RU191240U1 - 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, which differs from the known technical solutions in that it contains from 1 to 16 sets of electrodes, each of which is formed by a series of 3 ÷ 6 series-connected electrically conductive materials with different values of the standard electrode potential, while the materials are connected only along part of the surface while maintaining electronic conductivity between materials, and on one side of the row there are 1 ÷ 4 materials with a standard electrode potential value of more than +0.799 V. 8 s.p. crystals, 6 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. So it is known a device consisting of zinc and copper plates spaced on the location on the human body, which is used for long-term surface exposure to the biological active reflex zones of the wrists and in areas located in the specified order on 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, different from the known technical solutions in that it contains from 1 to 16 sets of electrodes, each of which is formed by a number of 3-6 connected in series electrodes with different values of the standard electrode potential, while the electrodes are connected only along part of the surface while maintaining e ics conduction between them and on the one hand a number of electrode 1-4 located with the value of the standard electrode potential of more than 0.799 V.

The device includes from 1 to 16 sets of electrodes. In turn, each set of electrodes is a series of series-connected 3

between each other electrodes (electrically conductive materials), each of which has a different value of the standard electrode potential from the others. Thus, each material is an electrode, while it may have a bulk or film form of execution. The number of connected materials varies from 3 to 6. As electrically conductive materials, metal materials or composite materials with electronic conductivity can be used. The connection form of the electrodes (materials) can be different: mechanical connection, welding, electroplating, electron sputtering, etc. At the same time, electronic conductivity is maintained between the materials, however, at the junction points, a transient, albeit small, threshold (jump) in electrical resistance occurs. Thus, a number of connected materials is a package of 3-6 conductive materials or electrodes, which is a modified galvanic pair, and when in contact with an ion-conducting (water-containing) medium, it becomes a galvanic cell. Under the ion-conducting medium in this utility model is meant, first of all, the secrets of the skin and mucous membranes. The ionic conductivity and ionic composition of the near-electrode space of a given package of electrically conductive materials when placed on human skin and mucous surfaces is mainly determined by the extreme materials of the galvanic pair. In other words, there is a formation between the extreme materials of the package of the galvanic cell. However, to an insignificant degree, electrode current and ion current also arise between intermediate electrically conductive materials of the stack. In addition, intermediate materials can have an auxiliary, for example, catalytic effect.

To implement a physiotherapeutic effect on the skin and mucous membranes of a person, materials from a number of electrodes are specially selected. According to experimental data, the best therapeutic results are observed when using the following series of materials in the sequence shown: copper, silver, gold, platinum or copper, silver, gold. With this performance of a number of materials of a modified galvanic pair (galvanic cell), chemical analysis shows the presence of secrets of human skin or mucous membranes in the electrode space of the galvanic pair / cell of copper and silver ions and a significant reduction 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 7

saturation of 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. To effectively implement ionic conductivity, in particular, to obtain high galvanic currents, as well as reduce side electrode processes, gold and / or platinum are placed at one end of the package of materials of the modified galvanic pair. It was experimentally established that instead of platinum and in addition to it, it is possible to use other metals of the platinum group, for example, palladium, iridium, and rhodium. Since it is often important that silver can be 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 located on one side of a series of materials of a modified galvanic pair. This requirement is met by gold and most platinoids, e.g. platinum, palladium, iridium, rhodium.

The therapeutic effect is enhanced if the number of materials in the row of the modified galvanic pair is increased to 6, as well as when using a combination of galvanic pairs that can be electrically connected in parallel or in series. Parallel connection allows you to increase the area of impact of the applicator and, in principle, is limited to the necessary area of impact on the surface of the patient, so in practice it can include up to 16 sets of electrodes. The series connection is limited by the area of influence of the applicator and the allowable voltage of the effect and can in practice also be up to 16 sets of electrodes or modified galvanic pairs. Since a series of metals of a modified galvanic pair requires the inclusion of materials inert with respect to the secrets of human skin and mucous membranes, in particular gold and platinum, the minimum amount of materials in a galvanic pair is three. Since the modified galvanic pair in the claimed utility model should include inert materials, as well as materials more active with respect to them in the electrochemical sense, the number of materials in its series can be 6 if it is necessary to saturate the electrode space with several different ions. In practice, an increase in the number of electrode materials over 6 did not show an improvement in the therapeutic effect. At the same time, modified galvanic cells with 4 inert, as well as 4 electrochemically active materials with respect to the secrets of human skin and mucous membranes were tested.

The applicator can be made by serial connection of bulk materials in the above way. Moreover, the connection is carried out only on part of the surface while maintaining electronic conductivity between the materials. Each material can be presented in any form, which allows you to make curly applicators. Also, the applicator can be performed by sequential coating on any electrically conductive surface. Combined execution is possible, in particular the application of a number of coatings on a copper base, each of which covers only part of the surface of the previous material. The forms of the applicator can be a volumetric product, for example: a cylinder, a plate of arbitrary shape or in the form of a geometric figure, wire, spiral, coil spring and others.

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, including presses, 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:

- combining short-circuited electrodes into a set consisting of 3 ÷ 6 series-connected electrically conductive materials (electrodes) with different values of the standard electrode potential,

- a method of connecting electrodes (electrode materials): materials are connected only along part of the surface while maintaining electronic conductivity between the materials,

- execution on one side of a number of materials 1 ÷ 4 materials with a standard electrode potential of more than +0.799 V.

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 package of materials with different electrode potentials, where on one side of a number of materials 1-4 materials have a standard electrode potential of more than +0.799 V.

The description of the claimed utility model is illustrated in figures 1 ÷ 6.

FIG. 1 Scheme of the applicator.

FIG. 2 Execution of the applicator in the form of a plate.

FIG. 3 Execution of the applicator in parallel connection of sets of electrodes.

FIG. 4 Execution of the applicator in series connection of sets of electrodes.

FIG. 5 The execution of the applicator in the form of a flat spiral.

FIG. 6 The implementation of the applicator in the form of a twisted spiral.

The following symbols are indicated on the indicated figures:

1 - a series (sequence) of interconnected electrically conductive materials,

2 - conductive material characterized by an individual value of the standard electrode potential,

3 - conductive contact between the materials,

4 - material with a standard electrode potential value of more than +0.799 V,

5 - connecting wire,

6 - copper or copper coating,

7 - silver or silver plating,

8 - gold or gold plating,

9 - platinoid or its coating.

10 - Contacts between sets of electrodes.

The inventive utility model is made as follows.

The applicator consists of sets of electrodes 1. The set is the main structural unit of the device and consists of a series of electrically conductive materials 2 connected in series, each of which has a different value of the standard electrode potential and is essentially an electrode. The number of electrode assemblies can vary from 1 to 16. The number of electrically conductive materials connected in series with different values of the standard electrode potential can vary from 3 to 6. These materials are interconnected only along part of the surface while maintaining electrical conductive contact between them 3. On one side of the row are 1 + 4 materials with a standard electrode potential of more than +0.799 V, mainly gold or platinoids, or materials based on them 4. Each The ith material of the set of electrodes is made in the form of a volumetric product of arbitrary shape, for example, a plate, a cylinder, a prism, a spiral wire and other figures. The entire applicator can be made in the form of an art figure. Wire applicators can be presented in the form of flat and helical spirals. Materials can also be made in the form of film coatings. Coatings can contact each other in a different order. Moreover, they can be performed sequentially on an electrically conductive basis or in layers one on top of the other. When applying coatings in layers, one of a number of materials, mainly the first one, can be used as an electrically conductive base. Also, when coated with layers, each subsequent layer is applied only to a part of the surface of the previous layer. The preferred connection of materials (electrodes) in a modified galvanic pair is carried out in the following sequence: copper 6, silver 7, gold 8, platinum 9.

Example 1

For the manufacture of the applicator, flat copper (M1), silver (99.9%) and gold (95.8%) plates with a size of 40 × 15 × 0.2 mm were used. The plates were interconnected sequentially mechanically using a lock connection with the formation of an applicator measuring 40 × 45 × 0.2 mm. The obtained applicator was used for the physiotherapeutic effect of the overlay on the nasolabial folds of the face and facial wrinkles. The applicator was used by a group of women in the amount of 7 people aged 35-47 years. The applicator was used overnight by applying to the indicated places for 1 ÷ 1.5 hours for 2 weeks. The applicator was fixed with a medical plaster or face mask. After the experiment, experts visually observed in 5 women a decrease in the depth of folds in the nasolabial region and on the forehead. These data were confirmed by the study of microrelief and wrinkle depth using UV dermatoscopy. The positive effect was expressed in increasing the dullness and velvety skin, the dermal papillae became more pronounced, the area of the frontal projections of deep wrinkles and folds decreased by 40 ÷ 70%.

Example 2

The applicator was made by sequentially depositing silver, gold and platinum coatings in a specified sequence on a copper plate (M1) measuring 50 × 80 × 1 mm. The coating was applied by a galvanic method when the base was immersed in an electrolyte, and the coating was performed only on 50% of the open surface of the previous metal in the indicated row. The coating thickness was 15–20 μm. The obtained applicator was used for physiotherapeutic treatment with lumbago of the lumbosacral region in 3 subjects by applying it to 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.

Example 3

The applicator plates in the amount of 16 pieces were made according to the method specified in example 2, while the size of each plate was 10 × 25 × 1 mm. These applicators were placed by applying 8 pcs. on each side of the back with lumbosacral radiculitis in 4 subjects. In this case, the copper parts of the applicators were electrically shorted by a copper wire by soldering with silver solder. The applicator plates were fixed with a medical plaster and held for 5 days. After this period, 2 subjects felt significant relief, and in two the pains disappeared.

Example 4

The applicator plates in the amount of 16 pieces were made according to the method specified in example 2, while the size of each plate was 10 × 15 × 0.8 mm. The applicator plates were placed in the direction of the sciatic nerve during its inflammation (the diagnosis of sciatica) from the spine along the thigh in 2 subjects. In this case, the platinum part of each plate, with the exception of the latter, was connected to the copper part following the row of the plate. The connection was made using copper wire by soldering with silver solder. The applicator plates were fixed with a medical plaster. Physiotherapeutic effect was carried out for 3 days. At the end of this period, the subjects felt significant relief.

Example 5

Pieces of M1 copper wire with a diameter of 0.8 mm and a length of 50 mm were coated with silver, gold and platinum, respectively. The coating thickness was 15–20 μm. Pieces of copper wire, as well as silver, gold coatings, were connected in series by electric welding. This resulted in a wire with a sequence of electrode materials: copper, silver, gold, platinum. The resulting wire was twisted into a twisted spiral with a diameter of 15 mm. A number of such wires were made. The ends of each wire were rounded and twisted.

To study the therapeutic effect of the treatment of rhinitis in the autumn-winter period, two groups of 6 people were created from university students, one of which was a control.

The resulting wires were used by 6 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 the runny nose went away, after 4 days the runny nose in two more patients passed. In the sixth patient, a runny nose went away after 6 days. In the control group, a runny nose passed in students after 5-7 days.

Example 6

To prepare the applicator, 3 copper (M1) cylinders with a diameter of 6 mm and a length of 50 mm were made. Two of these cylinders were completely coated with silver and gold, respectively, by electroplating. The coating thickness was 15–20 μm. After that, the obtained cylinders were rigidly connected in one plane by a copper wire with a diameter of 3 mm by welding. 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.

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 (9)

1. The applicator for galvanic physiotherapeutic effects, containing short-circuited electrodes, characterized in that it contains from 1 to 16 sets of electrodes, each of which is formed next to 3-6 series-connected electrodes with different values of the standard electrode potential, while the electrodes are only partly connected surfaces with preservation of electronic conductivity between them, and on one side of the row are 1-4 electrodes with a standard electrode potential of more than +0.799 V. 2. The applicator according to claim 1, characterized in that each electrode from their combination is made in the form of a volumetric product of arbitrary shape. 3. The applicator according to paragraphs. 1 and 2, characterized in that each electrode from their combination is made in the form of a wire. 4. The applicator according to claim 3, characterized in that the set of wire electrodes is in the form of a spiral. 5. The applicator according to claim 3, characterized in that the set of wire electrodes has a helical shape. 6. The applicator according to any one of paragraphs. 1, 4, 5, characterized in that each electrode from their combination is made in the form of a film coating. 7. The applicator according to any one of paragraphs. 1, 4, 5, characterized in that from one to three electrodes from a number of electrodes are made in the form of a film coating. 8. The applicator according to claim 1, characterized in that each of the next in a row of electrodes from their combination is connected only to a part of the surface of the previous in a row of the electrode or covers part of the surface of the previous in a row of the electrode, while the connection area for each subsequent pair of electrodes of the row is reduced . 9. The applicator according to claim 1, characterized in that the series of series-connected electrodes from their combination is made of copper, silver, gold, platinum in the indicated sequence.

Images