RU2664824C1 - Multi-layer package of materials for outerwear - Google Patents

Abstract

FIELD: satisfaction of human vital requirements.SUBSTANCE: invention relates to light industry and can be used for making outerwear for adults and children. Multi-layer package of materials for outerwear includes four layers of materials. Upper layer is made of raincoat with water-repellent impregnation. Second layer is a polyester fiber insulation. Third layer is made in the form of a polyester mesh made of polypropylene. Lower layer is made in the form of a membrane of foamed polytetrafluoroethylene. In this case, the first three layers – the upper, the second and the third, are connected together using a multi-needle stitch.EFFECT: increase the hydrophobicity, thermal insulation and breathing of a multi-layered package of materials.6 cl, 6 dwg

Description

The invention relates to light industry and can be used for the manufacture of outerwear for adults and children.

Known top heat-saving clothing, for the manufacture of which a multilayer package of materials is used, including top material, lining material, a layer of insulation material. A layer of insulation material is placed between the top material and the lining. The layer of insulation material has a characteristic surface. One site with increased thermal insulation ability, including a layer of insulation material having a characteristic surface, is provided with a lining made of transparent material (RF Patent No. 142643, IPC A41D 13/00, published on June 27, 2014).

In the known solution, a low-elastic insulation material is used, which gives volume to the product, “bloating”, the product is characterized by high air permeability.

Also known is a multilayer package of materials for outerwear, including four layers: the upper woven twill weave of polyester and viscose fibers and the lower layer of a polyamide warp knitted knit fabric of weaving. Between the upper and lower layers there is a bicomponent laminate membrane from a dry-wet deposited method on a polytetrafluoroethylene membrane of a polyether urethane coating. The lower knitted layer is connected to the polyester urethane coating with polyurethane adhesive (RF Patent No. 2167702, IPC B01D 71/36, publ. 05.27.2001 - prototype).

A disadvantage of the known technical solution is not the ability to simultaneously provide water-repellent properties, heat and breathability of a multilayer package of materials.

The technical result of the claimed invention is to increase the hydrophobicity, thermal insulation and breathability of a multilayer package of materials.

To achieve the specified technical result in a multilayer package of materials for outerwear, including four layers of materials according to the invention, the upper layer is made of raincoat with water-repellent impregnation, the second layer is a polyester fiber insulation, the third layer is made of polypropylene polyester mesh and the lower layer is made in the form of a membrane of foamed polytetrafluoroethylene, while the upper, second and third layers are interconnected using multi-needle stitches.

Moreover, the upper layer of raincoat fabric has a density of 30-500 g / m ² .

The layer of insulation made of polyester fiber has a density of 50-600 g / m ² .

The third layer in the form of a polyester mesh has a density of 5-30 g / m ² .

The lower layer in the form of a membrane of foamed polytetrafluoroethylene is made with a thickness of 5-30 μm, a density of 0.00015 g / m ² , water permeability of 5000-20000 mm H ₂ O per 1 m ² and steam removal of 5000-20000 g H ₂ O per 1 m ² for 24 hours

To connect the upper, second and third layers, threads of synthetic fibers are used.

The implementation of the first (upper) high-quality layer of raincoat fabric (physico-mechanical and other indicators correspond to GOST 28486-90) with water-repellent properties to create a capsule package allows to improve thermal insulation (a wet fabric removes heat faster), and also ensures the preservation of the qualities and properties of the insulation . In addition, the raincoat fabric has wind-retaining properties, but it is breathable. When creating a water-repellent coating on raincoat fabric, environmentally friendly materials are used. The density of the upper layer may be from 30 to 500 g / m ² .

The implementation of the second layer - insulation made of 100% polyester fiber (all indicators comply with TU 8391-011-18130826-2015), allows you to reliably maintain heat and ensure comfort and freedom of movement. The insulation has a small weight and volume, so that products with it are very convenient for sewing and operation. At the same time, the material “breathes” even under intense loads. This is explained by the structure of the insulation, consisting of separate fibers, which on one side repel each other, and on the other, under pressure, can be tightly pressed against each other. Products with it are easy to wash and dry quickly. The material does not cause allergic reactions and is 100% safe for health. Its environmental safety is certified by Oeko-Tex® Standart 100 Class I "Confidenceintextiles". The density of the second layer (insulation) can be from 50 to 600 g / m ² .

The implementation of the third layer in the form of a polyester mesh (non-woven material) of 100% polypropylene allows, first of all, to protect the membrane (lower layer) from damage by insulation fibers during calendering. The polyester mesh has increased strength and resistance to heat. In addition, the polyester mesh provides additional thermal insulation without violating the breathability of the multilayer (capsule) package. The density of the third layer can be from 5 to 30 g / m ² .

The implementation of the fourth (lower) layer in the form of a membrane of 100% foamed polytetrafluoroethylene provides complete wind insulation. The membrane is an innovative material of a new generation. The main distinguishing feature of the membrane is the presence of micropores, which are 20,000 times smaller than a drop of water, but 700 times larger than a vapor molecule. Thus, drops of water do not penetrate clothes, but at the same time body moisture vapor easily evaporates and is brought out, providing the most comfortable body temperature. The lower layer may have a thickness of 5-30 μm, a density of 0.00015 g / m ² , water permeability of 5000-20000 mm H ₂ O per 1 m ² and steam removal of 5000-20000 g H ₂ O per 1 m ² for 24 hours.

The use of multi-needle stitches for connecting the first three layers to each other increases the thermal quality of the multilayer (capsule) package by holding the layers together and creating additional useful volume. Also, this type of processing increases the aesthetic appeal of the fabric and makes it more practical when sewing and operating products.

In the manufacture of layers of a multilayer package of materials, the calendering method can be used (skipping fabric between the system of heated steel shafts) - finishing to smooth, densify the fabric, giving it smoothness, glossy shine.

To connect the layers using multi-needle stitches, threads of synthetic fibers, for example, of lavsan, can be used.

The combination of functions of each layer provides the highest protection for a person from outside cold (which eliminates hypothermia), as well as the removal of body vapor (eliminating overheating and unpleasant sensations due to sweating), creating an optimally comfortable body temperature, which is especially important when sewing children's clothes. Due to the special qualities of each of the layers, as well as their correct sequence, the proposed combined multilayer (capsule) thermal package has unique qualities that combine hydrophobicity, thermal insulation and breathability.

The invention is illustrated by the following graphic materials:

in FIG. 1 shows the structure of a multilayer package of materials for clothing in the context;

in FIG. 2 shows a photo of the upper layer of raincoat fabric;

in FIG. 3 shows a photo of the layer (insulation) under the microscope;

in FIG. 4 shows a photo of a layer (polyester mesh) under a microscope;

in FIG. 5 shows a photo of a layer (membrane) under a microscope;

in FIG. 6 shows the connection of layers using multi-needle stitches.

A multilayer package of materials for outerwear (Fig. 1) is a capsule package of four layers of material: the first (upper) layer 1 is made of raincoat with water-repellent impregnation, the next layer 2 is a polyester fiber insulation, layer 3 is made in the form of a polyester mesh made of polypropylene, the fourth (lower) layer 4 is made in the form of a membrane of foamed polytetrafluoroethylene.

Due to water-repellent impregnation, layer 1 made of raincoat fabric does not absorb water - water droplets will roll off the outer surface of raincoat fabric (see photo in Fig. 2).

The structure of the insulation (layer 2), consisting of individual fibers (see photo in Fig. 3), allows you to reliably keep heat.

In FIG. 4 shows a photo of a polyester mesh (layer 3) under a microscope, which has increased strength and resistance to heat.

In FIG. Figure 5 shows a photo of the membrane (layer 4) under a microscope with micropores, thanks to which the membrane does not pass water droplets through the clothes, but allows vapor of body moisture to evaporate and bring them out.

The three upper layers - layer 1, layer 2 and layer 3 are interconnected using multi-needle stitches 5 (see photo in Fig. 6) using a thread of synthetic fibers.

The range of fabrics produced is a huge number of options, depending on the type of raincoat fabric, insulation, stitch patterns and digital printing design. The thickness of the insulation is selected depending on the climatic zones.

The claimed multilayer package of materials for can be used for the production of everyday outerwear and sportswear for children and adults. From the proposed fabric material, for example, products such as a jacket or overalls can be produced. The proposed material can be used for the production of outerwear for children from 3 to 14 years.

Products made from the proposed multilayer material package have been tested. The products comply with the customs regulations of TS 007/2011 "On the safety of products intended for children and adolescents" (Declaration of Conformity TS N RU D-RU.AB50.V.01763 and TS No. RU D-RU.TP05.V.09640), produced in compliance with environmental standards.

Thus, the proposed composition, sequence of arrangement and manufacturability of its individual components provides unique properties of the entire multi-layer capsule package of materials for clothing, which allows for increased thermal insulation, water repellency, breathability, vapor removal, softness and elasticity (tactile advantages), as well as lightness, strength, wear resistance and ease of use in the clothing industry.

Claims (6)

1. A multilayer package of materials for outerwear, including four layers of materials, characterized in that the upper layer is made of raincoat with water-repellent impregnation, the second layer is a polyester fiber insulation, the third layer is made of polypropylene polyester mesh and the bottom layer is made in the form of a membrane of foamed polytetrafluoroethylene, while the upper, second and third layers are interconnected using multi-needle stitches. 2. A multilayer package of materials for outerwear according to claim 1, characterized in that the upper layer of raincoat fabric has a density of 30-500 g / m ² . 3. A multilayer package of materials for outerwear according to claim 1, characterized in that the insulation made of polyester fiber has a density of 50-600 g / m ² . 4. A multilayer package of materials for outerwear according to claim 1, characterized in that the third layer in the form of a polyester mesh has a density of 5-30 g / m ² . 5. A multilayer package of materials for outerwear according to claim 1, characterized in that the lower layer in the form of a membrane of foamed polytetrafluoroethylene is made of 5-30 μm thick, density - 0.00015 g / m ² , water permeability - 5000-20000 mm H ₂ O for 1 m ² and steam removal - 5000-20000 g of H ₂ O for 1 m ² for 24 hours 6. A multilayer package of materials for outerwear according to claim 1, characterized in that for the connection of the upper, second and third layers, threads of synthetic fibers are used.

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