JP3816676B2 - Sheet-like elastic composite and method for producing the same - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
TECHNICAL FIELD The present invention relates to a sheet-like composite having elasticity suitable for a sanitary medical material or a daily miscellaneous covering material used in close contact with the body and a method for producing the same. More specifically, the present invention relates to a sheet-like elastic composite in which a non-elastic sheet is bonded to the front and back surfaces of at least one elastic sheet. The non-elastic sheet has an uneven shape (gather shape). The present invention relates to a sheet-like elastic composite and a method for producing the same, which has stretchability, in which only convex portions are bonded, but has a certain degree of elongation and stops stretching.
[0002]
[Prior art]
For example, a waist part of a disposable diaper is used in close contact with the body of a wearer such as an infant, and an elastic member having elasticity is used together with a film or / and a fabric constituting the diaper body in order to prevent leakage of bodily fluids. Is normal. And several methods have already been proposed as a method for manufacturing such a stretchable diaper sheet member.
[0003]
For example, in Japanese Examined Patent Publication No. 7-37703, a stretchable sheet is obtained by bonding a non-stretchable sheet capable of forming a gather with hot embossing in a stretched state and then releasing the stretched state immediately afterward. Is a stretchable sheet in which gathers are formed on a non-stretchable sheet.
This method is characterized by the fact that the elastic sheet is bonded in a stretched state. However, in the case where the elastic sheet is bonded in the stretched state, the elastic sheet is melted by the heat of the embossing roll and is unstable due to tearing from there. In addition, when the stretchable sheet is stretched, the width of the sheet becomes narrow, so it is difficult to control the width. Moreover, since it is necessary to remove the tension from the composite sheet once after bonding and to release the composite sheet, it can be imagined that there is a difficulty in passing through the manufacturing process. Furthermore, since this composite sheet is combined in an expanded state and then the non-stretchable sheet is shrunk by the shrinkage force of the stretchable sheet to form a gather, the non-stretchable sheet is practically limited to flexible and thin objects. End up.
[0004]
In JP-A-5-222601, JP-A-5-245961, and JP-A-5-228177, an elastic sheet and an inelastic sheet are bonded together by a striped hot embossing roll extending in the sheet length direction. After forming the composite sheet, the composite sheet is stretched to give permanent distortion to the non-elastic nonwoven fabric, and the stretch sheet is contracted by releasing the stretch to form a gather on the non-stretch sheet. A method is disclosed.
However, this method requires that the non-stretchable sheet has a potential stretchability of 100% or more in the CD direction. Moreover, when trying to obtain sufficient elongation by widening the composite product, a part of the non-stretchable sheet is destroyed, and fluffing or appearance is impaired. In addition, this method requires a step of once widening the bonded composite product, unlike the present invention in which a sheet that gives a feeling of being stretched at the same time is bonded by hot embossing. Further, this method gives a feeling of stoppage in the sheet width direction, and its application in the length direction is very difficult.
[0005]
Japanese Patent Application Laid-Open No. 7-213554 discloses a non-stretchable non-stretchable material having a non-stretchable non-woven fabric formed into a concavo-convex shape with a gear, an adhesive is applied to the convex portion, and an elastic sheet is adhered to the convex portion. A method for producing a stretchable elastic composite in which a stretchable nonwoven fabric is bonded to one side of a stretchable nonwoven fabric is disclosed. However, in this method, for example, even if a flexible inelastic sheet is passed through the concavo-convex roll to form a concavo-convex shape, after passing through the engaging portion of the concavo-convex roll, the state along the concavo-convex roll is maintained until pasting with the elastic sheet. It is extremely difficult to maintain. Further, in such a method, when the speed is increased, similarly, the sheet pushed into the concave portion is lifted. Therefore, as a result, it is unavoidable to be an elastic composite in which the interval and size of the unevenness (gather) are not uniform, and such a material has a non-constant degree of expansion and contraction and is not preferable as a product material.
[0006]
In order to eliminate the above inconvenience, the present invention proposes a method of providing a suction portion on the uneven roll on the side where the inelastic sheet is pushed in and holding the sheet pushed in by suction. If it becomes a non-woven fabric to the extent that it can be used, its weight per unit area, its density, etc. must be large, and the target non-woven fabric is specified, and a general highly breathable non-woven fabric is used. In this case, it is extremely difficult to suck and hold by suction. That is, this method is not suitable for industrial use as a production method for general nonwoven fabrics.
[0007]
Further, in the present invention, since the bonding is performed with the adhesive, there arises a problem that “the adhesive comes through” and “the texture is hardened by the adhesive”. In addition, when the design is such that the uneven pitch is small and the unevenness (gather) is densely formed, a technique for accurately applying a very small amount of a viewing agent to the roll convex part is required. For example, it is not suitable to use a technique that requires a high-speed and stable continuous operation for a long period of time at a low production cost as in the case of diaper production.
[0008]
The present inventors have already disclosed in Japanese Patent Application No. 9-40621 a composite sheet having a feeling of non-stretching, in which a non-stretchable sheet having a concavo-convex shape formed on one side of a stretchable elastomer sheet is bonded together. Invented the method.
However, in this method, since the elastic elastomer sheet on one side of the composite appears on the surface, when this surface touches human skin, it may cause a sense of incongruity due to the slimy feeling peculiar to the surface elastomer. There is sex. In addition, since the elastic elastomer sheet surface has a high coefficient of friction, if there is clothes or the like on the surface, the movement of the elastic elastomer sheet is undesirably disturbed.
[0009]
In addition, in a two-layer product composed of a stretchable sheet and a single non-stretchable sheet, the strength may be insufficient when it is used for applications where a large force is applied, such as an adult diaper. In order to improve this, there is a method of increasing the basis weight of the non-stretchable sheet, but in this production method, the non-stretchable sheet is preferably as thin as possible. There is a risk that the elongation at rest and elongation (elongation corresponding to the second inflection point of the SS curve) will be low, and the original purpose may not be achieved. At the same time, the surface of the composite becomes hard and the texture is impaired.
[0010]
[Problems to be solved by the invention]
The object of the present invention is to provide a sheet-like elastic composite composed of an elastic sheet and an inelastic sheet, in which the disadvantages of the prior art as described above are eliminated, that is, the stress is low at a low elongation rate, and the stress is rapidly increased at a constant elongation. A sheet-like elastic composite having a sense of being stretched and a method for producing the same, and a sheet-like elastic composite having uniform unevenness (gather) size and spacing and uniform uniformity. Is to provide. Furthermore, an object of the present invention is to provide a method for easily and continuously producing a sheet-like elastic body having such unevenness (gather) with uniform uniformity.
[0011]
[Means for Solving the Problems]
That is, the present invention comprises a melt blown nonwoven fabric between non-stretchable sheets (A) and (A ′) in which concave portions and convex portions extending in stripes in the width direction are formed at regular intervals in the length direction. A sheet having stretchability in a form in which the stretchable sheet (B) is superposed and the convex portions of the non-stretchable sheets (A) and (A ′) are bonded to each other via the stretchable sheet (B). A non-stretchable sheet (A), (A ') is a thermoplastic sheet, and the nonstretchable sheet (A) is a striped shape extending in the process width direction. And a heat embossing roll (1) heated within a range of 15 ° C. to 40 ° C. lower than the melting point of the non-stretchable sheet (A) and 10 ° C. or more lower than the heat embossing roll (1) A sheet unevenness forming apparatus comprising an uneven roll (2) which is set at a temperature and rotates in mesh with the uneven groove of the hot embossing roll (1). The non-stretchable sheet (A ') is rotated and advanced along with the rotation of the hot embossing roll while forming the non-stretchable sheet (A) in a concavo-convex shape. In the same manner as in (A), the non-stretchable sheet (A ′) is supplied to the engaging portion of the unevenness forming apparatus comprising a separately provided hot embossing roll (1 ′) and unevenness roll (2 ′). The hot embossing roll (1 ′) is rotated and moved forward with the hot embossing roll (1 ′), and then the unevenly stretched non-elastic sheets (A) and (A ′) are transferred to the hot embossing roll (1 ) And a hot embossing roll (1 '), and at the same time, the elastic sheet (B) guided separately is supplied to the sheet fusion bonding apparatus in which the tops of the respective convex portions face each other and rotate. ) And (A ′), and the non-elastic sheets (A) and (A) at the tops of the convex portions of the hot embossing rolls (1) and (1 ′) This is a method for producing a sheet-like elastic composite, characterized in that ') is hot-embossed to the stretchable sheet (B). The present invention also provides a method for producing a sheet-like elastic composite, wherein the non-stretchable sheets (A) and (A ′) are nonwoven fabrics.
[0012]
Further, the present invention is a method for producing a sheet-like elastic composite, wherein the convex-concave top width of the irregularities of the hot embossing rolls (1) and (1 ′) is 0.1 to 1.0 mm. is there.
Further, the present invention is a method for producing a sheet-like elastic composite, wherein the uneven pitch of the hot embossing rolls (1) and (1 ′) is 0.5 to 3.0 mm.
Further, the present invention is a method for producing a sheet-like elastic composite, wherein the concave and convex portions of the hot embossing rolls (1) and (1 ′) have a concave portion depth of 0.5 to 2.0 mm. .
[0013]
Furthermore, the present invention is a sheet-like elastic composite (C) produced by any one of the methods described above, wherein concave portions and convex portions extending in the width direction are formed at regular intervals in the length direction. The convex part of the thermoplastic non-stretchable sheet (A) and (A ′) is a composite in which the convex portions of the thermoplastic non-stretchable sheets (A) and (A ′) face each other via a stretchable sheet (B) made of a melt blown nonwoven fabric. In the SS curve showing the elongation characteristics of the body, there are two inflection points. The inflection point on the low elongation side is the first inflection point, and the inflection point on the high elongation side is the second inflection point. In the case of an inflection point, the minimum value of the slope of the tangent of the curve between the first inflection point and the second inflection point of the SS curve is Δ, from the second inflection point. When the maximum value of the slope of the tangent line on the high elongation side is Δ ′, the relationship of Equation 1 is established, and the stress at the elongation corresponding to the second inflection point is 1 of the breaking stress. A sheet-like elastic body, characterized in that it is 2 or less.
Δ ′ / Δ ≧ 15 ・ ・ ・ ・ ・ 1
The present invention also provides the sheet-like elastic composite, wherein the sheet-like elastic composite has a surface friction coefficient of 0.4 or less.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a side sectional view of a sheet-like elastic composite (C) of the present invention, and FIG. 2 is a process conceptual diagram outlining its production process. Hereinafter, based on FIG. 2, the manufacturing method of the sheet-like elastic composite of this invention is demonstrated.
In the present invention, in the method for producing the sheet-like elastic composite (C), in order to make the non-stretchable sheet (A) a sheet having a uniform uneven structure, a thermoplastic sheet material is used. A heat embossing roll (1) having a striped uneven groove extending in the roll width direction (not shown), which is controlled to be heated to a constant temperature, and an uneven roll (2) arranged to face the heat embossing roll and meshing and rotating (2) Is introduced into the meshing part of the sheet unevenness forming device, and the sheet material is provided with an uneven structure (gather structure), and the formed sheet is fitted into the recess of the hot embossing roll (1). As it is done, it moves forward with the rotation of the embossing roll so that the uneven part of the sheet does not return to the original state,
At the same time, in order to make the non-stretchable sheet (A ') have a uniform uneven structure, a heat embossing roll (1') and an uneven roll having an uneven part that is controlled by heating the thermoplastic sheet material to a constant temperature. (2 ') is introduced into the meshing portion of the sheet unevenness forming apparatus, and the unevenness is shaped, and the shaped unevenness is rotated and advanced together with the hot embossing roll without returning to the original state,
Next, the shaped non-stretchable sheet (A), (A ') and the stretchable sheet (B) guided so as to be supplied between the two sheets, the heat embossing roll (1) And a heat embossing roll (1 ′), and the convex portions of the heat embossing rolls (1) and (1 ′) are supplied to the sheet fusion bonding apparatus in which the tops of the respective convex portions face each other and rotate. The non-stretchable sheets (A) and (A ′) are bonded to the stretchable sheet (B) by hot embossing between the tops of the sections.
[0015]
The sheet-like elastic composite (C) thus obtained has a non-stretchable sheet (A) and a (A ′) uneven (gathered) structure, a uniform pitch, and a non-stretchable sheet (A ) And (A ') are fused to the front and back sides at the same position in the length direction and width direction of the stretchable sheet (B), and therefore the stretchability is extremely uniform. It will be excellent.
[0016]
In addition, the present invention includes the heat embossing roll (1) and the uneven roll (2), and the heat embossing roll (1 ′) and the uneven roll (2 ′) with the uneven (gathered) shape, and the elastic sheet (B). The heat embossing rolls (1) and (1 ') are used for the bonding with the heat, and the fibers constituting the non-stretchable sheets (A) and (A') are thermally bonded by partial melting. Yes, it does not have the above-mentioned inconvenience of stiffening the texture and feel of the adhesive when pasting together using an adhesive, and it is not only uneven but also has an excellent texture. Become.
[0017]
Furthermore, since the manufacturing method of the present invention is performed by the thermal embossing and thermal bonding method, it has a great merit that it can be stably and continuously operated at a high speed.
Furthermore, in the production method of the present invention, by changing the concavo-convex shape of the hot embossing rolls (1) and (1 ′), the elongation stop point (SS curve) of the obtained sheet-like elastic composite (C) is obtained. The second inflection point) and the appearance can be accurately controlled, and the required elastic composite can be obtained accurately and easily.
[0018]
FIG. 3 is a conceptual diagram illustrating the strong elongation characteristics of the composite (C) having a feeling of non-elongation, which is an example obtained in the present invention. That is, the elastic composite (C) of the present invention is stretched by the stretch stress characteristic of the stretchable sheet (B) until the uneven folds (gather) of the non-stretchable sheets (A) and (A ′) are fully stretched. When the uneven pleats (gathers) are fully extended, the non-elastic sheet (A) and (A ') are added, and the tensile stress characteristic rises sharply in the figure, giving a feeling of stopping Is.
[0019]
FIG. 4 is a conceptual diagram for explaining the tensile stress characteristics of each sheet material used for the composite of the elastic body (C). (1) is the non-stretchable sheet (A) and (A '), 2 ▼ shows that of the stretchable sheet (B). (1) is the case of the high stress characteristic of spunbond alone. In this case, a high force is required for stretching, and a product using such a sheet is not preferable because it gives the user a feeling of pressure. In addition, (2) is the case of the low stress characteristic of an elastic fiber consisting of polystyrene-poly (ethylenepropylene) -polystyrene block copolymer (SEPS). In this case, it can be easily stretched. If the product used is loose, it will stretch and there will be no stopping point, which will give the user a sense of instability.
[0020]
Further, FIG. 5 shows the 100% elongation recovery characteristics of the sheet-like elastic composite (C) of the present invention, and FIG. 6 shows the 100% elongation recovery characteristics of the elastic sheet (B) used alone in the present invention. Each is shown. As shown in FIG. 5, the elastic composite (C) of the present invention maintains the elasticity of the elastic sheet (B) alone shown in FIG. 6 in the stretched region before the stretch stress characteristic suddenly rises. For example, when this material is used for the waist part of a paper diaper, it will expand and contract along the movement of the body, and exhibits excellent fit.
[0021]
In the present invention, the heat embossing rolls (1) and (1 ′) are not particularly limited as long as they can heat the non-stretchable sheets (A) and (A ′) to a certain temperature and can form irregularities thereon. However, for example, a concavo-convex roll whose temperature can be controlled by steam heating or a heat medium can be preferably used.
Similarly, the uneven rolls (2) and (2 ′) may be any shape that can form irregularities on the non-stretchable sheets (A) and (A ′), but the shaped non-stretchable sheets (A ) And (A ′) are held on the hot embossing rolls (1) and (1 ′) side, it is necessary to keep the temperature at least 10 ° C. lower than that of the hot embossing rolls (1) and (1 ′). Therefore, it is preferable that the temperature can be controlled.
[0022]
The concavo-convex pattern of the heat embossing rolls (1) and (1 ') can control the adhesive strength by increasing the bonding area with the width at the convex part, the top part, and controlling the size of the gather with the pitch and depth, It controls the degree of elongation until the non-stretchable nonwoven fabrics (A) and (A ′) are fully extended. The size and pitch of such irregularities may not be determined to a certain extent, as long as optimal conditions are set for each end use using the elastic composite (C), but the ratio of the rolls (1) and (1 ') It is desirable that the top width of the projections of the unevenness be in the range of 0.1 to 1.0 mm. The uneven pitch is desirably in the range of 0.5 to 3.0 mm. The recess depth (projection height) is preferably in the range of 0.5 to 2.0 mm. The contact pressure between the tops of the convex portions facing the hot embossing rolls (1) and (1 ') may be variously changed according to the basis weight, thickness, type, usage, etc. of the sheet passing therethrough. It is preferable to set the contact pressure to about 5 to 100 kg / cm as the linear pressure when passing through.
Furthermore, although the shape of the unevenness is not particularly limited, it is preferably a “gear” shape as shown in FIG. 7 or a “rectangular” shape as shown in FIG.
[0023]
The depth of the unevenness (gather) imparted to the non-stretch sheet almost corresponds to the depth of the concave portion of the roll, but if the gather is too large, it is difficult to wind the resulting composite (C) around the roll In addition, the appearance is not preferable. Moreover, when it touches a protrusion etc., a gather will be caught there and cause a tear. On the other hand, if it is too small, the effect is not exhibited, which is not preferable.
[0024]
The concave and convex rolls (2) and (2 ') corresponding to the hot embossing rolls (1) and (1') are either metal pattern rolls, cotton rolls, paper rolls or rubber rolls, and the hot embossing rolls (1) and (1 ' Any of the non-stretchable sheets (A) and (A ′) can be reliably pushed into the recesses of the hot embossing rolls (1) and (1 ′) by securely meshing with 1 ′). However, it is more preferable to use a cotton roll or a paper roll from the viewpoint of easy control so as not to break the non-stretchable sheets (A) and (A ′). Further, these hot embossing rolls (1) and (1 ′) and the concave and convex rolls (2) and (2 ′), when the non-stretchable sheets (A) and (A ′) have been guided to the meshing part, The meshing part of each other is mechanically prevented so that the uneven part is separated by the sheet or it becomes impossible to mesh, and the gathering on the non-stretchable sheets (A) and (A ') is not insufficient. It is necessary to maintain the meshing by pressurizing to.
[0025]
Of particular importance in the present invention is the temperature of the hot embossing rolls (1) and (1 ′). This temperature is kept within a range of 15 ° C. to 40 ° C. lower than the melting point of the non-stretchable sheets (A) and (A ′), so that the embossing rolls (2) and (2 ′) have hot embossing rolls. The non-stretchable sheets (A) and (A ′) pushed into the recesses of (1) and (1 ′) are prevented from rising to the surface of the hot embossing rolls (1) and (1 ′). It is. If this temperature is too high, the non-stretchable sheets (A) and (A ′) may be melted or taken up by the rolls until they do not melt, or the fibers become brittle. If the temperature is too low, the surface of the sheet will not melt, and the non-stretchable sheets (A) and (A ′) that have been once pushed into the recesses will float.
Furthermore, it is necessary to keep the temperature of the uneven rolls (2) and (2 ′) at a low temperature of 10 ° C. or more as compared with the hot embossing roll 1. This is necessary in order to hold the non-elastic sheet (A) and (A ') in a concave-convex shape at the concave-convex engagement portion, and then securely hold the heat-embossing roll (1) and (1'). It is.
[0026]
As a method for pressing the non-stretchable sheets (A) and (A ′) into the recesses of the embossing rolls (1) and (1 ′), there is a method in which a suction zone is provided in the roll, and a low-weight nonwoven fabric In that case, the air permeability is too high, so it doesn't make sense. Therefore, in the present invention, the non-stretchable sheets (A) and (A ′) made of a thermoplastic resin are heated to a temperature in the range of the melting point or below the melting point of 40 ° C. so that the shaped irregularities are not restored. The first important point is to move forward.
[0027]
Further, in the present invention, the non-elastic sheet (A) and (A ′) shaped with uniformly arranged irregularities, the apexes of the convex portions of the heat embossing rolls (1) and (1 ′) face each other. The elastic sheet (B) is separately guided and supplied between the convex part of the non-elastic sheet (A) and (A ') and both sheets at the position where the sheet is advanced to the rotating position (sheet fusion bonding apparatus). ), Without using an adhesive, both the sheets are fused by partial melting of the constituent fibers themselves constituting the non-stretchable sheets (A) and (A ′). The second important point is that the composite sheet (C) can eliminate the poor texture due to the presence of the adhesive and can obtain a soft and extremely soft touch.
[0028]
The heat embossing rolls (1) and (1 ′) are rotated so that each convex part faces each other at the top part, and the non-stretching shape having the above-mentioned irregularities formed by the facing part between the top parts of the convex part. It suffices if the sheets (A) and (A ′) and the elastic sheet (B) supplied between them can be bonded together, and the temperature can be controlled so that the necessary amount of heat can be supplied to the sheet. It is preferable.
[0029]
The non-stretchable sheets (A) and (A ′) that can be used in the present invention may be anything as long as they are sheet-like materials such as fabrics and films made of thermoplastic resins such as polyethylene, polypropylene, polyester, and polyamide. It is not necessary to be the same, but the basis weight is 5-30 g / m in terms of touch, flexibility, breathability, and cost. ² More preferred are non-woven fabrics, especially spunbonded nonwoven fabrics.
[0030]
The elastic sheet (B) used in the present invention is not particularly limited in its elastic material, and materials known so far, such as isoprene, butadiene-based synthetic rubber, urethane elastomer, or polystyrene- Styrene elastomer such as polyisoprene block copolymer (SIS), polystyrene / poly (ethylene butylene) -polystyrene block copolymer (SEBS), polystyrene-poly (ethylene propylene) -polystyrene block copolymer (SEPS), ethylene Use a sheet-like material made of a polyolefin-based elastomer such as vinyl acetate copolymer (EVA), ethylene / methyl acrylate copolymer (EMA), ethylene propylene rubber (EPDM), ethylene / 1-octene copolymer. Can do. The sheet-like material is a melt blown nonwoven fabric and has a basis weight of 20 to 100 g / m from the viewpoint of flexibility, breathability, stretchability and cost. ² More preferred is a melt blown nonwoven fabric having a thickness of 0.1 to 0.3 mm.
[0031]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention in more detail, this invention is not limited by these Examples.
Example 1:
<Nonelastic Sheets (A) and (A ′)>: A commercial name “Stratec RN2015” manufactured by Idemitsu Petrochemical Co., Ltd. was used. This is a spunbond nonwoven fabric made of polypropylene (PP) resin, and its basis weight is 15 g / m. ² Met. The elongation stress characteristics in the length direction of this PP spunbonded nonwoven fabric were as shown in (2) of FIG. Furthermore, when the melting point of this spunbonded nonwoven fabric was measured by the DSC method, it was 162 ° C.
[0032]
<Manufacture of elastic sheet (B)>; Kuraray Co., Ltd. trade name "Septon # 2002" (SEPS resin) 80 parts blended with 20 parts PP resin, put into an extruder at 310 ° C The melt blown nozzles are melted and discharged from a melt blown nozzle in which holes with a diameter of 0.3 mm are arranged in a line at a pitch of 0.75 mm. 30g / m ² The melt blown nonwoven fabric was obtained. At this time, the single-hole discharge amount of the resin was 0.4 g / min · hole, the hot air amount was 0.15 Nm 3 / min · cm width, and the distance between the die and the collecting conveyor was 15 cm. .
The stretch stress characteristics in the length direction of the obtained stretchable meltblown nonwoven fabric are shown in FIG.
It is. A 100% elongation recovery curve is shown in FIG.
[0033]
<Manufacture of sheet-like stretchable composite (C)>: The above-mentioned inelastic sheets (A) and (A ′) are transferred to the hot embossing roll (1), the concavo-convex roll (2) and the hot embossing roll shown in FIG. 1 ') and an uneven roll (2') to form an uneven shape, and then continue to the facing part of the top of each convex part of the hot embossing roll (1) and (1 ') Feed, here, the elastic sheet (B) separately guided between the rolls (1), (1 ′) and pressed in a laminated state, the convexity of the inelastic sheets (A) and (A ′) A stretchable composite (C) having a cross-sectional shape as shown in FIG. 1 was obtained, in which the stretchable sheet (B) was thermally bonded to the top of the part.
The uneven shape of the hot embossing rolls (1) and (1 ′) and the uneven rollers (2) and (2 ′) at this time is the gear type shown in FIG. 7, which has an uneven pitch of 1.57 mm and a depth of The top width of the convex portion was 1.30 mm and 0.50 mm. The temperature of the hot embossing rolls (1) and (1 ′) is 132 ° C., the temperature of the concave and convex rolls (2) and (2 ′) is 80 ° C., and the rolls (1) and (2) and (1 ′) and (2 Both contact pressures with ') were 20 kg / cm. The rolls (1) and (1 ′) were pressed with a contact pressure of 35 kg / cm. Moreover, the processing speed at this time was 10 m / min.
The stretchable elastic property of the obtained stretchable composite (C) was as shown in FIG.
[0034]
Comparative Example 1: Except that the temperature of the hot embossing roll (1) was 100 ° C., the composite was tried using the method of Example 2, but the span pushed into the uneven part of the hot embossing roll (1) Bond non-woven fabric (A) is lifted from the concavo-convex portion of roll 1 before being bonded to elastic sheet (B), and does not become a composite with uniform gathers, and does not partially exhibit sufficient stretchability and stretch stoppage Became.
[0035]
Comparative Example 2: Except that the temperature of the hot embossing roll (1) was 150 ° C., composite was attempted using the method of Example 2, but the spunbond nonwoven fabric (A) was made of the hot embossing roll (1). It was melted at the same time as it was pushed into the concavo-convex part and did not become a composite with gathers.
[Brief description of the drawings]
FIG. 1 is a side sectional view of a sheet-like elastic composite (C) of the present invention.
FIG. 2 is a conceptual diagram showing a production process of the sheet-like elastic composite (C) of the present invention.
FIG. 3 is an elongation stress curve of an example of the sheet-like elastic composite (C) of the present invention.
FIG. 4 shows the strength and elongation characteristics of a non-elastic nonwoven fabric and an elastic nonwoven fabric.
FIG. 5 shows 100% elongation recovery characteristics of an example of the sheet-like elastic composite (C) of the present invention.
FIG. 6 shows 100% elongation recovery characteristics of an elastic sheet.
FIG. 7 shows an example of a gear type uneven roll, and is a partial side view of both roll meshing portions.
FIG. 8 is a partial side view of an engaging portion of both rolls, showing an example of a rectangular uneven roll.
[Explanation of symbols]
1, 1 'heated embossing roll
2,2 'uneven roll
A, A 'Non-elastic sheet
B Elastic sheet
C sheet-like elastic composite

Claims (7)

A stretchable sheet (B) made of a melt-blown nonwoven fabric between the non-stretchable sheets (A) and (A ′) in which concave portions and convex portions extending in stripes in the width direction are formed at regular intervals in the length direction. And a non-stretchable sheet (A) and a sheet-like elastic composite having a stretchability in a form in which the convex portions of (A ′) are bonded to each other via the stretchable sheet (B) (C The non-stretchable sheet (A), (A ′) is made of a thermoplastic sheet, and the non-stretchable sheet (A) has striped uneven grooves extending in the process width direction. The hot embossing roll (1) heated within the range of 15 ° C. to 40 ° C. lower than the melting point of the non-stretchable sheet (A) and a temperature lower by 10 ° C. than the hot embossing roll (1), Engaging part of sheet unevenness forming apparatus comprising uneven groove (2) that meshes and rotates with uneven groove of hot embossing roll (1) Supplying the non-stretchable sheet (A) in a concavo-convex shape while rotating the heat embossing roll, and at the same time, the non-stretchable sheet (A ′) is the same as the sheet (A). According to the method, it is supplied to a meshing part of a concavo-convex forming device comprising a separately provided hot embossing roll (1 ′) and a concavo-convex roll (2 ′), and the non-stretchable sheet (A ′) is shaped into a concavo-convex shape. While the hot embossing roll (1 ') is rotated and moved forward, the concavo-convex shaped non-stretchable sheets (A) and (A') are then transferred to the hot embossing roll (1) and the hot embossing roll. (1 '), and at the same time supplied to the sheet fusion bonding apparatus in which the tops of the respective convex portions face each other and rotate, the separately extended elastic sheet (B) is supplied to the sheets (A) and (A' ), The non-stretchable sheets (A) and (A ′) at the tops of the convex portions of the hot embossing rolls (1) and (1 ′). A method for producing a sheet-like elastic composite comprising heat embossing to B).   The method for producing a sheet-like elastic composite according to claim 1, wherein the non-stretchable sheets (A) and (A ') are nonwoven fabrics.   2. The method for producing a sheet-like elastic composite according to claim 1, wherein the top width of the convex portions of the hot embossing rolls (1) and (1 ′) is 0.1 to 1.0 mm.   The method for producing a sheet-like elastic composite according to claim 1, wherein the uneven pitch of the hot embossing rolls (1) and (1 ') is 0.5 to 3.0 mm.   The method for producing a sheet-like elastic composite according to claim 1, wherein the concave and convex portions of the hot embossing rolls (1) and (1 ') have a concave portion depth of 0.5 to 2.0 mm. A sheet-like elastic composite (C) produced by the method according to any one of claims 1 to 5, wherein concave portions and convex portions extending in the width direction are formed at regular intervals in the length direction. A composite in which the convex portions of the thermoplastic non-stretchable sheets (A) and (A ′) face each other via a stretchable sheet (B) made of a melt blown nonwoven fabric , and the composite There are two inflection points in the SS curve showing the elongation characteristics of the first, the inflection point on the low elongation side is the first inflection point, and the inflection point on the high elongation side is the second inflection point. When the inflection point is set, the minimum value of the slope is Δ, which is higher than the second inflection point, in the tangent line of the curve between the first inflection point and the second inflection point of the SS curve. When the maximum value of the slope of the tangent line on the elongation side is Δ ′, the relationship of Equation 1 is satisfied, and the stress at the elongation corresponding to the second inflection point is ½ or less of the breaking stress. so Sheet elastic body, wherein Rukoto.
Δ ′ / Δ ≧ 15 ・ ・ ・ ・ ・ 1   The sheet-like elastic body according to claim 6, wherein the composite surface has a friction coefficient of 0.4 or less.

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