RU191601U1 - Applicator for galvanic physiotherapy - Google Patents

Abstract

The utility model relates to the field of medicine, namely to physiotherapeutic galvanic devices, in particular to reflexotherapy devices. The solvable task of the claimed utility model is to expand the arsenal of technical means, namely applicators for galvanic physiotherapeutic effects without the use of external voltage sources. The specified technical result is achieved due to the implementation of the applicator for galvanic physiotherapeutic effects containing core open-circuited electrodes with different values of the standard electrode potential, which differs from the known technical solutions in that it contains from 1 to 4 sets of electrodes, which in turn contain from 3 to 6 electrodes, each of which is made of an electrically conductive material with a standard electrode potential in accordance with the values standard electrode potentials in the sequence of Cu, Ag, Au, Pt, while all the applicator electrodes are extended, short-circuited at one end, and their location in applicator corresponds to the specified sequence. 4 s.p. f-ly, 3 Fig.

Description

The utility model relates to the field of medicine, namely to physiotherapeutic galvanic devices, in particular to reflexology devices.

Currently, there are many devices that use galvanotherapy to treat various diseases by exposing the surface of a person’s body or its mucous membranes. First of all, these are methods of electrophoresis or iontophoresis. Most of these methods use external power sources, which, in particular, limits the time of therapeutic exposure. In turn, the limitation of exposure time is compensated by the increase in current load, which in many cases has undesirable side effects. Much less common are methods and devices for the therapeutic effect of low-intensity currents on the surface of a human body in contact with galvanic couples without an external power source. It is well known that a device consisting of zinc and copper plates spaced by the location on the human body is used for prolonged surface exposure of the biological active reflex zones of the wrists and in the zones located in the specified order over the entire surface of the feet (RF patent for utility, model No. 5398 , MKI A61N 1/02, 2005). A device is also known for prolonged exposure to a radially directed biocurrent in the area where acupuncture points are located, namely, a bimetallic applicator for reflexology containing two electrodes of metals with different electrochemical potentials and an end working surface in which one of the electrodes is made in the form of a cup and the second electrode fixed inside the cup with the possibility of electrical contact, a cavity is formed between the electrodes, the working surface of the electrodes is in one plane minute with an end working surface applicator (RF patent №2149623, MKI A61N 39/00, 2000 YG).

Each of these devices has restrictions on places of use on the human body and medical use.

The closest set of essential features to the claimed utility model is a physiotherapy device containing two short-circuited electrodes for contact with the secrets of the skin or mucous membranes, while the electrodes are made of Metals or their compounds with different electron work function values, characterized in that metals or their compounds, from which short-circuited electrodes are made, are chemically inert to the secrets of the skin or mucous membranes. Using the device it is possible to obtain metal ions and their impact on biological objects, including iontophoresis, without using an external electric field. The disadvantage of this device is the limitation of the physico-chemical effects on the surface of the human body or mucous membranes due to the limited ionic composition generated by the device, because when a contact pair of electrodes is formed, only 2 metal electrodes are used.

The solved problem of the claimed utility model is to expand the arsenal of technical means, namely, applicators for galvanic physiotherapeutic effects without the use of external voltage sources.

The purpose of this utility model is the implementation of the applicator for galvanic physiotherapeutic effects without the use of external voltage sources.

The achievement of the specified technical result in the claimed utility model is achieved through the implementation of the applicator for galvanic physiotherapeutic effects, containing short-circuited electrodes with different values of the standard electrode potential, which differs from the known technical solutions in that it contains from 1 to 4 sets of electrodes, which in turn contain from 3 up to 6 electrodes, each of which is made of an electrically conductive material with a standard electrode potential in accordance and with the values of standard electrode potentials in the sequence Cu, Ag, Au, Pt, while all the electrodes of the applicator are extended, short-circuited at one end, and their location in the applicator corresponds to the indicated sequence.

The applicator is made in the form of a combination of galvanic pairs. The number of sets varies from 1 to 4. Each set in turn contains from 3 to 4 electrodes. Each electrode has an individual standard electrode potential corresponding to the standard electrode potential of one of the following materials: copper, silver, gold, platinum. This requirement corresponds to the performance of the surface of the electrodes with the indicated materials, and this is possible when these electrodes are made entirely of these materials, and also when the surfaces of these materials are made on the electrodes, i.e. coatings. When performing a set of electrodes of 3 electrodes, their surface is made of copper, silver and gold, respectively. When performing a combination of 4 electrodes, respectively, of copper, silver, gold and platinum. The electrodes are extended in shape, for example, in the form of rods or wire. So, for example, it is possible to manufacture electrodes in the form of a copper wire with coatings from the above materials. One end of each electrode of all sets of galvanic pairs has a common electrical contact, and the other end is free.

When the free ends of the electrodes are placed in an ion-conducting (water-containing) medium, the electrodes form galvanic cells between themselves. In this case, the main electric current through the conductors and, accordingly, the ionic conductivity in the near-electrode layer are observed between the electrodes with the largest difference in standard electrode potentials, naturally taking into account the conductivity of the ionic medium, which depends on the distance between the electrodes and the composition of the medium. Between other pairs of electrodes, electric current and ionic conductivity are also noted, but of much lower intensity. Thus, choosing the composition of materials of the set of electrodes and their location, it is possible to control the currents of galvanic pairs and the ion composition of the near-electrode layer. Under the electrode layer in this case, we should understand the ion-conducting layer of the secrets of the skin and mucous membranes of a person.

A chemical analysis of the secrets of human skin or mucous membranes in the electrode space of a set of electrodes shows the presence of copper and silver ions, as well as a significant decrease in pathogenic microflora. This also explains the therapeutic effect, which, in particular, is expressed in the treatment of rhinitis, healing of wound surfaces, reduction of superficial inflammations, in particular, from burns and bruises, etc. The physicochemical basis of the therapeutic effect is to saturate the surface layer of the skin and mucous membranes with the necessary ions. For example, for weak disinfection, these are silver ions; the fight against pathogens of infections in wound surfaces is achieved by copper ions. The presence of gold and platinum, as catalytic materials, contributes to the implementation of oxidation-reduction processes at their active centers, as well as the discharge (destruction) of active radicals.

Since it is often important that silver could be present in the electrode space of the galvanic cell, materials with a standard electrode potential value higher than silver, namely more than +0.799 V, should be included in the set of electrodes. Gold and most platinoids, for example, platinum, meet this requirement. palladium, iridium, rhodium. Therefore, in principle, platinum can be replaced with other indicated platinoids.

According to experimental data, the best therapeutic results are observed in the case of the manufacture of electrodes of a combination of electrodes from the following series of metal materials in the sequence shown: copper, silver, gold, platinum. In this case, the electrodes are made in the form of a wire and are preferably placed in one plane in the order of a monotonic change in the value of the standard electrode potential. Because Since the electrodes are connected at one end, it is advisable to arrange them in a circle with the execution of the specified sequence clockwise or counterclockwise.

The smallest values of the number of sets of electrodes indicated in the formula and the number of electrodes in them are determined by the design and purpose of the utility model. A larger number of electrode assemblies does not increase the therapeutic effect. A greater number of electrodes in the aggregate is limited by the possibilities of implementing the claimed purpose of the utility model.

Under the extended shape of the electrodes in this utility model, it is understood that the ratio of the electrode length L to its diameter D when cylindrical or the ratio of the electrode length L to its width D when made in the form of a plate or the ratio of the length of the electrode L to its average diameter D when made in free form equal to or greater than 5 or L / D≥5. The extended shape allows you to bend the electrodes and give them the most effective form for therapeutic effects.

The inventive utility model is a technical solution, because represents a solution to the problem of achieving the claimed technical result by creating a device consisting of structural elements technologically and structurally interconnected. Moreover, the set of essential features of this utility model is united by a single creative concept. Parts (elements) of the device are in constructive unity and functional relationship, and their joint use leads to the creation of a new device with the stated purpose, namely, the implementation of the applicator for galvanic physiotherapeutic effects.

This technical solution is industrially applicable in the field of medicine and is applicable as an applicator for the implementation of physiotherapeutic galvanic effects. The use and use of the inventive device does not cause any difficulties and can be carried out both by specialists and patients on the recommendation of a doctor. In the implementation of the applicator, devices, devices and materials manufactured by the industry and placed on open sale are used. Methods for implementing the utility model are metal machining methods, electric welding, pressing, coating methods (electroplating, electronic vacuum deposition) installation. The means of implementation are mechanical means, machine-tool metalworking equipment, manual machining tools, welding equipment, galvanic equipment.

The above set of essential features of the claimed utility model and their disclosure allows us to conclude that the claimed technical result has been achieved, namely the implementation of the purpose of the utility model, which consists in the implementation of the applicator for galvanic physiotherapeutic effects without the use of external voltage sources.

Essential to the prototype in common with the claimed utility model is the presence of short-circuited electrodes or a galvanic pair in the applicator.

Distinctive from the prototype, the essential features of the claimed utility model or their characteristics are

constructive association of short-circuited electrodes in aggregate in an amount greater than 2,

the number of populations from 1 to 4,

the presence of a total of 3 to 4 electrodes,

the implementation of the materials of the electrodes of the set of conductive materials corresponding to the value of the standard electrode potential in the sequence of metals Cu, Ag, Au, Pt,

extended form of execution of the electrodes.

These significant features are distinctive from the prototype, because each of them is not contained in the totality of the essential features of the prototype, i.e. not present in the list of features implemented in the prototype, and is not their characteristic.

As already shown above, these essential features distinctive from the prototype, including their characteristics, ensure the achievement of the claimed technical result when using other essential features of the utility model specified in the description.

Thus, it is shown that the set of essential features of the claimed utility model, which allows to achieve the claimed technical result, differs from the set of essential features of analogues, prototype, as well as other known data sources, i.e. it is not known the use of this set of essential features with the implementation of the purpose stated in the utility model (with the receipt of the claimed technical result). In other words, the claimed utility model is not known from the prior art.

It should be noted that for the implementation of the claimed purpose, it is not known from the prior art to use the design of a galvanic pair consisting of a set of electrodes with different standard electrode potentials, where one of them has a standard electrode potential value of more than +0.799 V.

An increase in the effectiveness of the physiotherapeutic effect is achieved in the following device modifications characterizing particular cases of its implementation:

1. The inventive and described applicator, characterized in that the electrodes are made in the form of a wire.

2. The claimed and described applicator, characterized in that in the set of electrodes each electrode is made of one metal in accordance with the sequence of Cu, Ag, Au, Pt.

3. The claimed and described applicator, characterized in that in the combination of electrodes each electrode is made of an electrically conductive material coated with one metal in accordance with the sequence of Cu, Ag, Au, Pt.

4. The inventive and described applicator, characterized in that the electrodes are located in the same plane.

The description of the claimed utility model is illustrated in figures 1-3.

FIG. 1 is a diagram of an applicator.

FIG. 2 - the implementation of the applicator of the extended cylinders.

FIG. 3 - the implementation of the applicator made of wire.

The following symbols are indicated on the indicated figures:

1 - a set of electrodes,

2 - electrode

3 - common conductive contact,

4 - copper / copper coating,

5 - silver / silver plating,

6 - gold / gold plating,

7 - platinum / platinum coating.

The inventive utility model includes from one to four sets of electrodes 1. Each set in turn includes from three to four electrodes 2. Each of the electrodes is made of an electrically conductive material, the standard electrode potential of which corresponds to the value of the standard electrode potential in the sequence Cu, Ag, Au , Pt. All electrodes have an extended shape with the ratio of the length of the product to its average diameter equal to or more than 5 and are shorted in one contact. Depending on the number of electrodes in the aggregate, the materials on the surfaces of the electrodes are respectively made of copper 4, silver 5, gold 6, platinum 7 or copper 4, silver 5, gold 6. To increase the therapeutic effect, the electrodes are placed in one plane in the indicated sequence in a circle around clockwise or counterclockwise.

For the manufacture of the applicator, 3 or 4 lengthy parts from the above materials are prepared and connected at one end to a single contact. In order to save expensive materials, copper parts are mainly used and coatings are applied to them. So, for example, take 4 pieces of copper wire, 3 of them are plated with silver, gold, platinum and then join them together at one end mechanically or by welding. Wire electrodes are placed in the same plane in the sequence of copper, silver, gold, platinum clockwise. The resulting applicator is used for physiotherapeutic purposes by applying to certain areas of the body surface.

Example 1

For the manufacture of one applicator, three M1 grade copper wires with a diameter of 0.5 mm and a length of 75 mm were taken. Two wires were coated with silver and gold coatings, respectively, with a coating thickness of 15-20 microns. At one end, all wires were connected into a common electrical contact, the free ends are curled into spiral spirals with a diameter of 5 mm. There were twenty such applicators.

To study the therapeutic effect of the treatment of rhinitis in the autumn-winter period, two groups of 5 people were created from university students, one of which was a control.

The resulting wires were used by 5 patients of the test group. The use of applicators was carried out by placing them in the nasal passages. After 3 days in 3 patients of the test group, a runny nose passed, after 4 days a runny nose in the remaining two patients. In the control group, a runny nose passed in students after 5-7 days.

Example 2

For the manufacture of the applicator, four cylinders made of M1 grade copper with a diameter of 6 mm and a length of 30 mm were used. Three of them were coated with silver, gold and platinum, respectively. The thickness of the coatings is 15-20 microns. One end of each cylinder by means of a copper wire with a diameter of 2.5 mm are connected by welding in one contact. The obtained applicator was used by 3 subjects for the treatment of bruises 1 and 2 degrees. Bruises and painful manifestations disappeared after 2-3 days.

Example 3

For the manufacture of one applicator, pieces of copper wire of the M1 grade and silver wire with a purity of 99.9% were taken. The diameter of the wires is 0.8 mm and the length is 50 mm. Part of the copper wires were coated with gold and platinum, respectively, with a coating thickness of 15-20 microns. From the obtained wires, 4 sets of wires (electrodes) were assembled in the sequence: copper wire, silver wire, gold-coated wire, platinum-coated wire. The wires of each set were placed one after another in the same plane in a 90 ° circle sector. Similarly one after another, the following three sets were also placed in such a way that the wire electrodes occupied the entire space of the circle and were radially placed at an equal distance from each other.

Two such applicators were made. The obtained applicators were used for physiotherapeutic treatment with lumbago of the lumbosacral region in 3 subjects by overlaying on the indicated area for 3 days. The applicator was fixed with a medical plaster. At the end of the specified time, the subjects felt significant relief.

The above examples should not be construed as limiting the scope of legal protection of the utility model. On the contrary, options, modifications and equivalents of the described examples are also possible within the scope of the rights set forth in the utility model formula.

The above description of the implementation of the utility model and examples of its implementation confirm the achievement of the claimed technical result in the process of implementing the utility model. They also show a causal relationship of essential features between themselves and the achieved technical result.

From the above description it also follows that the achievement of a technical result is possible only when implementing the entire set of essential features, which also confirms the technical solution to the problem of implementing a utility model.

Claims (5)

1. The applicator for galvanic physiotherapeutic effects, containing short-circuited electrodes with different values of the standard electrode potential, characterized in that it contains from 1 to 4 sets of electrodes, containing in turn from 3 to 4 electrodes, each of which is made of an electrically conductive material, a standard electrode the potential of which corresponds, respectively, to the value of the standard electrode potential in the sequence of Cu, Ag, Au, Pt, while all the applicator electrodes have prot fluoropyridinium form shorted at one end, and their arrangement in the applicator corresponds to the specified sequence. 2. The applicator according to claim 1, characterized in that the electrodes are made in the form of a wire. 3. The applicator according to claim 1, characterized in that in the set of electrodes each electrode is made of one metal in accordance with the sequence of Cu, Ag, Au, Pt. 4. The applicator according to claim 1, characterized in that in the set of electrodes each electrode is made of an electrically conductive material coated with one metal in accordance with the sequence of Cu, Ag, Au, Pt. 5. The applicator according to claim 1, characterized in that the electrodes are located in the same plane.

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