JP2019070222A - futon - Google Patents

Abstract

To provide a side cloth excellent in flexibility.SOLUTION: A side cloth for a Futon is made of a woven fabric composed of only a polyethylene terephthalate multifilament drawn yarn having a single fiber fineness of 0.5 dtex or less, a filament number of 144 or more, and a total fineness of 50 dtex or less. The side cloth for the Futon has a cover factor CF defined by the following formula of 1200 or more: CF=(DWp/1.1)×MWp+(DWf/1.1)×MWf, where DWp is warp yarn total fineness (dtex), MWp is warp density (the number/2.54 cm), DWf is weft yarn total fineness (dtex), and MWf is weft density (the number/2.54 cm); a basis weight of 30 to 80 g/m; and an air permeability of 1.0 cc/cm×sec or less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a duvet side with excellent flexibility.

BACKGROUND ART Conventionally, textile products composed of side grounds and intermediate materials (cotton, down, etc.), such as down jackets, jackets filled with cotton, winter clothes, sleeping bags, futons filled with cotton, down futons, etc., are widely used. And as said side place, in order to make an inside material not leak, it is common that low air permeability textiles are used (for example, refer to patent documents 1).
However, there is a problem that the low air permeability fabric is inferior in flexibility.

JP 2012-12739 A

  The present invention has been made in view of the above-mentioned background, and an object thereof is to provide a duvet side with excellent flexibility.

  As a result of intensive studies to achieve the above object, the present inventors obtained a woven fabric using a multifilament having a small single fiber fineness, a large number of filaments, and a small total fineness, and then using the woven fabric The present invention has been achieved by further intensive studies after finding that a duvet side with excellent flexibility can be obtained by constructing the above.

Thus, according to the present invention, "the monofilament fineness 0.5 dtex or less, the number of filaments 144 or more, the total fineness 50 dtex or less polyethylene terephthalate multifilament drawn yarn only, the cover factor CF defined in the following formula is 1200 or more A futon side material is provided, characterized in that it is made of a fabric having a basis weight of 30 to 80 g / m ² and an air permeability of 1.0 cc / cm ² · sec or less.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf [DWp is the warp total fineness (dtex), MWp is the warp density (this / 2.54 cm), DWf Is the weft total fineness (dtex), and MWf is the weft weave density (book / 2.54 cm). ]]
At that time, it is preferable that the fabric is subjected to water absorption processing and / or calender processing.

  According to the present invention, a duvet side with excellent flexibility can be obtained.

It is a figure showing typically a futon side place of the present invention.

  Although the form for implementing this invention is explained in full detail below, this invention is not limited by these. First, in the multifilament contained in the woven fabric, the single fiber fineness 0.5 dtex or less (preferably 0.000001 to 0.5 dtex), and the number of filaments 144 or more (preferably 144 to 10000), and the total fineness 50 dtex or less ( It is important that it is preferably 20 to 50 dtex, particularly preferably 20 to 35 dtex). When the said multifilament does not satisfy | fill such requirements, there is a possibility that the futon side which was excellent in flexibility may not be obtained, and is not preferable. The multifilament may be an ultrafine fiber with a single fiber diameter of 1000 nm or less called nanofiber.

  It is important that the multifilaments are long fibers. In the case of a spun yarn composed of short fibers, the space between the structures of the woven fabric becomes large, which may cause the middle material to pop out, which is not preferable. The cross-sectional shape of the single fiber is not particularly limited, and may be a known cross-sectional shape such as round, triangular, flat, constricted flat, or hollow.

  The polymer forming the multifilament is polyethylene terephthalate. Examples of such polyesters include polyesters that have been subjected to material recycling or chemical recycling, and polyethylene terephthalate that is produced using a monomer component obtained from biomass, ie, a substance derived from a living organism, as a raw material, as described in JP 2009-091694A. May be Furthermore, polyesters obtained using a catalyst containing a specific phosphorus compound and a titanium compound as described in JP-A-2004-270097 and JP-A-2004-211268 may be used. In addition, if necessary, a matting agent, a micropore forming agent, a cationic dye dyeable agent, a coloring inhibitor, a heat stabilizer, a fluorescent brightening agent, a coloring agent, and a hygroscopic agent as needed within a range that does not impair the object of the present invention. And inorganic fine particles may be contained alone or in combination of two or more.

The multifilament can be produced, for example, by the following production method. That is, for example, whether the above polyester or the like having an intrinsic viscosity of 0.55 to 0.80 is spun according to a conventional method, and once taken up as an undrawn yarn (intermediate alignment yarn) at a speed of 2000 to 4300 m / min Alternatively, it is stretched before being wound to obtain the multifilament.
In addition, the middle oriented yarn is heat-treated in a relaxed state (overfeed 1.5 to 10%) using a heater heated to 180 to 200 ° C. to produce an undrawn yarn having self-stretchability under heating ( It may be an intermediate alignment yarn). Furthermore, a false twist crimping process, an air process, a twisting yarn or the like may be applied.

In the present invention, the fabric consists only of multifilament drawn yarns.
In the woven fabric, the air permeability is 1.0 cc / cm ² · sec or less (preferably 0.1 to 1.0 cc / cm ² · sec). If the air permeability is higher than 1.0 cc / cm ² · sec, the intermediate material may be leaked or the heat storage property may be impaired.

As described above, in order to obtain a low air permeability fabric, the cover factor CF of the fabric defined in the following formula is set to 1200 or more (more preferably 1300 to 2500).
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf
[DWp is a warp total fineness (dtex), MWp is a warp weave density (book / 2.54 cm), DWf is a weft total fine rate (dtex), and MWf is a weft weave density (book / 2.54 cm). ]

  In addition, the weave structure of the woven fabric is not particularly limited, and, for example, a three-row structure such as plain weave, twill weave, satin weave, a change texture, a change texture such as a change twill weave, a warp double weave, a weft double weave, etc. Double-sided tissue, vertical velvet, ripstop tissue, etc. are exemplified. Among them, the lip stop structure is preferred in view of tear strength. The number of layers may be a single layer or may be a multilayer of two or more layers. The weaving method may also be a conventional method using a conventional loom (e.g., a conventional water jet room, an air jet room, etc.).

In addition, when calendering and / or water absorption processing is applied to a woven fabric, it is preferable because the space between tissues is reduced, the low air permeability is further improved, and steam and sweat emitted from humans during exercise and sleep can be absorbed. As the water absorption process, for example, a method of applying a hydrophilic processing agent and simultaneously applying a normal dyeing process at 130 ° C. for 30 minutes using 5% owf of a hydrophilic agent (SR-1000 manufactured by Takamatsu Yushi Co., Ltd.) It is effective but not limited to use of
The calendering conditions are preferably in the range of a temperature of 130 ° C. or more (more preferably 140 to 195 ° C.) and a linear pressure of 200 to 20,000 N / cm.

Furthermore, it imparts functions such as ordinary dyeing processing, water repellent processing, raising processing, ultraviolet shielding or antistatic agent, antibacterial agent, deodorant, insect repellent, luminous agent, retroreflecting agent, negative ion generating agent, etc. Various processing, buffing processing or brush processing may be additionally applied.
Moreover, the fabric weight of textiles is 30-80 g / m < ² >. From the viewpoint of lightness, the smaller the fabric weight, the better, but if the fabric weight is too small, the water absorbability may be reduced.

The side of the present invention is composed of the above-mentioned woven fabric. At that time, sewing, decoration, or accessories may be added as appropriate.
Since the side of the present invention is excellent in flexibility, it is suitably used as a down jacket, batted jacket, sportswear, outdoor wear, work clothes, protective clothes, winter clothes, sleeping bags, cushions, kotatsu, futons, etc. Be done. In particular, the futon side is preferred.

EXAMPLES The present invention will next be described in detail by way of Examples and Comparative Examples, which should not be construed as limiting the invention thereto. In addition, each measurement item in an Example was measured by the following method.
(1) Fabric weight It measured by JISL10966.4.
(2) Permeability Permeability (cc / cm ² · sec) was measured by JIS L1096 6.27.1 A method (Frazil method).
(3) Textile cover factor CF
The cover factor CF of the fabric was calculated by the following equation.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf
[DWp is a warp total fineness (dtex), MWp is a warp weave density (book / 2.54 cm), DWf is a weft total fine rate (dtex), and MWf is a weft weave density (book / 2.54 cm). ]
(4) Flexibility of the side ground According to the evaluation of the tester, the grade was evaluated as three levels of grade 3: excellent in flexibility, grade 2: normal, grade 1: poor flexibility.

Example 1
Polyethylene terephthalate multifilament drawn yarn (total fineness of 30 dtex / 144 fil) was used for warp and weft to weave a known ripstop construction machine. Then, the fabric was subjected to ordinary dyeing finish processing (stained in blue with a disperse dye), subjected to water absorption processing, then to a final set, and calendered to obtain a side ground. Water absorption processing at that time was performed simultaneously with dyeing processing at 130 ° C. for 30 minutes according to the following formulation of processing agent. Moreover, the calendering performed calendering on the conditions of roll temperature 160 degreeC.
<Processing agent composition>
・ Water absorption processing agent 5% owf (5 wt% with respect to fiber weight)
(Takamatsu Yushi Co., Ltd. SR-1000)
・ Water 95.0wt%
The obtained side ground fabric had a basis weight of 57 gr / m ² and CF 1760, and was excellent in flexibility (third grade). Moreover, the air permeability was 0.4 cc / cm ² · sec.
Next, when the side land was used as a duvet side land and a futon was obtained and used, it was excellent in flexibility.

Comparative Example 1
The same procedure as in Example 1 was repeated except that polyethylene terephthalate multifilament drawn yarn (total fineness 56 dtex / 72 fil) was used in Example 1. The obtained site was inferior in flexibility (grade 1).

  According to the present invention, a highly flexible duvet side is provided, and its industrial value is extremely great.

The present invention relates to a futon using a futon side material with excellent flexibility.

The present invention has been made in view of the above-mentioned background, and an object thereof is to provide a duvet using a duvet side material excellent in flexibility.

Thus, according to the present invention, "the monofilament fineness 0.5 dtex or less, the number of filaments 144 or more, the total fineness 50 dtex or less polyethylene terephthalate multifilament drawn yarn only, the cover factor CF defined in the following formula is 1200 or more , futon is provided comprising using a futon side ground, characterized in that it is composed of a basis weight 30 to 80 g / ^{m 2} and air permeability of 1.0cc ^/ cm 2 · sec or less of the fabric.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf [DWp is the warp total fineness (dtex), MWp is the warp density (this / 2.54 cm), DWf Is the weft total fineness (dtex), and MWf is the weft weave density (book / 2.54 cm). ]]
At that time, it is preferable that the fabric is subjected to water absorption processing and / or calender processing.

ADVANTAGE OF THE INVENTION According to this invention, the futon using the futon side which was excellent in flexibility is obtained.

According to the present invention, a futon using a futon side with excellent flexibility is provided, and its industrial value is extremely large.

Claims (2)

Single fiber fineness 0.5dtex or less, the number of filaments 144 or more, the total fineness 50dtex consists only the following polyethylene terephthalate multifilament drawn yarn, is not less 1200 than the cover factor CF as defined formula, basis weight 30 to 80 g / ^{m 2} And futon side material characterized by being constituted by textiles of 1.0 cc / cm ² · sec or less of air permeability.
CF = (DWp / 1.1) ^1/2 × MWp + (DWf / 1.1) ^1/2 × MWf
[DWp is a warp total fineness (dtex), MWp is a warp weave density (book / 2.54 cm), DWf is a weft total fine rate (dtex), and MWf is a weft weave density (book / 2.54 cm). ] The futon side material according to claim 1, wherein the fabric is subjected to water absorption processing and / or calendering processing.

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