巴西专利BR112015015014B1 elastic laminate and process for the manufacture of elastic laminate

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专利摘要:
ELASTIC LAMINATE AND PROCESS FOR THE MANUFACTURE OF ELASTIC LAMINATE The present invention relates to an elastic laminate comprising a first layer of non-woven fabric, a second layer of non-woven fabric, and a plurality of elastic yarns arranged in parallel to each other between the said first and second layers of nonwoven and a process for producing the laminate. The elastic laminate comprises elastic threads (412; 4120), which are stretched and individually coated with an adhesive. The first and second non-woven layers are attached to the stretched elastic yarns (412; 4120) to provide a corrugated elastic laminate (1200), when the elastic yarns (412; 4120) are relaxed. At least one of the non-woven layers is attached to the threads (412; 4120) at different adhesive bonding points (4122) in a predetermined pattern recurring in a longitudinal direction along the threads (412; 4120) in order to form a predetermined wavy pattern, and the non-woven layers are substantially free of adhesive, except at the adhesive bonding points (4122), where the layers are bonded to the elastic threads (412; 4120).
公开号:BR112015015014B1
申请号:R112015015014-4
申请日:2012-12-21
公开日:2021-02-09
发明作者:Hans Een；Lucas Bäck；Inge Gabrielii
申请人:Essity Hygiene And Health Aktiebolag；
IPC主号:

专利说明:

FIELD OF THE INVENTION
[001] The present invention relates to an elastic laminate comprising a first layer of nonwoven, a second layer of nonwoven and a plurality of elastic threads between the nonwoven layers and a process for producing the elastic laminate. The invention also relates to the use of the elastic laminate in absorbent products. BACKGROUND OF THE INVENTION
[002] Disposable type absorbent products such as diapers, training pants and incontinence products are well known. Typically, such products include a liquid-permeable topsheet, a liquid-impermeable topsheet and an absorbent core, which is adapted to absorb liquids, such as urine and / or blood. These products often comprise elastic elements of the blanket to improve the fit of the product to the user's body, and the elastic elements can be incorporated, for example, in the regions of the waist region, stomach or leg region.
[003] The production of blankets or elastic laminates in numerous different ways is known. Traditionally, one or more elastic threads are elongated by a tensioning force and affixed with adhesive to an unintended substrate, which then shrinks when the threads are relaxed. The adhesive can be applied by spraying the elongated elastic threads and the unstressed substrate before the elongated filaments come in contact with the substrate to form the mat or elastic laminate. After the yarn is stretched and the unintended substrate has been brought into contact, the tension force on the yarns is removed, and the yarns are relaxed. The elastic threads then contract back to their original, unstressed length, thus shrinking the substrate and forming a blanket or corrugated laminate. Such a production method has been described, for example in US 5,964,973.
[004] However, there are some disadvantages with the production technology described above and the product obtained. For example, there is a risk that the adhesive is applied irregularly to the product, whereby an uneven surface structure is obtained in the laminate. In addition, production machinery components, as well as unwanted areas of the product, can become contaminated by the adhesive. The glue tends to harden the product in the areas where an adhesive is present. These areas become less flexible than those that have no adhesive. In addition, if the adhesive is applied evenly to the surface of the nonwoven material, the adhesive hardens the nonwoven material and can become less flexible. Rigidity and inflexibility also affect the product in such a way that, when the product is folded, permanent fold marks appear on the product. In addition, glue tends to reduce the breathability of the product, which can be disadvantageous in products, such as disposable diapers, where air permeability is often desired.
[005] However, adhesives are nevertheless desirable in the production of elastic laminates, since they are well known in the art, safe, stable in production and present an economical alternative for the manufacture of laminates. DESCRIPTION OF THE INVENTION
[006] The objective of the present invention is to provide an elastic laminate having improved smoothness, softness, flexibility and breathability, in comparison with the laminates obtained as described above. Another objective of the invention is to reduce the problems associated with traditional adhesive spraying technology in the production of elastic laminates and the problems experienced with the products produced by the process.
[007] These problems are solved, or at least substantially reduced by the present invention. The elastic laminate of the present invention comprises a first layer of nonwoven and a second layer of nonwoven and a plurality of elastic yarns arranged in parallel to each other between the first and second nonwoven layers. The elastic yarns are stretched and individually coated with an adhesive, and the non-woven layers are bonded to the stretched elastic yarns to provide a wavy elastic laminate when the elastic yarns are relaxed. At least one of the nonwoven layers is attached to the threads at different adhesive bonding points in a predetermined repetition pattern in a longitudinal direction along the threads so as to form a predetermined wavy pattern. The non-woven layers are substantially free of adhesive, except where the layers are attached to the elastic threads. In this way, the laminate obtained is soft, flexible and breathable. The predetermined pattern gives the laminate surface a smooth feel.
[008] Preferably, the laminate is elastic in the longitudinal direction of the threads and the predetermined wavy pattern crosses the direction of the elastic threads at an angle (α) of at least 45 °, more preferably at least 60 °, even more preferably at least 80 ° and more preferably at least 85 ° with respect to the direction of the elastic threads. The angle can be correspondingly above 90 °, but preferably less than 95 ° and the angle (α) is preferably less than or equal to 135 °. In the case of wave or zigzag lines, it is the central axis of the wave-shaped and zigzag lines that is inclined in relation to the direction of the elastic threads. The wavy pattern can also traverse the direction of the elastic wires at a 90 ° angle, but it is preferable that the pattern is slightly angled in relation to the longitudinal direction of the wires to decrease the pressure variations in line in a compression device where the wavy pattern is formed. In addition, the line pressure can be retained more stable over the entire width of the elastic threads during production, if the wavy pattern is slightly inclined, so that, for example, vibrations can be reduced. If the wavy pattern forms an exact 90 ° angle to the longitudinal direction of the wires, there may be a risk of an increase in line pressure which can cause jumps and thus vibrations in the compression device.
[009] The lines of the wavy pattern are preferably parallel to each other. In this way it is possible to form a wavy pattern by means of a compression device which is configured to extend over the entire width of the laminate mat, and it can be ensured that the different adhesive bonding points are present on each elastic yarn.
[010] The predetermined wavy pattern may comprise straight lines or wave-shaped lines or lines with a zigzag shape in the direction of the extension of the lines. The shape of the wavy pattern provides a visual effect on the laminate while ensuring that a sufficient amount of adhesive bonding points is provided along the elastic threads.
[011] A large number of different non-woven materials can be used. The first and / or second layer of nonwoven may comprise a nonwoven layer of blowing and / or continuous spinning and / or hydroentangled continuous spinning. Since non-woven materials can have different types of surface properties, it is possible to affect the surface properties of the laminate, using different types of materials.
[012] The present invention also relates to a process for the manufacture of an elastic laminate in a laminating process. The process comprises the steps of feeding a first non-woven mat to the lamination process and feeding a second non-woven mat to the lamination process. The first and second non-woven blankets form the first and second non-woven layers or laminate, respectively. In addition, a plurality of elastic yarns arranged in parallel are fed to the laminating process. The elastic threads are stretched before being individually coated with an adhesive material. After the adhesive coating, the first and second non-woven webs and the stretched adhesive coated elastic yarns are joined and compressed by means of a compression device comprising a first compression means and a second compression means to form a laminate. The at least one first compression medium has a predetermined surface pattern so as to form distinct points of adhesive bonding in a predetermined pattern of repetition in a longitudinal direction along the elastic threads. After compression, the elastic yarns are relaxed in the formed laminate, to form a wavy elastic laminate with a predetermined wavy pattern. In the process, a soft, smooth, flexible and breathable elastic laminate can be produced.
[013] Preferably, the elastic threads are coated by means of groove coating. By groove coating is meant that an adhesive is applied to elastic threads in a groove or cavity that is provided with an adhesive. The groove coating device can be, for example, V-groove or a comb groove device. By means of groove coating it can be ensured that each thread obtains a sufficient amount of adhesive coating, while the areas outside the elastic threads can be kept free of adhesive. Thus, the process equipment can also be protected from contamination.
[014] The first compression means may have a surface structure in a protruding linear shape. Therefore, it can be ensured that the number of adhesive bonding points is equal on each elastic yarn, and that the bonding points are evenly distributed.
[015] The first compression means may also have a surface structure in the form of a protruding wave line. This provides an effective visual effect on the wavy pattern, while ensuring that a sufficient number of adhesive bonding points are provided uniformly on each elastic yarn.
[016] The first compression medium is preferably a compression cylinder. Using a cylinder in the process, it is possible to provide continuous compression of the nonwoven layers and threads.
[017] The present invention also relates to an absorbent product comprising the elastic laminate described above. The elastic laminate is preferably comprised in the waist and / or hip region of the absorbent product. BRIEF DESCRIPTION OF THE DRAWINGS
[018] The invention will be described below by way of example only and with reference to the accompanying drawings.
[019] Figure 1 is a schematic view of a prior art process for producing an elastic laminate.
[020] Figure 2 is a photographic representation of a prior art spray pattern.
[021] Figure 3 is a schematic view of a process for producing an elastic laminate according to an embodiment of the present invention.
[022] Figure 4 is an enlarged schematic view of a narrowing zone between the first and second compression means in the compression device.
[023] Figure 5 shows schematically the angle (α) at which the predetermined wavy pattern crosses the direction of the elastic threads.
[024] Figure 6 shows schematically a view of a comb-groove adhesive coating device.
[025] Figure 7 is a photographic representation of the adhesive pattern according to the present invention.
[026] Figure 8 is a schematic perspective view of a first compression means having protrusions in the form of a straight line.
[027] Figure 9 is a schematic perspective view of a first compression medium having protrusions in the form of a wave.
[028] Figure 10 is a schematic perspective view of a first compression medium having protrusions in the form of short straight lines.
[029] Figure 11 is a schematic illustration of a laminate with a wave-like wavy pattern in accordance with an embodiment of the present invention.
[030] Figures 12a and 12b illustrate the friction measurement method according to Kawabata.
[031] Figures 13a and 13b illustrate the method for measuring surface roughness according to Kawabata.
[032] Figure 14 illustrates vertical vibration of the sample under TSA analysis.
[033] Figure 15 illustrates the image sections for different resonance peaks in TSA analysis.
[034] Figure 16 illustrates the application of force in the TSA analysis. DESCRIPTION OF ACCOMPLISHMENTS OF THE INVENTION
[035] Figure 1 schematically shows a prior art laminating process (100) for producing a prior art elastic laminate comprising a first and a second non-woven web and a plurality of elastic yarns between the non-woven web. The first non-woven mat (102) is fed from a non-woven mat roll (104) through dancing cylinders (106) to narrowing cylinders (108), (109), and then through guide (110), (111) to the compression cylinders (112), (113).
[036] Similarly, a second non-woven mat (202) is fed from a non-woven mat roll (204) through dancing cylinders (206) to the narrowing cylinders (208), (209), and then through a guide cylinder (210) for the compression cylinders (112), (113).
[037] The dancing cylinders (106); (206) adjust the tension of the non-woven blankets. The plurality of elastic yarns (212) is fed to the process in parallel from a multifilament roll (214). The filaments are tensioned by means of dancing rollers (216) to an extent of at least 30%. The yarns are then fed to the nip rollers (218), (219), where all blankets and yarns are in phase. The threads are then coated with an adhesive by means of a spray application device (116).
[038] After spray application, the blankets (102), (202) and elastic threads (212) are joined between the compression rollers (112), (113) to form an elastic laminate (120). In this prior art process, the compression cylinders (112), (113) have substantially flat surfaces, that is, the cylinders do not form any special surface structure. The elastic laminate formed will obtain a random surface structure.
[039] As can be seen from Figure 1, the second mat is guided to pass under the elastic threads (212) in a position where adhesive is sprayed on the mat by means of the spray application device (116). Thus, the second non-woven mat will also be at least partially coated with the adhesive. When the two non-woven blankets and the elastic threads are combined, part of the adhesive will be transferred to the first non-woven blanket.
[040] Figure 2 shows a photograph of the spray-coated elastic threads of the prior art. As can be seen, the adhesive is applied to the surface irregularly and at random. Part of the adhesive will also be transferred to the non-woven blanket between the threads. The product suffers from the drawbacks listed above, for example, the filaments are coated irregularly, so an uneven surface structure for the laminate is obtained. The adhesive on the non-woven blanket will make non-woven materials more rigid. In addition, when the threads are uniformly coated with the adhesive and are attached to non-woven materials along the entire length of the threads, the result will be an uneven surface structure for the laminate.
[041] The laminate of the present invention includes non-woven layers attached to elastic yarns at different points of adhesive bonding in a predetermined pattern, the non-woven layers are substantially free of adhesive, except where the layers are attached to the elastic yarns. By substantially adhesive-free it is meant that no adhesive is added to the areas outside the elastic yarns, but small amounts of adhesive can be transferred from the elastic yarns to the non-woven layers outside the adhesive bonding points.
[042] The process according to the present invention differs from the prior art mainly in the form of applying adhesive to the laminate, and in the compression mode of the non-woven blankets.
[043] In the present process, each individual yarn is coated separately, preferably by means of a groove coating device, which can be for example a V-groove or comb groove coating device. By grooving comb or comb coating in this case is meant a coating groove that is prepared with a shim that is designed in such a way that it can be used as a guide device for the elastic threads. However, the device can also be a sheath groove that is V-notched for each wire and with and without an attached guide device.
[044] Such devices are provided, for example, by the company Nordson Corporate, such as, for example, Speed-CoatTM Slot applicator.
[045] In the present process a compression device is used which comprises compression means with a patterned surface structure to provide the predetermined surface pattern to the elastic laminate.
[046] It has surprisingly been found that by individually coating each elastic thread, for example, by means of groove coating, in combination with compression with a compression device with a patterned surface structure, a product can be obtained, which it is similar to fabric, soft, has a desired waving pattern, which is aesthetically attractive, which maintains its structure even after being folded, that is, without permanent folds being created in the product after folding, and which is flexible and breathable.
[047] In connection with the present invention, the term "elastic yarn" is intended to mean a wick or a yarn that is made of elastic material, such as for example, natural or synthetic rubber, thermoplastic elastomers, such as thermoplastic polyurethane or copolymers of styrene or elastane block, also referred to as spandex (polyurethane-polyurea copolymer). The yarns can be of the type of elastane that is available under the trade name "LYCRA", but any suitable elastic yarn can be used. The wires can have a linear dtex mass density, from about 80 to 800 dtex. ELASTIC WIRES
[048] The elastic yarns are stretched during the production process to about 30 to about 300 of the original initial length, non-tensioned, more preferably 70 to 250% and more preferably from 100 to 200% of the original original length, no stretched out. The elastic yarns should preferably be of a type capable of tolerating an elongation of at least about 200%, without breaking, so that they can be used safely in the production process, without risk of breakage.
[049] The elastic yarns are arranged in parallel with each other and are preferably supplied to the process from a multifilament roll. The filaments are spaced apart, and preferably there are about 1 to 20 threads per centimeter, more preferably 1 and 10 threads per centimeter and most preferably about 2 to 6 filaments per centimeter.
[050] The spacing between the wires in the laminate can be, for example, from 0.5 to 10 mm, whereby an elastic laminate with sufficient elasticity and comfort can be provided. NON-WOVEN LAYERS
[051] The layers of non-woven materials or blankets of the present invention can be advantageously selected from, for example, non-woven fabrics of continuous spinning, air, wet, carded or blow-through. The non-woven material can be bonded by various techniques, for example, by needling, hydroentangling, or thermal bonding.
[052] The fibers that make up the nonwovens can be made of natural or synthetic materials, such as cellulosic fibers, regenerated cellulose fibers, polyester fibers, polypropylene fibers, polyethylene fibers or a combination thereof or similar.
[053] The base weight for the nonwoven layer can vary from about 5 to 80 g / m2, preferably from 10 to 40 g / m2, and more preferably from 10 to 30 g / m2. When the base weight is less than 40 g / m2, sufficient breathability, malleability and comfort for the product can be obtained. The base weight of 10 to 30 g / m2 has been found to be able to provide greater comfort and flexibility, while the material's processability is still good.
[054] The various layers of non-woven material in the elastic laminate may be of the same or different materials and may have the same basic, similar or different weights. If different materials are selected, an elasticized blanket is attainable with different surface characteristics across the blanket. For example, the layers can have different frictional properties or different liquid / vapor permeability properties.
[055] The adhesives used to coat the filaments are preferably hot melt adhesives, which have thermoplastic properties. Any known type of hot melt adhesive can be used and the hot melt adhesive can be, for example, based on ethylene vinyl acetate (EVA), polyolefin, polyester and / or polyamide, polyurethane, copolymer in styrene block, silicone rubber and / or natural soy protein based adhesives.
[056] The adhesive must be non-toxic and must be approved for use in connection with personal care products. Preferably, the adhesive is a styrene block copolymer based on a hot melt adhesive, such as a product similar to a branded product Dispomelt 5482 from Henkel. Other examples of suitable hot melt adhesives are produced by, for example, the company H.B. Fuller, for example, products with the product names NW1002 or FC8200, and Bostic H4281. ELASTIC LAMINATE
[057] The elastic laminate according to the present invention comprises two layers of non-woven fabric and a plurality of elastic threads arranged in parallel and located between the two non-woven layers. As indicated above, the elastic yarns are stretched and individually coated with an adhesive, and the non-woven layers are bonded to the elastic yarns. At least one of the elastic non-woven layers is attached to the threads by bonding at different adhesive bonding points in a predetermined repetition pattern in a lengthwise direction along the threads. The distinctive adhesive points provided by a compression cylinder having a predetermined surface structure form a predetermined wavy pattern in the laminate. Preferably, both the first and the second non-woven layers are attached to the yarns at predetermined locations, i.e., the predetermined adhesive attachment points.
[058] The adhesive connection points may have a distance between them 0.3 to 10 mm and preferably 0.3 to 7 mm and more preferably 0.5 to 4 mm along the length of the elastic threads. These distances have been found to be short enough to provide a sufficient amount of adhesive bonding points to the laminate. At the same time, the distance is long enough to provide a wavy pattern, in which a sufficient amount of non-woven material is free of adhesive on the top surface of the laminate. By upper surface is meant the surface of the first layer of nonwoven, which is not attached to the elastic threads at the different points of adhesive bonding after the elastic threads have been relaxed. The layer of adhesive-free non-woven material provides a smooth and soft surface to the laminate.
[059] The length of each of the connection points, that is, the length in the direction of the length of the wires, can be from 0.2 to 10 mm, more preferably 0.3 to 7 mm and preferably from 0.5 to 3 mm. For example, the length of each connection point can be equal to the distance between each connection point to ensure that a regular wavy pattern is achieved. The length of 0.2 to 10 mm provides a laminate with an optimum wavy pattern and, therefore, great softness to the product.
[060] Since only the elastic threads are coated with adhesive, the non-woven layers are substantially free of adhesive outside the areas where the layers are bonded to the elastic threads. The non-woven layers, therefore, cannot be in direct contact with each other at the adhesive bonding points, but can instead be joined only through the elastic thread.
[061] The elastic thread adhesive can be partially transferred to the first or second non-woven material, even over substantially the entire length of the elastic threads. In areas where the adhesive has been transferred to non-woven materials between the bonding points, the elastic can temporarily bond to the non-woven materials. However, the compressive forces applied to the layers are much lower in the areas of temporary connections where the connection points are, and thus the connection strength is much lower. These weak temporary bonds will break when the stretch of the elastic yarns is released when the relaxation forces of the elastic yarns will force the nonwoven materials to move away from the elastic yarns to form the raised parts of the undulations. PROCESS AND APPLIANCE USED IN THE PROCESS
[062] The process for the production of laminate will now be described further with reference to Figure 3.
[063] Figure 3 schematically shows a lamination process for the production of an elastic laminate according to the present invention. The process is represented by the reference signal (300). In the process and in the product produced by the process, a first non-woven web (302) forms a first layer of non-woven laminate and the second non-woven web (402) forms a second layer of non-woven laminate.
[064] The first non-woven mat (302) is fed from a non-woven mat roll (304) through dancing cylinders (306a), (306b) and (306c) to the narrowing cylinders (308), ( 309). The dancing cylinders are movable in relation to each other and can thus adjust the tension of the blanket (302). The first mat (302) is then fed from narrowing cylinders (308), (309) through guide cylinders (310), (311) to the compression cylinders (312), (313), among which the laminate is formed.
[065] Similarly, the second non-woven mat (402) is fed from a non-woven mat roll (404) through dancing cylinders (406a), (406b) and (406c) to narrowing cylinders ( 408), (409). The dancing cylinders adjust the tension of the blanket (402) in a similar way to the dancing cylinders (306a) to (306c). The second mat (302) is then fed from narrowing cylinders (408), (409) by means of guide cylinders (410) and (411) to compression cylinders (312), (313), among which the laminate is formed.
[066] The plurality of elastic threads (412) are fed in the process in parallel from individual rolls or from a multifilament roll (414). The filaments are tensioned by means of dancing cylinders (416a), (116b), (416c) to an extent of at least about 30%. The dancing cylinders (416a) to (416c) are movable in relation to each other, whereby it is possible to adjust the tension and elongation of the threads. The threads are then fed to the nip rollers (418), (419), where all the blankets and threads are in phase. Additional tensioning or adjusting devices (420a), (420b) are incorporated into the process to ensure that the tension of the wires is the same and correct for the wires. The strands are then coated with an adhesive by means of a comb groove coating device (316), which is shown schematically, but in greater detail in Figure 6.
[067] As can be seen in Figure 6, the comb groove device (316) comprises a body part (3160) and a plurality of protruding pins (3162). There is a groove (3164) between the protruding pins (3162) and each individual wire is guided through its groove (3164). The body part (3160) comprises a housing (3166) which houses the hot melt adhesive. The adhesive is heated and pumped into the grooves (3164) and thus, when the wire is guided through the groove (3164), it will be coated or impregnated with the adhesive. The comb groove device (316) is preferably placed in the process so that the pins (3162) face upwards, to simplify the orientation of the wires in the comb groove device. Of course, it is possible to place the device so that the pins (3162) are facing downwards. This would simplify pumping the adhesive into the grooves.
[068] Figure 7 shows a photograph of elastic threads coated with groove coating. As can be seen, the adhesive is present only on the elastic yarns whereby a regular adhesive pattern is obtained and the areas outside the elastic yarns are substantially free of adhesive. The direction of the yarn machine is shown with arrows and "MD" and a transverse direction is shown with arrows and "CD".
[069] Returning to Figure 3, when the threads were coated with the adhesive, the blankets (302), (402) and the elastic threads (412) are joined between a first and second compression means (312) and (313) in a compression device (314) to form an elastic laminate (320). The first compression means (312) has a predetermined surface pattern, and the second compression means (313) has a substantially flat surface, that is, it does not have a predetermined surface structure.
[070] The narrowing zone between the first compression medium (312) and the second compression medium (313) is shown schematically, but in more detail in Figure 4. As can be seen, the projections (3120) in the first medium compression straps (312) press the non-woven webs (302) and (402) towards the elastic thread (4120) and the second compression medium (313). The adhesive is pressure sensitive and provides a seal at predetermined connection points (4122) on the non-woven blankets (302), (402) and the thread (4120) after compression and thus an elastic laminate ( 320).
[071] The elastic laminate (320) formed will therefore have a predetermined wavy pattern on the side facing the first compression medium (312). On the side facing the second compression means (313), the adhesive can be partially transferred to the second layer of nonwoven substantially along the entire length of the elastic threads. As already mentioned above, in parts of the area where the adhesive has been transferred between the connection points, temporary weak connections can occur that will break when the stretch of the elastic threads is released so that the elastic threads relax and contract in this way. wrinkling the non-woven blankets. The first non-woven layer (302) may have small isolated areas of adhesive outside the adhesive bonding points and the second non-woven layer (402) is substantially free of adhesive outside the areas where it is in contact with the elastic yarns.
[072] The compression device useful in the process according to the present invention comprises a first compression medium, which can be, for example, a plate or a cylinder having a predetermined surface pattern, and a second compression medium. compression on the opposite side of the laminated mat to be formed. By surface pattern is meant a predetermined pattern provided by protrusions or grooves on the surface of the compression means. The first non-woven mat that forms the first non-woven layer of the laminate and the second non-woven mat that forms the second non-woven layer of the laminate are pressed against the elastic yarns on opposite sides of the yarns at the point of narrowing between the first and second compression means. The second compression medium can have the same shape as the first compression medium, and therefore, it can also be a plate or a cylinder.
[073] The predetermined surface pattern is obtained by providing elements that protrude at least on the surface of the first compression medium. The surface pattern can also be provided by grooves. The first compression means is preferably a cylinder or a drum, which rotates at the same speed as the non-woven webs and the elastic threads, in which it can be easily ensured that the connection points are provided in the elastic threads in a continuous manner.
[074] The second compression medium may be flat or may have a predetermined surface structure. If the second compression medium has a flat surface somewhat more adhesive can be transferred to the nonwoven web than if the second compression medium has a predetermined surface structure. The connection pattern, however, will not be changed. If the second compression medium has a predetermined surface structure, the shape of its projections may correspond to the projections of the first compression medium and the first and second compression means are preferably in phase with each other. This means that the protruding parts of the compression means are aligned with each other in such a way that they are on opposite sides of the mat during the production process and thus provide a narrowing zone between the compression means so that sufficient compression it is provided at the connection points and the desired corrugated pattern can be supplied to the laminate.
[075] The predetermined pattern in the first compression medium, and therefore the adhesive bonding points, can have a protrusion distance of 0.3 to 10 mm and preferably 0.3 to 7 mm and more preferably 0, 5 to 4 mm. The distance of the projections in the first compression medium defines the distance between the adhesive attachment points of the laminate. These distances have been found to be short enough to provide a sufficient number of adhesive bonding points to the laminate, while the distance is long enough to provide a wavy pattern, in which a sufficient amount of non-woven material layer is free of adhesive on the surface. upper surface, that is, on the surface of the first layer of non-woven bonded to the elastic threads, at the different adhesive bonding points, after the elastic threads have been relaxed. The areas of the adhesive-free non-woven material layer provide a smooth, smooth surface for the laminate.
[076] The protrusions can be from 0.1 mm to 5 mm in height, preferably from 0.2 to 2 mm. The projections can be greater than 5 mm, but even if the compression obtained may be better, the machine can be more vulnerable to production problems. The thicker the non-woven layers and the elastic threads, the greater the protrusions must be.
[077] The predetermined angle (α) of the protrusion in the form of a straight line (3120) in relation to the longitudinal direction of the wires (4120) is shown schematically in Figure 5. As already mentioned above, the slope of the protrusions (3120) and thus, the wavy pattern formed decreases variations in line pressure and therefore decreases, for example, vibrations during the process. The predetermined wavy pattern crosses the direction of the elastic threads at an angle (α) of at least 45 °, more preferably at least 60 °, even more preferably at least 80 ° and, more preferably at least 85 ° with respect to the direction of the wires rubber bands. The angle can be correspondingly above 90 °, but preferably less than 95 ° and the angle (α) is preferably less than or equal to 135 °.
[078] Figure 8 shows schematically an example of a first compression medium in a compression device of the present invention. The medium is a cylinder (812) comprising a plurality of straight-shaped protrusions (8120) and the cylinder thus has a protruding surface structure in the form of a straight line.
[079] Figure 9 shows schematically another example of a first compression means in a compression device of the present invention. The medium is a cylinder (912) which comprises a plurality of waveform projections (9120) and the cylinder thus has a waveform protruding surface structure.
[080] Figure 10 shows schematically an additional example of a first compression means in a compression device of the present invention. The medium is a plate (1012) which comprises a plurality of protrusions in the form of short lines (1020) and the plate thus has a structure of the protruding surface in the form of a straight line.
[081] In Figure 11, an example of a corrugated laminate obtained (1200) with a wave-like wavy pattern is shown schematically. The laminate comprises a plurality of elastic threads (1112). As can be seen, the obtained corrugated pattern (1120) is in wave form and is obtained by means of a compression device comprising a wave surface structure, for example, as shown in Figure 9. ABSORBENT PRODUCTS
[082] The elastic laminate according to the present invention can be used in numerous applications, for example, in absorbent products. Such products may include diapers, protective clothing for incontinents, sanitary napkins, panty protectors and the like.
[083] In absorbent products, such as diapers and products for incontinent adults, it is desirable to provide selected regions with greater elasticity than other regions, such as in the waist region, hips region and leg openings. This provides a product with perfect fit and comfort. The hips region is defined as the region below the waist region and above the crotch region. It includes the hips, the abdominal region and the lower part of the back and the upper parts of the buttocks that are at the same height as the hips.
[084] An absorbent product generally comprises a chassis and an absorbent structure within the chassis. The chassis comprises a front panel and a rear panel. The front panel is intended to overlap the user's abdominal region and the rear panel is intended to overlap the lower back and buttocks. The absorbent product also has a crotch region extending between the front panel and the rear panel. The crotch region can be made of the absorbent structure and, sometimes, also the product chassis. Normally, the absorbent structure further comprises an absorbent core located mainly in the groin region, but it can also extend into the front panel and the rear panel of the chassis, with the absorbent core being sandwiched between a liquid-permeable top sheet and a liquid-impermeable bottom sheet in general. The outer casing of the chassis can also be the liquid impermeable back layer of the absorbent structure.
[085] The absorbent core may comprise any conventional material suitable for the absorption of discharged body waste, such as soft cellulosic pulp, tissue paper layers, highly absorbent polymers (superabsorbents), absorbent foam materials, including hydrogel foam material, absorbent or similar non-woven materials.
[086] The liquid-permeable top layer may be composed of a non-woven material, for example, continuous spinning, blow-through, carded, hydro-braided, wet, etc., which may be composed of natural fibers, such as wood pulp or cotton fibers, synthetic fibers, such as polyester, polyethylene, polypropylene, viscose, etc., or a mixture thereof. The material of the top sheet can also be composed of tow fibers, porous foams, perforated plastic films, etc. Suitable materials such as top sheet materials must be smooth and non-irritating to the skin and be easily penetrated by a body fluid. , for example, urine or menstrual fluid, and show low rehumidification properties.
[087] The liquid-impermeable back layer may consist of a thin plastic film, for example, a polyethylene or polypropylene film, a non-woven material coated with a liquid-impermeable material, a hydrophobic non-woven material, which resists penetration of liquid or laminates of plastic films and non-woven materials. The material of the lower layer can be breathable, in order to allow gases to escape from the absorbent core, although it continues to prevent the passage of liquid through the material of the lower layer.
[088] The top sheet and the bottom sheet can be bonded together, for example, by adhesive bonding, gluing or heat or ultrasound welding. The top layer and / or the bottom layer can also be attached to the absorbent core by any method known in the art, such as adhesive, thermal bonding, etc.
[089] An absorbent product in the form of, for example, a diaper may also comprise securing means for securing the front and rear end regions to one another to thereby secure the diaper around a user's waist. This type of diaper is a conventional open diaper.
[090] The disposable absorbent product may also be in the form of a belted absorbent product. These products are generally used by adults and can be adapted for both incontinence and general use. An absorbent belt product is provided with two belt halves that extend from the sides of the rear end region. The two belt halves are intended to be placed around a user's waist and secured using any suitable fastener to retain, with the belt, the absorbent product around a user's waist.
[091] The disposable absorbent product may also be in the form of a pants-type diaper. In contrast to a conventional open diaper, the front and rear end regions of a trouser-type diaper are initially attached to each other by means of side seams to thereby provide a garment that can be worn on a user of the same way like a normal underwear. Side seams can be made to be susceptible to breakage.
[092] According to the present invention, the absorbent product, that is, for example, a conventional diaper, belt-absorbent product or pants-type diaper or any other absorbent product, includes at least one region comprising the elastic laminate according to the present invention and as previously described. The region preferably comprises at least partially a waist region and / or hip region of the absorbent product to provide comfort and fit around the waist. The region can also be a leg structure in the crotch region, whereby the elastic laminate can provide a sealing effect around the upper leg region of a user of the absorbent product, thereby reducing the risk of leakage of discharges from the absorbent product. The elastic laminate of the present invention can also form at least a part of a high barrier structure in the crotch region of the absorbent article or it can be a part of an elastic crotch structure in the crotch region. The elastic crotch structure serves, among others, to force the absorbent product to adopt a concave shape in the crotch region when the product is used to assist in this way to retain discharged body waste. The corrugated laminate is especially suitable to be used as elastic waist and / or hip elastic in pants diapers.
[093] The positive effects obtained by the elastic laminate will still be shown in the following examples. EXAMPLES
[094] Two different elastic laminates, Laminate A and Laminate B, were prepared. Both laminates have similar elastic properties. Elastic laminate A is a laminate according to an embodiment of the present invention and has the following characteristics: Laminate A - According to an embodiment of the invention - First layer of nonwoven: nonwoven with continuous spinning Base weight: 19 g / m2 - Second layer of non-woven: non-woven with continuous spinning Base weight: 19 g / m2 Elastic yarns: spandex 240 dtex Separation: 2 mm Adhesive: Hotmelt, groove in several yarns; 0.01 g / m on the yarn - The first layer of nonwoven is the layer facing the first compression medium with a predetermined surface pattern. The second compression medium has a flat surface structure. Laminate B - Comparative Example - First layer of non-woven: non-woven with continuous spinning Base weight: 19 g / m2 - Second layer of non-woven: non-woven with continuous spinning Base weight: 19 g / m2 Elastic yarns: spandex 240 dtex Separation : 2 mm Adhesive: Hotmelt, spray-glued, 4.7 g / m2, - The laminate is bonded using two flat compression media. ANALYSIS 1 - SENSORIAL PANEL
[095] The smoothness of the two laminates was assessed on a sensory test panel. In sensory panels, test members are asked to evaluate a property that is opposite to that desired. In this case, smoothness is the necessary property and therefore panel members are asked to assess which of the samples is the roughest.
[096] The sensory test was performed by organizing a blind test with 20 panel members. The two different samples, Laminate A and Laminate B, were placed randomly on a table. In connection with Laminate A, the side with the first non-woven layers was turned upwards in relation to the test persons in the test.
[097] In connection with Laminate B, the side on which the hot melt adhesive was sprayed was turned upwards for the testers.
[098] The test persons were not allowed to view the samples or lift them from the table. They were asked to slide their fingertips over the material surfaces from left to right and say which one was the roughest.
[099] The results gave a significant difference in favor of the laminate according to the present invention with glue applied to individual wires, Laminate A. 17 of the 20 members considered Laminate A, which is the laminate according to the present invention, as the least rough, that is, the smoothest. ANALYSIS 2 - KAWABATA
[0100] Surface properties of the two laminates were measured using the Kawabata Evaluation System, KES-EB, a Japanese quality judgment system used for textile materials and published in: "The Standardization and Analysis of Hand Evaluation (2nd Edition), Suco Kawabata, July 1980, The Hand Evaluation and Standardization Committee, The Textile Machinery Society of Japan. "
[0101] Special recommendations for non-woven materials are created in: "A Proposal of the Standardized Measuring Conditions for Mechanical Property of Apparel Fabric, by Kawabata S och Niwa M." These recommendations were followed in the tests below with the following exceptions: The width of the material was 140 mm, instead of 200 mm due to practical reasons, the weight of the bar that carries the samples was 120 g.
[0102] The Kawabata test is divided into four blocks: KES-FB-1 for stress and shear measurements, KES-FB-2 for pure flexion measurements, KES-FB-3 for compression measurements and KES-FB- 9 for surface measurements.
[0103] Examples of output obtained from Kawabata tests are: • Extensibility (%) • Bending stiffness (gf cm2 / cm) • Shear stiffness (gf / cm degree) • Compressibility (%) • Surface roughness (um) • Friction (-)
[0104] The gf unit used in the Kawabata system is that the force of gravity exerts on one gram, that is, about 9.81 mN. In our tests, only the surface roughness and friction module (KES-FB-4) were used. A low surface roughness and low friction are known to cause less friction in a wearer of hygiene items and are correlated with perceived smoothness in sensory tests. Friction
[0105] Friction according to Kawabata is measured by drawing a "sled" according to Figures 12a and 12b, 20 mm back and forth along the sample surface on which the force is measured. The speed in this measurement is 1 mm / s and the normal force F is kept constant = 50 gf. SURFACE RUGOSITY
[0106] The bulb for the measurement of surface roughness consists of a smooth metallic wire that has a shape according to Figures 13a and 13b. It is loaded with a constant force of 10 fg and moves at a speed of 1 mm / s, 20 mm back and forth once on the sample surface. Surface roughness is defined as the significant deviation from the sample thickness measured in the μm unit.
[0107] Samples with a width of 140 mm were prepared and analyzed in the machine direction (MD) of the surface analysis module in the Kawabata apparatus. The samples were loaded with the cuff and 120 g bar and measured in the forward and backward directions on the MD. The average values of surface roughness, friction and friction variation are shown in the table below:

[0108] Laminate B, the spray-glued sample, has greater surface roughness than Laminate A. Also friction values and friction variation are slightly higher. ANALYSIS 3 - TSA
[0109] Exemplary sample laminates A and B above were analyzed with TSA - Fabric Softness Analyzer, a method that uses acoustic waves and has been shown to correlate well with hand panel tests for thin materials such as fabric or nonwoven, and was proposed to become a new ISO standard. TECHNICAL BASES OF TSA
[0110] The hand feeling of a fibrous material is affected by the components at various levels; from polymers at a molecular level to the fibrous network at a macro level. Stiffness of the individual fibers, internal structure, fiber-to-fiber bond strength, softening chemicals, etc., all of which affect the manual feel, but also the material properties of the fabric, such as creping, printing, thickness etc.
[0111] TSA analysis, because of its principles, can measure effects of material differences at various levels and algorithms for different types of materials such as toilet paper or facial tissue have been developed. PRINCIPLE OF MEASUREMENT
[0112] The sample will be fixed in a measuring cell like a drumhead. Below is a vibration sensor, above is a vertical mobile measuring head with a rotating blade that will be pushed into the sample with a defined load. In step 1 of the measurement, rotation will be performed at a defined speed. The movement of the blades in relation to the sample generates different types of vibrations / noise, which will be detected by a vibration sensor. In step 2 of the measurement, the sample will be deformed perpendicular to the surface to measure the elastic, visco-elastic and plastic properties. EVALUATION
[0113] The spectrum resulting from vibrations / noise from measurement step 1 is an overlap of two unique spectra; (a) vertical vibration of the sample as a membrane and (b) excitation of horizontal vibrations of the blades themselves caused by momentary blocking and backward oscillation of the blades by the fibers, when moving over the surface. (a) Figure 14 illustrates vertical vibration of the sample (arrow with the reference signal (4)), like a membrane, caused by the movement of the blades (1), (2) and (3) (fixed vertical position) on the sample surface with crimping / stamping, similar to the movement of a music recorder needle over the disc.
[0114] The frequency of vibration depends on the dimensions of the structure (creping / stamping) and the speed of rotation of the blade. The amplitude of the vibrations is dependent on the height of the structures.
[0115] The first peak of the spectrum represents the smoothness / roughness and is called the "smoothness / roughness peak TS750". It is correlated with the perceived smoothness / roughness: the softer the material, the less the impact of the roughness on the hand sensation. (b) Excitation of the horizontal vibrations of the blades themselves (at the resonance frequency at about 6,500 Hz.), caused by the momentary and oscillating blocking behind the blades by the fibers, when moving over the surface: the respective part of the spectrum is called "TS7 smoothness peak" (at 7000 Hz), while the frequency is constant (dependent on material and geometry), but the deformation is dependent on the softness / hardness of the fibers (stiffness of the individual fibers) and the structure of the material (volume, fiber connection). The height of this TS7 peak correlates with the real smoothness of the material. Figure 15 illustrates the image section for peak TS7 with reference signal (5) and image section for peak TS750 with reference signal (6) for a sample (7).
[0116] In step 2 of the measurement, the rotor applies a defined load in three cycles in a vertical direction on the sample. Figure 16 illustrates the application of force. In step (i) F = 100mN and in step (ii) F is constant and 600mN. The measured deformation D correlates with the stiffness of the material.
[0117] The three parameters TS7 softness, TS750 smoothness and D stiffness will be combined together with the caliber (thickness), weight and number of layers with different algorithms for a manual sensation number HF = f (TS7, TS750, D, Caliber, Weight, number of layers). Mathematical equations can be created in a way that the results correlate with a given panel. Standard algorithms for each material (base fabric, toilet paper, facials) are available from the instrument's producer.
[0118] Laminates A and B were analyzed according to the descriptions above, using a TSA equipment supplied by the company EMTEC. The tests were performed according to the instructions for the EMTEC equipment.
[0119] A table with the main results of the TSA measurement is seen below.

[0120] As can be seen from the results, the deformation is higher D for Laminate A. Laminate B has a greater resistance to the applied force and deforms to a lesser degree under load.
[0121] The TS750 value is significantly higher for Laminate B, which could be interpreted as that this material has a higher perceived stiffness than Laminate A.
[0122] TS7 values are similar for Laminate A and Laminate B, but slightly lower for Laminate A. Both laminates comprise the same materials as the non-woven layer.
[0123] An algorithm developed for facial tissue materials (Facial II) was used to correlate TSA data with manual sensation values and sample A is approximately 5 units softer than B on a 100 scale scale.
[0124] The results show that laminate A according to the present invention is softer and has a smoother surface structure than laminate B of the prior art.
[0125] The invention has been described above by way of example only, and it should be understood that the invention can be varied in many ways within the scope of the appended claims.

权利要求:
Claims (11)
[0001]
1. Elastic laminate comprising a first layer of non-woven fabric, a second layer of non-woven fabric, and a plurality of elastic yarns arranged in parallel to each other between said first and second non-woven layers characterized by: - the elastic yarns (412 ; 4120) be stretched and individually coated with an adhesive, and the first and second layers of nonwoven are attached to the stretched elastic yarns (412; 4120) to provide a corrugated elastic laminate (1200), when the elastic yarns (412; 4120) ) are relaxed, in which: - at least one of the non-woven layers is connected to the threads (412; 4120) at different points of adhesive bonding (4122) in a predetermined pattern recurring in a longitudinal direction along the threads ( 412; 4120) to form a predetermined wavy pattern, and - the non-woven layers are substantially free of adhesive, except at the adhesive bonding points (4122), where the layers are bonded to the elastic threads ( 412; 4120).
[0002]
2. Elastic laminate according to claim 1, characterized in that the laminate (1200) is elastic in the longitudinal direction of the wires (412; 4120) and the predetermined wavy pattern crosses the direction of the elastic wires (412; 4120) at an angle (α ) of at least 45 °, more preferably at least 60 ° to more preferably at least 80 ° and, more preferably at least 85 ° with respect to the direction of the elastic yarns (412; 4120).
[0003]
Elastic laminate according to any one of claims 1 to 2, characterized in that the predetermined wavy pattern comprises straight lines or wave-shaped lines, in a direction perpendicular to the direction of the elastic wires.
[0004]
Elastic laminate according to any one of claims 1 to 3, characterized in that the first and / or the second layer of nonwoven comprises a nonwoven of blow-through or continuous spinning or hydro-interweaving continuous spinning.
[0005]
5. Process for the manufacture of an elastic laminate in a laminating process characterized by comprising the steps of: i. feeding a first non-woven blanket (302) to the lamination process; ii. feeding a second non-woven blanket (402) to the lamination process; iii. feeding a plurality of elastic threads (412) in parallel to the lamination process; iv. stretching the elastic threads (412); v. individually coat the elastic threads (412) with an adhesive; saw. joining the first and second non-woven blankets (302; 402) and the stretched elastic threads (412), coated with adhesive; vii. compress the first and second non-woven blankets (302; 402) and the stretched elastic threads (412), coated with adhesive together by means of at least one compression device (314) comprising a first compression means (312) and a second compression medium (313) to form a laminate, wherein at least the first compression medium (312) has a predetermined surface pattern, to form distinct adhesive bonding points (4122) in a recurring predetermined pattern in a longitudinal direction along the elastic threads (412); and viii. relaxing the elastic yarns in the formed laminate to form an elastic laminate with a predetermined corrugated pattern.
[0006]
Process according to claim 5, characterized in that the elastic threads (412) are coated by means of a coating groove.
[0007]
Process according to any one of claims 5 to 6, characterized in that the at least one first compression medium (312; 812; 1012) has a surface structure that protrudes in the form of a straight line.
[0008]
Process according to any one of claims 5 to 6, characterized in that the at least one first compression medium (312; 912) has a surface structure that protrudes in the form of a wave line.
[0009]
Process according to any one of claims 5 to 7, characterized in that the at least one first compression means (312; 812; 912) is a compression cylinder.
[0010]
Absorbent product characterized in that it comprises an elastic laminate according to any one of claims 1 to 4.
[0011]
Absorbent product according to claim 10, characterized in that the elastic laminate is comprised in the waist region and / or in the hips region of the absorbent product.

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公开号 | 公开日

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AU2012397336A1|2015-07-09|

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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-01-02| B25D| Requested change of name of applicant approved|Owner name: ESSITY HYGIENE AND HEALTH AKTIEBOLAG (SE) |

2019-10-15| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-12-01| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-02-09| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 21/12/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

PCT/SE2012/051475|WO2014098683A1|2012-12-21|2012-12-21|Elastic laminate and process for the manufacture of elastic laminate|

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