
See references of WO9914425A1 * |
Also Published As
Publication number | Publication date |
---|---|
WO1999014425A1 (en) | 1999-03-25 |
AU740001B2 (en) | 2001-10-25 |
CN1278879A (zh) | 2001-01-03 |
DE69833555D1 (de) | 2006-04-27 |
DE69833555T2 (de) | 2006-10-05 |
BR9812819A (pt) | 2000-08-08 |
EP1015684B1 (de) | 2006-02-22 |
ATE318341T1 (de) | 2006-03-15 |
JP2001516819A (ja) | 2001-10-02 |
CA2304075A1 (en) | 1999-03-25 |
KR20010024095A (ko) | 2001-03-26 |
AU8882198A (en) | 1999-04-05 |
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