RU200510U1 - IONATOR - Google Patents

Abstract

The ionator can be used in everyday life, in pharmacology, in medicine, and in particular in the fight against coronavirus. Since, for this it is important to increase immunity, use effective disinfecting solutions in everyday life, drink disinfected water and drinks, and prepare some medications at home. This can be helped by an ionizer, which allows you to create solutions with copper and silver ions in a ratio that provides maximum antimicrobial and regenerative effects. For this, the surface of the copper coating (anode) in relation to the surface area of the silver coating (cathode) should be in the range from 1: 0.8 to 1: 1. The offered ionator is made of copper. Silver coating is applied to the bottom and bottom inner surface. Electrolytes are poured into the container: a solution of citric acid (100 mg / l) in distilled water, mineral or drinking water, physiological solution with citric acid, milk whey, tomato juice with table salt, etc. The ionator has a low cost. The technical result is the ability to create solutions containing only copper ions or only silver ions, as well as solutions with a ratio of silver ions to copper at least 1/5000; increased ionization rate; facilitating the operation process.

Description

The utility model relates to devices for the introduction of copper and silver ions into aqueous solutions, as well as for the preparation of solutions containing only silver ions or only copper ions. The invention can be used in everyday life, in various fields of medicine, in pharmacology, in cosmetology, in aquarium and veterinary medicine.

Currently, the most pressing problem is the fight against coronavirus and other infectious diseases. For this, it is very important to increase immunity, use effective disinfecting solutions in everyday life, drink disinfected water and drinks, and be able to prepare some medications at home. In solving these problems, an ionator can help to create solutions containing copper and silver ions. Copper, being a completely irreplaceable trace element, in addition to antimicrobial action, has immunostimulating, antioxidant and anti-inflammatory properties. Thus, a decrease in the number of initial bacteria by 99% occurred in 10 hours at a copper ion concentration of 0.01 mg / L, in 3 hours at a copper ion concentration of 0.1 mg / L and after 1 hour at a copper ion content of 1 mg / L (Gutenev V.V. , Khasanov M.B., Montvila O.I., Azhgirevich A.I., 2001, Bactericidal properties of copper and the influence of various factors on them. // Water and ecology: problems and solutions. No. 3, p21-27; Azhgerevich A .I., 2011, Application of disinfectants containing copper and zinc in chemical and bactericidal technologies. // Ecology of urbanized territories. No. 4. P 45-51). Silver in ionic form has immunomodulatory, bactericidal, bacteriostatic, antiviral, antifungal and antiseptic effects against more than 500 pathogenic microorganisms. Moreover, silver ions have a stronger antimicrobial effect than penicillin, biomycin, and other antibiotics. One milligram of silver ions in 1 liter of water for half an hour causes inactivation of influenza viruses "A", "B", "Miter" and "Sendai (Bukina Yu.A., Sergeeva E.A. 2012, Antibacterial properties and the mechanism of bactericidal action of nanoparticles and silver ions. // Bulletin of Kazan Technological University, T. 15. No. 14. P. 170-172 .; Ivanov V.N., Larionov G.M., Kulish N.I., Lutseva M.A. and others, 1995, Some experimental and clinical results of the use of silver cations in the fight against drug-resistant microorganisms. // Silver in medicine, biology and technology. Siberian Department of the Russian Academy of Medical Sciences, No. 4. P. 53-62).

However, silver is not a catalyst for biochemical reactions without the participation of copper, and therefore has no independent significance for the generation of biological tissue. The best results are achieved with the joint presence of copper and silver ions in water with a ratio of silver to copper ions of at least 1/10000 (RU No. 2264220, A61K 33/38, 2005.11.20, authors: EM Rodimin, VE Rodimin). )

Known useful model "Plastic dishes with bactericidal properties" (Antonov IM, Antonov AI, RU No. 104835, A47G 19/00, 05/27/2011, Bull No. 15). In the manufacture of these dishes, silver nanopowder was added to the polymer. When using this dish, the liquids poured into it are saturated with silver ions. However, the concentration of silver is much lower compared to the concentration of silver ions formed when using the proposed bactericidal dishes. Since the contact area of silver and the liquid used in the proposed bactericidal dishes is much larger. In addition, copper ions are not generated in this well-known plastic dish. Accordingly, the bactericidal effect of the solutions obtained in this plastic container is weaker in comparison with the bactericidal properties of the solutions obtained in the proposed ionator.

Known useful model "Ionator for the disinfection of drinking water ions of silver or copper and the preparation of silver or copper aqueous solutions of a given concentration" (Abdulmenov F.F., RU 48530, U1, IPC C02F 1/46, 2005.10.27). The ionator contains a mains electrodosing device, where current decoupling, current stabilization and polarity reversal are provided. The ionator has a timer, an ion concentration stabilizer and electrodes made of chemically pure silver or copper. The electrodes are predominantly triangular in shape and perforated with round holes, enclosed in a dielectric cassette of similar shape and perforation, and the cassette is equipped with a spoon-shaped handle for forcibly separating silver or copper ions from the electrodes by stirring water. The ionator is equipped with an autonomous power source, and an electronic device (tester) for visual monitoring of the amount of dissolved silver or copper is mounted in the "spoon". With this ionator, it is possible to obtain solutions containing copper and silver ions of any desired concentration. However, this known ionator is a complex device and has a higher cost in comparison with the proposed ionator. This known ionator uses external power supplies to separate ions into solution. Therefore, the use of the ionator in the field is difficult, it is inconvenient to use it in everyday life, it is required to pour the liquid used from the working container into the utensils necessary for use. The known ionizer takes longer to clean and take care of.

The closest analogue (prototype) is the invention "Copper-silver ionator and therapeutic agent with antimicrobial action" (RU No. 2264220, A61K 33/38, 2005.11.20). The ionator for the preparation of a therapeutic agent of antimicrobial action consists of two short-circuited electrodes, where one electrode is made of copper, and the other is made of silver (or silver-plated copper), with the ratio of the surface area of the copper electrode in relation to the surface area of the silver electrode is in the range from 1 : 0.8 to 1: 1. In this case, the turns of the spiral of one electrode are located between the turns of the spiral of the other electrode with the surface areas of each electrode 10.5 cm ² (± 1.0 cm ² ). In an ionator with the ratio of the areas of their electrodes Cu / Ag: 1 / 0.8; 1 / 0.9; 1/1 were obtained solutions that were used during the morning and evening toilet: rinsing the nasal cavity and rinsing the nasopharynx. Tests have shown an increase in resistance to colds and a decrease in the incidence of exacerbations of chronic ENT diseases. At the same time, in terms of their therapeutic effect, they are not inferior to an antibiotic solution, but they differ favorably in that they do not have a depressing effect on the ciliated epithelium. No side effects from the use of the solution were noted. Solutions containing copper and silver ions, obtained by the authors of the famous patent, made it possible to significantly reduce the concentration of Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Candida albicans, and polio virus. A physiological solution containing copper - 1.0 mg / l, silver - 0.0002 mg / l and citric acid - 100 mg / l, even a year later had an antimicrobial effect on test microorganisms in an amount of 10 ⁶ cells / ml. These are the main advantages of the known ionator, which can be realized with the help of the proposed device.

However, the known ionator also has disadvantages. In the known ionator, the area of one electrode is 10.5 cm ² . In the proposed ionator with a volume of 400 ml, the area of each electrode is an order of magnitude greater than 125 cm ² . Accordingly, to obtain solutions of the same volume and with the same concentration of metal ions, using the present invention, it will take less time. The known ionator, in contrast to the one proposed in the invention, is not versatile. The versatility of the proposed bionator lies in the fact that it allows you to obtain various solutions. Solutions with a ratio of silver ions to copper of at least 1/5000, as well as solutions containing only copper ions or only silver ions. The known ionizer takes longer to clean and take care of.

The objective of the proposed utility model is the creation of solutions containing only copper ions or only silver ions, as well as solutions with a ratio of silver ions to copper of at least 1/5000; acceleration of the ionization process with the same dimensions of the device by increasing the surface area of the electrodes; facilitating the operation process.

The task is achieved by the fact that the ionator containing a copper anode and a silver cathode, with a ratio of the areas of their surfaces immersed in a liquid, from 1: 0.8 to 1: 1, which is made in the form of an open container made of copper, which serves as an anode , and a silver coating is applied to the bottom and lower inner surface of the container, which serves as a cathode.

The proposed ionator, in its general form, is shown in the images:

in fig. 1 - general view,

Fig. 2 - obtaining a solution saturated with copper and silver ions,

in fig. 3 - obtaining a solution saturated with copper and silver ions, where:

1 - copper container,

2 - silver plated,

3 - a solution saturated with copper and silver ions,

4 - a solution saturated with copper ions,

5 - ceramic or glass beaker,

6 - a solution saturated with silver ions.

To solve this problem, an ionator is proposed - these are containers of various capacities. The containers 1 can have various cylindrical shapes, having the same diameters at the top and bottom, or expanding at the top. For example, the type of glass, stack, cup, bucket, or bowl. These containers can be made of high purity copper and coated with silver 2 on the lower interior of the container so that the ratio of the interior surfaces of copper to silver coating is 1: 0.8 to 1: 1. It should be borne in mind that the liquid is poured into the dishes not to the very top. The ionator is a galvanic cell consisting of copper and silver in contact with each other, wetted with an electrolyte. As an electrolyte, a low-concentrated solution of citric acid (100 mg / l is sufficient) in distilled water, mineral or drinking water, physiological solution with citric acid and other electrolytes, depending on the purpose of preparing the solution, can be used. In this pair of coatings, a silver coating having a standard potential of +0.8 V is cathodic and a copper coating having a standard potential of +0.34 V is an anodic. In actually used solutions, the coating potentials will naturally differ from the standard ones. However, in any of the prepared solutions, the potential of copper will be more negative compared to the potential of silver. Accordingly, the copper coating will be the anode and will dissolve faster than the silver coating due to the reaction (1):

.

...

In this case, silver oxide forms on the surface of the silver coating, which, slowly dissolving, also passes into solution. The set of processes can be expressed by the formulas:

Thus, for the preparation of solutions containing both copper and silver ions 3, it is necessary to pour in such an amount of liquid (electrolyte) so that it wets the surfaces of the copper and silver coating in a ratio from 1: 0.8 to 1: 1 (Fig. 2). For this, two marks are made on the inner surface of the ionator, showing to what level the electrolyte should be poured.

To prepare prophylactic solutions containing only copper ions 4, it is necessary to place the ionizer container 1 inside another non-metallic (glass, ceramic) container 5 with a large diameter and pour the liquid between the outer copper surface of the bactericidal dish and the inner surface of another non-metallic container, as shown in Fig. ... 1.

To prepare prophylactic solutions containing only silver ions, it is necessary to pour the liquid inside the ionator vessel 1 so that its upper level does not touch the copper coating (Fig. 3). When preparing prophylactic solutions containing only copper or only silver, the exposure time should be significantly increased from several hours to a day, since in these cases the dissolution of copper or silver is much slower, not due to the operation of the galvanic cell, but due to contact release. This is due to the very low solubility of copper and silver. So the solubility of silver in water is 0.04 μg / l, while silver ions Ag + form hydrated ions that remain stable for a long time:

Example

Containers with a capacity of 400 ml were made of high-purity copper (99.99%) by means of end rolling. Then, a silver plating was applied using ferrocyanide-rhodanic electrolytes. First in the pre-silvering electrolyte. To prevent contact precipitation of silver on the copper plating, the silver concentration was reduced to 1-2 g / L. A silver coating was applied only to the inner bottom surface of the germicidal dishes. The diameter of the container is 8 cm, the bottom area is 50 cm ² , the height is 9 cm, the height of the liquid being poured is 8 cm. To obtain a 1: 1 ratio of the inner surfaces of copper to silver (wetted with liquid), 150 ml of silvering electrolyte was poured into the container, i.e. 3 cm in the height of the container. A silver anode was installed in the electrolyte in a case, which was connected to the positive pole of the rectifier. The container was connected to the negative pole of the rectifier and electrolysis was carried out. The electrolysis time in the preliminary silvering bath is 5 minutes. As the main electrolyte of silver plating, we also used ferrous-cyanide-rhodanic electrolyte with a silver concentration of 25-30 g / l. Electrolyte compositions and electrolysis modes are given in the book by G.K. Burkat. (Electrodeposition of precious metals / G.K. Burkat. - St. Petersburg: Polytechnic, 2009. - 188 p.) The applied silver coating had a thickness of 24.9 microns. The silver coatings were matt, light, even without visible defects and passed the adhesion test. A known ionator (prototype) with an area of each electrode of 10.5 cm ² in 400 ml of physiological solution with the addition of 400 mg of citric acid, at a liquid temperature of 18-20 ° C for an hour, released 0.4 mg of copper and 0.00008 mg of silver. The proposed ionator made of copper with a local silver coating in 400 ml in a similar solution with a volume of 400 ml with a Cu / Ag coating ratio of 1: 0.8 and a temperature of 18-20 ° C per hour released 2.71 mg of copper and 0.00056 mg silver. Thus, the rate of dissolution of copper and silver increased almost 7 times compared to the prototype. In this case, the ratio of silver ions to copper was 1/4839. In preventive solutions, the concentration of copper and silver should not exceed the MPC for drinking water supply. Accordingly, 1 mg / l for copper and 0.05 mg / l for silver. Therefore, for the preparation of prophylactic solutions, for example, in distilled water with citric acid 100 mg / l, the exposure time can be 10-15 minutes

The proposed utility model allows to obtain the following technical result - the possibility of creating solutions containing only copper ions or only silver ions, as well as solutions with a ratio of silver ions to copper not less than 1/5000; increasing the ionization rate (dissolution of copper and silver coatings); facilitating the operation process.

Claims (1)

An ionator containing a copper anode and a silver cathode, with a ratio of the areas of their surfaces immersed in a liquid, from 1: 0.8 to 1: 1, characterized in that it is made in the form of an open container made of copper, which serves as an anode, and on the bottom and lower inner surface of the container is coated with a silver coating, which serves as a cathode.

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