JPH031418B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a new textile (woven or non-woven) that has not been previously known.

[Prior Art] Fabrics (woven fabrics, non-woven fabrics) using spun yarns or drawn yarns such as rovings as yarns are used for various purposes.

[Problems to be Solved by the Invention] As raw yarns for manufacturing textiles, there are known drawn yarns made by aligning a large number of long monofilaments and spun yarns made by spinning monofilaments cut into short lengths. ing.

Although the tensile strength of drawn yarn is high, the air content is small, and if the weight per unit area is constant, a fabric using drawn yarn as a yarn will have a thickness equal to that of a fabric using spun yarn. It is smaller, has less insulation, lacks warmth, and does not have a good texture.

Fabrics using spun yarn as raw yarn have the advantages of being thick, having great insulation properties, being warm, and having a good texture. However, the manufacturing process of spun yarn is complicated, and the cost is high. There is a drawback that the strength is low.

Bulky yarn obtained by defibrating drawn yarn is bulky and contains a large amount of air, and the manufacturing process is simpler than that of spun yarn. By using it as a raw yarn, the above-mentioned difficulties can be solved, and it can be used as a pulling yarn,
It is thought that it is possible to obtain a raw yarn that has the advantages of spun yarn, but if bulky yarn is used as a raw yarn, the bulky yarn will stretch due to the tension applied during weaving and lose its bulkiness, which will not meet the above purpose. cannot be achieved.

Composite yarns in which bulky yarns are wound around core yarns have also been proposed, but the manufacturing process is complicated, and such composite yarns have the disadvantage that the core yarns separate during handling.

[Means for Solving the Problem] In order to achieve the above object, in the present invention,
At least a part of the yarn constituting the fabric is a string-like body obtained by defibrating a bundle of a large number of filaments, and the string-like bodies are formed at spaces between the string-like bodies. A tangled portion is formed in which the filaments are intertwined, and this tangled portion divides the string-like body into a plurality of sections. In each section, the string-like body is aligned in the longitudinal direction of the string-like body. comprising a group filament and a second group filament that is defibrated and expanded in a direction perpendicular to the longitudinal direction,
In order that the total length of each filament constituting the string-like body is equal, the filament belonging to the first group of filaments in one section is made up of the string-like body belonging to the second group of filaments in other sections.

Next, the present invention will be explained in more detail.

FIG. 1 is an enlarged plan view for schematically explaining the structure of a string-like body 1 used in the present invention, and the string-like body 1 is obtained by defibrating a bundle of many filaments, and Intertwined portions 2 are formed in which the filaments constituting the string-like object 1 are intertwined at spaced apart locations of the string-like object 1, and the string-like object 1 is divided into a plurality of sections 3 by the intertwined sections 2. , in each section 3, the string-like body 1 has a first group of filaments f1 aligned in the longitudinal direction of the string-like body 1, and a second group of filaments _f1 that are disentangled and expanded in a direction perpendicular to the longitudinal direction. _f2 , and the filaments belonging to the first group of filaments in some sections are made to belong to the second group of filaments in other sections so that the total length of each filament constituting the string-like body is equal.

The filaments that should constitute the string-like body include inorganic fibers such as glass fibers, alumina fibers, silica fibers, zirconia fibers, and titania fibers, organic fibers such as Kevlar fibers, metal fibers such as brass fibers, carbon fibers, Alternatively, conjugate fibers made by blending these can be used, but it is preferable to use glass fibers or conjugate fibers mainly composed of glass fibers.

The thickness of the fibers is suitably 3 to 30 μm, preferably 5 to 25 μm, and a sizing agent is added to these fibers and 50 to 100,000 fibers, preferably 200 to 50,000 fibers are arranged to form a fiber bundle. By selecting bulking conditions such as bulking such a fiber bundle while increasing the supply speed to the bulking device, this fiber bundle can be bulked using a bulking device equipped with a tubular passage having high-pressure gas supply holes. A string-like body of the invention can be obtained.

As the sizing agent, it is preferable to use a material with low adhesive strength such as epoxy resin, and the amount added is 0.1 to 10 wt% as solid content, preferably 0.2
It is appropriate to set it to ~5wt%.

In the string-like body 1 of the present invention, entangled portions 2, 2, . . . are formed in which the filaments constituting the string-like body are intertwined at locations separated by a predetermined interval in the longitudinal direction.

In the entwined portion 2, the filaments are intertwined in a monofilament form or in a state in which a plurality of filaments are aligned in a braided cord form, and due to this intertwining, the filaments are slightly twisted.

By forming this entwined part 2, the string-like body 1
The filaments constituting the are bonded together so that they do not separate from each other.

The distance between the entangled portions 2 is suitably 1 to 30 mm, preferably 3 to 15 mm. If this length is too small, the proportion of the entangled portion 2 to the entire length of the string-like body becomes large, and the bulkiness of the string-like body 1 becomes poor. Moreover, if this length is too large, the filaments of the first group and the filaments of the second group tend to separate.

The length of the entangled portion 2 is 0.1 to 5 mm, preferably
A suitable value is 0.2 to 3 mm. If this length is too large, the bulkiness of the string-like body 1 will be poor, and if this length is too small, the filaments constituting the string-like body 1 will easily separate.

The string-like body 1 is divided into a plurality of sections 3, 3... by the entangled portion 2.
divided into. In the section divided and sectioned by the intertwined portions 2, the string-like body 1 has a first group of filaments f1 aligned in the longitudinal direction of the string-like body and preferably twisted, and a filament _f1 , preferably monofilament-shaped. It includes a second group of filaments f ₂ which are opened into filaments and expanded in a direction perpendicular to the longitudinal direction. The filaments belonging to the second group are defibrated and swell outward in a substantially arc shape from the axis (longitudinal direction of the string-like body) connecting the entangled parts, and are preferably defibrated into a monofilament shape. Note that the direction of this bulge is not limited to a specific plane including the axis;
It is random, and when viewed macroscopically (on average), the string-like body has a nearly round cross section. It is appropriate that the maximum distance of this bulge from the axis is about 2 to 10 mm.

The filaments belonging to the first group are aligned in the longitudinal direction. This filament is preferably S
The filaments belonging to the first group have good integrity due to the twist in the direction or Z direction.

When focusing on a specific section, the length of the filament _f1 belonging to the first group is the same as that of the filament belonging to the second group.
When tension is applied to the string-like body, filament f ₁ , which is shorter than the length of f ₂ and belongs to the first group, counteracts the tension.

The filament f ₂ belonging to the second group is longer than the filament f ₁ belonging to the first group, swells outward from the longitudinal direction, and does not itself counteract the tension, but this filament f ₂ belongs to the first group. The filament f ₁ and the entwined part 2 are intertwined, and the tension applied to the string-like body 1 is absorbed by the filament f ₁ belonging to the first group, so even if tension is applied to the string-like body 1, the tension in this section is The length does not substantially extend beyond the length of the filament f ₁ belonging to the first group, and the second
The filament f ₂ belonging to the group is not stretched and loses its bulkiness.

It is appropriate that the number of filaments belonging to the first group is 10 to 50% of the total number of filaments. If this number is too large, the bulkiness of the string-like body 1 will be poor, and if this number is too small, the strength in the longitudinal direction of the string-like body 1 will tend to decrease.

When focusing on a particular section, the filament _f1 , indicated by the broken line belonging to the first group, and the filament _f2 , indicated by the solid line belonging to the second group, are intertwined and confused at the tangled part at the end of this section. 1st in the next section.
It is divided into filament f ₁ ′ belonging to the group and filament f ₂ ′ belonging to the second group.

At this time, at least part of f ₁ or f ₂ ′ is transferred to the second
At least a part of f ₂ transfers to f ₁ ' and belongs to the first group. This kind of transition to a different group (change of affiliation) is done randomly, but when focusing on a certain filament, the number of times this filament belongs to the first group and the number of times it belongs to the second group in each section are approximately the same. and the total length of each filament making up the string-like body is equal.

Note that the direction of twist given to the filaments of the first group is reversed in some places, and the number of twists in the S direction and the number of twists in the Z direction are approximately equal in the string-like body as a whole, causing twisting in the string-like body. Never.

A reversal of the twist direction may also occur within a section, in which case a small length of untwisted portion may occur in this reversal.

Note that the filaments belonging to the first group may swell slightly outward at such inverted portions, but this swell is extremely small compared to the swell of the filaments of the second group, and is similar to the above-mentioned string-like filaments. It does not affect the countervailing force to the tension applied to the body.

In addition, the length of the tangled part, the distance between the tangled parts, the number of filaments belonging to the first group in each section,
It is practically meaningless to control the degree of swelling of the filaments belonging to the second group to a constant value over the entire length of the string-like body, and the purpose of the present invention can be sufficiently achieved by keeping these within the above-mentioned range. can be achieved.

Furthermore, the string-like body of the present invention can be composed of relatively soft fibers such as glass fibers and organic fibers,
It can also be composed of brittle fibers such as silica fibers, and it is possible to obtain a string-like body that does not lose bulkiness even when tension is applied, and has high heat resistance, which has not been previously available.

In the present invention, weaving is carried out using the above-mentioned string-like body as the yarn.

There are no particular limitations on the type of fabric or the weaving method, and conventional methods can be used, so detailed explanations will be omitted.

For example, by using a normal loom and using the above-mentioned string-like bodies as raw threads (warp and weft), plain weave, loose weave, etc. fabrics can be obtained.

In addition, the above-mentioned string-like body can also be used for either the warp or the weft, preferably only the weft.

In addition, this string-like body can be used as warp threads to produce woven fabrics such as kare weave and danme weave.

Furthermore, the string-like bodies are arranged in one direction,
It is also possible to form a nonwoven fabric by arranging the same strings or other yarns in orthogonal directions and bonding them together with a commonly used adhesive, such as a hot melt type adhesive.

The above-mentioned string-like body is a string-like body obtained by defibrating a bundle of a large number of filaments, and the filaments constituting the string-like body are intertwined at spaces apart from each other. A tangle is formed, and the strand is divided into a plurality of sections by the tangle, and in each section, the strand is connected to a first group of filaments aligned in the longitudinal direction of the strand, and The second fiber is swollen in a direction perpendicular to the longitudinal direction.
The tension applied during weaving is such that the filaments belonging to the first group of filaments in some sections belong to the second group of filaments in other sections so that the total length of each filament constituting the string-like body is equal. The filaments of the first group compete with each other, and the filaments of the second group do not elongate.

Therefore, the second group of filaments that swell in the direction perpendicular to the longitudinal direction remain in the fabric obtained by using the string-like body of the present invention as a raw yarn, so the fabric of the present invention , air content, heat insulation, thickness, warmth, and texture are equivalent to those of fabrics using spun yarn, and the fabric of the present invention has the advantage of greater strength, so the fabric of the present invention is suitable for use in bending glass, etc. can. Furthermore, since the filaments of the first group and the filaments of the second group are intertwined at the entangled portion, separation of the raw yarns does not occur in the fabric of the present invention unlike in fabrics using bulky yarns.

[Function] The first group of filaments aligned in the longitudinal direction of the string-like body prevents the second group of filaments, which bulge in a direction perpendicular to the longitudinal direction due to the action of tension applied during weaving, from stretching, thereby increasing the strength. It improves the thickness, air content, insulation, warmth, and texture of textiles without reducing their properties.

[Example] Adding 0.2wt% of epoxy sizing agent as solid content to glass fiber (filament) with a thickness of 9μ
A string-like body having the following specifications was manufactured using the fiber bundle obtained by this convergence.

The average length of the tangled parts is 3 mm, the average distance between the tangled parts is 8 mm, the average number of filaments belonging to the 1st group is 1500, and the degree of swelling of the filaments belonging to the 2nd group (average thickness of the string-like body) )5mm.

A plain-woven fabric having the following specifications was manufactured using this string-like body.

Number of threads: Warp: 12/25mm Weft: 5.5/25mm Weight per ^1m2 : 1500gr The thickness of this woven fabric was 3.5mm.

This woven fabric had good heat insulation properties, high heat resistance, and high strength, and was suitable as a pipe heat insulating material.

[Effects of the Invention] It has a large thickness and air content, has excellent heat insulation, is warm, and has a good texture.

[Brief explanation of drawings]

FIG. 1 is an enlarged plan view for schematically explaining the structure of the string-like body of the present invention. In the figure, 1 is a string-like body, 2 is a tangled part, 3 is a section, f ₁ ,
f ₁ ' represents the first group filament, and f ₂ and f ₂ ' represent the second group filament.

Claims (1)

[Claims] 1. At least a part of the yarn constituting the fabric is a string-like body obtained by defibrating a bundle of a large number of filaments, and the string-like body is A tangled part is formed in which the filaments constituting the strands are intertwined, and this tangled part divides the string-like body into a plurality of sections, and in each section, the string-like body is aligned in the longitudinal direction of the string-like body. The filaments of the first group are disentangled and swelled in a direction perpendicular to the longitudinal direction. A woven fabric characterized in that the filaments belonging to the second group are composed of string-like bodies belonging to the second group filaments in other sections.