RU9227U1 - NON WOVEN VOLUME HEAT INSULATION MATERIAL - Google Patents

Abstract

1. Non-woven bulk heat-insulating material made of a fibrous mixture containing natural wool and low-melting synthetic fibers, bonded with a partially melted polymer of the latter, located mainly at the contact points of the low-melting synthetic fibers with each other and with the other fibers of the fiber mixture, characterized in that the fiber mixture is additionally contains polyester fibers. 2. The material according to claim 1, characterized in that, as the polyester fibers, the fibrous mixture contains dacron fibers. The material according to claim 1, characterized in that, as the polyester fibers, the fibrous mixture contains hollow, mainly siliconized polyester fibers. A material according to claims 1 to 3, characterized in that the fibrous mixture contains polypropylene fibers as low-melting synthetic fibers. A material according to claims 1 to 3, characterized in that, as fusible synthetic fibers, the fiber mixture contains biocomponent 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.

Description

NONWOVEN VOLUME TENLONZOLATION

The technical field to which the utility model relates. The proposed utility model relates to the textile industry, in particular to non-woven materials, mainly used as insulation in clothes and shoes, sleeping bags, quilted blankets, as well as folders in upholstered furniture, etc. . products.

Known non-woven volumetric heat-insulating material Sherstapon, used as insulation in clothes, made of a mixture of woolen and dacron fibers contained in the required proportions, fastened with a binder as the second solution used polyvinyl acetate dispersion, (see RF Patent No. 2055959, MKI D04N , publ. 03/10/96)

A disadvantage of the known material is the increased stiffness caused by the use of a liquid polymer binder, as well as the environmental difficulties associated with its use, expressed in the need to purify air and wastewater from harmful emissions and impurities during the manufacturing process of the material.

Also known non-woven bulk heat-insulating material made of a mixture of natural wool and low-melting synthetic fibers, bonded with partially melted polymer of the latter, located mainly in the places of their contact with each other and with the fibers of wool. (see German application laid out No. 4330550, MKI DO4n 1/42, publ. 2.03.1995). By the totality of the characteristics, this material is closest to the proposed one and is taken as a prototype. This material, possessing the necessary heat-insulating properties, can be successfully used as volumetric thermal gaskets during the construction of buildings, where it is exposed | fJ

D04H 1/42; 1 54

MATERIAL

State of the art

WIIW only static and loads. At the same time, this material is not irrigode to be used as insulators in clothes, shoes, sleeping bags, and wearers in upholstered furniture and urban settlements. products due to the low resistance to the effects of dynamic multi-cycle loads arising during the operation of these products, caused by insufficient adhesion of a partially unclosed polymer of low-melting synthetic fibers to wool fibers.

Sush: utility model nost

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

This problem is solved due to the fact that in the non-woven bulk heat-insulating material made of a fibrous mixture containing natural wool and low-melting synthetic fibers, with a clamping part partially melted by the latter polymer, the fibrous mixture additionally contains polyester fibers. At the same time, the partially sub-titled low-melting synthetic fiber nolimer is located mainly at the points of their contact with each other and with the other fibers of the fiber mixture. As the nioether fibers, lavsan fibers can be used. In another embodiment, hollow, predominantly siliconized nolyester fibers can be used as polyester fibers. As fusible synthetic fibers, polypropylene fibers can be used. According to a preferred embodiment, bicomponent fibers can be used as light-melting synthetic 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.

List of drawings

The figure schematically shows a cross section of a non-woven three-dimensional teno-insulating material, according to a utility model.

Information confirming the feasibility of implementing the noble model

As shown in the figure, the non-woven bulk teno-insulating material is made of a fibrous mixture of natural wool 1, polyester fibers 2 and low-melting synthetic fibers 3. The material is sealed with partially sub-alloy polymer 4, low-melting fibers 3. The melted polymer 4 of these fibers is located mainly at the points of contact between themselves and with fibers 1 and 2.

Due to the good adhesion of the non-fused nolymer 4 of low-melting synthetic fibers 3 to polyester fibers 2 and, at the same time, OIHO, relatively low adhesion to wool fibers 1 during the ex-atapia of the material, which is usually carried out in a bag with front and lining fabrics, its high strength and wear resistance are ensured with simultaneous maintaining its bulkiness and elasticity, which in turn determines its high heat-resistant properties and the ability to restore the thickness of the material when exposed to dyne Amic multi-cycle loads. The high bulk of the material is ensured, also by the location of the partially no-melted polymer 4 fiber 3, mainly in the places of their contact with each other and with fibers 1 and 2.

As the polyester fibers, for example, lavsan fibers can be used.

The use of hollow, preferably silicone-coated polyester fibers, which can be taken out for example by the Mogilev PO Khimvolokno.

Polypropylene fibers can be used as low-melting, synthetic fibers. More preferred as fusible synthetic fibers is the use of biocomponent fibers in which one of the compopens is made of a polymer with a lower temperature than the melting temperature of the polymer of the other component. As such fibers, for example, biocomponent fibers of the core-shell type are used, in which the shell is pulled from a copolyester nolymer with a melting point lower than the melting temperature of a core made of a polyester nolymer. Such fibers under the trade name Celbond 254 are acquired by Hoeclist Celanese Sof. (USA) (see Nonwovens Report Inter, 1992, No. 261 p. 3-9. Similar fibers under the name. Wellbond are manufactured by Wellmaim, 1ps (USA) (see Nonwovens Abstracts 1996, No. 10, p. 517.

The surface density, thickness, and the ratio of the components of the fiber mixture are selected depending on the specific purpose of the material (for sleeping bag clothes, shoes, furniture) and the climatic conditions of use of the products using the material according to the proposed utility model.

And in general, the highest density is in r ;;: c, 300 g m, thick, in 4-20 mm.

The content of the components of the fibrous mixture: mass%

wool -10-40

70-10 nylon fiber

fusible synthetic

fiber 20-50

The total thermal resistance of the material when used in a package with a front and lining cloth is within the range of VT: 0.24-0.38, resistance to repeated compression,%: 60.

Claims (5)

1. Non-woven bulk heat-insulating material made of a fibrous mixture containing natural wool and low-melting synthetic fibers, bonded with a partially melted polymer of the latter, located mainly at the contact points of the low-melting synthetic fibers with each other and with the other fibers of the fiber mixture, characterized in that the fiber mixture is additionally contains polyester fibers.  2. The material according to claim 1, characterized in that, as the polyester fibers, the fibrous mixture contains lavsan fibers.  3. The material according to claim 1, characterized in that, as the polyester fibers, the fibrous mixture contains hollow, mainly siliconized polyester fibers.  4. The material according to claims 1 to 3, characterized in that the fibrous mixture contains polypropylene fibers as fusible synthetic fibers. 5. The material according to claims 1 to 3, characterized in that, as fusible synthetic fibers, the fibrous mixture contains biocomponent 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.