RU45621U1 - AUTOBIOR RESONANT APPLICATOR (OPTIONS) - Google Patents

Abstract

The utility model relates to the field of medicine, in particular, to physiotherapeutic agents and can be used in medical

institutions and at home as a treatment and wellness product.

The objective of the utility model is to create a material with a higher reflectance of infrared radiation and with higher corrosion resistance, as well as reducing the degree of exposure of sweat to metallized fabric.

In the first embodiment (Fig. 1), the bioresonant applicator contains breathable layers of dielectric materials, in which the outer layer 1 is made of fabric, the middle metallized layer 2 is made of fabric or non-woven fibrous material coated on at least one side with silver, aluminum, titanium, nickel, copper, chromium, or its alloy with iron, tin, or an alloy of tin with nickel and / or copper, and / or zinc, an alloy of copper with gold, and / or silver, and / or zinc, an alloy of aluminum with copper and / or zinc, an alloy of nickel with phosph Hur or boron, and the inner layer may be either prochnostseplennym and legkootdelyaemm mnogosmennm. Moreover, in the case of one-sided metallization of the middle layer, the coating is preferably located on the side of the inner layer, and the inner layer is made of fabric or non-woven fibrous material, preferably of hydrophobic material.

In the second embodiment, the bioresonant applicator contains breathable layers of dielectric materials, in which the outer layer 1 is made of fabric, the middle metallized layer 2 is made of fabric or non-woven fibrous material coated on at least one side with silver, aluminum, titanium, nickel, copper , chromium or its alloy with iron, tin or an alloy of tin with nickel and / or copper, and / or zinc, an alloy of copper with gold and / or silver, and / or zinc, an alloy of aluminum with copper and / or zinc, an alloy of nickel with phosphorus sludge and boron. Moreover, in the case of one-sided metallization of the middle layer, the coating is preferably located on the side of the inner layer, and the inner layer 3 is made two-layer, in which the lower layer is made of hydrophilic 5 and the upper of hydrophobic 4 materials, while the hydrophilic and hydrophobic layers can be made of fabric or non-woven fibrous material, or one of the layers is made of woven, and the other is of a non-woven fibrous material. The inner layer can be either strongly bonded or easily separated by multiple shifts.

Description

The utility model relates to the field of medicine, in particular, to physiotherapeutic agents and can be used in medical institutions and at home as a medical prophylactic and wellness product.

Known material for the manufacture of therapeutic blankets, including an electrically insulating layer consisting of cotton fabric and a fibrous layer, and a shielding layer of polymer metallized film (RF patent No. 2203107 class A 61 N 1/16 publ. In bull. No. 12 from 04/27/2003 g .).

This material provides effective warming of the human body due to the reflection of infrared radiation coming from the body, but does not provide comfort due to the creation of a "greenhouse effect", since the shielding metallized film is not breathable.

It is known therapeutic and prophylactic heating product (prototype), including breathable woven inner, middle and outer layers of dielectric textile fibers, in which the middle layer has a metal coating of nickel and at least one metal selected from the group: iron, copper, cobalt, magnesium, silver, chromium, zinc, aluminum (Utility Model Certificate of the Russian Federation No. 0003201 class A 61 F 7 | 00 dated 06.12.95).

Known material has air permeability, but has insufficient corrosion resistance of the metal layer, after which the efficiency of reflection of infrared radiation is significantly reduced, especially from the effects of perspiration of a person or animal.

The objective of the utility model is to create a material with a higher reflectance of infrared radiation and with higher corrosion resistance, as well as reducing the degree of exposure of sweat to metallized fabric.

The essence of the invention lies in the fact that the bioresonant applicator can be made in two versions.

In the first embodiment (Fig. 1), the bioresonant applicator contains breathable layers of dielectric materials, in which the outer layer 1 is made of fabric, the middle metallized layer 2 is made of fabric or non-woven fibrous material coated with silver or aluminum on at least one side , titanium, nickel, copper, chromium or its alloy with iron, tin or an alloy of tin with nickel and / or copper, and / or zinc, an alloy of copper with gold and / or silver, and / or zinc, an alloy of aluminum with copper and / or zinc, an alloy of nickel with phospho rum or boron. Moreover, in the case of unilateral metallization of the middle layer, the coating is preferably located on the side of the inner layer, and the inner layer is made of fabric or non-woven fibrous material, preferably of a hydrophobic material.

In a second embodiment, the bioresonant applicator comprises breathable layers of dielectric materials, in which the outer layer 1 is made of fabric, the middle metallized layer 2 is made of fabric or non-woven fibrous material with a coating of at least. on the one hand silver, aluminum, titanium, nickel, copper, chromium or its alloy with iron, tin or an alloy of tin with nickel and / or copper, and / or zinc, an alloy of copper with gold, and / or silver, and / or zinc , an alloy of aluminum with copper and / or zinc, an alloy of nickel with phosphorus or boron. Moreover, in the case of one-sided metallization of the middle layer, the coating

preferably located on the side of the inner layer, and the inner layer 3 is made two-layer, in which the lower layer is made of hydrophilic 5 and the upper of hydrophobic 4 materials, while the hydrophilic and hydrophobic layers can be made of fabric or non-woven fibrous material, or one of the layers made of woven and the other of non-woven fibrous material.

The coating thickness with metals of the middle layer is from 0.05 to 10 microns.

The therapeutic, prophylactic and health-improving effect is manifested when the bioresonance applicator is applied with an inner layer to a certain part of the human or animal body or when it is used as a blanket or sleeping bag and consists in reflecting infrared radiation by the human or animal body, creating the effect of dry heat. In addition, it is known that sick and healthy cells emit electromagnetic waves of various lengths and, when reflected, a bioresonance effect occurs in the area of its application, which improves microcirculation and metabolic processes, leads to the removal of the spasm of smooth and striated muscles, has a relaxing effect, restores efficiency, increases the functional reserves of the body.

When choosing a coating metal, one should proceed from the degree of reflection of infrared radiation, electromagnetic radiation, and from the corrosion resistance of coating metals. So metals gold, silver, copper, aluminum have a high degree of reflection of infrared radiation (more than 93%). Nickel and nickel alloys with tin phosphorus and boron also have a high infrared reflection coefficient close to 90%. Titanium, chromium, tin, nickel, tin-nickel, nickel-phosphorus and nickel-boron alloys have high corrosion resistance, and nickel or nickel alloy with tin has a high degree of shielding of electromagnetic radiation due to the ferromagnetic properties of nickel. Alloys of tin with copper (bronze) and copper with zinc (brass) are more corrosion resistant than copper and also have heights of infrared reflection coefficient (above 90%).

As is known, the addition of electrochemically more negative metals to nickel reduces the corrosion resistance of the alloy due to the corrosion of these metals, and the addition of more positive metals such as copper and silver reduces the corrosion resistance of nickel and only the addition of tin and potential close tin increases the corrosion resistance of the alloy. The addition of chromium to nickel increases the corrosion resistance, but significantly reduces the coefficient of thermal reflection.

When using the inner layer of a two-layer material as a material, a hydrophobic material adjacent to the metallized layer, for example, of polypropylene yarns, blocks the action of corrosive sweat, which is delayed for a period of the session in a hydrophilic, for example, viscose, layer of a two-layer material.

It is possible to apply metal coatings to a fabric or non-woven material by various known methods: chemical using reducing agents, or electrochemical, or magnetron sputtering in vacuum, decomposition of carbonyl compounds, and others.

The bioresonance applicator, according to the invention, retains the properties of conventional textile materials - breathability, lightness, flexibility, which is why it is convenient to use for treating various parts of the body, and for the whole organism as a whole when used as a medical blanket.

In the presence of common diseases of the spine and joints, psycho-emotional overload and chronic fatigue syndrome, it is advisable to use applicators such as “sheet” or “thermal blanket”. For colds, applicators such as “thermal blankets”, “sleeping bags”, “wraps” or “vests”, for diseases of the throat - “scarves”. With damage to the cervicothoracic region

spine and shoulder joints - applicators of the “collar” type, with lesions of the lumbar region - applicators of the “belt” type, with lesions of the joints of the hands and feet, as well as concomitant vascular disorders - applicators of the type “mittens” and “boots”, “wristlet”, pains in knees, elbows - applicators of the “knee pad” and “elbow” types; for pain in the hip area - applicators such as "shorts" and "leggings"; for whitening, ENT organs-applicators such as "earphone" or "lororgan"; for the hands and feet, the “screen cover for hands and feet” and “insole” applicators are also used: the “cap” applicator helps weather-dependent people, and the “motorist” applicator helps drivers and passengers.

For the convenience of attaching applicators, Velcro, braid, elastic bands and other means of sewing production can be used.

Examples of application of bioresonance applicators:

Example 1. The applicator type "collar", consisting of an outer layer of polyester fabric, a middle layer of polyester fabric coated with nickel-tin (5%) and an inner layer of cotton fabric, was used in a patient with pain in the cervicothoracic spine. After 2 hours of using the pain, almost no pain was felt, and after 10 sessions they disappeared completely.

Example 2. An applicator of the "thermal blanket" type, consisting of an outer layer of polyester fabric, a middle layer of polyester non-woven fiber coated with copper, and an inner layer of two-layer material of hydrophobic polypropylene fabric and hydrophilic non-woven viscose fiber, was used in a patient with a cold and a temperature of 38, 0 ° C. After the session, the patient's condition and temperature recovered for 8 hours.

A comparable analysis with the prototype shows that the use of metal coatings in the first embodiment with a high coefficient of thermal reflection of electromagnetic waves of infrared radiation from the human or animal body, as well as more corrosion-resistant metals and alloys, and the use of hydrophobic inner layers that do not absorb sweat, as well as a two-layer material of the inner layer in the second embodiment, also using nonwoven materials in a metallized middle layer, it shows a new, previously unused solution.

Thus, the claimed device meets the criteria of the invention of "novelty."

Comparison of the proposed solution with another solution shows the use of new types of materials, fabrics, their compositions and structure, metals with various physical and corrosive properties, which allows us to conclude that the technical solution meets the criterion of "inventive step".

Claims (13)

1. Autobioresonant applicator containing breathable layers of dielectric materials: woven outer, metallized middle and inner, characterized in that the middle layer has a metal coating on at least one side with silver, aluminum, titanium, nickel, copper, chromium or its an alloy with iron, tin or an alloy of tin with nickel and / or copper, and / or zinc, an alloy of copper with gold and / or silver, and / or zinc, an alloy of aluminum with copper and / or zinc, nickel alloys with phosphorus or boron, and the inner layer can t be a prochnostseplennym and legkootdelyaemym multishift. 2. The auto-resonant applicator according to claim 1, characterized in that the middle metallized layer is made of fabric or non-woven fibrous material. 3. The autobioresonant applicator according to claim 1, characterized in that, with one-sided metallization of the middle layer, the coating is preferably located on the side of the inner layer. 5. The autobioresonant applicator according to claim 1, characterized in that the inner layer is made of fabric or non-woven fibrous, preferably hydrophobic material. 6. The autobioresonant applicator according to claim 1, characterized in that it can be made in the form of a sheet, thermal blanket, sleeping bag, auto applicator, vest, cape, collar, belt, mittens, boot, wristband, scarf, leggings, shorts, hats, cover-screen, earphone, knee pad and elbow, insoles, lororgan, 7. An autobioresonant applicator containing breathable layers of dielectric materials: woven outer, metallized middle and inner, characterized in that the middle layer has a metal coating of at least silver, aluminum, titanium, nickel, copper, chromium or its alloy with iron , tin or an alloy of tin with nickel and / or copper and / or zinc, an alloy of copper with gold and / or silver and / or zinc, or an alloy of aluminum with copper and / or zinc, nickel alloys with phosphorus or boron, and the inner layer two-layer, in to a torus made of a lower layer of the hydrophilic and hydrophobic materials of the upper, the lower layer of two-layer inner layer can be legkootdelyaemym, multi-shift. 8. The autobioresonant applicator according to claim 7, characterized in that the middle metallized layer is made of fabric or non-woven fibrous material. 9. The autobioresonance applicator according to claim 1, characterized in that the thickness of the metal coating in the middle layer is from 0.05 to 10 microns. 10. Bioresonance applicator according to claim 7, characterized in that in case of unilateral metallization of the middle layer, the coating is preferably located on the side of the inner layer. 11. The autobioresonant applicator according to claim 7, characterized in that the two-layer inner layer is made of fabric. 12. The autobioresonance applicator according to claim 7, characterized in that in the two-layer inner layer one of the layers is woven and the other non-woven. 13. The autobioresonant applicator according to claim 7, characterized in that in the two-layer inner layer, the hydrophilic and hydrophobic materials are nonwoven. 14. The autobioresonant applicator according to claim 7, characterized in that it can be made in the form of a sheet, thermal blanket, sleeping bag, auto applicator, vest, cape, collar, belt, mittens, boot, wristband, scarf, leggings, shorts, hats, cover of the screen, earphone, knee pad and elbow, insoles, lororgan.