RU189921U1 - THERMAL-PROTECTIVE OVERALL THERMOSE EFFECT - Google Patents

Abstract

The invention relates to the clothing industry, in particular to the design of protective clothing from the effects of extremely low temperatures and is a design of outerwear for protection from the cold. The essence of the product is as follows. Overalls is a sandwich package of textile materials, which together have a certain thermal resistance. In areas of the body with increased heat production, as well as in areas prone to frostbite, there are gasket segments of a textile material with a metallized surface that has heat reflecting properties. also a decrease in heat loss caused by this heat flux.

Description

The invention relates to the apparel industry, in particular to the design of clothing designed for the individual protection of a person from the effects of extremely low temperatures. The essence of the product is as follows. The suit is a sandwich package of textile materials, which together have a certain thermal resistance. In areas of the body with increased heat production, as well as in areas prone to frostbite, there are gasket segments of a textile material with a metallized surface that has heat reflecting properties.

Known costume (RU 122851 U1 from 07.03.2012), relating to protective clothing from organic solvents and allows you to provide improved protection against ingress of organic solvents on human skin and in the inner layers of clothing. The protective properties of the suit are achieved as a combination of materials with different properties: “Tomboy FS” fabric with oil-water-repellent finish, Taslan Offoman fabric with low shrinkage and CH-finish “wash-wear” with high strength characteristics. However, this costume does not have a heater in its design to maintain the required sanitary and hygienic properties at low temperatures, it does not have properties that prevent the passage of radiant heat exchange between the human body and the external environment.

A suit is known that relates to protective clothing from overcooling while in cold water, as well as from water ingress into the suit and clothing layers (US 4023223 A dated 05.17.1977), which has a metallized material with its design that reduces the intensity of heat exchange by radiation . However, this suit contains a metallized material over its entire surface does not meet the sanitary and hygienic requirements for protective clothing from low temperatures, as it does not provide the necessary air exchange with the environment, is airtight, while you can use a locally-combined design with regard to physical - anthropometric properties to ensure a balance to reduce heat loss and ensure the required air exchange.

Famous costume related to protective clothing from high temperature, as well as to preserve heat and protection from the cold. (US 34849802 A of 12/29/1972) The combination of materials contains a metallized layer with heat-reflecting properties, so that the shiny layer reflects heat back to the user's body when it is turned inward to protect it from the cold and reflects heat from the body to the body itself. When this layer is facing the outside of the body, the suit is used to protect from heat. However, this suit has the same properties over the entire surface, and does not take into account the mechanisms of thermoregulation of the body.

Known clothing (No. RU-2101988 from 12/28/1998) allows you to adjust the temperature in the pododozhny space due to the combination of sections of materials with different insulating and / or ventilation capacity. With an unregulated constant microclimate, which is created between the skin and clothing, a person may experience subjective sensations that are not related to the normal reaction of the body to changes in environmental temperature. Clothing differs in that it reduces the likelihood of errors in the body's perception of actual climatic conditions. However, this garment ineffectively reduces the outflow of thermal radiation from the body, which can be delayed in the space under the clothes and used to heat the body.

Known utility model (RU 144501 U1 from 10.24.2013), which is designed to be used as the top men's or women's clothing: casual, sports, clothing for walking, etc., such as jackets, coats, windbreakers, etc. Clothing contains areas with low and high thermal insulation and / or ventilation capacity. These areas are located with the possibility of overlapping temperature-sensitive areas of the body. Clothing is equipped with a liquid crystal thermometer. The technical result is the provision of temperature control in the space under the clothes and the possibility of evaluating the objectivity of the body's reactions to environmental conditions. These clothes do not take into account differences in the surface areas of the body, some of which have the need to use heat-reflecting material to preserve the radiated heat of the body.

The last two utility models do not take into account the loss of heat, which is lost by the human body by the radiation of heat into the environment. Heat radiation comes from the whole body, if the surface temperature outside is lower than the surface temperature of the body itself, and the greater the difference between body temperature and ambient temperature, the more intense the thermal radiation occurs (more thermal radiation power), as can be seen from formula (1)

Closest to the presented utility model is (RU 144501 U1 from 10.24.2013). However, it does not have a mechanism for controlling the outflow of heat from the surface in order to preserve the radiated heat of the body.

The task of the technical solution is to reduce the heat loss of the body through the rational use of heat generated by the body and to ensure the required level of vapor permeability through the suit.

In GOST R 12.4.236-2011 Occupational Safety Standards System (SSBT). Special clothing for protection against low temperatures. Technical requirements are ergonomic requirements for protective clothing. These include: the ability to control heat exchange with the environment when changing meteorological conditions or level of physical activity; the need to ensure the vapor permeability of the product is not less than 4 mg / cm ² * h (according to GOST 22900).

The problem is solved as follows. Thermal protective overalls with heat retention effect, made with central side hidden zip fastener, turn-down collar, set-in two-seam sleeve, set-in hood with central insert, characterized in that it is provided with locally distributed inserts in a strip of film material with a metallized coating that has heat-reflecting properties, directed by the metallized side to the body, covering the lower and the occipital parts of the hood, the shoulders of the back and chest, the front and the back of rsa, the outer part of the shoulder and forearm, while providing a reduction in the intensity of thermal radiation from a person through overalls, in areas of the body surface with the maximum intensity of thermal radiation. Areas that do not contain metallized film pads have greater vapor permeability and are located in those areas that have the most sweat, local distribution of pads with different properties provides the required insulation while effectively reducing the intensity of thermal radiation, and other types of heat exchange, as well as the required vapor permeability in general on the product.

One, the most important difference of the proposed clothing from the prototype, is that in the construction of the jumpsuit there are segments of the material with heat-reflecting property, facing the body, which are distributed in accordance with the needs of the body to direct the radiated heat flow back to the body, which reduces heat loss. In this case, the segments have such a distribution that they cover areas that are most susceptible to radiant heat transfer, that is, they are located outside the body, in those places that are least capable of generating heat, and are susceptible to frostbite. In the areas of the body that are in the process of body dynamics most frequently in contact, a material that does not have heat-reflecting properties is used. In areas of the body that actively generate heat, there is a material with heat-reflecting properties that does not interfere with the mechanism of human thermoregulation, namely, the excess heat from the blood stream is transferred to other areas of the body that are experiencing a shortage of heat.

Heat radiation is characteristic of all bodies, without exception, and occurs at any temperature other than absolute zero. In particular, thermal radiation occurs from the surface of the human body (at a wavelength in the range of 5-50 microns, a maximum at 9.5 microns). Even at rest, the human body loses about 43% of heat by radiation.

Consider two parallel surfaces, the power of thermal radiation from one surface to another is determined by the formula:

where S is the surface area; δ is the reduced absorption coefficient of clothing considered as a gray body; T ₁ - body surface temperature; T ₀ - ambient temperature.

- приведенная степень черноты при наличии экранов. Теплоотражающую поверхность можно рассматривать как экран.where S is the surface area; δ ₀ is the Stefan-Boltzmann constant; T ₁ - body surface temperature; T ₀ - the temperature of environmental surfaces;

- reduced degree of blackness in the presence of screens. Heat reflecting surface can be considered as a screen.

Where ε _ei is the degree of blackness of the i-th screen, n is the number of screens, ε _ol is the reduced degree of blackness.

Where ε _pr is the reduced degree of blackness, ε ₁ is the degree of blackness of the first body, ε ₂ is the degree of blackness of the second body.

Thus, with a decrease in the reduced degree of blackness of the screen (simultaneously with an increase in the reflection coefficient of thermal radiation), the radiant heat flux decreases, therefore, the delayed energy remains in the space between the surfaces under consideration. When considering the body and the package of clothes as parallel surfaces, the effect of preserving radiant energy from the heated (compared to the environment) human body in the sub-space of space becomes clear.

The human body is characterized by the presence of areas of the skin that have a lot of sweating compared to others. These areas need the ability of the material to be properly breathable to ensure effective thermoregulation, in particular to maintain a comfortable temperature. Therefore, it is not applied in these areas of heat-reflecting material, which has obviously low air conduction due to the method of manufacture. Such areas include the groin area 1, the axillary area 2, the area in the crook of the elbow joint 3, the area of the spine near the center of the back 4, the area in the crook of the knee joint 5 (Fig. 1).

The areas of the body that usually come into contact include the area of the inner part of the shoulder and the lateral surface of the torso, the inner thighs.

The extremities of the human body play an important role in managing the heat balance of a person, the level in their thermal insulation affects the effectiveness of this regulation. However, at extremely low temperatures, the mechanism of thermoregulation can lead to frostbite of the extremities. These zones are indicated in FIG. 1: feet and legs 6, hands and forearms 7, ears 8.

FIG. 2 shows an example of the distribution of the segments of the cushioning heat-reflecting material.

The technical result of the claimed utility model is to reduce the heat flux directed from the heated human body to the external environment, as well as to reduce the heat loss caused by this heat flux.

The technical result is achieved by the design of the package of proposed clothing, with a uniformly distributed insulation over the entire area of the product, which has a specific zoning in the use of cushioning material with heat-reflecting properties. The use of such material is due to the need to reduce the heat loss of the body, including radiation, as well as the physical aspects of this phenomenon (formulas 1-4).

Claims (1)

Thermal protective overalls with heat retention effect, made with central side hidden zip fastener, turn-down collar, set-in two-seam sleeve, set-in hood with central insert, characterized in that it is provided with locally distributed inserts in a strip of film material with a metallized coating that has heat-reflecting properties, directed by the metallized side to the body, covering the lower and the occipital parts of the hood, the shoulders of the back and chest, the front and the back of rsa, the outer part of the shoulder and forearm, while providing a reduction in the intensity of thermal radiation from a person through overalls, in areas of the body surface with the maximum intensity of thermal radiation.

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