RU2236942C2 - Layered heat-insulation material (options) - Google Patents

Abstract

FIELD: textile industry.

SUBSTANCE: in its first embodiment, invention provides layered heat-insulation material containing at least one nonwoven material layer composed of blend of solid and hollow polyester fibers at their weight ratio within a range of 3:7 to 7:3. Layer or layers of nonwoven material are joined by needle-punched manner with at least one metallized polymer film layer disposed between nonwoven material layers and/or outside. In the second embodiment of invention, layered heat-insulation material contains at least one nonwoven material layer joined by needle-punched manner with at least one metallized polymer film, wherein nonwoven material is made from blend of hollow polyester fibers and flax fibers at their weight ratio within a range of 3:7 to 7:3. Layered materials of invention may be used warmth keepers in clothes and footwear, in sleeping-bags, tourist tents, quilts, and other articles.

EFFECT: enabled variation of desired warmth-keeping conditions.

3 cl

Description

The invention relates to the textile industry, in particular to the production of non-woven insulation materials made from several fibrous canvases bonded to each other, and can be used, for example, in the textile and clothing industry as insulation in clothes and shoes, sleeping bags, tents, quilts etc. products.

Known multilayer heat-insulating material, adopted as the closest analogue, containing at least one layer of non-woven material, consisting of a mixture of polyester fibers, needle-punched with at least one layer of metallized polymer film (ed. St. Czechoslovakia No. 269153 IPC 32 V 27/04).

The disadvantages of the known multilayer material include the impossibility of a given variation in thermal insulation properties.

The objective of the invention is the creation of a multilayer material with good thermal insulation properties, while achieving a technical result, which consists in providing the possibility of a given variation of the thermal regime.

The specified technical result in the first embodiment of the material is achieved by the fact that in a multilayer heat-insulating material containing at least one layer of non-woven material consisting of a mixture of polyester fibers, connected by a needle-punched method with at least one layer of a metallized polymer film, the mixture is polyester fibers made of solid and hollow fibers with their mass ratio lying in the range from 3: 7 to 7: 3, respectively, and a metallized film is located between the layers of non-woven of material and / or outside.

The specified technical result in the second embodiment is achieved by the fact that a multilayer heat-insulating material containing at least one layer of non-woven material, connected by a needle-punched method with at least one layer of a metallized polymer film, is made of a mixture of hollow polyester fibers and linen fibers when their mass ratio is in the range from 3: 7 to 7: 3, respectively, and the metallized film is located between the layers of nonwoven material and / or outside.

A multilayer insulating material is made as follows.

In the first embodiment, a hollow polyester fiber with a density of 0.64 text, cutting length 60-70 mm and a continuous polyester fiber with a density of 0.84 text, cutting length 60-70 mm is loaded into the mixing machine. The content of hollow polyester fiber in the mixture is from 30 to 70%, respectively, of a continuous polyester fiber from 70 to 30%.

In the second embodiment, hollow polyester fiber and flax fiber are loaded into the blending machine. The content of hollow polyester fiber in the mixture is from 30 to 70%, respectively, of flax fibers, in particular cotton fiber, from 70 to 30%.

The homogeneous mixture of hollow and solid polyester fibers (or flax fibers) obtained in the mixing machine enters the carding machine, where the fibrous canvas is formed by an aerodynamic randomization method or on a mechanical weaving transducer.

At the exit of the carding machine, the fibrous canvas enters the conveyor. A metallized polymer film is laid either between two fibrous canvases, respectively, upper and lower, or is placed under the canvas, or laid both between the fibrous canvases, and is laid under the lower canvas, and in this form is fed to the needle-punched stand for connecting the layers. In the process of punching a multilayer structure with needles, a multitude of bundles of fibers of nonwoven material are pulled through a metallized film through the punched holes in it in the forward and, in some cases, in the opposite direction, thereby bonding the layers. In the manufacturing process, all the material is pierced through the perforations obtained by the needle punching machine, while ensuring the comfort of the product and the material “breathes”.

The possibility of varying the properties of the multilayer insulating material is as follows.

An increase in the percentage of hollow polyester allows to obtain a material with lower thermal conductivity, i.e. more heat retaining. The location of the metallized film between the layers of nonwoven material or on the outside allows you to change the insulating properties of the material by varying the degree of reflectivity of the metallized film.

Perforated metallized film, reflecting thermal rays, provides the effect of "thermos" in combination with good breathability.

The combination of hollow fibers with linen allows you to achieve optimal wet thermal conditions and to obtain a non-woven material with good hygienic properties.

Claims (3)

1. A multilayer heat-insulating material containing at least one layer of non-woven material, consisting of polyester fibers, connected by a needle-punched method with at least one layer of a metallized polymer film, characterized in that the mixture of polyester fibers is made of solid and hollow fibers in their mass ratio from 3: 7 to 7: 3, respectively, and the metallized film is located between the layers of nonwoven material and / or outside. 2. A multilayer heat-insulating material containing at least one layer of non-woven material, connected by a needle-punched method with at least one layer of a metallized polymer film, characterized in that the non-woven material is made of a mixture of hollow polyester fibers and linen fibers with a mass ratio of 3: 7 to 7: 3, respectively, and a metallized film is located between the layers of non-woven material and / or outside. 3. The multilayer heat-insulating material according to claim 2, characterized in that it contains cottonized flax as flax fibers.