RU2129815C1 - Heat-reflecting (heat-saving) clothing - Google Patents

Abstract

FIELD: production of special-purpose clothing. SUBSTANCE: heat-reflective clothing has main layer manufactured from low-permeable fabric with air-permeability of up to 50 l/sq m/s, heat-saving layer manufactured from synthetic or natural warming material and layer with air-permeability of 50-400 l/sq m/s. Such structure of fabric allows predetermined microclimate necessary for maintaining comfortable thermal conditions for user to be provided. EFFECT: increased efficiency, simplified structure of material and provision for adequate thermal conditions. 2 cl

Description

 The invention relates to light industry, in particular the production of heat-protective (heat-saving) clothing.

 The most important function of clothes is to maintain a comfortable thermal regime of a person. In both ordinary and extreme conditions, clothing should provide a certain level of microclimate, contribute to maintaining human health and increasing labor productivity. Under the influence of wind, the heat-shielding properties of clothes are significantly reduced, and the degree of decrease in the heat-shielding properties of clothes largely depends on its breathability and humidity. The level of physical activity of a person and meteorological conditions change not only during the week, but also in the day. On this basis, clothes with variable heat-shielding properties are required.

 The objective of the invention is to improve the quality of clothing and its heat-shielding (heat-saving) properties.

 The most rational heat-protective clothing is considered to be fur clothing. The high heat-shielding properties of the fur are determined by the low air permeability of the fins and the considerable thickness of the air gap formed by the hair. However, in fur products, it is necessary to remove condensate from the mezra, which is formed by the vapor of the human body in contact with cold outside air, which significantly reduces the effectiveness of fur clothing. In it, a person either sweats when he works, or freezes when he is standing. Therefore, a person, depending on the work performed, is forced to select the thermal regime, partially unfastening clothes to remove excess heat and moisture.

 When assessing fur as a raw material for heat-insulating clothing, it should be borne in mind that the raw materials of fur are limited, its cost is high, it loses heat-shielding properties during operation, is quickly contaminated, difficult to clean, not durable enough, and in some cases has a lot of weight.

 To eliminate this drawback, an additional layer of fabric is placed outside, which naturally makes the overall weight of the clothes heavier and increases its cost.

Known clothing for protection against cold in the form of a package of materials consisting of the outer and inner layers and a warming layer formed by cells with heat-insulating filler placed in them, in which, in order to increase the efficiency of protection against cold, the outer and inner surfaces are connected by longitudinal or transverse seams to form cells, each of which is sewn capsule with a thermal storage material, wherein the capsules contain some heat storage material with a phase transition temperature of 25-35 ^o C, and with other Temperature of phase transition of 17-20 ^o C. A disadvantage of such clothing is the inability to expose such clothes washing and cleaning, considerable weight, the lack of elasticity (tightness motion). At low temperatures, a preheated vest (to a temperature above the phase transition temperature of the substance) is worn under outer clothing. The heat-accumulating substance contained in the capsules, giving up heat, passes from the liquid phase to the solid phase, thereby preserving the necessary temperature in the clothes space and comfortable working conditions. If necessary, the vest can be removed and exchanged for another, already pre-heated, which ensures a person stays in the cold for the required time (SU, 1708265, copyright certificate, class A 41 D 13/00, 01/30/92).

 The following method of manufacturing heat-protective clothing is known: pre-form a package of materials - use artificial fur as the top and lining, perforated polyethylene film with a hole diameter of 2 mm as the hot-melt adhesive material, connect them together when pressed and elevated temperature (SU 1764614, Copyright certificate, CL A 41 D 13/00, 09/30/92).

 Modern heat-protective clothing is a complex structure (package), consisting of a cover fabric (top), a heat-insulating layer and a lining. Fabrics for winter clothing should have a certain breathability. The second layer in winter clothes should be the actual thermal insulation layer: loose, light, porous, having sufficient thickness, low heat conductivity, high elastic properties under compression, the ability to restore the previous shape after deformation, not hygroscopic.

The problem is achieved in that in heat-protective clothing, consisting of a main, heat-saving layer and breathable lining, the main layer consists of a low-permeable fabric with breathability up to 50 l / m ² • s, the heat-saving layer is synthetic or natural bulk insulation, and the lining has breathability from 50 to 400 l / m ² • s, which promotes the penetration of heat into the insulation and turns it into a heat-saving layer.

 Such a package makes it possible to create light winter clothes from materials that are not inferior in thermal properties to fur clothes, but unlike existing samples, snow does not adhere to clothes made of smooth parachute fabric and, accordingly, does not melt on it under the influence of excess heat removed through the upper layer and moisture, increasing the thermal conductivity of the outer layer of clothing. The proposed design is devoid of the disadvantages of prototypes made of coarse fiber fabrics in the upper layer, because smooth, low-permeability fabric in a strong wind is aerodynamically streamlined, and there is no effect of the fibers spreading by the pressure of the air (wind). Unlike the well-known designs of winter clothes, the proposed clothing does not lose its heat-saving properties during operation and even washing. An exceptional property of this clothing made with the use of artificial insulation is the ability to quickly dry at room temperature after washing, practically without losing its appearance and properties.

 Clothing made by this method has a heat-shielding (heat-saving) property, has a relatively low weight from 1200 to 1700 g, which leads to increased comfort during use, and can be used as clothing in areas where a person's labor activity proceeds in conditions of strong wind and low temperatures in the open air (when developing new areas with a harsh climate, for army and rescue units).

 Clothing made of low-permeable parachute tissue with shrapnel-bullet wounds less pollutes the wound, as tissues made from natural materials absorb blood more and, remaining in the wound, contribute to suppuration. Depending on the purpose, special covers made of special materials can additionally be worn on a set of overalls: Kevlar (CBM), nylon, asbestos, tungsten mesh and others, which give the clothing additional special properties: fire resistance, resistance to piercing and chopping weapons, and others.

Claims (1)

Thermal protective clothing, consisting of the main, heat-saving layers and breathable lining, characterized in that the main layer consists of a low-permeable fabric with air permeability up to 50 l / m ² • s, the heat-saving layer is synthetic or natural volume insulation, and the lining has air permeability from 50 to 400 l / m ² • s, which promotes the penetration of heat into the insulation and turns it into a heat-saving layer.