JP2004339658A - Engaging fiber sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a low-cost engaging fiber sheet having moderate tensile shear strength and excellent antislip effect without damaging the member engaged with the fiber sheet. <P>SOLUTION: The fiber sheet has protrusions on the surface and a tensile shear strength of ≥0.1 N/cm<SP>2</SP>under the load of 5 g/cm<SP>2</SP>. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００４３】
表１に示した通り、本発明の係合性繊維シートは適度な引張りせん断強度を有するにもかかわらず、剥離強さは軽微であるため、係合相手となる部材を損傷することはなかった。
【００４４】
比較例１
メルトフローレート６００ｇ／１０ｍｉｎのポリプロピレン樹脂を押し出し機によって溶融押出を行い、紡糸温度２８５℃、単孔吐出量０．５ｇ／分・孔でノズルから吐出し、温度２８５℃、圧力０．１ＭＰａの高速熱風により細化させた繊維流を、ダイから２０ｃｍ離れた位置に設置し、ダイノズルの反対側にサクションボックスを備えた成形コンベア上に捕集し、メルトブロー不織布を得た。このコンベアには２０メッシュの平織りステンレス金網がエンドレスで回転するよう装着されていた。
これにより、通常のＰＰＭＢ不織布と実施例１で用いたエンボス不織布との間のせん断強度、剥離強さを測定したが、表１に示した通り、全く係合しなかった。
【００４５】
比較例２
フック型面ファスナー（株式会社クラレ製「マジックテープ」（登録商標）：品番Ａ８６９００−７１）と実施例１のエンボス不織布を準備した。このフック型面ファスナーとエンボス不織布との引張りせん断強さと剥離強さを測定した。結果を表１に示すが、この場合、大きな引張りせん断強度を得ることができたが、同時に剥離強さも大きく、エンボス不織布の表面が破損してしまい本発明の目的を満たす物ではなかった。
【００４６】
【発明の効果】
本発明により、係合相手となる部材を損傷させることなく、適度な引張りせん断強さを有し、優れた滑り止め効果を有する係合性繊維シートを安価に提供することができる。
【図面の簡単な説明】
【図１】本発明の係合性繊維シートの一例を示す断面図。
【符号の説明】
１：係合性繊維シート
２：起毛状突起[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an engaging fiber sheet, and more particularly, to an engaging fiber sheet that hardly exhibits peel strength, despite the fact that an appropriate shear stress is generated by protrusions present on the surface of the fiber sheet. About.
[0002]
[Prior art]
Conventionally, as a sheet having an engagement function, a so-called hook engagement element (hereinafter, may be abbreviated as a hook) and a loop-shaped engagement element (hereinafter, may be abbreviated as a loop) are engaged with each other. A hook-and-loop fastener is known and widely used for various purposes.
However, conventional hook-and-loop fasteners have emphasized both the peel strength and the tensile shear strength mainly when the hook and the loop are engaged, so the peel strength of the engaging portion is too strong when the engagement is released. In some cases, there are problems such as troublesome release and damage to the loop with which the hook is engaged.
Furthermore, conventional hook-and-loop fasteners are made by weaving loops and hooks on a woven fabric, and a special processing step is required to form these loops and hooks. There are also disadvantages such as the maximum width of the sheet that can be produced is narrow.
[0003]
On the other hand, many sheets have been proposed as sheets for preventing slippage, such as a sheet mainly using an elastomer resin as a tacky resin and a sheet having the surface coated with the resin. For example, a nonwoven fabric of a fine fiber having an average fiber diameter of 20 μm or less made of a polymer mainly composed of an elastic polymer is laminated on a fiber base sheet, and a kinetic friction coefficient μd on the surface of the sheet material satisfying 0.40 or more. (See Patent Document 1).
[0004]
However, such an anti-slip sheet has low heat resistance and solvent resistance, and when used together with a place exposed to direct sunlight, a heating device such as a kotatsu, the heat softens the resin and adheres to the partner's object. It has been pointed out that a problem may occur in that the material adheres to a counterpart object, such as wax applied to the floor or the like, resulting in sticking.
In addition, when producing such an anti-slip sheet, there is also a problem that when the roll is stored in a roll form, the roll cannot be unwound due to sticking of the elastic body as a raw material. Further, it has been pointed out that these sheets have no particular problem when the installation place is a flat surface, but when they are not flat, they have a problem that the performance cannot be sufficiently exhibited.
[0005]
[Patent Document 1]
JP-A-5-69517
[Problems to be solved by the invention]
An object of the present invention is to provide an inexpensive engaging fiber sheet having an appropriate tensile shear strength and an excellent anti-slip effect without damaging a member to be engaged.
[0007]
[Means for Solving the Problems]
That is, the present invention is an engaging fiber sheet comprising a fiber sheet having projections on its surface, and having a tensile shear strength of 0.1 N / cm ² or more under a load of 5 g / cm ² .
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
The engaging fiber sheet of the present invention is one that develops an appropriate tensile shear strength by providing a projection having a specific shape on the surface of the fiber sheet, and has an excellent anti-slip effect. It is characterized in that no force is required to separate them, and both are hardly damaged.
[0009]
The engaging fiber sheet of the present invention has a specific projection on its surface, but its form and manufacturing method are not particularly limited as long as it has a predetermined performance. The projections may be applied to a fiber sheet having a flat surface by post-processing or the like. However, by using a melt blow method, a fiber sheet having projections can be manufactured efficiently and at low cost.
[0010]
Regarding a method of spinning a polymer by a melt blow method, a basic apparatus and method are disclosed in Industrial and Engineering Chemistry, Vol. 48, No. 8, p. 1342-1346, 1956. .
[0011]
When the engaging fiber sheet of the present invention is manufactured by using the melt blow method, the manufacturing is performed by collecting the fiber flow sprayed toward the collecting surface on the uneven surface. That is, the fibers penetrate into the concave portion of the collecting surface and solidify, so that a raised protrusion is formed on one surface of the nonwoven fabric. The uneven surface is preferably formed of a metal surface provided with a large number of protrusions or recesses of an arbitrary shape, a wire mesh having an appropriate mesh, a needle cloth, or the like. Among them, it is particularly preferable to use a net having a three-dimensional structure generally called a conveyor net because a melt-blown nonwoven fabric having a projection can be more easily manufactured.
[0012]
In the present invention, in order to form the projections on the sheet, it is important that the melt blown fiber flow reach the collecting surface in a thick state before the fibers are thinned and before the fibers are solidified. Then, after the fiber stream is solidified, it is necessary to cleanly separate from the collecting surface having irregularities, so that it may be necessary to cool the collecting surface.
[0013]
The projections obtained in this manner need not necessarily be vertically erected, but preferably have a certain degree of rigidity and are self-supporting in a raised state. In other words, when the raising is weak and the self-sustainability is poor, the projections lose the stress even when they are engaged with the mating sheet having the fiber loop, felt, net, tricot, nonwoven fabric, etc. It falls down, disengages immediately, and does not develop tensile shear stress.
[0014]
In the state where the projections are thinned to a fiber diameter of about 3 μm, which is found in ordinary melt-blown nonwoven fabrics and the like, it may not be possible to develop a shear stress even if they are simply in a raised state. It is desirable to configure. For this reason, the average fiber diameter of the fibers constituting the engaging fiber sheet of the present invention is preferably in the range of 5 to 30 μm, and more preferably in the range of 7 to 20 μm. The basis weight is 20 to 200 g / m ² , more preferably 30 to 100 g / m ² . If the basis weight is less than 20 g / m ² , the strength of the engaging fiber sheet itself is low, and it may be difficult to hold the projection on the surface. Conversely, if the basis weight exceeds 200 g / m ² , the sheet itself may have sufficient strength to hold the raised hair, but may be disadvantageous in cost.
[0015]
Also, when forming a melt-blown nonwoven fabric, by shortening the fiber flow collection distance to increase the rigidity of the projections, or by increasing the resin viscosity to increase the fiber diameter, solidification is performed. It is desirable to lengthen the time before doing so. Specifically, the collection distance is preferably in the range of 5 to 100 cm, more preferably 10 to 60 cm. Although the viscosity of the resin varies depending on the resin used and the melting temperature, the melt viscosity is preferably from 10 to 100 Pa · s, more preferably from 20 to 50 Pa · s.
[0016]
The material constituting the engaging fiber sheet of the present invention is preferably a melt blown nonwoven fabric made of a thermoplastic resin such as polyolefin, polyester, or polyamide from the viewpoint of productivity, product safety, and cost.
[0017]
In particular, in the present invention, it is preferable to use polyolefin, particularly polypropylene, from the viewpoint of easily forming the projection. When polypropylene is used, the MFR is preferably 400 g / 10 min or less, more preferably 200 g / 10 min or less, and particularly preferably 10 to 100 g / 10 min. When the MFR exceeds 400 g / 10 min, the fiber stream discharged from the nozzle is easily thinned, and it may be difficult to maintain a large fineness. Conversely, if the MFR is less than 10 g / min, the resin viscosity becomes too high, and the pressure loss may make it difficult to discharge the resin from the nozzle itself.
[0018]
On the other hand, when polyester is used, the intrinsic viscosity is 0.7 or more, preferably 0.8 to 1.5. In the case of polyamide, the relative viscosity is 2.0 or more, preferably 2.2 to 3.0. By using such a manufacturing method and a resin, it is possible to easily manufacture the engageable fiber sheet of the present invention in which a highly self-supporting nap is formed on the sheet.
[0019]
Further, the protrusions of the engaging fiber sheet of the present invention are preferably present regularly at regular intervals, but are not limited thereto, and may be irregular even if they are distributed over the entire surface. Good.
[0020]
Engaging polymerizable fiber sheet of the present invention, it is important shear strength tensile under 5 g / cm ² load is 0.1 N / cm ² or more, preferably 0.1 to 10 / cm ^2, Particularly preferably, it is 0.5 to 7 N / cm ² . If the tensile shear strength is 0.1 N / cm ² or less, the desired engagement cannot be ensured.
On the other hand, if the tensile shear strength exceeds 10 N / cm ² , the mating partner to be disengaged when releasing the engagement or the engaging fiber sheet of the present invention may be damaged.
[0021]
Further, the engaging fiber sheet of the present invention is characterized in that almost no force is required for releasing the engagement, and as such an index, the peel strength is preferably 0.3 N / cm or less. , More preferably 0.05 to 0.2 N / cm. When the peeling strength exceeds 0.3 N / cm, the advantage of “easy peeling”, which is the object of the present invention, may be lost. Furthermore, there is a risk that the mating partner may be damaged when peeled off after the engagement. On the other hand, if it is less than 0.05 N / cm, the sheet may be peeled off to the extent that the sheet is moved or the direction is changed after being engaged, which may cause a problem that it becomes difficult to handle practically.
[0022]
The protruding portion of the engaging fiber sheet suppresses movement in the surface direction between the two by engaging with the fiber or the opening on the surface of the mating partner, and substantially no joint strength is generated between the two. In view of this, the height of the protrusion is preferably 0.2 to 5 mm. If the height is less than 0.2 mm, the tensile shear strength may be low. If it exceeds 5 mm, the member to be engaged may be damaged.
The density of the projections is preferably 3 / cm ² or more, and more preferably 10 to 50 / cm ² . The shape of the projection is not particularly limited as long as it basically achieves the object of the present invention, and examples thereof include various shapes such as a conical shape, a cylindrical shape, a pyramid shape, a prismatic shape, and a brushed shape. Can be Of these, particularly preferred are raised projections composed of raised fibers. With this shape, the fiber on the mating sheet surface, the hole or the uneven portion is easily engaged, and when further engaging, the fibrous projections are entangled with the mating mating portion, so that a moderate tensile shear strength is obtained. There is a merit that it is easy to secure the anti-slip effect.
[0023]
Here, it is desirable that the raised protrusions are formed integrally with the melt-blown nonwoven fabric, and the fiber bundle in which a single fiber or a plurality of fibers are fused is formed into a raised, loop-shaped or irregular-shaped tangled thread. Those standing on the surface of the nonwoven fabric are preferred. The raised projections may be regularly arranged at regular intervals, or may be irregularly formed by shrinkage or the like.
[0024]
Specifically, the raised protrusion has a large number of raised protrusions 2 on the surface of the engaging fiber sheet 1 as seen in, for example, FIG. The raised projections 2 are engaged with the mating sheet, and exhibit an anti-slip effect.
[0025]
The engageable fiber sheet of the present invention obtained in this manner may be used alone, but is generally used by fixing it to a surface requiring an engaging property or an anti-slip effect.
The method for fixing the engaging fiber sheet to these surfaces is not particularly limited, but a method such as fixing with an adhesive or an adhesive, or stitching with a stapler or a thread can be adopted.
[0026]
Further, the engaging fiber sheet of the present invention may be laminated with another material. The laminated material is not particularly limited, but woven fabric, knitted fabric, nonwoven fabric, and the like are preferable from the viewpoint of ease of laminating and maintaining the air permeability of the sheet of the present invention. Particularly, in consideration of the cost of the product after lamination, it is preferable to use a nonwoven fabric.
[0027]
In particular, when laminating the fiber sheet on a knitted fabric, it is preferable to perform point adhesion or line adhesion using hot embossing, pin sonic, hot melt method or the like. Further, at the time of lamination, it is preferable that the raised projections of the engaging fiber sheet are not crushed as much as possible, and furthermore, in order to maintain air permeability, it is desirable that the bonding area is small, so that both surfaces are bonded together. Instead, it is preferable to perform point bonding or line bonding.
[0028]
Further, in the heat bonding step, it is preferable that the interval between the thermocompression bonding portions is made as large as possible, and that the lamination is performed with the raised protrusions of the engaging fiber sheets held as wide as possible. For example, in the case of hot embossing, that is, when laminating and bonding with a combination of a metal pattern roll and a flat roll, the distance between the thermocompression bonding portion and an adjacent thermocompression bonding portion in at least one direction in the web plane direction is 5 mm or more. Is preferred.
This partial bonding is preferably such that the bonding portion is 1 to 50% of the entire sheet surface. Further, it is preferable that the sheets are joined only by a surface layer that contacts as much as possible.
[0029]
Further, it is preferable that the height of the thermocompression-bonded portion is about 80% or more of the total thickness of the sheets to be laminated. If the height is low, the raised projections of the fiber sheet will be crushed even if the interval between the press-bonded portions is widened, and the fiber sheet will not function.
Further, the above-mentioned conditions are the same for the pin sonic anvil roll.
Further, with respect to lamination by hot embossing, it is preferable to set the temperature of the embossing roll as low as possible. If the embossing temperature is too high, the raised projections of the melt blown nonwoven fabric are crushed during lamination.
[0030]
The engaging fiber sheet of the present invention has a tensile shear strength when a load is applied, but shows only a weak peel strength under no load, and is therefore useful as a non-slip material.
For example, when driving with luggage such as tools loaded in the luggage compartment of a car, placing it without any action, luggage moves each time the car changes direction, and luggage or luggage in the luggage compartment Noise may enter the interior of the vehicle due to collision between the vehicle and the wall of the luggage compartment, and in some cases, the vehicle or the luggage may be damaged. However, by sticking the engageable fiber sheet of the present invention to the cargo side of the load with a double-sided tape or the like, the load engages with the tricot or carpet normally attached to the load compartment and the load does not move. In addition, even if the luggage moves due to an excessive force, since there is no excessive engagement force, there is no risk of damaging the tricot or the carpet under the luggage. Furthermore, since the engaging fiber sheet of the present invention does not have a large peel strength, it can be easily lifted when taking out a load. For example, in the case where a mascot doll or the like is placed on a shelf at the rear of the rear seat, by attaching the engageable fiber sheet of the present invention, it is possible to avoid a side slip and a change in position when the car curves.
[0031]
It can also be used for fixing flooring for laying. In particular, in this application, when the floor material is arranged and fixed using an adhesive, the floor material cannot be replaced. Further, when a floor material having a carpet-like or tatami-like surface is simply placed on a part of the floor of a room and used, it is difficult to fix the floor material using an adhesive. Therefore, a fixing method using a surface fastener is often used. However, in the case where the surface fastener is used, if the floor material is displaced from a target position when the floor material is installed, the floor material has a large peel strength, so that it is difficult to separate the floor material again and adjust the position. Further, when engagement and peeling are repeated for alignment, there is a risk that the lower surface of the flooring material is gradually destroyed. However, when the engaging fiber sheet of the present invention is used, since the peel strength is small, the alignment becomes very easy and there is almost no possibility of damaging the lower surface of the flooring material.
[0032]
Further, the engaging fiber sheet of the present invention is useful not only for the above-mentioned non-slip material but also for wipers.
For example, an object to be wiped with a wiper, such as when a non-slip surface is wiped with a wiper having a very high surface smoothness, or when a glass surface is wiped with a rubber-like wiper such as a chamois. If the sliding friction between the hand and the wiper is larger than the sliding friction between the hand and the wiper, there is a problem that the wiper slips from the hand during wiping and the wiper falls off the hand.
Therefore, by laminating the engaging sheet of the present invention on the back surface of such a wiper and wiping the object so that the engaging sheet surface is on the palm side, the wiper works well without leaving the hand from the hand. Will be able to
[0033]
【Example】
Hereinafter, the present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples. Each physical property value in this example was measured by the following method.
[0034]
-Take a 50x photograph of the cross section of the sheet with a projection height microscope, draw tangent lines on the front and back surfaces of the sheet excluding the projections, measure this interval at any five points, and average these values. Sheet thickness ". On the other hand, the distance between the apex of the protrusion and the web surface (rear surface) on the opposite side was measured at arbitrary 10 points, and the average value was defined as “the total thickness of the sheet”.
The difference between the "thickness of the entire sheet" and the "thickness of the sheet" was defined as "projection height".
Projection height = Thickness of entire sheet−Thickness of sheet
Take a 50 × photograph of a cross section of the sheet parallel to the MD direction with a density microscope of the protrusions, measure the tangent line on the protrusion side of the sheet, and the distance from the top of the protrusion to any 10 points. Draw a line parallel to the tangent line on the protruding portion side of the web at an interval (height) of 1/3 of the average value. The number of projections protruding from this line per cm is referred to as “the number of MD unit projections”. The number of protrusions similarly measured for a cross section parallel to the CD direction is referred to as “the number of protrusions per CD”.
And the product of these was defined as the density of the protrusion.
[0036]
・ Tensile shear strength (shear strength)
According to JIS L3416, the measurement was performed with a load of 5 g / cm ² applied.
・ Peel strength (peel strength)
It was measured according to JIS L3416.
[0037]
Example 1
A polypropylene resin having a melt flow rate of 60 g / 10 min (according to JIS K691-2-2; 230 ° C., 21.18 N load) is melt-extruded by an extruder, and the spinning temperature is 285 ° C. and the single hole discharge amount is 0.5 g / min. The fiber stream discharged from the nozzle and thinned by high-speed hot air at a temperature of 285 ° C. and a pressure of 0.04 MPa was collected on a roll around which a conveyor net placed 20 cm away from the die was wound. The roll was cooled by passing water at 20 ° C.
In this way, an engaging fiber sheet having a basis weight of 30 g / m ² having protrusions on the surface at a density of 15 protrusions / cm ² was obtained.
[0038]
Next, as an engagement partner, a core-sheath type composite fiber having polyethylene terephthalate (melting point 255 ° C.) as a core component and polyethylene (melting point 130 ° C.) as a sheath component, and having a single fiber fineness of 6.7 dTex and 2.0 dTex. Using a fiber, a card web having a basis weight of 40 g / m ² obtained by sufficiently mixing the former with 60% and the latter with 40% was thermocompressed by a hot embossing method to prepare a nonwoven fabric. The embossing roll used (pressure-contact area ratio: 23.7%) has a diameter of 5 mm, and circular holes having a depth of 2 mm are arranged in a line at intervals of 5.5 mm. The holes were arranged in a staggered arrangement, and a flat roller was used as a counter roller. The embossing pressure of the treatment was 45 kg / cm, and the embossing temperature was 155 ° C. The obtained embossed nonwoven fabric was engaged with the convex surface (the surface having the protrusion) of the engaging fiber sheet of Example 1, and the tensile shear strength and the peel strength were measured. Table 1 shows the results.
[0039]
Example 2
Two engaging fiber sheets obtained in Example 1 were prepared, and their convex surfaces (surfaces having protrusions) were overlapped with each other, and the peel strength and the tensile shear strength were measured. Table 1 shows the results.
[0040]
Example 3
Two engageable fiber sheets obtained in Example 1 were prepared, and the peel strength and the tensile shear strength were measured by overlapping the convex surface (the surface having the protrusion) and the concave surface (the back surface of the surface having the protrusion). . Table 1 shows the results.
[0041]
Example 4
An engaging fiber sheet was obtained in the same manner as in Example 1, except that a polypropylene resin having a melt flow rate of 15 g / 10 min was used as a raw material resin. The convex surface of this fiber sheet and the embossed nonwoven fabric used in Example 1 were overlapped, and the tensile shear strength and the peel strength were measured.
Table 1 shows the results.
[0042]
[Table 1]

[0043]
As shown in Table 1, despite the fact that the engaging fiber sheet of the present invention has an appropriate tensile shear strength, the peel strength is small, so that the member to be engaged was not damaged. .
[0044]
Comparative Example 1
A polypropylene resin having a melt flow rate of 600 g / 10 min is melt-extruded by an extruder, and is discharged from a nozzle at a spinning temperature of 285 ° C. and a single hole discharge amount of 0.5 g / min per hole. The fiber stream thinned by hot air was placed at a position 20 cm away from the die, and collected on a forming conveyor equipped with a suction box on the opposite side of the die nozzle to obtain a melt-blown nonwoven fabric. A 20-mesh plain-woven stainless steel wire mesh was mounted on this conveyor so as to rotate endlessly.
As a result, the shear strength and the peel strength between the ordinary PPMB nonwoven fabric and the embossed nonwoven fabric used in Example 1 were measured, but as shown in Table 1, no engagement occurred.
[0045]
Comparative Example 2
A hook-type hook-and-loop fastener (“Magic Tape” (registered trademark) manufactured by Kuraray Co., Ltd .: product number A86900-71) and the embossed nonwoven fabric of Example 1 were prepared. The tensile shear strength and peel strength between the hook-type surface fastener and the embossed nonwoven fabric were measured. The results are shown in Table 1. In this case, although a large tensile shear strength could be obtained, the peel strength was also high at the same time, and the surface of the embossed nonwoven fabric was broken, which was not a product satisfying the object of the present invention.
[0046]
【The invention's effect】
According to the present invention, it is possible to provide an inexpensive engaging fiber sheet having an appropriate tensile shear strength and an excellent anti-slip effect without damaging a member to be engaged.
[Brief description of the drawings]
FIG. 1 is a sectional view showing an example of an engaging fiber sheet of the present invention.
[Explanation of symbols]
1: engaging fiber sheet 2: raised protrusion

Claims (5)

An engaging fiber sheet comprising a fiber sheet having a projection on its surface, and having a tensile shear strength of 0.1 N / cm ² or more under a load of 5 g / cm ² . The engageable fiber sheet according to claim 1, wherein the engageable fiber sheet has a peel strength of 0.3 N / cm or less. The engaging fiber sheet according to claim 1 or 2, wherein the height of the protrusion is 0.2 to 5 mm and the protrusion is present at a density of 3 / cm ² or more. The engageable fiber sheet according to any one of claims 1 to 3, wherein the protrusions are made of brushed fibers. The engaging fiber sheet according to any one of claims 1 to 4, wherein the fiber sheet is made of a melt blown nonwoven fabric.

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