RU72657U1 - SYNTHETIC MATERIAL - Google Patents

Abstract

The utility model relates to textile and similar flexible materials that are not assigned to other classes, in particular to elastic materials that are not assigned to other classes and can be used for the manufacture of clothing items, special clothing for the prevention of overheating of the body in conditions of elevated ambient temperature, hypothermia at low temperatures, shockproof clothing, as well as for the manufacture of life-saving appliances. A disadvantage of the known materials is the impossibility of their use for thermal protection of the human body in conditions of high and low ambient temperatures, protection of the human body from mechanical factors, the impossibility of making life-saving appliances from them. A synthetic material is proposed, made of elastic and elastic foamed polymers (for example, of isolon), and, on one of its sides, uniformly spaced raised ribs (1) of rectangular shape are made.

Description

The utility model relates to textile and similar flexible materials that are not assigned to other classes, in particular to elastic materials that are not assigned to other classes and can be used for the manufacture of clothing items, special clothing for the prevention of overheating of the body in conditions of elevated ambient temperature, hypothermia at low temperatures, shockproof clothing, as well as for the manufacture of life-saving appliances.

Known material cushioning hot-melt adhesive for garments (USSR Author's Certificate No. 1689466 IPC D 06).

Known multilayer paper-like printing material, consisting of a polyethylene phthalate film and sequentially deposited on it on both sides of the adhesive layer and a bumifying face layer containing a film-forming polymer based on polyvinyl acetate and titanium dioxide, characterized in that in order to improve the printing properties of the material and reduce its pollution during operation, the front layer additionally contains kaolin, talc. (USSR Author's Certificate No. 1647065).

Known non-woven fibrous material, consisting of a mixture of synthetic and shrink fibers, and as natural fibers use a fiber-fiber mixture (USSR Author's Certificate No. 1399385 IPC D 06).

A disadvantage of the known materials is the impossibility of their use for thermal protection of the human body in conditions of high and low ambient temperature, protection of the human body from mechanical factors.

The purpose of the utility model is to increase the buoyancy of products, to ensure the normalization of heat transfer of the human body using elements of clothing made of material, at different ambient temperatures, to reduce the impact of shock loads.

The goal is achieved by the fact that the material is made of elastic and elastic foamed polymers (for example, from isolon), uniformly spaced raised rectangular ribs are made on one of its sides.

Figure 1 presents a view of the material in section.

The synthetic material is made of resilient and flexible foamed polymers (for example, of isolon), on one of its sides uniformly spaced raised ribs (1) of rectangular shape are made.

The material is used as follows.

1. Making clothes under armor protection. They are connected by applying at least two layers of material on each other, having previously covered the front surface

ribs (1) of the underlying layer with an adhesive agent.

Known clothing for ventilating protective outerwear (application for the invention of Great Britain N 210822 from 05.25.83). Clothing has evenly spaced raised ribs forming channels for air circulation between the skin and outer clothing.

The disadvantages of this clothing are the inability to prevent exogenous heat from external sources and the low efficiency of removing endogenous heat, low protective properties from mechanical stresses on the human body.

The clothes obtained from the proposed material can significantly avoid the above disadvantages.

Between the ribs (1) and the surface of the human body, ventilation ducts are formed.

Endogenous heat from the surface of the body enters the channels, heats the air, which rises up the channel. At the same time, the air flow carries away sweat vapor. The channels of the subsequent levels, formed by the ribs (1) and the lower surface of the material, perform a similar function.

In the presence of external sources of heat, heating of outer clothing occurs and a temperature gradient is created between the skin and outer clothing, providing an increase in the air flow rate in the ventilation ducts, an increase in the efficiency of perspiration penetration into the ventilation ducts of the first level and its evaporation. When a person moves, the efficiency of heat removal by wet paths increases due to the changing deformation of the channels and the external air pressure. During mechanical action on the device, deformation of the ribs (1) occurs and air from the channels is forced out. In this case, part of the exposure energy is spent on compressing the filler and displacing the air from the channels, while ensuring relaxation of the load on the surface.

The device can be made in the form of modules from which it is possible to form clothing complexes for the corresponding parts of the body: ventilation-shock-absorbing vests, trousers, etc.

In a state of relative rest, the human body releases about 80 kcal / h of heat, and during operation this value can increase by 12 times (960 kcal / h).

When working in conditions of increased solar radiation, a person can additionally receive exogenous heat up to 180 kcal / h.

In order to prevent thermal overheating of the human body, there is a need to remove from his body from 230 to 1100 kcal / h and, given that in a hot, dry or humid climate, heat transfer by the human body is carried out mainly by humid routes, i.e. by evaporation of sweat. To ensure the thermal balance of the body with the environment in supraoptimal temperature conditions, it is necessary to allocate sweat from 400 to 1800 g / h. In this case, the cooling effect depends on the amount of sweat evaporated. An increase in the intensity of sweat secretion leads to a quick wetting of clothes in the area, its sticking to the skin, while the natural ventilation of the undersuit space is completely disrupted, unpleasant, uncomfortable sensations arise, naminas and abrasions appear in places where the wearable equipment fits.

The calculation of the volume of air passing through the ventilation channel in the presence of a temperature gradient between the upper layer of the device and the skin surface showed the device’s performance. A significant increase in the speed of air movement in the ventilation ducts can be achieved when walking, as well as in the presence of wind pressure due to the existing through holes.

In addition to the above, the device provides protection against bloodsucking insects, prickly plants, reduces the impact of combat shock loads on personal protective equipment (PPE) and in contact with solid objects and soil, increases buoyancy.

2. The use of material for the manufacture of life-saving and swimming equipment. Material is also produced for the manufacture of clothing. In certain cases, it is possible to connect the sheets by gluing, and the presence of finned surfaces in them does not impede the flexibility of the material, which is important for giving it the necessary shape.

To increase buoyancy, various porous materials are currently used, such as polyethylene foam (TU-6-55-26-89 B and TU 2244-017-00203476-98 Art.3008 isolon) with a thickness of 2 to 20 mm manufactured by Izhevsk Plant Plastics. "

The buoyancy quality was used in the manufacture of swimming vests. Material from isolon 4 mm thick in the amount of 3 layers in the vest itself and in a special collar. Considering that one square decimeter (1 dm ² ) of 3 layers (total package thickness 12 mm) by weight is 7.8–9.0 g. For the manufacture of a swimming vest, depending on the anthropometric data of an adult, it is required from 40 to 70 dm ^{2 of} material. Considering that 1 dm ^{2 of} material from 3 layers of 4 mm thick weighs 5.8 g, the total weight characteristic of a swimming vest is about 300 grams without a cover. A service vest weighs about 800 g. It is not difficult to calculate the feasibility of making individual and collective swimming equipment from the proposed material.

3. Sheets of single or multilayer material can be used for insulation and sound insulation of walls in the construction of houses and structures.

Thus, a multi-purpose synthetic material is proposed.

Claims (1)

A synthetic material made of elastic and elastic foamed polymers (for example, from Isolon), on one side there are made uniformly spaced raised rectangular ribs, characterized in that the material is joined by overlapping, having previously coated the front surface of the ribs of the underlying layer with adhesive means .