JP2020007678A - Working wear for fishery worker - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide work clothes for fishery workers having excellent workability and wearing feeling. SOLUTION: When a work clothes for fishery workers is produced by using a laminated fabric having a moisture permeable waterproof layer and a first fabric layer composed of synthetic fibers and / or natural fibers, it is lightweight and excellent work. Along with the sex, it is possible to provide a good wearing feeling by suppressing stuffiness at the time of wearing. [Selection diagram] Fig. 1

Description

  The present invention relates to work clothes for fishery workers. More specifically, the present invention relates to work clothes for fishery workers having excellent workability and a feeling of wearing.

  2. Description of the Related Art Conventionally, workers in the fishing industry engaged in fisheries, aquaculture, etc., wear rubber waterproof workwear as in the fish market. However, the waterproof waterproof workwear made of rubber has a drawback that it is difficult to move because of its heavy weight, and that it is stuffy when worn because it has no moisture permeability.

  In the field of fisheries, the aging of workers is progressing, and it is necessary to secure human resources for the next generation. Therefore, various efforts have been made in the field of fisheries in order to appeal to young people and women who are the next generation to be attractive occupations. The bottleneck is that it looks bad and does not look attractive to young people or women.

  Under such background art, in the field of fisheries, there is an urgent need to develop work clothes which are lightweight, excellent in workability, hard to stuffy and have a good feeling of wearing, and are excellent in design.

  In the fishery field, fish are often operated from night to dawn, so work clothes for fisheries workers are required to provide safety in dark places by improving visibility. Conventionally, waterproof workwear worn conventionally has poor visibility in a dark place, and there is still room for improvement in terms of safety.

  As described above, the work clothes for workers in the fishing industry are required to enhance safety as well as excellent workability, wearing feeling, and design, but in conventional rubber waterproof work clothes, these are required. None of the above characteristics can be satisfied, and furthermore, at present, work clothes for fisheries workers having these characteristics have not been developed.

  An object of the present invention is to provide a workwear for fishery workers having excellent workability and a feeling of wearing.

  The present inventors have conducted intensive studies in order to solve the above-mentioned problems. As a result, using a laminated fabric having a moisture-permeable waterproof layer and a first fabric layer composed of synthetic fibers and / or natural fibers, It has been found that when working clothes for workers are produced, it is possible to provide a lightweight and excellent workability and a good wearing feeling by suppressing stuffiness during wearing. In addition, it has been found that the work clothes for the fishing industry workers can be provided with excellent design because they can be provided with colors, patterns, and the like, and can be made into various designs. Further, in the work clothes for the fishing industry worker, excellent visibility can be imparted by laminating a fluorescent coloring material and / or a retroreflective material on at least a part of the surface of the work clothes, and it is safe. It has also been found that it can be provided with a property. The present invention has been completed by further study based on these findings.

That is, the present invention provides the following aspects of the invention.
Item 1. A workwear for a fishing industry worker, comprising a laminated fabric having a moisture-permeable waterproof layer and a first fabric layer composed of synthetic fibers and / or natural fibers.
Item 2. Item 2. The workwear for fishery workers according to Item 1, wherein the first fabric layer is made of polyamide fibers.
Item 3. Item wherein the laminated fabric has a moisture permeability of 5000 g / m ² · 24 hr or more, which is measured according to the B-1 method (potassium acetate method) of JIS L1099: 2012 “Test method for moisture permeability of textile products”. 3. The work clothes for a fishery worker according to 1 or 2.
Item 4. Any one of Items 1 to 3, wherein the laminated fabric has a water resistance of 150 kPa or more, as measured in accordance with Method B (high water pressure method) of JIS L1092: 2009 “Testing method for waterproofness of textile products”. Workwear for the fisheries workers mentioned.
Item 5. Item 5. The workwear for a fishing industry worker according to any one of Items 1 to 4, which is a workwear for an upper body.
Item 6. Item 5. The workwear for a fishing industry worker according to any one of Items 1 to 4, which is a workwear for a lower body.
Item 7. Item 7. The workwear for a fishing industry worker according to any one of Items 1 to 6, wherein a fluorescent coloring material and / or a retroreflective material is attached to at least a part of a surface of the workwear.
Item 8. Work clothes at least
A torso that covers the torso of the wearer,
A pair of sleeves that are continuously provided at the upper left and right of the body part and cover the wearer's arm,
Item 7. The fishing industry worker according to item 7, which is a workwear for an upper body having at least the fluorescent coloring material and / or the retroreflective material attached to at least a part of the surface of the body portion. Work clothes.
Item 9. The workwear for the upper body has a hood portion connected to an upper end portion of the body portion and covers a head of a wearer, and the fluorescent coloring material and / or the retroreflective material is Item 9. The workwear for a fishing industry worker according to Item 8, which is attached to at least a part of the surface of the hood portion.
Item 10. Work clothes at least
A crotch covering the rise of the lower body of the wearer,
A pair of legs connected at the lower left and right of the crotch and covering the wearer's legs,
Connected to the crotch portion, and the foremost part covering the abdomen or abdomen and at least part of the chest of the wearer,
Rear view part connected to the crotch part and covering the waist of the wearer,
A workwear for a lower body having a suspender section connecting the front view section and the rear view section, and the fluorescent coloring material and at least a part of a surface of the front view section and / or the rear view section. Item 8. The workwear for a fishery worker according to Item 7, wherein the workwear includes a retroreflective material.
Item 11. The retroreflective material is at least,
A fixing resin layer,
Transparent microspheres embedded in the fixing resin layer,
Having a reflective layer provided between the transparent microspheres and the fixed resin layer,
7. The method according to any of items 7 to 10, wherein the transparent microspheres have a refractive index of 1.6 to 2.5, and the burying ratio of the transparent microspheres in the fixed resin layer is 30 to 80%. Workwear for the fisheries workers mentioned.

  The work clothes for workers in the fishing industry of the present invention are conventionally used since the main constituent material is a laminated fabric having a first fabric layer composed of synthetic fibers and / or natural fibers and a moisture-permeable waterproof layer. It is lighter than a waterproof waterproof workwear made of rubber, and can be easily moved to provide excellent workability. Further, since the work clothes for the fisheries worker of the present invention have moisture permeability, it is possible to suppress stuffiness when worn and provide a good feeling of wearing.

  The work clothes for workers of the fishing industry of the present invention can be colored or patterned, or can be made into various designs. In contrast, attractive designs can be applied to young people and women. In addition, in the work clothes for the fisheries worker of the present invention, by adding a fluorescent coloring material and / or a retroreflective material, visibility in a light place or a dark place (at night) can be enhanced. It can improve the safety of fisheries workers.

It is a schematic diagram which shows one aspect of the cross-section of the laminated fabric used in the present invention. It is a figure showing one mode of work clothes for the upper body to which a fluorescent coloring material and a retroreflective material are attached. It is a figure showing one mode of work clothes for the lower body to which a fluorescent dye coloring material and a retroreflective material are attached.

  The work clothes for a fishery worker according to the present invention is characterized by including a laminated fabric having a moisture-permeable waterproof layer and a first fabric layer composed of synthetic fibers and / or natural fibers. Hereinafter, the work clothes for the fishery worker of the present invention will be described in detail. Hereinafter, the work clothes for the fisheries worker of the present invention may be simply abbreviated as “work clothes of the present invention”.

[Laminated fabric]
In the work clothes of the present invention, a laminated fabric having a moisture-permeable waterproof layer and a first fabric layer composed of synthetic fibers and / or natural fibers is used as a constituent material. Hereinafter, the laminated fabric will be described.

Laminated Structure of Laminated Fabric The laminated fabric used in the present invention has at least a moisture-permeable waterproof layer 1 and a first fabric layer 2 composed of synthetic fibers and / or natural fibers. The first fabric layer 2 is disposed on the front side in the work clothes of the present invention.

  In the laminated fabric used in the present invention, the laminating mode of the moisture-permeable waterproof layer 1 and the first fabric layer 2 is not particularly limited, and for example, a state in which the first fabric layer 2 and the moisture-permeable waterproof layer 1 are in contact with each other. And a mode in which the moisture-permeable waterproof layer 1 and the first fabric layer 2 are laminated with the first adhesive layer 4 interposed therebetween. In order to laminate the first fabric layer 2 and the moisture-permeable waterproof layer 1 in a state of contact, the raw material of the moisture-permeable waterproof layer 1 may be coated on one side of the first fabric layer 2 or the moisture-permeable waterproof layer 1 may be coated. And the first fabric layer 2 may be stitched together.

  One preferred embodiment of the laminated fabric used in the present invention is an embodiment in which the moisture-permeable waterproof layer 1 and the first fabric layer 2 are laminated with the first adhesive layer 4 interposed therebetween.

  In addition, the laminated fabric used in the present invention is a moisture-permeable waterproof layer 1 having a surface opposite to the surface on which the first fabric layer 2 is laminated, composed of synthetic fibers and / or natural fibers. It is preferable to have a laminated structure in which two fabric layers 3 are laminated. When the laminated fabric used in the present invention has the second fabric layer 3, the first fabric layer 2 and the second fabric layer 3 may be laminated by stitching. It is preferable that the first fabric layer 2 and the second fabric layer 3 are laminated in a bonded state.

  Preferred examples of the lamination mode of the laminated fabric used in the present invention are shown in FIGS. FIG. 1A shows a cross-sectional structure of a laminated fabric having a laminated structure in which a first fabric layer 2 and a moisture-permeable waterproof layer 1 are laminated in contact with each other. In FIG. 1B, the first fabric layer 2, the first adhesive layer 4, the moisture-permeable waterproof layer 1, the second adhesive layer 5, and the second fabric layer 3 have a laminated structure in which they are laminated in this order. 2 shows a cross-sectional structure of a laminated fabric. In FIG. 1C, the cross-sectional structure of the laminated fabric having a laminated structure in which the first fabric layer 2, the moisture-permeable waterproof layer 1, the second adhesive layer 5, and the second fabric layer 3 are laminated in this order is shown. Is shown.

-First fabric layer The first fabric layer is made of synthetic fibers and / or natural fibers, and is a fabric to be laminated with the moisture-permeable waterproof layer in the laminated fabric used in the present invention. The first fabric layer is a layer arranged on the surface in the work clothes of the present invention.

  There are no particular restrictions on the type of synthetic fiber used in the first fabric layer. For example, polyesters such as polyethylene terephthalate (PET), polybutylene terephthalate, and polytrimethylene terephthalate; nylon 6, nylon 66, nylon 46, nylon 11, polyamides such as nylon 12, polyolefins such as polypropylene and polyethylene; acrylic polymers such as acrylic nitrile; polyurethanes in which diisocyanate and dialcohol are polymerized; polychlorinated polymers such as polyvinyl chloride and polyvinylidene chloride; Fluorinated polymers such as ethylene fluoride and polyvinylidene fluoride; biomass polymers obtained by chemically polymerizing biomass-derived monomers such as PLA (polylactic acid) and PBS (polybutylene succinate); Synthetic fibers composed of a copolymer of two or more of the monomers constituting the Rimmer and the like. Among them, polyamide fibers are preferable from the viewpoint of lightness and moisture permeability.

  The type of polyamide fiber used for the first fabric layer is not particularly limited. For example, nylon 6 fiber made from ε-caprolactam, nylon 11 fiber made from undecane lactam, nylon 12 fiber made from lauryl lactam, etc. Fiber, nylon 66 fiber made from hexamethylene diamine and adipic acid, nylon 46 fiber made from tetramethylene diamine and adipic acid, nylon 610 fiber made from hexamethylene diamine and sebacic acid, nylon 56 fiber And aromatic polyamide fibers such as nylon 6T fiber and nylon 9T fiber made from diamine and terephthalic acid, and nylon 6I fiber made from hexamethylene diamine and isophthalic acid. Aromatic diamines and di Aramid fibers and the like obtained by co-condensation polymerization reaction with carboxylic acid. These polyamide fibers may be used alone or in a combination of two or more.

  Among these polyamide fibers, preferably, nylon 11 fibers, nylon 6 fibers, nylon 66 fibers, and more preferably, nylon 6 fibers are used. In particular, nylon 6 fibers are particularly suitable as polyamide fibers used in the first fabric layer because they are excellent in lightness, wearability, and moisture permeability.

  The synthetic fiber used for the first fabric layer may be in the form of a monofilament yarn composed of one synthetic fiber or a multifilament yarn composed of a plurality of synthetic fibers. Examples include filament yarn forms.

  When the synthetic fiber used for the first fabric layer is in the form of a multifilament yarn, the fineness of the multifilament yarn is, for example, a single fiber fineness of 0.3 to 20 dtex, preferably 3 to 12 dtex; To 250 dtex, preferably 50 to 170 dtex.

  The type of the natural fiber used in the first fabric layer is not particularly limited, and examples thereof include natural fibers such as cotton, animal hair fiber, silk, hemp, and bamboo; viscose rayon, copper ammonia rayon, and solvent-spun cellulose fiber. And regenerated fibers such as triacetate. The single fiber fineness and the total fineness of the natural fibers are not particularly limited, but are preferably in the ranges exemplified for the synthetic fibers.

  For the first fabric layer, either synthetic fiber or natural fiber may be used, or synthetic fiber and natural fiber may be used in combination. For example, the first fabric layer is formed of one or more synthetic fibers, one or more natural fibers, or one or more synthetic fibers and one or more natural fibers. Any of the following fabrics may be used.

  Preferably, the constituent fibers of the first fabric layer include synthetic fibers, and more preferably, polyamide fibers.

  When a polyamide fiber is contained as a constituent fiber of the first fabric layer, the amount of the polyamide fiber used is not particularly limited. For example, the polyamide fiber is used in an amount of 10 to 100 per 100 parts by mass of the total amount of the fiber contained in the first fabric layer. The mass is preferably from 50 to 100 parts by mass, more preferably from 80 to 100 parts by mass, particularly preferably from 90 to 100 parts by mass.

  The first fabric layer may be any of a woven fabric, a knitted fabric, or a non-woven fabric, but is preferably a woven fabric from the viewpoint of durability, moisture permeability and waterproofness.

  When the first fabric layer is a woven fabric, its structure is not particularly limited, and examples thereof include plain weave, twill weave, satin weave, and their derivatives. When the first fabric layer is a knitted fabric, its structure is not particularly limited, and examples thereof include weft knitting such as flat circular knitting, weft knitting, and tack knitting, and warp knitting such as Russell and tricot.

  When the first fabric layer is a woven fabric, the cover factor (CF) is preferably in the range of 1000 to 3500, and more preferably 1250 to 2000 from the viewpoint of providing better workability and a feeling of wearing. Preferably, 1500 to 1800 are particularly preferred. When the first fabric layer is a knitted fabric, CF is preferably in the range of 500 to 2500, and more preferably 800 to 1800, from the viewpoint of providing better workability and a feeling of wearing. Here, the cover factor (CF) is calculated by the following equation (II) for a woven fabric, and is calculated by the following equation (III) for a knitted fabric.

Abbreviations in the above formula indicate the following.
DT: yarn fineness (dtex)
WAD: Warp density (book / 2.54 cm)
WED: Weft density (book / 2.54 cm)
CD: course density (book / 2.54 cm)
WD: Wale density (book / 2.54 cm)

  The fineness of the yarn is JIS L 1096: 2010 8.9.9.1. a method A, JIS L 1096: 2010 8.9.9.1. b. The warp density and the weft density are values determined according to JIS L 1096: 2010 8.6.1A method, and the course density and wale density are values determined according to JIS L 1096: 2010 8.6.2.

The basis weight of the first fabric layer is not particularly limited, from the viewpoint equip a better workability and wear feeling, for example, 30 to 200 g / m ^2, preferably 50 to 150 g / m ^2, more preferably 70 to 120 g / m ² .

  The first fabric layer may be subjected to a water-repellent treatment as needed. The type of water repellent used in the water repellent treatment is not particularly limited, and examples thereof include a fluorine water repellent, a hydrocarbon water repellent, a silicone water repellent, a wax water repellent, and the like. . Among these, a fluorine-based water repellent is preferred.

  Specific examples of the fluorinated water repellent include fluorinated compounds having a polyfluoroalkyl group (Rf group) in the chemical structure. The Rf group refers to a group in which two or more hydrogen atoms of an alkyl group have been substituted with fluorine atoms. The carbon number of the Rf group is preferably 2 to 20, more preferably 2 to 8, and still more preferably 1 to 6. The Rf group may have a linear or branched structure. In particular, in the case of a branched chain structure, the branched chain portion is preferably present at the terminal portion of the Rf group and is a short chain having about 1 to 8 carbon atoms, more preferably 1 to 6. As the Rf group, a group in which all hydrogen atoms of an alkyl group are substituted by fluorine atoms (perfluoroalkyl group) is preferable. As the fluorine-based compound, a copolymer obtained by polymerizing a polymer containing a perfluoroalkyl group and another polymerizable monomer by a known polymerization method is preferable. Other polymerizable monomers include acrylic acid, methacrylic acid, styrene, vinyl chloride and the like. If necessary, an acrylic compound, a vinyl acetate compound, a melamine compound, or the like may be appropriately mixed. As the fluorine-based water repellent, commercially available products can be used, and examples thereof include "Asahi Guard (trade name)" manufactured by Asahi Glass Co., Ltd. and "NK Guard (trade name)" manufactured by Nichika Chemical Co., Ltd.

-Moisture permeable waterproof layer The moisture permeable waterproof layer is a layer provided on one side of the first fabric layer. The waterproof and moisture-permeable layer is imparted to the laminated fabric by the moisture-permeable waterproof layer, so that the workwear of the present invention can have a waterproof function and a good feeling of wearing due to suppression of stuffiness during wearing.

  In the present invention, the moisture-permeable waterproof layer is a resin layer having “moisture permeability” and “waterproofness”, and refers to a layer capable of moving moisture in a high humidity region to a low humidity region.

  The constituent resin of the moisture-permeable waterproof layer is not particularly limited as long as it can impart moisture permeability and waterproofness, but, for example, polyester resin, fluorine resin, polyurethane resin, silicone resin, polyethylene resin Resins, polypropylene resins and the like. Among these, polyester-based resins and fluorine-based resins are preferred from the viewpoint of achieving moisture permeability and waterproofness at a high level.

  When a polyester resin is used as a constituent resin of the moisture permeable waterproof layer, the type of the polyester resin is not particularly limited. The dicarboxylic acid constituting the polyester resin may be any of an aromatic dicarboxylic acid and an aliphatic dicarboxylic acid, and specifically, terephthalic acid, isophthalic acid, phthalic acid, naphthalene-2,6-dicarboxylic acid, Examples include succinic acid, oxalic acid, adipic acid, sebacic acid, dimer acid and the like. The type of glycol constituting the polyester resin is not particularly limited, and examples thereof include polyethylene glycol, poly-1,2-propylene glycol, and a copolymer of ethylene oxide and propylene oxide.

  When a fluororesin is used as a constituent resin of the moisture-permeable and waterproof layer, the kind of the fluororesin is not particularly limited. For example, polytetrafluoroethylene (PTFE), polyvinylidene fluoride (PVDF), polyvinyl fluoride (PVF) ), Polychlorotrifluoroethylene (PCTFE), tetrafluoroethylene / perfluoroalkyl ether copolymer (PFA), tetrafluoroethylene / hexafluoropropylene copolymer (FEP), ethylene / tetrafluoroethylene copolymer (ETFE) ), Ethylene / tetrafluoroethylene / hexafluoropropylene copolymer, vinylidene fluoride / tetrafluoroethylene copolymer, vinylidene fluoride / hexafluoropropylene copolymer, vinylidene fluoride / pentafluoropropylene Polymer, tetrafluoroethylene / hexafluoropropylene / vinylidene fluoride copolymer (THV), vinylidene fluoride / pentafluoropropylene / tetrafluoroethylene copolymer, vinylidene fluoride / perfluoroalkyl vinyl ether / tetrafluoroethylene copolymer And ethylene / chlorotrifluoroethylene copolymer (ECTFE) and vinylidene fluoride / chlorotrifluoroethylene copolymer. Among these, PTFE is preferred from the viewpoints of better moisture permeability and waterproofness and water pressure resistance.

  The thickness of the moisture-permeable waterproof layer is not particularly limited, but is, for example, 0.1 to 100 μm, preferably 1 to 50 μm, more preferably 5 to 30 μm, and particularly preferably 7 to 20 μm.

  The moisture-permeable waterproof layer may be a moisture-permeable waterproof film, or may be a coating layer coated with the constituent resin.

  A moisture-permeable waterproof film that can be used as a moisture-permeable waterproof layer is known, and in the present invention, a known moisture-permeable waterproof film can be used. The moisture-permeable waterproof film is, for example, a film formed from a raw resin by a melt extrusion film forming method, a dry coating film forming method, a wet film forming method, or the like, and further, if necessary, a fine film is formed on at least one surface of the film. It can be manufactured by perforating a non-through hole and appropriately adjusting the moisture permeability, the water resistance and the like. As a moisture-permeable and waterproof film made of a polyester resin, “BREEZE / TEX” (Aussie Film Co., Ltd.) and the like are commercially available. In the present invention, a commercially available moisture-permeable and waterproof film is used as the moisture-permeable and waterproof layer. be able to.

  When the moisture-permeable waterproof layer is a coating layer, it can be formed by coating the first fabric layer with a resin as a raw material of the moisture-permeable waterproof layer using a knife coater or the like. Further, the coating layer may contain inorganic fine powder as needed.

-Second fabric layer The second fabric layer is a layer provided as necessary on the surface of the moisture-permeable and waterproof layer opposite to the surface on which the first fabric layer is laminated. It is a layer that becomes a lining in wearing.

  The second fabric layer is composed of synthetic fibers and / or natural fibers. The type of synthetic fiber and / or natural fiber, single fiber fineness, and total fineness used in the second fabric layer are not particularly limited, and specific examples and preferred examples thereof are the same as those in the case of the first fabric layer. It is.

  The second fabric layer may be any one of a woven fabric, a knitted fabric, and a nonwoven fabric, but is a lining layer, and is preferably a knitted fabric from the viewpoint of moisture permeability and waterproofness.

  In the case of the knitted fabric of the second fabric layer, the structure thereof is not particularly limited, and examples thereof include weft knitting such as circular knitting, weft knitting, and tack knitting; warp knitting such as Russell and tricot; Examples include a mesh structure and a tricot structure.

The basis weight of the second fabric layer is not particularly limited, for example, 5 to 100 g / m ^2, with preference given to 40 and 80 g / m ^2.

-1st adhesion layer The 1st adhesion layer is a layer provided as needed between these in order to make the said moisture-permeable waterproof layer and the said 1st fabric layer adhere.

  The first adhesive layer may be formed of an adhesive capable of adhering the moisture permeable waterproof layer and the first fabric layer. The type of the adhesive forming the first adhesive layer is not particularly limited. For example, a self-crosslinking adhesive for self-crosslinking a resin having a reactive functional group, or a resin having a reactive functional group cured with a curing agent (Cross-linking) two-part adhesives and the like.

  Examples of the reactive functional group include a hydroxyl group, an isocyanate group, an amino group, and a carboxyl group. Examples of the resin having a reactive functional group include a polyamide resin, a polyurethane resin, a polyester resin, and a polyethylene vinyl acetate resin. Further, examples of the curing agent include an isocyanate-based curing agent and an epoxy-based curing agent.

  Among these adhesives, from the viewpoint of providing the laminated fabric of the present invention with good flexibility and moisture permeability, preferably, a self-crosslinking or two-part adhesive containing a polyamide resin having a reactive functional group Or a self-crosslinking or two-part adhesive containing a polyurethane resin.

  The polyamide resin having a reactive functional group can be obtained by condensation polymerization of an acid component and a diamine component. Examples of the acid component constituting the polyamide resin include dicarboxylic acids such as maleic acid, adipic acid, azelaic acid, and sebacic acid; dimer acids obtained by polymerizing tar oil fatty acids, and the like. Examples of the diamine component constituting the polyamide resin include, for example, aliphatic diamines such as 1,4-butanediamine, 1,6 hexamethylenediamine, 1,8 diaminooctane, and 1,12 diaminododecane; cyclohexanediamine; Cyclic diamines such as isophorone diamine; polyoxyalkylenediamines such as polyoxyethylene diamine and polyoxypropylene diamine;

  Further, as the self-crosslinking or two-part adhesive containing the polyurethane resin, specifically, a main component such as polyester polyol, polyether polyol, acrylic polyol, and aromatic isocyanate, aliphatic isocyanate and the like An adhesive containing a bifunctional or more functional curing agent may be used.

  The type of the adhesive used for the first adhesive layer is not particularly limited, and may be a solution type or a hot melt type. In the case of the solution type, the viscosity of the adhesive is preferably 500 to 5000 mPa · s (25 ° C.), and the adhesive is applied to the surface of the first fabric or the moisture-permeable waterproof layer by an application means such as a gravure roll or a comma coater. do it. After the application, the two may be bonded by pressure bonding or thermocompression bonding using a laminating machine. In the case of a hot melt type, the adhesive is melted at a temperature of about 80 to 200 ° C. in consideration of the melting point and the viscosity in the molten state, and then the adhesive is applied to the surface of the first fabric or the waterproof moisture-permeable film. What is necessary is just to apply. After the application, both may be pressure-bonded with a laminating machine or the like while cooling as necessary.

  The mode of lamination of the first adhesive layer is not particularly limited, and may be formed on the entire surface between the first fabric layer and the moisture-permeable waterproof layer, or may be provided partially between these layers. Good. When the first adhesive layer is provided on the entire surface between the first fabric layer and the moisture-permeable waterproof layer, the two can be firmly bonded to each other, and the first adhesive layer can be bonded to the first fabric layer and the moisture-permeable waterproof layer. When provided partially between them, it is possible to improve the moisture permeability of the laminated fabric of the present invention and provide a good texture.

  When the first adhesive layer is partially provided between the first fabric layer and the moisture permeable waterproof layer, the shape of the first adhesive layer (the shape viewed from the direction perpendicular to the surface direction) is not particularly limited. The shape may be a dot, a line, a checkerboard pattern, a turtle pattern, or the like, and the shape of the partially formed first adhesive layer may be uniform or nonuniform. The shape can be formed by a gravure printing method or the like.

  When the first adhesive layer is partially provided between the first fabric layer and the moisture-permeable waterproof layer, the ratio of the area where the adhesive is provided is determined by bonding the first fabric layer and the moisture-permeable waterproof layer. Although not particularly limited as long as the laminated state can be maintained, the first adhesive layer is provided so as to occupy an area of about 10 to 90% with respect to the area of the first fabric layer (= the area of the moisture-permeable waterproof layer). It is desirable. By providing the first adhesive layer at such a ratio, the first fabric layer and the moisture-permeable waterproof layer can be firmly adhered while maintaining good moisture permeability and texture.

  The thickness of the first adhesive layer is not particularly limited, and may be appropriately set according to the area ratio occupied by the first adhesive layer, the surface form of the first fabric, and the like. For example, about 5 to 100 μm, preferably About 10 to 80 μm, more preferably about 15 to 50 μm.

-Second adhesive layer The second adhesive layer is a layer provided as necessary between the moisture-permeable and waterproof layer and the second fabric layer in order to adhere the second fabric layer when the second fabric layer is provided. It is.

  The second adhesive layer may be formed of an adhesive capable of adhering the moisture permeable waterproof layer and the second fabric layer. The constituent resin of the adhesive forming the second adhesive layer, a suitable example, a type, a lamination mode, an area ratio when partially provided, a thickness, and the like are the same as in the case of the “first adhesive layer”. .

-Characteristics of the laminated fabric The work clothing of the present invention can contain a laminated fabric having moisture permeability, thereby suppressing stuffiness during wearing and providing a good feeling of wearing. The moisture permeability of the laminated fabric may comprise for use in the present invention, specifically, it is for example 5,000g / m ² · 24hr or more, preferably 7,000g / m ² · 24hr or more, more preferably 10 2,000 to 40,000 g / m ² · 24 hrg / m ² , and particularly preferably 12,000 to 25,000 g / m ² · 24 hrg / m ² . In the present invention, the moisture permeability of the laminated fabric is a value measured according to the B-1 method (potassium acetate method) of JIS L1099: 2012 “Test method for moisture permeability of textiles”.

In order to achieve the above-described moisture permeability of the laminated fabric, the moisture permeability of the moisture-permeable waterproof film is, for example, 35,000 g / m ² · 24 hr or more, preferably 45,000 g / m ² · 24 hr or more, more preferably It is preferable to use one having a 50,000 to 70,000 g / m ² · 24 hr.

  The laminated fabric used in the present invention has water resistance, and can sufficiently have the water resistance required for work clothes for fishery workers. The water pressure that the laminated fabric used in the present invention can have is, for example, 150 kPa or more, preferably 200 kPa or more, more preferably 250 kPa or more, and particularly preferably 300 to 500 kPa. By using the laminated fabric having such a water pressure resistance, it is possible to sufficiently provide the water resistance inherently required for work clothes for fishery workers. In the present invention, the water resistance of the laminated fabric, the work clothes and the moisture-permeable waterproof film is a value measured in accordance with the method B (high water pressure method) of JIS L1092: 2009 “Testing method of waterproofness of textiles”. is there.

  In order to achieve the water pressure resistance of the above-mentioned laminated fabric, the water pressure resistance of the moisture-permeable waterproof layer is, for example, 100 kPa or more, preferably 150 kPa or more, more preferably 200 kPa or more, and particularly preferably 250 kPa or more. Is preferred.

The laminated fabric used in the present invention uses the moisture-permeable waterproof layer and the first fabric layer as main constituent layers, and is used for rubber waterproof work clothes conventionally used by fishery workers. There is a feature that it is lighter in comparison. The weight per 1 m ^{2 of the} laminated fabric used in the present invention is specifically 60 to 400 g / m ² , and preferably 80 to 200 g / m ² from the viewpoint of better workability and feeling of wearing. No. More specifically, when the laminated fabric used in the present invention does not include the second fabric layer, the weight per 1 m ^{2 of the} laminated fabric is more preferably 100 to 150 g / m ^2. , as the weight of 1 m ² per a long if the multilayer fabric may include a second fabric layer, more preferably include 120~200g / m ^2. As described above, since the laminated fabric used in the present invention is lightweight, when sewed as work clothes for fisheries workers, the body can be easily moved and excellent workability can be provided.

[Workwear for fishery workers]
-Construction of work clothes for fisheries workers The work clothes of the present invention are work clothes for fisheries workers sewn using the laminated fabric. In the present invention, a fishery worker is a business that captures naturally proliferating marine animals and plants (including amphibians) (for example, fishermen), and a business that artificially grows and harvests marine animals and plants (such as fisheries and plants). Aquaculture), other fisheries / fisheries-like services, and related services (eg, transportation and distribution).

  The work clothes of the present invention may be either work clothes for the upper body or work clothes for the lower body. Further, the work clothes of the present invention may be a link type work clothes in which the upper body part and the lower body part are integrated. As the work clothes of the present invention, it is preferable to provide a pair of work clothes for the upper body and work clothes for the lower body.

  The workwear for the upper body only needs to have at least a body part that covers the body part of the wearer, and a pair of sleeve parts that are continuously provided on the upper right and left sides of the body part and cover the arm of the wearer. The end of the sleeve may be a long sleeve extending to the vicinity of the wearer's wrist, or may be a short sleeve extending to the vicinity of the wearer's elbow or a part of the upper arm. Further, the workwear for the upper body may have a hood portion connected to the upper end of the body portion and covering the head of the wearer. By providing such a hood portion, it is possible to enhance the cold protection function and the wind protection function.

  In addition, the upper body preferably has an openable and closable fastener member so that the upper body can be easily dressed and undressed. The fastener member may be either a surface fastener or a line fastener.

  In the workwear for the upper body, the laminated fabric may be used for at least a part of the constituent members. That is, in the work clothes for the upper body, the laminated fabric may be used for at least a part of any of the trunk, the sleeve, and the hood provided as needed. However, in order to make the workwear for the upper body further improved in workability, wearing feeling and design, in the body part, the sleeve part, and the hood part provided as necessary, the laminated fabric is used. Is preferably used.

  The workwear for the lower body only needs to have at least a crotch covering the rise of the lower body of the wearer and a pair of legs connected to the lower left and right of the crotch and covering the legs of the wearer. In the workwear for the lower body, the ends of the legs may be long pants extending near the ankle of the wearer, and the ends of the legs may be near the knees or the thighs of the wearer. The shorts may extend to the section. In addition, the work clothes for the half body further connects to the crotch part, and the foresight part covering the abdomen or abdomen and at least a part of the chest of the wearer, and the front crotch part, covers the waist of the wearer. It may be an overall having a back view section, and a suspender section connecting the front view section and the rear view section. Further, it is preferable that the work clothes for the lower body is provided with a fastener member that can be opened and closed at the crotch portion so that clothes can be easily put on and taken off. The fastener member may be either a surface fastener or a line fastener.

  In the workwear for the lower body, the laminated fabric may be used for at least a part of the constituent members. That is, in the work clothes for the lower body, the laminated fabric may be used for at least one of the crotch and the leg. However, it is preferable that the laminated fabric is used in all of the crotch part and the legs in order to make the work clothes for the lower body with further improved workability, wearing feeling and design.

  The link-type work clothes may be configured such that a crotch portion of the lower body work clothes is continuously provided below a body portion of the upper body work clothes. Further, it is preferable that the body-type body and / or the crotch part be provided with an openable and closable fastener member so that the connection type work clothes can be easily dressed and undressed. The fastener member may be either a surface fastener or a line fastener.

  In the connection type work clothes, the laminated fabric may be used for at least a part of the constituent members. That is, it is only necessary that the laminated fabric is used in at least one part of the trunk, the sleeve, the crotch, the leg, and the hood provided as needed in the connection type work clothes. However, in order to make workwear for the lower body with further improved workability, wearing feeling, and design, all of the body, sleeves, crotch, legs, and hoods provided as necessary In the above, it is preferable that the laminated fabric is used.

  Further, in the work clothes for the upper body, the work clothes for the lower body, and the tethered work clothes, the body portion may be provided with a fastener member that can be opened and closed so that the clothes can be easily put on and taken off. preferable. The fastener member may be either a surface fastener or a line fastener.

-Fluorescent dye-colored material and / or retroreflective material The workwear of the present invention has a fluorescent dye-colored material on at least a part of its surface in order to enhance visibility and improve the safety of workers in the fishing industry. And / or a retroreflective material may be provided.

  There is no particular limitation on the site to which the fluorescent dye coloring material and / or the retroreflective material is applied. Specifically, as a part to which the fluorescent dye coloring material and / or the retroreflective material is applied, in the case of upper body work clothes, the body part, the sleeve part, and the hood part provided as necessary A part or all of the inside, preferably at least a part of a body part; in the case of work clothes for the lower body, a crotch part, a leg part, a foresight part, a back part, and a suspender part which are provided as necessary. A part or all of the part; in the case of a tethered work clothes, if it is part or all of the body part, sleeve part, crotch part, leg part, and hood part provided as necessary Good.

  For example, in the case of a workwear for the upper body having a hood portion, a suitable example of a portion to which the fluorescent dye coloring material is applied includes a surface of the hood portion and / or a sleeve portion, and a portion to which a retroreflective material is applied. Suitable examples include a hood portion and / or a sleeve portion. Further, when a fluorescent dye coloring material and / or a retroreflective material is attached to at least a part of the surface of the hood portion, portions of the hood portion corresponding to the frontal region, the crown, the occipital region, and the temporal region May be provided with a fluorescent dye coloring material and / or a retroreflective material, but preferably includes sites corresponding to the frontal region, the crown, and / or the occipital region. In addition, when a fluorescent dye coloring material and / or a retroreflective material is applied to at least a part of the surface of the sleeve portion, any of the upper arm portion, the forearm portion, and the portion corresponding to the wrist portion of the sleeve portion may have fluorescent light. Although a pigment coloring material and / or a retroreflective material may be provided, a portion corresponding to the upper arm portion is preferable.

  FIG. 2 shows an example in which a fluorescent dye coloring material and a retroreflective material are added to a workwear for an upper body having a hood. In FIG. 2, a portion corresponding to the upper arm of the sleeve portion, a portion corresponding to the forehead of the hood portion, and a portion corresponding to the region extending from the forehead to the neck are provided with a fluorescent dye coloring material. The portion corresponding to the back of the head and the portion corresponding to the upper arm of the sleeve are provided with a retroreflective material.

  Further, for example, in the case of a workwear for an overall lower body, preferred examples of the portion to which the fluorescent dye coloring material and / or the retroreflective material are attached include a foresight portion and / or a backsight portion. Can be More specifically, a preferred example of the portion to which the fluorescent dye coloring material is applied is a rear view portion, and a preferred example of the portion to which the retroreflective material is applied is a front view portion.

  FIG. 3 shows an example in which a fluorescent dye coloring material and a retroreflective material are added to an overall workwear for a lower body. In FIG. 3, a fluorescent dye coloring material is applied to the entire surface of the rear view portion, and a retroreflective material is applied to the front view portion.

  The shape of the fluorescent dye coloring material and / or the retroreflective material is not particularly limited, and examples thereof include dot, linear, checkered, turtle-shaped, letters, symbols, and patterns.

  The fluorescent coloring material is a material colored with a fluorescent dye, and specific examples thereof include a cloth, a paint, and a resin sheet dyed with the fluorescent dye. The fluorescent dye is not particularly limited, but preferably exhibits a fluorescent color that is easily visible from the viewpoint of enhancing visibility, and specifically, a green fluorescent dye, a yellow-green fluorescent dye, a yellow fluorescent dye, and a yellow fluorescent dye. -Orange fluorescent dyes, orange fluorescent dyes, orange-red fluorescent dyes, orange fluorescent dyes, red fluorescent dyes, and pink fluorescent dyes. Specifically, as the fluorescent coloring material with further improved visibility, (X, Y) is (0.026, 0.389), (0.170, 0.364), (0.285, 0.441) and (0.201, 0.776) which are within the range defined by the four points and exhibit a fluorescent green color having a luminance factor (βmin) of 0.33 or more. (X, Y) are (0.201, 0.776), (0.285, 0.441), (0.358, 0.494), and (0.387, 0) in the XY chromaticity coordinates; .610), indicating a fluorescent yellow-green color having a luminance factor (βmin) of 0.40 or more within a range defined by the four points; (X, Y) is (0. 387, 0.610), (0.356, 0.494), (0.398, 0.452), and (0. 460, 0.540) within a range defined by four points and having a luminance factor (βmin) of 0.70 or more; indicating fluorescent yellow; (X, Y) is (X, Y) in the XY chromaticity coordinates. 0.460, 0.540), (0.427, 0.493), (0.494, 0.426), and (0.545, 0.454). A fluorescent yellow-orange having a luminance ratio (βmin) of 0.50 or more; (X, Y) is (0.545, 0.454), (0.494, 0) in the XY chromaticity coordinates. .426), (0.544, 0.376), and (0.610, 0.390) in a range defined by the four points, and a luminance factor (βmin) of 0.40 or more. Indicates orange; (X, Y) is (0.610, 0.390) in XY chromaticity coordinates (0.544, 0.376), (0.579, 0.341), and (0.655, 0.345) are within the range defined by the four points, and the luminance factor (βmin) is 0. A fluorescent orange-red color having an XY chromaticity coordinate of (0.610, 0.390), (0.535, 0.375), (0.570, 0.340) and (0.655, 0.345) indicating a fluorescent orange having a minimum luminance coefficient (βmin) of 0.40 or more within a range defined by four points; XY chromaticity In the coordinates, (X, Y) is (0.655, 0.345), (0.570, 0.340), (0.595, 0.315), and (0.690, 0.310). Shows fluorescent red within a range defined by four points and having a luminance ratio (βmin) of 0.25 or more. And (X, Y) are (0.655, 0.345), (0.435, 0.335), (0.372, 0.272), and (0.495) in the XY chromaticity coordinates. , 0.155), and shows a fluorescent pink having a luminance factor (βmin) of 0.30 or more. Fluorescent dye coloring materials are known, and in the present invention, known fluorescent dye coloring materials can be used. In the present invention, the XY chromaticity coordinates and the luminance ratio (βmin) are measured using a spectrophotometer (MS-2020PL manufactured by Macbeth) using a D65 light source and the chromaticity coordinates and luminance of the cloth surface in accordance with the EN-ISO20471 standard. The value at which the rate is measured.

  The retroreflective material is a material that retroreflects incident light, and is a material that enhances visibility in dark areas (such as at night). As the retroreflective material, specifically, at least, a fixed resin layer, a transparent microsphere embedded in the fixed resin layer, and a layer provided between the transparent microsphere and the fixed resin layer A reflective layer, wherein the transparent microspheres have a refractive index of 1.6 to 2.5, and the transparent microspheres have an burying rate of 30 to 80% in the fixing resin layer. No.

  The fixed resin layer is a resin member that functions to embed and hold transparent microspheres. The transparent microsphere is a member that is embedded in the fixing resin layer via the reflective layer and has a function of transmitting incident light and output light that is regressively reflected by the reflective layer. The reflection layer is provided between the transparent microspheres and the fixing resin layer, and is a member that performs a function of regressively reflecting light incident from the transparent microspheres. The burying ratio (%) of the transparent microspheres in the fixed resin layer is represented by the formula: (X / R) × 100 [R: diameter of the transparent microspheres, X: uppermost part of the reflective layer on the incident light side. From the height to the lowermost part of the surface of the transparent microsphere embedded in the fixed resin layer side].

  The retroreflective material has an aspect in which transparent microspheres not embedded in the fixed resin layer are exposed on the surface (open type); the transparent microspheres not embedded in the fixed resin layer are formed of a transparent resin layer. A mode in which the transparent microspheres are coated so as to form a curved surface along the spherical surface (semi-open type); transparent microspheres not embedded in the fixed resin layer are coated with the transparent resin layer to form a surface. May be a flat surface (closed type) or the like. Retroreflective materials are known, and known retroreflective materials can be used in the present invention.

The retroreflective performance of the retroreflective material is, specifically, a retroreflective performance of 100 cd / lx / m ² or more when the incident angle of light from the light source is 5 ° and the observation angle is 12 ′. more preferably from 150cd / lx / m ² or more, more preferably more that 180~500cd / lx / m ^2, even more preferably 200~500cd / lx / m ^2, particularly preferably 250~500cd / lx / m ² .

  The fluorescent dye coloring material and / or the retroreflective material can be attached to at least a part of the surface of the work clothes of the present invention by sewing or bonding via an adhesive.

  Hereinafter, the present invention will be described specifically with reference to Examples, but the present invention is not limited thereto.

1. Evaluation method Water resistance and moisture permeability of the laminated fabric used to make the work clothes, visibility of the work clothes of the colored fluorescent material sewed on the work clothes, and retroreflectivity of the retroreflective material sewn on the work clothes Was evaluated by the following method.

(1) Water pressure resistance Water pressure resistance was measured in accordance with JIS L1092: 2009 "Method B for testing the waterproofness of textile products" (method B (high water pressure method)).

(2) Moisture Permeability The moisture permeability was measured according to the B-1 method (potassium acetate method) of JIS L1099: 2012 “Test method for moisture permeability of textiles”.

(3) Luminance Factor The XY chromaticity coordinates and the luminance factor of the fluorescent coloring material sewn on the work clothes were measured using a spectrophotometer (MS-2020PL manufactured by Macbeth) in accordance with the EN-ISO20471 standard.

(4) Retroreflectiveness A retroreflective material sewn on work clothes was cut into a size of 20 cm × 20 cm, and the retroreflective performance was evaluated under the conditions of an incident angle of 5 ° and an observation angle of 12 ′. The evaluation of the retroreflective performance was performed in accordance with the EN-ISO20471 standard.

(5) Visibility The visibility was evaluated visually from a position 60 m away from a person wearing work clothes (for the upper body of a long sleeve with a hood and for the lower body of long pants). The evaluation of visibility was performed in sunny weather, cloudy weather, and rainy weather, and was performed according to the following criteria.
Judgment criteria A : The visibility is extremely good in any of sunny, cloudy, and rainy weather.
：: The visibility in fine weather is good, but the visibility in cloudy weather and / or rainy weather is slightly reduced.
×: Visibility is poor in any of fine weather, cloudy weather, and rainy weather.

2. Work clothes using a laminated fabric having a first fabric layer and a moisture permeable waterproof layer
2-1. Preparation and preparation of work clothes <Example 1>
A plain woven fabric made by driving a polyamide 6 yarn composed of a fineness of 122 dtex / 24 filaments and driving a weft of 76 yarns / 2.54 cm in both wefts is prepared and subjected to desizing, dyeing, and further water-repellent treatment by a conventional method. A water-repellent plain fabric (cover factor: 1679, basis weight: 80 g / m ² ) (first fabric layer) of 80 / 2.54 cm in both wefts was obtained. The water-repellent treatment is to prepare a 5% aqueous dispersion of a fluorine-based water-repellent (Asahigard AG-E092 manufactured by Asahi Glass Co., Ltd.), apply a padding method, and after drying, heat treatment at 170 ° C. for 30 seconds Was.

Next, a 15 μm-thick polyester film (BREEZE TEX Type CS20-5-9 made by Aussie Film), which becomes a moisture-permeable waterproof layer, is bonded to one surface of the woven fabric together with an adhesive by thermocompression bonding, followed by aging treatment at 40 ° C. for 3 days. Thereafter, a laminated fabric (a laminated fabric in which the first fabric layer, the first adhesive layer, and the moisture-permeable waterproof layer are laminated) was obtained. Using a urethane resin-based hot-melt adhesive (Thai hose WT-004 manufactured by DIC Corporation), a 30 μm-thick gravure roll having a coating area of 80% was applied in a dot-like manner, and thermocompression-bonded as described above. The basis weight of the obtained laminated dough was 132 g / m ² .

  The above-mentioned laminated fabric was sewn to produce work clothes for the upper body (long-sleeve upper hood with a hood having the shape shown in FIG. 2) and work clothes for the lower body (overall-shaped long pants having the shape shown in FIG. 3). A fluorescent coloring material and a retroreflective material shown below were sewn to the sewn work clothes for the upper body and the work clothes for the lower body.

  As shown in FIG. 2, the upper body workwear has a portion corresponding to the upper arm of the sleeve, a portion corresponding to the forehead of the hood, and a portion corresponding to the region extending from the forehead to the nape. , A retroreflective material was sewn to the portion corresponding to the upper arm of the sleeve and the portion corresponding to the back of the hood.

  Also, as shown in FIG. 3, a fluorescent dye coloring material was sewn on the entire surface of the lower back work area, and a retroreflective material was sewn on the front view area.

  The fluorescent coloring material was produced by the following method. First, a plain woven fabric was prepared by driving a polyethylene terephthalate yarn composed of 56 dtex / 24 filaments with a warp density of 130 threads / 2.54 cm and a weft density of 100 threads / 2.54 cm. Next, the obtained plain fabric was desizing-processed by a conventional method, and then dyed with a fluorescent yellow disperse dye using a liquid jet dyeing machine to obtain a fluorescent coloring material. The obtained fluorescent coloring material (woven fabric) had a warp density of 138 threads / 2.54 cm and a weft density of 105 threads / 2.54 cm.

  As the retroreflective material, "MR-731BT" manufactured by Unitika Spark Light Co., Ltd. was used. The above-mentioned retroreflective material has an aspect (open type) in which transparent microspheres not embedded in the fixing resin layer are exposed on the surface, and the refractive index of the transparent microsphere is 1.93. The burying rate of the microspheres in the fixed resin layer is 46%.

<Comparative Example 1>
As a comparative example 1, Kurafuteru ^R FISHERMAN RAIN WEAR is a non-fluorescent color work clothes made of rubber, which are sold in the market (basis weight of 250g / m2, non-fluorescent color, Publisher: Kawashima Shoji Co., Ltd.) was prepared.

2-2. Table 1 shows the evaluation results . Since the work clothes of Example 1 were sewn with a laminated fabric including the first fabric layer made of synthetic fibers and the moisture-permeable waterproof layer, the work clothes had excellent workability and a feeling of wearing. . Further, the work clothes of Example 1 are particularly excellent in design and safety because a fluorescent coloring material and a retroreflective material are applied to specific portions as shown in FIGS. there were. On the other hand, the work clothes of Comparative Example 1 were rubber non-fluorescent work clothes and did not have a moisture-permeable waterproof layer, and thus were inferior in workability, wearing feeling, design and safety. there were.

3. Work clothes using a laminated fabric having a first fabric layer, a moisture-permeable waterproof layer, and a second fabric layer
3-1. Preparation of work clothes <Example 2>
The urethane resin-based hot melt adhesive (DIC) is provided on the moisture-permeable waterproof layer side of the laminated fabric (the laminated fabric in which the first fabric layer, the first adhesive layer, and the moisture-permeable waterproof layer are laminated) manufactured in Example 1. Co., Ltd. Thai hose WT-004) was applied by a gravure roll having an application area of 80% so as to have a thickness of 30 μm, and a tricot knitted fabric was bonded as a backing fiber fabric by thermocompression bonding. This tricot knitted fabric uses nylon filament (20 dtex) for the front reed and the back reed, has a density of 51 courses / 2.54 cm, 33 wales / 2.54 cm, and has a basis weight of 64 g / m ² . there were. After aging treatment at 40 ° C. for 3 days, the laminated fabric (the laminated fabric in which the first fabric layer, the first adhesive layer, the moisture-permeable waterproof layer, the second adhesive layer, and the second fabric layer are laminated) is removed. Obtained.

  Using the obtained laminated fabric, under the same conditions as in Example 1, a work clothes for the upper body and a work clothes for the lower body to which the fluorescent coloring material and the retroreflective material were sewn were produced.

3-2. When the water resistance and the moisture permeability of the obtained laminated fabric were measured, the values were almost the same as those of the laminated fabric used in Example 1. In addition, the work clothes of Example 2 also had excellent workability and wearability, and were also excellent in design and safety (visibility).

REFERENCE SIGNS LIST 1 moisture-permeable waterproof layer 2 first fabric layer 3 second fabric layer 4 first adhesive layer 5 second adhesive layer 6 fluorescent coloring material 7 retroreflective material

Claims (11)

  A workwear for a fishing industry worker, comprising a laminated fabric having a moisture-permeable waterproof layer and a first fabric layer composed of synthetic fibers and / or natural fibers.   The workwear for a fishing industry worker according to claim 1, wherein the first fabric layer is made of polyamide fiber. JIS L1099: 2012 B-1 method of "moisture permeability test method of fiber product" is measured according to (potassium acetate method), moisture permeability of the laminated fabric, is 5000g / m ² · 24hr or more, wherein Item 4. The work clothes for fishery workers according to item 1 or 2.   The water resistance of the laminated fabric is 150 kPa or more, as measured in accordance with JIS L1092: 2009 "Method B for testing waterproofness of textile products" (method B (high water pressure method)). Work clothes for fisheries workers as described in.   The workwear for a fishing industry worker according to any one of claims 1 to 4, which is a workwear for an upper body.   The workwear for a fishing industry worker according to any one of claims 1 to 4, wherein the workwear is a workwear for a lower body.   The workwear for a fishing industry worker according to any one of claims 1 to 6, wherein at least a part of the surface of the workwear is provided with a fluorescent coloring material and / or a retroreflective material. Work clothes at least
A torso that covers the torso of the wearer,
A pair of sleeves that are continuously provided at the upper left and right of the body part and cover the wearer's arm,
8. The fishery worker according to claim 7, wherein the upper body is a workwear for the upper body, and at least the fluorescent coloring material and / or the retroreflective material is attached to at least a part of the surface of the body. Work clothes for the elderly. The workwear for the upper body has a hood portion connected to an upper end portion of the torso portion and covering a wearer's head, and the fluorescent coloring material and / or the retroreflective material is The workwear for a fishery worker according to claim 8, which is attached to at least a part of the surface of the hood portion. Work clothes at least
A crotch covering the rise of the lower body of the wearer,
A pair of legs connected at the lower left and right of the crotch and covering the wearer's legs,
Connected to the crotch portion, and the foremost part covering the abdomen or abdomen and at least part of the chest of the wearer,
Rear view part connected to the crotch part and covering the waist of the wearer,
A workwear for a lower body having a suspender section connecting the front view section and the rear view section, and the fluorescent coloring material and at least a part of a surface of the front view section and / or the rear view section. The workwear for a fishery worker according to claim 7, wherein the workwear includes a retroreflective material. The retroreflective material is at least,
A fixing resin layer,
Transparent microspheres embedded in the fixing resin layer,
Having a reflective layer provided between the transparent microspheres and the fixed resin layer,
The refractive index of the said transparent microsphere is 1.6-2.5, and the burying rate of the said transparent microsphere in the said fixed resin layer is 30-80%, The any one of Claims 7-10. Work clothes for fisheries workers as described in.