CS256018B1 - Thermal and moisture insulating laminated fabric - Google Patents

Abstract

Thermally and moisture insulating layered the fabric has a resistive between its two layers heating cable that is thermally lined insulating layers of fibrous web cleaved foils. Into the Layer Launcher. thermoplastic foil, aluminum-plated or possibly reinforced with fibers, and everything as a whole thermoplastic or ultrasonic linked. Thermal and moisture insulating the laminated fabric can be used for heating mattresses for rheumatoid patients suffering from baby cots, sleeping bags or blankets for the winter season, for car beds, for fruit, vegetables and food.

Description

BACKGROUND OF THE INVENTION The present invention relates to a thermally and moisture-insulating layered fabric.

At low temperatures below freezing, it is advantageous to use to protect a wide variety of products against freezing or to protect living organisms against cold, or to protect the human body against cold when working at low temperatures or during sleep using high-quality thermal and moisture insulating materials. Presently, thermally insulating interconnected fiber layers are known. Moisture insulation is mainly provided by impregnation followed by drying. Heat losses of thermal insulation layers caused by prolonged stay in cold or in high frosts, ie low temperatures, have not yet been actively compensated by thermal insulation composites. Heating was carried out by special heated inserts.

These disadvantages are overcome by the heat and moisture insulating laminate of the present invention. It consists in that a resistance heating cable is inserted between its two layers, which is lined with the thermal insulating layers of the cleaved foil fiber fleece, the thermo-plastic foil, plated with aluminum or reinforced fibers, and the whole being thermoplastic or ultrasonic interconnected.

By inserting heating cables directly into the laminate, the aforementioned drawbacks are eliminated and the newly designed ultrasonically bonded heat and moisture insulating laminates can also be used for active heating at low temperatures. Aluminum or other metal-plated foils increase the insulation capability, protect against microwaves, lead-plated foils protect against X-rays, making previous heat and moisture insulated laminated tex256 018

- 2 Tillies were incapable. A further advantage of the inventive layered fabric is that it can be produced in a continuous line.

The invention and its effects are explained in more detail in the description of four exemplary embodiments of the heat and moisture insulating laminate of the invention.

At very low temperatures in severe frosts, vegetables, fruits and other foods are lost or even frozen by freezing. In some cases it is necessary to compensate for the heat loss in the case of improperly dimensioned heating devices, cottages or cars, cots and the like. This can be done by heat- and possibly moisture-insulating laminated fabrics heated by a heating cable. It is placed between two spunbonded nonwoven fabrics of suitable basis weight, which also serve as the first insulating layer. This is followed by a thermally insulating fibrous layer of the web, preferably of split foil and a wrapping fabric, which may again be a spunbonded nonwoven fabric, i.e. directly from the polymer. The layers thus laminated together with the heating cable are thermoplastically or ultrasonically bonded to the resulting textile composite. The heating cable outlet is connected to a voltage source, whereby the heat loss of the fabric can be compensated for as desired. With the bimetallic element it is possible to regulate the compensation of heat losses. Moisture insulation is achieved by a film inserted as one of the layers.

Example 1

A laminate fabric according to the invention has been produced in which a resistance heating cable sized according to the purpose of use is inserted between two layers of nonwoven fabrics of different or the same basis weight produced under the nozzles of, for example, a Tatr-tex fabric. These layers are interposed between the fiber layers of a polypropylene web made of split foils and deposited on the packaging support and protective fabric. This may again be a Tatratex fabric produced under the nozzle. The whole system is interconnected by ultrasound. The connection points were also chosen to allow the heating resistance cable 255 018

- 3 add or replace. Moisture insulation is achieved by placing the film between the backing and the insulating layer of the laminate.

Example 2

A laminate fabric according to the invention was produced with the same lamination as in the previous example. In addition, a thermoplastic foil is placed in front of the last covering layer, which has insulating properties against moisture and can also be metallized with aluminum as required.

Example 5

The inventive thermal and moisture insulating laminate fabric having a heating resistive heating cable has the following successive structure: polyamide knitted fabric Sandra, spunbonded lightweight fabric such as Petex, heating cable, nonwoven fabric made under Tatratex spunbond, aluminum plated foil, optionally reinforced with a fiber layer, split film webs, a cover layer formed by a spunbond fabric in combination with a polyamide fabric of the Sandra type. The whole system is ultrasonically or thermoplastically interconnected. This layered fabric has thermal and moisture insulation capabilities.

Example 4

A laminated fabric according to the invention having the layers as in Example 3 was produced, however, within the laminated fabric, their order may be varied as desired, particularly the position of the metallized thermo-; plastic foil.

The thermally and moisture-insulating layered fabric according to the invention can be used in extremely cold living conditions such as heated mattresses for rheumatic patients, cots, sleeping bags or blankets for winter, automobile beds, fruit and vegetable blankets or other types of food for heavily freezing periods and more.

Claims (1)

A thermally and moisture-insulating layered fabric, characterized in that a resistance heating cable is interposed between its two layers, which is lined with heat-insulating layers of split-film fibrous web, wherein a thermoplastic foil, plated aluminum or fiber reinforced, is inserted. everything as a whole is thermoplastic or ultrasonic interconnected.