JP2017095827A - Double-sided knitted fabric - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a double-sided knitted fabric that is excellent in lightness, texture and ultraviolet ray prevention.SOLUTION: A double-sided knitted fabric includes a first surface and a second surface and has 120 g/mor less of basis weight and 40 or higher of ultraviolet protection factor (UPF). The first surface and the second surface are made up of mesh texture. Apertures of the mesh texture on the first surface and those on the second surface are disposed at different positions from each other. The first surface contains multifilament yarn whose single yarn 1 has multileaf-shaped cross section formed by 6 to 20 pieces of leaf parts 4a to 4h arranged radially from a center of the single yarn toward an outer periphery and contains inorganic oxide particles at 2, 3 of content rate.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a double-sided knitted fabric that is excellent in UV resistance while being excellent in lightness and breathability.

  Conventionally, in order to obtain a knitted fabric having excellent ultraviolet protection properties, it is known to use a core-sheath polyester composite fiber containing metal oxide fine particles in the core (for example, Patent Document 1).

JP 2014-70280 A

  However, the knitted fabric described in Patent Document 1 has a large basis weight, so that the lightness and air permeability are not sufficiently improved, and the ultraviolet ray preventing property is not sufficient. Here, when it is going to improve lightness and air permeability by reduction of a fabric weight, it originates in a fabric becoming thin too much, and an ultraviolet-ray-proof property is easy to be impaired.

  It is a technical problem to provide a knitted fabric that is excellent in UV protection even if the present invention solves the above problems and reduces the basis weight sufficiently to improve lightness and air permeability. To do.

  In the double-sided knitted fabric, the inventor made both the first surface and the second surface to have a mesh structure and sufficiently reduced the basis weight to improve the lightness and air permeability, while improving the mesh structure on both surfaces. The present invention has found that a double-sided knitted fabric excellent in UV protection can be obtained by shifting the phase of the arrangement position of the parts from each other and further adopting a specific multifilament yarn contained in the first surface. Reached. That is, the gist of the present invention is the following (1) to (5).

(1) A double-sided knitted fabric including a first surface and a second surface, having a basis weight of 120 g / m ² or less and an ultraviolet protection index (UPF) of 40 or more. The first surface and the second surface are knitted with a mesh structure, and the opening of the mesh structure on the first surface and the opening of the mesh structure on the second surface are arranged at different positions. The first surface has a content X (mass%) of the inorganic oxide fine particles of 2 <X ≦ 10 and the content Y (mass%) of the inorganic oxide fine particles is 2 or less. A first multifilament yarn containing a synthetic resin portion, and a cross-sectional shape with respect to a longitudinal direction of a single yarn constituting the first multifilament yarn satisfies the following (i) to (iv): And double-sided knitted fabric.
(I) The shape of the synthetic resin portion in which the content X (% by mass) of the inorganic oxide fine particles in the cross section is 2 <X ≦ 10 is radially directed from the center side to the outer peripheral side of the single yarn 6 to 20 Multi-leaf shape including individual leaves.
(Ii) The tip on the outer peripheral side of the leaf is curved.
(Iii) The exposed length (μm) of the synthetic resin portion where the content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10 with respect to the outer peripheral length (μm) of the single yarn. The ratio is 10% or less.
(Iv) The average ratio of the shortest distance (μm) from the outer periphery of the single yarn to the leaf part to the distance (μm) from the center of the single yarn to the outer periphery of the single yarn is 10% or less.

(2) The content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10. The synthetic resin constituting the synthetic resin portion and the content Y (mass%) of the inorganic oxide fine particles are 2 or less. The double-sided knitted fabric according to (1), wherein the synthetic resin constituting a certain synthetic resin portion is polyester.

(3) a synthetic resin part in which the content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10, and a synthetic resin part in which the content Y (mass%) of the inorganic oxide fine particles is 2 or less; The double-sided knitted fabric according to (1) or (2), wherein the mass ratio is 30/70 to 90/10.

(4) The double-sided knitted fabric according to any one of (1) to (3), wherein the single yarn fineness of the single yarn constituting the first multifilament yarn is 0.1 to 10 dtex.

(5) The double-sided knitted fabric according to any one of (1) to (4), wherein the air permeability is 170 cm ³ / cm ² · sec or more.

  The double-sided lining of the present invention is remarkably excellent in UV protection while being excellent in lightness and texture because the basis weight is sufficiently reduced. Therefore, the double-sided knitted fabric of the present invention can be preferably used in the clothing field such as innerwear, underwear, or sportswear.

It is a schematic diagram which illustrates embodiment of the cross-sectional shape with respect to the longitudinal direction of the single yarn which comprises the 1st multifilament yarn used for the double-sided knitted fabric of this invention. It is a schematic diagram which illustrates the organization chart of the double-sided knitted fabric of this invention.

Hereinafter, the present invention will be described in detail.
The double-sided knitted fabric of the present invention includes a first surface and a second surface knitted with a mesh structure. The first surface includes a specific multifilament yarn (first multifilament yarn). This multifilament yarn contains a synthetic resin portion (hereinafter, may be abbreviated as segment A) in which the content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10, and the inclusion of the inorganic oxide fine particles. And a synthetic resin part (hereinafter sometimes abbreviated as segment B) having a rate Y (mass%) of 2 or less.

  The synthetic resin constituting the segment A and the segment B is not particularly limited as long as it can be melt-spun. Specifically, polyester represented by polyalkylene terephthalate such as polyethylene terephthalate (PET), polybutylene terephthalate, or polytrimethylene terephthalate, polyamide represented by nylon 6, nylon 66, nylon 46, nylon 11 or nylon 12. , Polyolefins typified by polypropylene or polyethylene, polychlorinated polymers typified by polyvinyl chloride or polyvinylidene chloride, polytetrafluoroethylene and copolymers thereof, fluorinated polymers typified by polyvinylidene fluoride, PLA ( Examples include biomass polymers obtained by chemically polymerizing biomass-derived monomers such as polylactic acid, PTT (polytrimethylene terephthalate), or PBS (polybutylene succinate). From the viewpoint of spinning operability, process passability, and the like, polyester and polyamide are preferred.

  The synthetic resin constituting the segment A and the synthetic resin constituting the segment B are preferably a combination having excellent compatibility. By combining the synthetic resin constituting the segment A and the synthetic resin constituting the segment B with excellent compatibility, the physical impact and thermal impact that the segment A and the segment B receive in the yarn making process, the weaving and knitting process, etc. It becomes difficult to peel off by impact. For example, when both the synthetic resin that constitutes the segment A and the synthetic resin that constitutes the segment B are made of polyester, they tend to be excellent in compatibility. When both the synthetic resin constituting the segment A and the synthetic resin constituting the segment B are made of polyester, when both are made of PET, the resulting multifilament yarn prevents peeling of the segment A and the segment B, This is more preferable because it is excellent in thermal stability.

  Among the above synthetic resins, for example, polyesters include aromatic dicarboxylic acids such as isophthalic acid and 5-sulfoisophthalic acid, adipic acid, succinic acid, suberic acid, and sebacic acid while taking melt viscosity, thermal characteristics, and compatibility into consideration. , Aliphatic dicarboxylic acids such as dodecanedioic acid, aliphatic diols such as ethylene glycol, propylene glycol, 1,4-butanediol, 1,4-cyclohexanedimethanol, glycolic acid, hydroxybutyric acid, hydroxyvaleric acid, hydroxycaproic acid Hydroxy carboxylic acids such as hydroxypentanoic acid, hydroxyheptanoic acid and hydroxyoctanoic acid, and aliphatic lactones such as ε-caprolactone may be copolymerized.

  As the inorganic oxide fine particles, those having a high sunlight shielding effect are suitable, and examples thereof include fine particles such as titanium oxide, calcium oxide, magnesium oxide, and zinc oxide. Among these, titanium oxide fine particles are preferable.

  In the segment A, the content X (mass%) of the inorganic oxide fine particles needs to be 2 <X ≦ 10, preferably 3 ≦ X ≦ 8, and more preferably 5 ≦ X ≦ 8. When the content X is 2 <X ≦ 10, the spinning operability is improved, and the specific cross-sectional shape described later is used to form both sides of the present invention in which the first multifilament yarn is used. The knitted fabric is excellent in UV protection.

  On the other hand, the segment B needs to have a content Y (mass%) of the inorganic oxide fine particles of 2 or less. From the viewpoint of coexistence of spinning operability and the like and UV protection as a double-sided knitted fabric, 0 <Y ≦ 1 is preferable, and 0 <Y ≦ 0.5 is more preferable. By setting it as this content rate, the first multifilament yarn has good processability in spinning operability, yarn making process and weaving and knitting process.

  In addition to the inorganic oxide fine particles, the synthetic resin constituting segment A and the synthetic resin constituting segment B include a stabilizer such as an antioxidant, a fluorescent agent, a pigment, an antibacterial agent, a deodorant, and a matte. You may add an agent, a reinforcing agent, etc. in the range which does not impair the effect of this invention.

  The shape of the segment A in the cross section with respect to the longitudinal direction of the single yarn constituting the first multifilament yarn is a multi-leaf shape including 6 to 20 leaf portions radiating from the center side to the outer peripheral side of the single yarn. It is necessary to be.

  1A to 1G illustrate an embodiment of a cross-sectional shape with respect to the longitudinal direction of a single yarn constituting the first multifilament yarn (hereinafter sometimes abbreviated as a composite shape of the present invention). It is a schematic diagram to do. As illustrated in FIGS. 1A to 1G, in the composite shape of the present invention, the segment A has leaf portions 4a to 4h that radiate from the center side of the single yarn 1 to the outer peripheral side. As illustrated in FIG. 1A, the leaf portions 4a to 4h may be connected to each other. Further, as illustrated in FIGS. 1B to 1E, the leaf portion may be connected to the portion 5 other than the leaf portion.

  As illustrated in FIG. 1G, the leaf portions may exist separately in the segment B. In this case, all the leaf portions may be separated, a part of 6 to 20 leaf portions may be connected, and the rest may be separated by segment B. As a segment A, when a leaf part exists separately in the segment B, it is preferable that the space | interval of the adjacent leaf part is 0.1-2.0 micrometers, and is 0.3-1.0 micrometer. It is more preferable. With such a configuration, the ultraviolet ray preventing property is improved.

  The first multifilament yarn is adjacent to each other because the shape of the segment A in the cross section is a multileaf shape including 6 to 20 leaf portions radially extending from the center side to the outer periphery side of the single yarn. The interval between the leaf portions can be small. Further, preferably, by setting the interval to be a specific one, it becomes easy to repeat that the sunlight which is incident on one of the leaf portions and diffusely reflected is further diffusely reflected by the adjacent leaf portions, and the leaf portions which will be described later Combined with the effect of making the shape of the material a specific shape, it is particularly excellent in ultraviolet protection.

  In addition, the leaf portion needs to have a curved end portion on the outer peripheral side. When the tip portion has a curved shape, the anti-ultraviolet property is excellent. This is presumed to be caused by the fact that sunlight incident on the multifilament causes diffuse reflection by the tip of the leaf having a curved shape.

  The leaf shape is not particularly limited as long as the tip portion is a curved shape, and may have a straight portion other than the tip portion that is a curved shape, or may be a curved shape as a whole. For example, in the case where they are connected to each other, a substantially collapsible needle shape having a curved shape as a whole as illustrated in FIG. In the case where it is connected to a portion other than the leaf portion, there are a substantially semi-elliptical shape, a substantially semi-circular shape, a substantially collapsible shape, etc., which are entirely curved as illustrated in FIGS. It is done. In the case where they are separated from each other, a shape having a tip part and a straight part made of a substantially semicircular shape or a substantially semi-elliptical shape, a substantially collapsible needle shape having a curved shape as a whole, and the like illustrated in FIG. Is mentioned. In addition, the leaf portion does not need to be smooth in each side of, for example, a substantially collapsible needle shape, a substantially semi-elliptical shape, a substantially semi-circular shape, and a substantially straight portion, for example, a minute convex portion illustrated in FIG. And / or a thing provided with a recessed part and what consists of wavy lines may be sufficient.

  The single yarn constituting the first multifilament yarn has a composite shape in which the ratio (EC) of the exposed length (μm) of the segment A to the surface of the single yarn with respect to the outer peripheral length (μm) of the single yarn is 10% or less. It is necessary to be 5% or less. By setting the ratio to 10% or less, the processability in the spinning operability, the spinning process and the weaving / knitting process is improved.

  The single yarn constituting the first multifilament yarn is the shortest distance from the outer periphery of the single yarn to the leaf portion relative to the distance (μm) from the center of the single yarn to the outer periphery of the single yarn in each leaf portion of the composite shape The average ratio (DC) of (μm) needs to be 10% or less, and preferably 5% or less.

  When the average ratio exceeds 10%, the region sandwiched between the leaf portion and the outer periphery of the single yarn in the region of segment B becomes large, and sunlight easily passes through the region. Thereby, since the quantity of the sunlight which permeate | transmits this area | region increases, the double-sided knitted fabric containing a 1st multifilament yarn is inferior to ultraviolet-ray-proof property.

  The EC and DC can be adjusted to the above ranges by appropriately adjusting the spinning conditions such as the shape of the spinning nozzle, the viscosity of the synthetic resin, and the spinning temperature.

  In the composite shape, the shape of the segment A is preferably rotationally symmetric. Here, the rotationally symmetric shape refers to one that overlaps the original shape when rotated by a fixed angle around the center point of the single yarn cross section. When the shape of the segment A is a rotationally symmetric shape, the so-called yarn bending phenomenon of the single yarn spun from the spinning nozzle is suppressed, and it becomes easy to obtain stable spinnability and good yarn quality.

  The single yarn constituting the first multifilament yarn preferably has a mass ratio between the segment A and the segment B (segment A / segment B) of 30/70 to 90/10, 60/40 to 80 More preferably, it is / 20. When the mass ratio is 30/70 or more, the double-sided knitted fabric of the present invention is particularly excellent in UV protection. When the mass ratio is 90/10 or less, the processability in the spinning operability, the spinning process, and the weaving and knitting process is easily improved. When the mass ratio is 60/40 to 80/20, the processability in the spinning operability, the yarn making process, and the weaving and knitting process is excellent, and when the knitted fabric is used, the ultraviolet ray prevention property is particularly excellent. And more preferable.

  The single yarn fineness of the single yarn constituting the first multifilament yarn is preferably 0.1 to 10 dtex, more preferably 0.3 to 5 dtex, still more preferably 0.5 to 3 dtex, and 0.7 to 1.5 dtex. It is particularly preferred that When it is 0.1 dtex or more, the yarn elasticity is sufficient, and there is an advantage that problems such as a decrease in bursting strength when it is made into a knitted fabric, or snag or pilling can be suppressed. In the double-sided knitted fabric according to the present invention in which the texture becomes soft and the density of the knitted fabric can be increased when it is 10 dtex or less, the opening of the mesh structure is shifted to maintain lightness and air permeability. Even if there is a thin part, the ultraviolet ray preventing property can be further improved, and it is more suitably used in the clothing field such as innerwear, underwear, or sportswear.

  The number of single yarns constituting the first multifilament yarn is preferably large for the purpose of enhancing the diffuse reflection effect of sunlight, preferably 10 to 200, and more preferably 20 to 100.

  The first multifilament yarn may be a processed yarn that has been subjected to processing such as false twisting, actual twisting, looping, or interlacing.

  In the double-sided knitted fabric of the present invention, since the first surface and the second surface are knitted with a mesh structure, the weight is reduced compared to a structure such as a tentacle structure due to the opening derived from the mesh structure. Excellent in air permeability and air permeability. Furthermore, by adopting a mesh structure on both sides, when the double-sided knitted fabric of the present invention is used for clothing, even if either the first surface or the second surface is used on the skin side, The clothes are brought into contact with each other, and the feeling of stickiness due to sweat absorption is reduced.

  Furthermore, since the first multifilament yarn having a high sunlight shielding property is used, the UV prevention index (UPF) is set to an optimum range, and the UV prevention property is excellent. In addition, the openings of the mesh structure on both surfaces are arranged at different positions without being arranged at the same position, thereby efficiently closing the stitches and reducing the portions where no fibers are present on both surfaces. It becomes possible. Therefore, a synergistic effect is achieved that the ultraviolet ray prevention index (UPF) described later can be set to an optimum range and the ultraviolet ray prevention property can be further improved.

  FIG. 2 is a schematic diagram showing an example of a mesh structure diagram of the double-sided knitted fabric of the present invention. F1, F3, F5, F7, F9, F11, F13, and F15 indicate the mesh structure of the first surface, and F2, F4, F6, F8, F10, F12, F14, and F16 indicate the mesh structure of the second surface. Show. These are knitted on both sides to constitute the double-sided knitted fabric of the present invention. As shown in FIG. 2, in the present invention, the openings of the mesh structure on the first surface and the second surface (portions where the openings are formed by tucking and needle removal) are not the same position but different positions. It is arranged to shift.

  In the first surface of the double-sided knitted fabric of the present invention, the mixing ratio of the first multifilament yarn is preferably 80% by mass or more, more preferably 90% by mass or more, and 100% by mass. More preferably. When the content is 80% by mass or more, the ultraviolet ray preventing property is improved. In order to sufficiently shield sunlight, it is desirable that the mixed ratio is 100% by mass. Examples of the method of mixing the multifilament yarn with other fibers include mixed spinning, knitting or knitting.

  As the multifilament yarn (second multifilament yarn) contained in the second surface, polyester, polyamide, polyolefin, polychlorinated polymer, polytetrafluoroethylene and its copolymer, fluoropolymer, biomass-derived monomer Examples include biomass polymers obtained by chemically polymerization, cellulose and the like. In order to further improve the ultraviolet ray preventing property, inorganic oxide fine particles such as titanium oxide, calcium oxide, magnesium oxide and zinc oxide may be included. The inorganic oxide fine particles may be contained in all of the multifilament yarn, or may be contained in the core portion or the sheath portion of the core-sheath composite fiber. For example, it may be a so-called fuldal polyester fiber in which 1.0% by mass or more of titanium oxide is totally dispersed, or a so-called semi-dal polyester fiber in which titanium oxide is completely dispersed in a proportion of less than 1.0% by mass. Also good. In addition, the cross-sectional shape of the single yarn constituting the second multifilament yarn may be a round cross-sectional shape or an irregular cross-sectional shape. The air permeability is further improved by the presence of water, and the ultraviolet ray diffusion on the surface is excellent in the ultraviolet ray prevention property. Furthermore, sweat and moisture can be quickly absorbed and diffused by the capillary phenomenon of the irregular cross section.

  The total fineness of the single yarn constituting the second multifilament yarn is preferably 50 to 120 dtex from the viewpoint of lighter weight and sufficient strength (breaking strength) when the knitted fabric is used. Further, the number of single yarns constituting the second multifilament yarn is preferably 24 to 96, more preferably 36 to 72, from the viewpoint of maintaining sufficient strength and obtaining a good texture.

  As the second multifilament yarn, from the viewpoint of expressing the effects of the present invention (lightness, breathability, UV protection) in a well-balanced manner, a full-length polyester fiber having an irregular cross-sectional shape is preferable. Further, from the viewpoint of preventing ultraviolet rays, those mentioned as the first multifilament yarn described above are preferable.

  In the double-sided knitted fabric of the present invention, the first multifilament yarn is contained on the first surface as described above, and the openings of the mesh structure are formed on the first surface and the second surface as shown in FIG. By shifting the phase, the weight per unit area can be sufficiently reduced to achieve excellent UV prevention properties while being excellent in lightness and air permeability.

  Since the double-sided knitted fabric of the present invention is excellent in UV protection, the UV protection index (UPF) is 40 or more and preferably 50+. Here, the anti-ultraviolet index (UPF) is based on the Australian New Zealand standard (AS / NZS; 4399: 1996), taking into account a predetermined damage coefficient in the ultraviolet transmittance of 280 to 400 nm measured using a spectrophotometer, Is to be calculated. Normally, a numerical value of UPF of 30 or higher is preferable because it is a grade of “very good protection” or higher, but in the present invention, a higher UV prevention index, that is, 40 or higher can be achieved.

  In addition, the UV prevention index is determined by shifting the position of the opening of the mesh structure on the double-sided knitted fabric, setting the single yarn fineness of the single yarn constituting the first multifilament yarn to a suitable range, or the second multifilament yarn. The same range as that of the first multifilament yarn or a modified cross-section fuller polyester fiber can be used within the above range.

  The double-sided knitted fabric of the present invention preferably has an ultraviolet shielding rate of 96.0% or more, more preferably 97.0% or more. When the ultraviolet shielding ratio is in the above range, it is an index for excellent ultraviolet ray prevention. The method for calculating the ultraviolet shielding rate will be described later in the embodiment.

The double-sided knitted fabric of the present invention has a basis weight of 120 g / m ² or less, preferably 110 g / m ² or less. The double-sided knitted fabric of the present invention having a basis weight in such a range is excellent in lightness and breathability, and further improves the texture, and therefore can be suitably used for innerwear, underwear, sportswear and the like. Here, the basis weight is measured and calculated according to JIS L 1096: 2010 8.3.2 Mass per unit area in standard state A method.

  The knitting density (the number of courses per inch, the number of wales) of the knitted fabric of the present invention can be appropriately set within a range not impairing the effects of the present invention, but is preferably higher in order to further improve the UV protection.

  The thickness of the double-sided knitted fabric of the present invention is preferably 400 to 600 μm. When it is 600 μm or less, lightness or texture is further improved, and when it is 400 μm or more, physical properties such as strength are improved.

The double-sided knitted fabric of the present invention is excellent in air permeability, and the air permeability measured in accordance with JIS L 1096: 2009 8.27 1A method (Fragile method) is 170 cm ³ / cm ² / sec or more. It is more preferable that it is 180 cm ³ / cm ² / sec or more. When the air permeability is within such a range, the air permeability desired by innerwear, underwear, sportswear, etc. can be achieved.

  The double-sided knitted fabric of the present invention may be subjected to known processing such as dyeing processing or water absorption processing.

  The double-sided knitted fabric of the present invention can be applied to various types of textile products such as various innerwear, underwear, sportswear, or futon side fabrics. In particular, since it is excellent in ultraviolet protection, it is preferably used for apparel used outdoors such as sportswear.

  When the double-sided knitted fabric of the present invention is used for clothing, the first surface may be arranged on the outer surface (side not touching the skin), or may be arranged on the inner surface (skin side). Although it may be configured, it is preferable to arrange it on the outer surface because the effects of the present invention (excelling in UV protection while maintaining lightness and air permeability) can be exhibited to the maximum extent.

  Hereinafter, the present invention will be described in detail by way of examples. However, the present invention is not limited to the following examples.

The measurement or calculation in the following examples and comparative examples was performed by the following method.
(1) Ratio of the exposed length (μm) of the segment A on the surface of the single yarn to the outer peripheral length (μm) of the single yarn (EC)
The cross section of the single yarn taken out from the multifilament with respect to the longitudinal direction was observed with an optical microscope (PCSCOPE PCS-81X manufactured by INABATA & CO), and the single yarn outer peripheral length (μm) and the exposed length of the segment A on the single yarn surface (μm) Was measured and the ratio (EC (%)) to the single yarn outer peripheral length (μm) was calculated by the following equation.
EC = exposed length of segment A (μm) / filament outer peripheral length (μm) × 100 (%)

(2) The average ratio (DC) of the shortest distance (μm) from the outer periphery of the single yarn to the leaf portion relative to the distance (μm) from the center of the single yarn to the outer periphery of the single yarn
The cross section of the single yarn taken out from the multifilament yarn was observed with an optical microscope (PCSCOPE PCS-81X made by INABATA & CO), the distance from the center of the single yarn to the outer periphery of the single yarn (μm), and the single yarn in each leaf part. The shortest distance (μm) from the yarn outer periphery to each leaf was measured. And the average ratio (DC (%)) of the shortest distance (μm) from the single yarn outer periphery to each leaf portion in each leaf portion with respect to the distance (μm) from the center of the single yarn to the single yarn outer periphery was calculated by the following equation. .
DC = average value of the shortest distance from the outer periphery of the single yarn to each leaf (μm) / distance from the center of the single yarn to the outer periphery of the single yarn (μm) × 100 (%)

(3) Shortest distance (μm) between adjacent leaf parts
Take out the single yarn from the multifilament, observe the cross section of the single yarn taken out in the longitudinal direction with an optical microscope (PCSCOPE PCS-81X made by INABATA & CO), and the shortest distance (μm) between the adjacent leaf portions in the separated leaf portion ) Was measured. All the separated leaf portions in the cross section were measured, and the average value was defined as the shortest distance (μm) between the leaf portions adjacent to each other.

The measurement or calculation of the following (4) to (7) was performed on a double-sided knitted fabric.
(4) UV protection index (UPF)
According to the Australian New Zealand standard (AS / NZS; 4399: 1996), it was calculated taking into account a predetermined damage coefficient in the ultraviolet transmittance of 280 to 400 nm measured using a spectrophotometer.

(5) Ultraviolet shielding rate In the measurement wavelength region of 280 to 400 nm, the transmittance (%) of ultraviolet rays irradiated to the test piece was measured using a spectrophotometer (manufactured by Shimadzu Corporation, “UV-3100PC”), and the following formula The UV shielding rate (%) was calculated according to
UV shielding rate (%) = 100-UV transmittance (%)
In the above measurements (4) and (5), the first surface was irradiated with ultraviolet rays.

(6) Weight per unit area JIS L 1096: 2010 8.3.2 Mass per unit area in standard state Measurement and calculation were performed according to the A method.

(7) Air permeability Measured according to JIS L 1096 8.27.1A method (Fragile method).

Example 1
As segment A, PET having a content of titanium oxide fine particles (TiO ₂ ) of 5.0% by mass is used, and as segment B, PET having a content of titanium oxide fine particles (TiO ₂ ) of 0.5% by mass is used. A mass ratio between A and segment B (segment A / segment B) is 75/25, and a nozzle having the cross-sectional shape (number of leaves: 8) in FIG. A multifilament was spun at a spinning temperature of 295 ° C. using a spinning device. Then, the spun multifilament is cooled, oiled, taken up by a take-up roller at a speed of 3000 m / min, then drawn at a temperature of 90 ° C. and a draw ratio of 1.50, and heat treated at a temperature of 140 ° C. I got a thread. In this multifilament yarn, EC was 0% (segment A was not confirmed to be exposed on the surface of the single yarn), DC was 5% or less in all leaf portions, and the leaf portions and leaf portions adjacent to each other The shortest distance from was 0.6 μm. The obtained multifilament yarn was false twisted at a heater temperature of 186 ° C. and a draw ratio of 1.777 using a friction type false twisting machine, and a false twisted yarn of 48 56 dtex single yarns (crimp rate) : 45.2%).

The crimp rate was calculated by the following method. Using a measuring instrument with a frame circumference of 1.125 m, the yarn is made into a casserole with 5 turns, and the casserole is hung on a stand and left overnight. Next, the casserole is placed in boiling water under a load of 0.000147 cN / dtex (load 1) and subjected to a wet heat treatment for 30 minutes, and then lightly removed with filter paper and left to air dry for 30 minutes. Next, with the load 1 applied, a light load (load 2) of 0.00177 cN / dtex is further applied to measure the length a of the cassette. Next, only the load 2 is removed, a heavy load of 0.044 cN / dtex (load 3) is applied, and the length b of the cassette is measured. And the crimp rate was computed according to the following formula.
Crimp rate (%) = [(ba) / a] × 100

This false twisted yarn is used on the first surface, a modified cross-section fuller polyester multifilament ("Lumiace UV" manufactured by Unitika Trading Co., Ltd., 48 dtex single yarn number of 48) is used on the second surface, 2 and a mesh structure indicated by F1, F3, F5, F7, F9, F11, F13 or F15 as shown in FIG. 2 is arranged on the first surface, and F2, F4, A double-sided knitted fabric in which the mesh structure indicated by F6, F8, F10, F12, F14 or F16 is arranged on the second surface was knitted. This double-sided knitted fabric was scoured by a conventional method, and dyed at a temperature of 130 ° C. for 30 minutes according to the following formulation.
Dye UVITEX EBF: 1% omf
Auxiliary Nikka Sun Salt SN-130: 0.5 g / l
Acetic acid: 0.2 ml / l
After dyeing, finishing was performed to obtain a double-sided knitted fabric of Example 1 (thickness: 570 μm, course / wale = 49/48).

(Comparative Example 1)
Except that the multifilament yarn used for the first surface was changed to a semidal polyester multifilament yarn (titanium oxide content 0.5 mass%, 56 dtex single yarn number 48), the same operation as in Example 1 was performed. Thus, a double-sided knitted fabric of Comparative Example 1 (thickness: 520 μm, course / wale = 43/54) was obtained.

(Comparative Example 2)
A double-sided knitted fabric (thickness: 580 μm, course / wale = 43/47) of Comparative Example 2 was obtained in the same manner as in Example 1, except that the second surface texture was changed to a tentacle structure.

Table 1 summarizes the evaluation of Example 1 and Comparative Examples 1-2.

  As is clear from Table 1, the double-sided knitted fabric of Example 1 was sufficiently reduced in basis weight and excellent in lightness and air permeability, but also excellent in UV protection and texture.

  On the other hand, Comparative Example 1 used a normal semi-dal polyester multifilament yarn on the first surface without using the multifilament yarn defined in the present invention. It was inferior in prevention. Although the comparative example 2 was excellent in ultraviolet-ray prevention property, the fabric weight was excessively high, the lightness and air permeability were inferior, and the texture was also hard.

DESCRIPTION OF SYMBOLS 1 Single yarn 2 Synthetic resin part whose content rate X (mass%) of inorganic oxide fine particle is 2 <X <= 10 3 Synthetic resin part 4 whose content rate Y (mass%) of inorganic oxide fine particle is 2 or less Leaf part Part other than 5 leaves

Claims (5)

A double-sided knitted fabric including a first surface and a second surface, having a basis weight of 120 g / m ² or less and an ultraviolet protection index (UPF) of 40 or more,
The first surface and the second surface are knitted with a mesh structure;
The opening of the mesh structure on the first surface and the opening of the mesh structure on the second surface are arranged at different positions from each other,
The first surface has a synthetic resin part in which the inorganic oxide fine particle content X (mass%) is 2 <X ≦ 10 and an inorganic oxide fine particle content Y (mass%) is 2 or less. A first multifilament yarn containing
A double-sided knitted fabric, wherein the cross-sectional shape of the single yarn constituting the first multifilament yarn in the longitudinal direction satisfies the following (1) to (4).
(1) The shape of the synthetic resin portion in which the content X (% by mass) of the inorganic oxide fine particles in the cross section is 2 <X ≦ 10 is radially directed from the center side to the outer peripheral side of the single yarn 6 to 20 Multi-leaf shape including individual leaves.
(2) The tip on the outer peripheral side of the leaf is curved.
(3) The exposed length (μm) of the synthetic resin portion where the content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10 with respect to the outer peripheral length (μm) of the single yarn. The ratio is 10% or less.
(4) The average ratio of the shortest distance (μm) from the outer periphery of the single yarn to the leaf portion with respect to the distance (μm) from the center of the single yarn to the outer periphery of the single yarn is 10% or less.   Synthetic resin constituting the synthetic resin portion where the content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10, and the synthetic resin where the content Y (mass%) of the inorganic oxide fine particles is 2 or less The double-sided knitted fabric according to claim 1, wherein the synthetic resin constituting the part is polyester.   Mass ratio of the synthetic resin part in which the content X (mass%) of the inorganic oxide fine particles is 2 <X ≦ 10 and the synthetic resin part in which the content Y (mass%) of the inorganic oxide fine particles is 2 or less The double-sided knitted fabric according to claim 1 or 2, wherein is 30/70 to 90/10.   The double-sided knitted fabric according to any one of claims 1 to 3, wherein a single yarn fineness of the single yarn constituting the first multifilament yarn is 0.1 to 10 dtex. The double-sided knitted fabric according to any one of claims 1 to 4, wherein the air permeability is 170 cm ³ / cm ² · sec or more.