RU2199981C2 - Method for heating through of individual's organism in bath-house - Google Patents

Abstract

FIELD: individual's health improving facilities. SUBSTANCE: method involves heating through individual's organism with infrared radiation of maximal intensity within wavelength range of from 8 microns to 10 microns; using heated surfaces of walls, floor, and bench for heating through of individual's organism, with temperature of wall surfaces being within the range of 36-55 C, temperature of floor surface not in the excess of 45 C and temperature of bench surface being within the range of 36-50 C. Method is used for individual health improvement, prophylaxis and good fitness and allows individual's organism to be heated to temperatures inducing increased sweating to provide for hyperthermia method. EFFECT: provision for optimal heating through of individual's organism at substantially reduced loading of cardiovascular system and reduced time for heating-through of organism.

Description

 The invention relates to the field of technology intended to meet the vital needs of a person, in particular for individual recovery, prevention and hardening of the human body using the method of hyperthermia. It can be used in the design and construction of paired rooms of public and individual baths.

As you know, hyperthermia is a non-drug treatment and prevention method that uses the body's natural defensive reaction in the form of fever. It helps to destroy invading pathogens, and then remove waste products. The principle is quite simple: an increase in body temperature above 37 ^o C kills viruses, bacteria and other invading microorganisms that can not withstand this temperature. On the other hand, the tissues of the human body tolerate the temperature increase well to a certain limit and there is no process of destruction in them. Hyperthermia has been used to maintain good health for more than a millennium: Roman baths, Turkish and Russian baths, Finnish saunas - these are varieties of the application of the hyperthermia method. According to modern concepts, hyperthermia is indicated for the vast majority of people. However, in some diseases, people cannot take advantage of the healing properties of hyperthermia due to the imperfection of the methods for implementing this procedure.

The Finnish sauna is known, in which the human body warms up with dry and hot air at a temperature of 70 to 120 ^o C. The human body in the sauna is heated mainly due to the direct effect of hot air on the skin, and since dry air has a low heat capacity and heat transfer, then for effective heating of the body before perspiration requires such high and extreme temperatures for the human body.

 The main disadvantage of the considered method of heating the human body in the sauna is the danger of direct exposure to the body of extreme temperatures exceeding the normal body temperature by more than 3 times. Other most significant shortcomings are as follows.

 a) The air of the sauna is saturated with organic compounds of the sweat glands. When air repeatedly passes through highly heated and exposed stones of the furnace, organic compounds partially oxidize, “burning oxygen”, and partially decompose, which leads to the formation of toxic organic compounds in the air. With prolonged exposure to the sauna, headaches and intoxication phenomena may occur. Therefore, in the Finnish sauna requires intensive ventilation.

 b) The combined effect of high temperature and an unfavorable environment saturated with harmful organic compounds increases the risk of malignant neoplasms in the respiratory tract.

 c) As a result of the harmful effects of dry hot air, there is a danger of burns of the mucous membranes of the respiratory tract and skin.

 d) As a result of the surface nature of the interaction of hot air with the skin, in particular due to the effective removal of heat from the skin surface during intense evaporation of sweat in dry air, the time required to warm up the internal organs increases significantly.

 d) As a result of exposure to temperature extreme for the human body, a decrease in reproductive ability in men can occur.

Famous Russian steam bath. The difference from the Finnish sauna is that the air is heated to a temperature of 60 to 90 ^o C with a humidity of up to 70%. Wet air has a higher heat capacity and heat transfer compared to dry air and prevents intense evaporation of sweat. As a result, the time required for warming up the internal organs of a person is reduced, and the procedure of hyperthermia is more easily tolerated.

 The most significant shortcomings of the Russian steam bath include the complexity and inability to maintain the most favorable temperature and humidity conditions for a long time, as well as the danger of burning out due to non-compliance with the furnace mode.

 Information on the features of the sauna and the Russian steam bath and how to heat them is contained in the article by A. Razorenov, “Russian Bath - Traditions and Innovations” in the journal “Baths and Pools”, 1 (13), 2001, pp. 70-73.

 The closest analogue (prototype) of the present invention "Method of heating the human body in the bath" is the heating method used in the infrared cabin CHAMP (magazine "Baths and pools", 1 (13), 2001, p. 75).

 The CHAMP cab is available in several sizes, in which the number of local infrared heaters used for heating varies from 5 to 8, and the power from 1650 to 2850 watts.

 The purpose of the present invention is the creation of an optimal method of heating the human body and increase the level of comfort.

This goal is achieved in that the heating of the human body is carried out by thermal infrared radiation having a maximum intensity of the spectrum in the wavelength range from 8 to 10 μm and created by wall surfaces heated to a temperature that is selected in the range from 36 to 55 ^o C, the floor surface, heated to a temperature that is chosen not exceeding 45 ^o C, and the surface of the sunbed, heated to a temperature that is selected in the range from 36 to 50 ^o C.

The implementation of this method of heating the human body in the bath allows you to get the following technical result:
a) minimize energy costs;
b) reduce the warm-up time to profuse sweating;
c) significantly reduce the load on the cardiovascular system;
d) to exclude harmful side effects on the human body;
d) get the maximum therapeutic effect.

 Since the main objective of the method of hyperthermia when using bath procedures is to increase the body temperature of the person to profuse sweating, it is necessary to warm the whole body, that is, warm the internal organs and tissues, and not just the skin integument.

A biophysical analysis of the effect of heat on the human body in various national baths, a sauna, infrared cabins and in a Russian stove with arches shows that the heating of the internal organs of the body occurs through the following types of heat transfer:
1) due to blood flow from thin subcutaneous capillaries to internal organs (analogue of convection);
2) due to the thermal conductivity of the skin and subcutaneous tissues;
3) through radiant heat transfer, that is, direct absorption of penetrating infrared radiation by internal tissues.

 To one degree or another, all these types of heat transfer are inherent in all saunas, a sauna, infrared cabins and a Russian stove, so we will consider the most pronounced in each case.

The heating of the internal organs of the body due to the flow of blood from the subcutaneous capillaries and the thermal conductivity of the tissues is characteristic of the Finnish sauna, Turkish steam room and Russian bath, that is, where the skin is in direct contact with hot air or moist steam. Infrared cabins (the latest development of foreign manufacturers), differs from the Finnish sauna in that infrared (IR) emitters are installed in the walls instead of the heater. Since the temperature of the emitting surface of infrared emitters is much higher than 300 ^o C, the maximum intensity in the continuous spectrum of radiation lies in the wavelength range shorter than 6.5 microns. According to the physiological effect on the human body, such thermal infrared radiation is characterized by the fact that the main power is absorbed by the surface layers of the skin and subcutaneous tissues and therefore is classified as "hard" by classification. Thus, in infrared cabins, heating of internal organs is similar to heating in a sauna. In addition, it is known that the protein in living cells coagulates at a temperature of 42 ^o C, while the cell dies. Therefore, "hard" infrared radiation, absorbed in the skin, has an adverse effect on them. In nature, a person encounters such radiation mainly near a fire, and solar radiation of this spectral composition practically does not reach the Earth's surface due to absorption by water vapor contained in the atmosphere (there are narrow windows for atmospheric transparency in the regions of 3.5 and 4.5 μm, but the integrated power is small). It is known that the faces of people who often sit around a fire prematurely age and fade.

A completely different heat comes from the warm brick wall of the Russian stove, which has a temperature of about 50 ^o C. The nature of the thermal radiation is completely different, and a person feels deep penetrating heat, even through clothes. For such soft IR radiation, clothing and skin are translucent, it penetrates deep into the body and is absorbed by internal organs and tissues. In the solar spectrum, reaching the surface of the earth, there is a wide transparency window from 8 to 13 microns. The surface of the earth heated by the sun or warm sand on the beach also emits such rays. The human body is adapted to them throughout the entire process of biological evolution, and these rays are necessary for him for normal functioning of the body as well as food, air and water. Therefore, the healing effect of the southern beaches, warm marble in Roman baths, and a brick stove bench of the Russian stove have long been noticed.

It is known that the maximum intensity in the continuous spectrum of radiation and absorption of the human body (~ 37 ^o C) falls on a wavelength equal to 9.3-9.5 microns, and it is at this wavelength that the greatest depth of penetration of infrared radiation into the body takes place human (V.M. Bogolyubov, G.N. Ponomarenko, "General Physiotherapy", M .: Medicine, 1999, p. 151). In living organisms, biological crystals are formed, built from biological macromolecules - proteins, nucleic acids or viral particles. Complex chemical redox reactions, splitting and synthesis reactions, processes of formation, growth and dissolution of biocrystals and other biochemical processes that occur in tissues and living cells of a healthy organism are determined by the optimal temperature of the body, individual organs and body tissues. When soft IR radiation passes through tissues, if these frequencies correspond to the frequency of thermal processes occurring in the body’s tissues, its resonance absorption occurs at frequencies that coincide with some natural vibrational and rotational frequencies of the molecules or vibrational frequencies of the crystal lattice of biocrystals. Such soft IR radiation is bioresonant for the tissues of a living organism and has a significant effect on the biochemical processes occurring in them.

 Important is the uniform warming up of the body from all sides. This is due to the adaptive characteristics of the body in the conditions of the temperature difference of different parts of the body. Uneven heating of various parts of the body creates an adverse effect of "draft". Since the specific radiation power (not a unit area of the emitter) of soft (low-temperature) IR radiation is significantly lower than that of high-temperature radiation, a large radiation surface area is required to ensure sufficient radiation flux density (illumination or body irradiation). An example of such a heating of the human body is the Russian stove, whose warm arches surround the body from all sides.

 The therapeutic effect of the use of warm healing mud, clay and warm sand is also mainly associated with the bioresonant effect of heat directly on internal organs and tissues. Local heating of internal tissues by fractions and units of degrees, as a rule, contributes to the vital functions of biological objects, increasing the intensity of the metabolic process.

 In the cold season, the human body does not receive enough from the surrounding objects of the radiant energy of the bioresonant range. This is especially noticeable when the walls of the premises have cooled down, and the central heating is not yet turned on. It is during these periods that SARS, influenza epidemics, and other viral diseases are more often observed. In all likelihood, this is due to the fact that with a lack of endogenous heat associated with a sedentary lifestyle and a lack of bioresonant heat emanating from surrounding objects, the metabolism of cells decreases, the processes of formation and growth of biocrystals, including viral reproduction, are more active in the human body biocrystals, slag deposits accumulate, stones in the kidneys, liver, bile ducts crystallize, salts in the joints and spine are deposited. Resonant heat absorption by deeply located tissues of the body increases the mobility of molecules in biocrystals, increases the permeability of cell membranes, activates metabolic processes, destroys biocrystals of pathogenic viruses and helps dissolve stones, salts of heavy metals, cholesterol plaques and other deposits. Therefore, to maintain health, it is very important to regularly use the beneficial properties of bioresonant exogenous heat.

From the above it follows that the most favorable thermal effect, allowing to achieve heating of the body, is irradiation of the body with infrared radiation in the bioresonant wavelength range of 8-10 μm, which corresponds to the temperature of the emitting surfaces from 30 to 60 ^o C. However, it is important to ensure effective heating that the radiation is generated by heated wall, floor and deck lining made of dense stone materials.

 This method of internal bioresonance heating allows you to selectively apply heat to individual organs and tissues. So, for example, choosing marble, consisting mainly of calcium salts, as a wall or bedding material, we selectively apply heat to bone tissue, since the thermal radiation of calcium atoms in marble is resonantly absorbed by similar calcium atoms of bone tissue. And, choosing ceramics made of red clay and containing red salts of iron coloring as a heated lining, we selectively warm up muscle tissue, liver, kidneys, and lungs. Moreover, since there are no thermal receptors inside the body, a person does not feel exogenous heat inside the body, but such heat effectively warms up the body and allows you to have a significant impact on the biochemical processes taking place in the tissues.

The optimum temperature for the life of the organism is considered to be the ambient temperature of about +22 ^o C. Moreover, not only the individual state of the organism is important, but also what the environment is. So, if a person’s body is mainly surrounded by air at a temperature of +30 ^o С, for example, a person is in the shade under a tree, then he will be comfortable. And if a person is in a room with concrete walls and floors, warmed up to +30 ^o C, and even with high humidity, which reduces the evaporation of sweat and body cooling, then he may overheat. That is, in the latter case, the thermal balance of the human body is significantly disrupted, and the body warms up both from internal endogenous heat and due to absorption of thermal radiation coming from warm stone (dense) surfaces, despite the fact that their temperature is lower than the temperature of the human body .

Planck's law of radiation describes the distribution of energy in the spectrum of equilibrium radiation at a certain temperature for a completely black body. Heated solids and liquids emit a continuous spectrum. The thermal radiation of real bodies is less than the radiation of a completely black body of the same temperature, and can be selective. With increasing temperature, the maximum function of the radiation intensity shifts toward small wavelengths. Striped IR spectra are observed in the emission spectra of excited molecules in gases. The distribution of the radiation energy of the human body in the IR region is close to the distribution of the energy of black radiation with a maximum at a wavelength of ~ 9.5 μm (Physical Encyclopedia, vol. 2, Moscow, 1998, p. 182). The energy distribution of the thermal radiation of the heated cladding in the bath with an integral maximum in the wavelength range of 8-10 μm corresponds to the temperature of the radiating surfaces in the range from ~ +30 to ~ +60 ^o C.

 The emissivity of real solids depends on the nature of the surface (porosity, roughness), on the material of the solid and its density. The denser the lining material, that is, the denser the atoms in the crystal lattice, which are elementary emitters-antennas, are packed, the greater the emissivity. The roughness of the radiating surface increases the real radiation surface for a given geometric dimensions, and the porosity decreases. In addition, the surface roughness causes some blurring (broadening) of the integrated spectral characteristic, since the humps and troughs of the microrelief of the radiating surface when the gradient of the heat flux through the cladding material to the surface have different temperatures.

 It should be noted that heating of the whole organism as a whole according to the proposed method is preferable to heating through the skin for the following reasons. Direct absorption of heat by internal tissues requires less energy to achieve a similar result by about two times compared with a sauna. In addition, intensive ventilation is not required, since there are no under-oxidized decomposition products of organic compounds contained in air in the air. Comfortable temperature does not cause stress on the cardiovascular system.

 Thus, the bathhouse made according to the proposed heating method differs from the known fire safety, hygiene, environmental friendliness, minimal energy consumption for heating the human body, quick warm-up time before profuse sweating, and maximum therapeutic effect.

 The practical implementation of the invention is reduced to the realization of heated surfaces of walls, floors and deck chairs, regulation and thermostating of the heating temperature of these surfaces.

 Currently, heating of surfaces of various shapes with the help of an electric cable evenly distributed under the heated surface is widely used. Power cable is supplied from the mains. To control the temperature of heating surfaces, electric temperature sensors and temperature regulators (thermostats) are used.

 It is possible to carry out heating of surfaces with the help of water heated to the appropriate temperature, which is passed through tubes laid under the heated surface. The choice of surface heating method is determined only by technical and economic feasibility.

 Such a bathhouse was implemented in the near Moscow region and showed excellent results. It was noted that in the vast majority of people suffering from hypertension and warming up in such a bath, a decrease in upper and lower blood pressure by about 30-60 units per session consisting of three to four visits of 10-15 minutes is persistently observed. Moreover, unlike other types of baths, the pulse does not increase, rapid warming up to profuse sweating (~ 10 min) and a significant time after sweating are noted, there are no signs of fatigue or malaise. In addition, for three to four months, with a weekly visit to such a bath with lemon juice and honey, dissolution and removal of stones from the kidneys and liver are noted. Excellent results were obtained in the treatment with bath procedures for sinusitis, colds and viral diseases, osteochondrosis of the spine, prostatitis, pneumonia. Since such a bath is easily tolerated and prolonged and intense sweating is possible in it, there are great opportunities for the treatment of alcohol and drug addiction through the "evaporation" of cell memory.

 Structurally, such a bath can be implemented not only in a country house, sports, medical and recreational facilities, but also in almost every city apartment. The proposed method of heating can be recommended for a wide range of users with various health disorders, for which both a sauna and a Russian steam bath are contraindicated.

Claims (1)

The method of heating the human body in the bath by using thermal infrared radiation, characterized in that they use thermal infrared radiation with a maximum spectrum intensity in the wavelength range from 8 to 10 microns when heating the surfaces of the walls of the bath from 36 to 55 ^o C, the floor surface is not higher 45 ^o C and the surface of the lounger - from 36 to 50 ^o C.