RU132807U1 - NONWOVEN QUILTED TEXTILE MATERIAL - Google Patents

Abstract

1. Non-woven quilted textile material in the form of a layer of bulk fiber, duplicated on each side by a layer of polypropylene fabric, characterized in that at least one of the sides of at least one of the layers of the said fabric is coated metallized. The material according to claim 1, characterized in that the polypropylene fabric has a density of 14-30 g / m. The material according to claim 1, characterized in that the metallized coating is applied to the outer side of one of the layers of the polypropylene fabric. The material according to claim 1, characterized in that the metallized coating is applied to the outer side of each layer of the polypropylene fabric. The material according to claim 1, characterized in that the metallized coating is applied to the inner side of one of the layers of the polypropylene fabric. The material according to claim 1, characterized in that the metallized coating is applied to the inner side of each layer of polypropylene fabric. The material according to claim 1, characterized in that the metallized coating is applied on both sides of one of the layers of the polypropylene fabric. The material according to claim 1, characterized in that the metallized coating is applied on both sides of each layer of polypropylene fabric.

Description

This product relates to textile materials used in light industry, preferably in the garment industry for the manufacture of outerwear.

In climatic conditions of temperate and northern latitudes, its heat-protective properties are of particular importance for clothing. Clothing, protecting the human body from adverse external influences, helps to maintain its performance and health.

The modern experience of enterprises engaged in sewing winter and demi-season outerwear (household, sports, special, uniform), indicates the widespread use of voluminous non-woven textile materials in it. Their main purpose is insulation of clothes. They can be made of various natural or artificial and synthetic fibers, as well as their combinations.

Known multilayer textile material [1]. It contains at least two layers formed and heat-treated under pressure with compaction of the formed material by double-sided piercing with needles with the material turning over. One of the layers includes a continuous web of threads, and at least the second consists of an arbitrary number of flat and thread-like pieces of various sizes, stacked one on top of the other or placed one between the other. On the outside of the material, by immersing needles over the entire thickness of the material, loops of filaments and fibers of the layer components are formed.

An obvious disadvantage of this material is the low adaptability of the process for producing such a material. Due to the different sizes of the pieces and their location in the finished material, the production process of this material is difficult to automate, which ultimately affects the cost of the material. In addition, it is difficult to predict the heat-shielding characteristics of such a material.

According to the purpose and technical solution, the closest to the claimed utility model (prototype) is a warming non-woven textile material [2], which consists of a bulk fibrous base formed by combing and laying out the initial fibers into the layer, and two layers (one layer each side of the reservoir) spanbond-type polypropylene fabric. As a result of flashing a bulk fibrous base with layers of polypropylene fabric, the resulting material acquires the ability to maintain its shape. In addition, the layers of polypropylene fabric prevent the migration of fibers to the surface of the finished garment and increase its heat-shielding properties.

The specified insulation non-woven textile material has a significant drawback - relatively low heat-shielding properties. To create an insulated outerwear, it is desirable to use a textile insulating material with high heat-shielding properties. It is important that the increase in heat-shielding properties does not occur due to the increase in mass or thickness of the used non-woven material. Otherwise, the sewing product becomes heavier and its consumer qualities (elasticity, drape, lightness) are worsened.

The problem solved by the claimed utility model is to obtain a non-woven textile material having improved heat-shielding properties.

This problem is solved due to the fact that in a non-woven quilted textile material, which is a layer of bulk fiber, duplicated on each side by a layer of polypropylene fabric, at least one of the sides of at least one of the layers of the polypropylene fabric is coated .

In a preferred embodiment of the inventive utility model, the polypropylene fabric has a density of 14-30 g / m ² .

The metallized coating can be performed on one or both sides of the polypropylene fabric. Therefore, the claimed material can be implemented in the following options:

- a metallized coating is applied to the outside of one of the layers of the polypropylene fabric,

- a metallized coating is applied to the outside of each layer of polypropylene fabric,

- a metallized coating is applied to the inner side of one of the layers of the polypropylene fabric,

- a metallized coating is applied to the inner side of each layer of polypropylene fabric,

- a metallized coating is applied on both sides of one of the layers of the polypropylene fabric,

- a metallized coating is applied on both sides of each layer of polypropylene fabric.

The metallized coating has a high reflection coefficient of heat rays, shielding the heat flux coming in this case from the human body. (This thermodynamic regularity is widely used for the purpose of technical thermal insulation.) At the same time, the metallized polypropylene fabric (like any physical body) is inherent in the process of absorption of heat emanating from an object with a higher temperature, and heat transfer to a low-temperature object. In addition, the structure of a polypropylene fabric, for example, of the “spunbond” type, in a bag with a bulk fiber provides a certain air, vapor and moisture permeability, thereby removing heat outside. However, the thermal resistance provided by the non-woven quilted material with a metallized polypropylene fabric significantly exceeds its thermal conductivity, thereby creating a barrier effect between the clothing area and the environment, which is functionally required from a high-quality textile insulation.

The choice of density of polypropylene fiber is due to the following. With a density of less than 14 g / m ^{2, the} web will be very thin and will not create a frame, and with a density of more than 30 g / m ^{2 the} web will be very heavy and economically disadvantageous.

Figure 1 shows a preferred embodiment of a nonwoven textile material with a polypropylene fabric metallized on both sides. Figure 2 presents the scheme of operation of the claimed material.

The inventive material includes a layer of bulk fiber 1, forming the inner base of the insulating non-woven material, and layers of polypropylene cloths 2, reinforcing both surfaces of the layer of fiber 1 over its entire area. Metallized coating 3 is applied to the layers of polypropylene cloths 2, while all the layers are fastened together by the stitching method with threads 4 (the conditional stitch pattern is “zigzag”.

The metallization of the reinforcing polypropylene fabric can be performed by spraying (condensation) in a thermal vacuum metallizer of microparticles of metal on a polypropylene fabric. This option is more preferable than heat sealing (lamination) of a polymer metallized film with a polypropylene fabric, since it does not block the porosity of the nonwoven material, allowing it to retain its ventilating qualities.

The heat-shielding properties of the claimed design of a non-woven quilted material with a metallized polypropylene fabric will depend on the specific production design of this product: 1) on the metal used to metallize the polypropylene fabric; 2) the density of the used polypropylene fabric in the above range of 14-30 g / m ² ; 3) on the type of fibers used in the non-woven bulk layer (synthetic, artificial, natural, mixed), their composition (polyester, acrylic, viscose, linen, wool, cotton, etc.) and their qualitative and quantitative parameters; 4) the density of the fibrous canvas and the method of its formation in the reservoir; 5) on how the bulk fiber layer and the metallized polypropylene fabric are interconnected. Given the significant thermal resistance of the air in the layer between the fibers, the thermodynamic system formed by the combination of a bulk non-woven material from fibers and a flat non-woven material from a metallized polypropylene fabric creates a high total heat-shielding result.

The tests confirmed that, ceteris paribus (composition and type of fibers, method of fixing them, density of the fibrous canvas, design of the finished product in which this insulation is used, environmental factors), the thermal protection characteristics of the non-woven quilted material with a metallized polypropylene fabric are higher than analogues using non-metallized polypropylene fabric.

Information sources.

[one]. RU 2278191 C2, publ. 06/20/2006

[2]. Textile industry. - 2008. - No. 10 - p. 28-29

Claims (8)

1. Non-woven quilted textile material in the form of a layer of bulk fiber, duplicated on each side by a layer of polypropylene fabric, characterized in that at least one of the sides of at least one of the layers of the said fabric is coated with a metallized coating. 2. The material according to claim 1, characterized in that the polypropylene fabric has a density of 14-30 g / m ² . 3. The material according to claim 1, characterized in that the metallized coating is applied to the outer side of one of the layers of the polypropylene fabric. 4. The material according to claim 1, characterized in that the metallized coating is applied to the outer side of each layer of polypropylene fabric. 5. The material according to claim 1, characterized in that the metallized coating is applied to the inner side of one of the layers of the polypropylene fabric. 6. The material according to claim 1, characterized in that the metallized coating is applied to the inner side of each layer of polypropylene fabric. 7. The material according to claim 1, characterized in that the metallized coating is applied on both sides of one of the layers of the polypropylene fabric. 8. The material according to claim 1, characterized in that the metallized coating is applied on both sides of each layer of polypropylene fabric.

Images