RU43268U1 - NON WOVEN VOLUME HEAT INSULATION MATERIAL - Google Patents

Abstract

Non-woven bulk heat-insulating material is intended for use as insulation in clothes, shoes, sleeping bags, and other similar products. The material contains two layers of a fibrous mixture of natural and synthetic fibers .. Between each other two layers are connected by heat-setting using fusible fibers. At the same time, electrically conductive fibers are introduced into the material, which reduce the arising static electricity. Non-combustible ones can be used as a synthetic component of one of the layers: polyester fibers, lavsan fibers, hollow polyester fibers. 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 other component. A layer of synthetic fibers has good thermal insulation characteristics. The presence in the composition of one of the layers of predominantly natural fibers (up to 90%) makes it possible to stabilize the wet-thermal regime during the operation of the products.

Description

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

Known non-woven bulk heat-insulating material from a fibrous mixture containing natural wool and low-melting synthetic fibers bonded with partially fused polymer of the latter (RU No. 34549, MI IK 004 11 1/42. 1 / 54,2003).

However, this material is not suitable for use as insulation on clothing, shoes, etc. products intended for workers in the oil, petrochemical, gas industry and electric power industry due to the ability to generate static electricity, the instability of synthetic fibers to fire. All of the above factors reduce the consumer properties of non-woven material.

The objective of the proposed utility model is the creation of a bulk non-woven heat-insulating material with high antistatic and heat-insulating characteristics, combined with sufficient wear resistance and elasticity, having improved performance properties.

This problem is solved by the fact that the non-woven heat-insulating material is divided into two layers, bonded to each other by heat-setting by fusible fibers. In this case, one of the layers contains mainly natural fibers, and the other synthetic. All fibers are connected by melting low-melting fibers in contact with other fibers of the mixture. This composition of the canvas has significantly improved the operational properties of the nonwoven material as a whole. For example: wool acts as a conditioner (absorbing and giving away moisture), and a layer of synthetic fibers has good thermal insulation characteristics.

Synthetic fibers can be made non-combustible.

In this case, electrically conductive fibers can be introduced into the composition of the fibrous mixture of the entire material. As options for electrically conductive fibers, metal-polymer 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 bulk heat-insulating material with improved thermal insulation and hygienic properties, with increased resistance to washing and dry cleaning, with antistatic and non-combustible qualities.

At the same time, the proposed material has the ability to maintain its bulk and elasticity, the recoverability of the thickness of the material under the influence of dynamic multi-cycle loads.

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

Figure 1 is a diagram of a cross section of a non-woven bulk thermal insulation material, where 1 is a layer of synthetic fibers; 2 - a layer of predominantly natural fibers.

Non-woven bulk heat-insulating material may include wool and electrically conductive metal-polymer fibers as variants of a specific embodiment. Non-combustible: polyester fibers, polyester fibers, hollow polyester fibers can be used as a synthetic component of the fiber mixture.

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 other component.

This bulk insulation material can be used in the manufacture of workwear for workers in the oil, petrochemical, gas and electric power industries.

The presence of a layer of predominantly natural fibers in the bulk thermal insulation material (up to 90%) makes it possible to stabilize the wet-heat regime during the operation of the products.

Due to the good adhesion of the melted polymer of low-melting synthetic fibers to the polyester and other fibers of the mixture during the operation of the material, which, as a rule, is carried out in a bag with front and lining webs, its high strength and wear resistance are ensured while maintaining its bulk and elasticity, which in turn, determines its high heat-shielding properties and the ability to restore the thickness of the material under the influence of dynamic multi-cycle loads.

The surface density, thickness and ratio of the component of the fibrous mixture are selected depending on the specific purpose of the material (for clothes, sleeping bags) and the operating conditions of the products.

In general, the surface density is in the range of 40-350 g / m ² . thickness is 4-25 mm.

Claims (7)

1. Non-woven bulk heat-insulating material containing a fibrous mixture of natural and synthetic fibers, bonded with a partially melted polymer of the latter, characterized in that it is made of two layers, while one of the layers is made of synthetic fibers and the other is predominantly natural fibers, both layers are bonded among themselves by heat-setting by fusible synthetic fibers. 2. Non-woven bulk heat-insulating material according to claim 1, characterized in that, as synthetic fibers, the fibrous mixture contains fibers of reduced combustibility. 3. The non-woven bulk heat-insulating material according to claim 1, characterized in that, as synthetic fibers, the fibrous mixture further comprises hollow polyester fibers. 4. The non-woven bulk thermal insulation material according to claim 1, characterized in that the fiber mixture contains wool as natural fibers. 5. Non-woven bulk thermal insulation material according to claim 1, characterized in that the fiber mixture contains flax as natural fibers. 6. Non-woven bulk heat-insulating material according to claims 1 to 4, characterized in that, as low-melting synthetic fibers, the fiber mixture contains 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. 7. The non-woven bulk thermal insulation material according to claim 1, characterized in that the fibrous mixture further comprises electrically conductive fibers.