UA59807C2 - A disinfecting element - Google Patents

Abstract

The invention concerns with disinfection of potable water, beverages and long term storage thereof by means of disinfecting elements. The disinfecting element contains a glass ball with silver coating. The surface of silver coating has a roughness of 10-80 mum, and the ratio of coating thickness and ball diameter is of 2-10-7-3-10-3. Use of the invention allows to reduce the term of a full disinfection of solution.

Description

Description of the invention

The invention belongs to sanitation and hygiene, in particular to the field of disinfection of drinking water, juices and other 2 drinks and their long-term storage with the help of disinfectant elements. In addition, the invention can be used as a protective agent against the counterfeiting of various drinks, including alcoholic beverages, as well as to ensure the entry into the human body of a trace element important for its normal vital activity - silver.

A known disinfecting element, which is a glass ball with a silver-plated surface ||). This element 710 is used to treat drinking water with silver ions by immersing it in water and holding it until the water is completely disinfected.

The disadvantage of this disinfectant element is insufficiently high healing properties of drinking water after its treatment with this element.

A disinfecting element is also known, which consists of a glass ball with a silver-based coating (21. 79 The coating of the ball is made in the form of a two-layer composite, in which the first layer, applied to the glass surface, consists of silver, and the second - of silver iodide, while the thickness of the silver iodide layer is 85-9595 of the thickness of the entire coating.

The disadvantage of the known disinfecting element is the low dissolution rate of silver in the liquid environment in which this disinfecting element is located, hence the long time of disinfection of this environment.

The basis of the invention is the task, by changing the design of the disinfecting element, to ensure an increase in the disinfecting effect by reducing the time for decontamination of the liquid environment.

The task is achieved by the fact that in the disinfecting element, which consists of a glass ball with a silver coating, the new thing is that the surface of the silver coating has a roughness of 10 7 8 Ohm, and the ratio of the thickness of the coating to the diameter of the ball is 2. 1077. 3. 1073, s

The disinfecting element has the form of a glass ball, preferably with a diameter of 5 to 40 mm, on the surface of which a coating of silver is applied. The drawing (Fig. 1) shows a diametrical section of a ball with a coating, where 1 is a glass ball, 2 is a silver coating.

The coating, made of silver, is applied to the surface of the glass ball by the method of cathodic-ion bombardment using the "Bulat" type installation. During this bombardment, diffusion of silver atoms into the glass takes place at 1-Z atomic gaps, which ensures reliable adhesion of silver to glass. Glass itself is an inert material relative to water and almost all aqueous solutions. co

The surface of the silver coating has a roughness of 10-8Ωm, which gives the surface of the ball a matte appearance. At this level of roughness, the coverage area will be much larger compared to a ball that has a polished (o) smooth surface. yu

The use of balls with a surface roughness of less than 1 Ωm does not provide a significant increase in the disinfecting effect, and the use of balls with a surface roughness of more than 8 Ωm leads to the appearance of open (glass) ball surfaces in a short period of time, which deprives them of their commercial appearance.

The ratio of the thickness of the coating (5) and the diameter of the ball (4) is (see Fig. 1): "

Vij 0310. - s At a ratio of 5 / and less than 2. 10-7, rapid dissolution of the entire coating is possible without achieving "" the necessary disinfecting effect. " At a ratio of 5 / 4 more than 3. 10, silver losses significantly increase without a significant increase in the disinfecting effect.

The disinfecting element works as follows.

Mn In a container with drinking (tap or mineral) water or another liquid, one or (se) several disinfecting elements are placed and kept in the water for a given period until the liquid environment is completely disinfected. During the contact of silver with water, salts are formed on its surface, which dissolve in water and form silver ions (Ad"). Silver ions interact with bacteria, microbes, viruses that are in (ав) 50 water, kill them and thus disinfect water. Due to the developed silver-plated surface of the -h ball, the formation of silver ions occurs much faster in comparison with the known disinfecting element with a silver coating. After a small period of time, water or other liquid is completely disinfected and becomes suitable for use.

Example.

In a 1.5-liter glass flask, which contains 1 liter of previously sterilized and infected with the test organism Espegispia

GF) of soybeans (107 individuals/liter) of tap water, a glass ball with a diameter of 20 mm, covered with a layer of silver, was placed.

GI The roughness of the coating was ZOμm, and the ratio of the thickness of the coating to the diameter of the ball was 4.8. 107,

After placing the ball, water samples of 1 ml were taken every day and the number of microorganisms inoculated into the solid Endo medium was determined.

As a result of this experiment, it was established that when using a disinfecting element, the declared period of complete disinfection is 18 days.

At the same time, a disinfecting element taken as a prototype was used for disinfection. At the same time, the term of complete disinfection was 32 days. 65 From the results of the experiment, it follows that the term of disinfection when using the disinfecting element, which is claimed, decreased by 1.8 times, thus the disinfecting effect increased significantly.

Having a good appearance, due to the matte silver surface, the disinfecting element that is claimed can also be used as a means of protection against counterfeiting of various drinks, including alcoholic beverages, as well as as a source of the trace element silver, which is important for the normal functioning of the human body.

Sources of information 1. A.A. Kulsky. Silver water. Kyiv, Scientific Opinion, 1987, p. 73-74, 81. 2. Patent of Ukraine Mo 33030, MKI СО2Е1/50, 1/42. Bul. May 6, 2002

Claims (1)

The formula of the invention Disinfectant element containing a glass ball with a silver coating, which is characterized by the fact that the surface of the silver coating has a roughness of 10 - 80 microns, and the ratio of the thickness of the coating and the diameter of the ball is 7/5 is 2-1077 - 3-1073, with (8) ch "c) c (22) IS c) - c ;" 1 se) (ee) at 50 what F) name) 60 b5