RU13043U1 - NON WOVEN VOLUME HEAT INSULATION MATERIAL - Google Patents

Abstract

1. Non-woven bulk heat-insulating material containing a fibrous mixture of several varieties of synthetic fibers, including low-melting fibers, bonded by a partially melted polymer of the latter, characterized in that it is multilayer, in which at least one layer is made of foil material. A material according to claim 1, characterized in that the foil material is made of aluminized dacron film. The material according to PP. 1 and 2, characterized in that the foil material is provided with perforations in the form of through holes. 4. The material according to PP. 1-3, characterized in that wrinkles are made on the surfaces of the foil material. 5. The material according to PP. 1-4, characterized in that the foil material is located at least between two layers of the fibrous mixture. The material according to PP. 1-4, characterized in that the foil material is located outside the fibrous mixture. A material according to claim 1, characterized in that polyester fibers are used as the synthetic component of the fiber mixture. A material according to claim 1, characterized in that dacron fibers are used as the synthetic component of the fiber mixture. A material according to claim 1, characterized in that non-siliconized fibers are used as the synthetic leaving fiber mixture. A material according to claim 1, characterized in that hollow siliconized polyester fibers are used as the synthetic component of the fiber mixture. A material according to claim 1, characterized in that bicomponent fibers, in which one of the components is made of

Description

Non-woven volumetric insulating

The technical solution relates to the textile industry, in particular to non-woven materials, primarily used as insulation in clothes and shoes, sleeping bags, quilts, as well as fillers in upholstered furniture, etc. products.

Known non-woven three-dimensional heat-insulating material made of a mixture of natural wool and low-melting synthetic fibers bonded with a partially tinted polymer of the latter (German application laid out No. 4330550, MKP D 04 H 1/42, 1995).

However, this known material is not suitable for use as insulation in clothes, shoes, sleeping bags and other products due to the low resistance to the effects of dynamic loads arising from the operation of these products. In addition, the known material does not have the effect of a thermos, which reduces its consumer properties.

The objective of the proposed utility model is to create a bulk non-woven heat-insulating material with high thermal insulation properties in combination with sufficient wear resistance and elasticity, allowing it to be used in clothes, shoes, furniture, etc. products.

This problem is solved by the fact that the non-woven bulk heat-insulating material contains a fibrous mixture of several varieties of synthetic fibers, including low-melting fibers, bonded by a partially melted polymer of the latter. For this material vyMPKO04N1 / 42, 1/54

MATERIAL

full multilayer, in which at least one layer is made of foil material. As variants of a specific embodiment, the foil material may be made of aluminized dacron film, be perforated through holes, and have wrinkled surfaces. Typically, the foil material is located between two layers of the fibrous mixture. As the synthetic constituent of the mixture, polyester fibers, lavsan fibers, non-siliconized fibers, hollow siliconized polyester fibers, polypropylene fibers or any other synthetic fibers can be used. In addition, as the fusible synthetic fibers, the fiber mixture may contain bicomponent fibers in which one of the components is made of a polymer with a melting point lower than the melting temperature of the polymer of the other component of the mixture.

The technical result of the proposed utility model is the creation of a new non-woven three-dimensional heat-insulating material with enhanced heat-insulating and hygienic properties, having the effect of a thermos due to the presence of a shielding layer of foil material in it, which has increased resistance to washing and dry cleaning. At the same time, the proposed material has the ability to maintain its bulk and elasticity, the recoverability of the thickness of the material when exposed to dynamic multi-cycle loads.

The essence of the utility model is illustrated in the drawing, which shows:

FIG. 1 is a cross-sectional diagram of a multilayer non-woven bulk heat-insulating material with a foil layer between the fibrous layers;

figure 2 is a micrograph of a foil layer with through perforations;

FIG. 3 is a micrograph of the outer surface of a non-woven heat-insulating layer.

The proposed non-woven bulk multilayer heat-insulating material is made of a fibrous mixture consisting of several, for example, three grades of synthetic materials, including low-melting synthetic fibers. It contains two outer layers 1 and 2 and a foil material 3 located between them, which has a perforation in the form of through holes 4. The surfaces of the foil material 3 are provided with wrinkles 5 obtained by heat shrinkage of fusible synthetic fibers. The material is bonded by a partially melted polymer of fusible synthetic fibers.

As options for a specific embodiment, the foil material may be made of aluminized lavsan film, which can be located both inside between two layers of the fibrous mixture and on the outside on one or both sides. The presence of such a shielding foil material provides the inventive material with the effect of a thermos, which gives it new consumer properties. The presence of wrinkles on the surfaces of the foil material prevents it from cracking under dynamic influences, which enhances its strength properties.

As the synthetic component of the fiber mixture, polyester fibers, lavsan fibers, non-siliconized fibers, hollow siliconized polyester fibers, polypropylene fibers or any other synthetic fibers can be used. In addition, as the fusible synthetic fibers, the fibrous mixture may contain bicomponent fibers in which one of the components is made of a polymer with a melting point lower than the melting temperature of the polymer of the other component of the mixture.

Due to the good adhesion of the melted polymer of fusible synthetic fibers to polyester fibers during the operation of the material, which is usually carried out in a package with front and lining webs, its high strength and wear resistance are ensured, while its bulkiness and elasticity are maintained, which in turn leads to its high heat-shielding properties and the ability to restore the thickness of the material when exposed to dynamic multi-cycle loads.

The surface density, thickness and ratio of the components of the fibrous mixture are selected depending on the specific purpose of the material (for clothes, sleeping bags, blankets, shoes, furniture) and the climatic conditions of use of the products using according to the utility model. In general, the surface density is in the range of 80-300 g / m, the thickness is 4-20 mm.

Applicant Author: Yu.I. Borisov

/ by proxy .A. Glushkov

Claims (11)

1. Non-woven bulk heat-insulating material containing a fibrous mixture of several varieties of synthetic fibers, including low-melting fibers, bonded by a partially melted polymer of the latter, characterized in that it is multilayer, in which at least one layer is made of foil material.  2. The material according to p. 1, characterized in that the foil material is made of aluminized lavsan film.  3. The material according to paragraphs. 1 and 2, characterized in that the foil material is provided with perforations in the form of through holes.  4. The material according to paragraphs. 1-3, characterized in that wrinkles are made on the surfaces of the foil material.  5. The material according to paragraphs. 1-4, characterized in that the foil material is located at least between two layers of the fibrous mixture.  6. The material according to paragraphs. 1-4, characterized in that the foil material is located outside the fibrous mixture.  7. The material according to claim 1, characterized in that polyester fibers are used as the synthetic component of the fibrous mixture.  8. The material according to p. 1, characterized in that as the synthetic component of the fibrous mixture used lavsan fibers.  9. The material according to claim 1, characterized in that non-siliconized fibers are used as the synthetic leaving fiber mixture.  10. The material according to p. 1, characterized in that as the synthetic component of the fibrous mixture used hollow siliconized polyester fibers. 11. The material according to claim 1, characterized in that bicomponent fibers are used as the synthetic component of the fiber mixture, in which one of the components is made of a polymer with a melting point lower than the melting temperature of the polymer of the other component of the mixture.