RU171498U1 - Mobile individual group device for water disinfection - Google Patents

Abstract

The utility model relates to the field of processing liquid media, in particular water, with the aim of disinfecting it. It is used to obtain drinking water necessary for the human body, as well as to obtain water suitable for discharge into surface water intakes. The technical result achieved is achieved through a mobile individual group device for disinfecting water, comprising a housing with water inlet and outlet fittings, a working insoluble electrode, a source of ultraviolet radiation, microcircuits, and a charger are located inside the housing. Moreover, the fittings for water inlet and outlet are attached to the upper part of the housing using threaded connections, while the fittings have notches, an electrode made of a ring and perforated located in the upper part of the water treatment chamber is located in the water treatment chamber, while the device’s second electrode , an ultraviolet diode is mounted inside a protective tube mounted in the upper part of the housing in the hole with o-rings, microcircuits and batteries are rigidly installed under the water treatment chamber. including fittings made of stainless stali.Pri this inert electrodes are used, with the introduction of silicon into the crystal lattice SiO.Pri this wave length ultraviolet diode 260 nm.Tehnicheskim result is the portability and compactness of the device while maintaining high reliability and efficiency in disinfection of water. 3 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of processing liquid media, in particular water, with the aim of disinfecting it. It is used to obtain drinking water necessary for the human body, as well as to obtain water suitable for discharge into surface water intakes.

The facts accumulated to date allow us to conclude that microimpurities of drinking water exceeding the harmless limit pose a threat to human life and health. Many of them (lead, cadmium, carbon tetrachloride, chlorides, aluminum, nickel, manganese, phenols, natural and technogenic radionuclides) play an important role in the pathogenesis of socially significant diseases such as atherosclerosis, coronary heart disease, cancer, diabetes mellitus, psoriasis. These toxicants also determine psychobiological maladaptation, which is accompanied by psychological tension, emotional instability, apathy, social frustration. This poses a risk of developing psychosomatic disorders. Against this background, specialist operators (military personnel) often experience a decrease in the reliability of operations.

An analogue is a device for electrochemical water treatment, which includes a unit for electrochemical water treatment, comprising a housing with an inlet funnel with a ring magnet. Inside the housing there is a set of soluble electrodes connected to a power source, the body of the electric processing unit is equipped with a fitting for water outlet and a fine filter, the input fitting of which is connected to the output fitting of the electric processing case. In the electric processing unit, the soluble electrodes are made of one anodically soluble material, an additional set of insoluble electrodes is placed below the set of soluble electrodes, the outlet nozzle for water outlet is located below the insoluble electrodes, in the upper part of the electric processing block there is a foam collector with a foam outlet fitting, the foam collector is separated from block housing with a movable gate with the possibility of vertical movement (patent for utility model of the Russian Federation No. 90067, date of publication Kacii: 12/27/2009).

The prototype of the claimed technical solution is a device for disinfection of water, which contains a housing 1 in the form of a glass with inlet 16 and outlet 17 pipes. Inside the casing there is a disinfection chamber 2 with an ultraviolet lamp 8 enclosed in a quartz casing 7. A free cavity for the passage of untreated water is formed between the side wall 3 of the disinfection chamber and the casing. The disinfection chamber can be made of a polymeric material with an internal coating that is resistant to ultraviolet radiation. The edge of the quartz lamp housing is connected to the housing by means of a holder 9 adhered to the housing. The technical result of the invention consists in increasing the productivity of the device, increasing the durability and reliability of its operation, as well as the ease of servicing and repairing the device (RF patent No. 2521055, publication date: 06/27/2014).

The disadvantage of the above analogues and prototype is the lack of their mobility when used both individually by the user and by a group of users when, for example, in the field or in conditions where there is no access to public utilities for stationary placement of the device.

The technical result is to eliminate the disadvantages of the analogue and prototype: mobility and compactness of the device while maintaining high reliability and efficiency in the disinfection of water.

The technical result achieved is achieved through a mobile individual group device for disinfecting water, comprising a housing with water inlet and outlet fittings, a working insoluble electrode, a source of ultraviolet radiation, microcircuits, and a charger are located inside the housing. Moreover, the fittings for water inlet and outlet are attached to the upper part of the housing using threaded connections, while the fittings have notches, an electrode made of a ring and perforated located in the upper part of the water treatment chamber is located in the water treatment chamber, while the second electrode is the device body , an ultraviolet diode is mounted inside a protective tube mounted in the upper part of the housing in an opening with o-rings, microcircuits and batteries are installed rigidly under the water treatment chamber.

At the same time, the fittings are made of stainless steel.

In this case, inert-silicon electrodes are used with incorporation of SiO ₂ into the crystal lattice.

The wavelength of the ultraviolet diode is 260 nm.

The essence of the utility model is illustrated in the drawing.

In FIG. 1 shows a main view of the device in cross section, where 1 is a housing; 2 - water inlet fitting; 3 - water outlet fitting; 4 - threaded connection of the fitting to the body; 5 - notch fitting; 6 - ring perforated electrode; 7 - a chamber for water treatment; 8 - ultraviolet diode; 9 - a protective test tube; 10 - sealing rings in the upper part of the housing; 11 - microcircuits; 12 - batteries; 13 - water inlet; 14 - water outlet.

In the claimed device, fittings for water inlet and outlet (2, 3) are attached to the upper part of the housing (1) using threaded connections (4), for example, a bolt-nut. At the same time, the fittings (2, 3) have notches (5), for reliable connection, for example, with a fitting, tube or pipe (not shown). This mounting method eliminates corrosion at the junction of the housing with the fittings, in contrast to the use, for example, welding. An electrode (6) is located in the water treatment chamber (7), made annular and perforated, which, at its minimum size, allows more efficient evolution of oxygen from water during electrolysis, and flotation is achieved. The electrode is connected to a low voltage direct current source and a control unit, which affects the increase in the volume of treated water and its quality.

The electrode (6) is located in the upper part of the water treatment chamber (7), it can be either with a positive potential or a negative one, while the second electrode is the case of the device (1). An ultraviolet diode (10) is used instead of an ultraviolet lamp with a wavelength of 260 nm. At the same time, it is attached inside the protective tube (9) mounted in the upper part of the body in the hole with o-rings (10), which affects the exclusion of water from entering the tube, and this can lead to a short circuit and failure of the device as a whole.

Under the water treatment chamber, microcircuits (11) are installed rigidly, for example, glued, for stable operation of electrolysis and photolysis. Batteries in the amount of four pieces are (12) the optimal power source, unlike the battery.

The fittings are made of stainless steel.

Inert electrodes are used, with the introduction of silicon into SiO ₂ crystal lattice, thus avoiding the possibility of allocating the water heavy metals, chromium and nickel.

The wavelength of the ultraviolet diode is 260 nm. This is a hard ultraviolet that allows you to destroy bacteria, viruses that are in the water.

The dimensions of the device can be as follows: diameter 54 mm, length 180 mm.

The life of the device is an average of twenty years. Productivity is an average of five liters in seven minutes.

The device operates as follows.

The device turns on by pressing a button located on the case (the green diode lights up). Using, for example, a manual pump, water is pumped through the device with an interval between compression of 3-5 seconds. The treated water through the inlet fitting located in the upper part enters the device body, into the water treatment chamber, flows around the protective tube with the ultraviolet electrode located inside it and leaves the outlet fitting located also in the upper part of the case. On the ring and perforated electrode and the housing through the connection fitting, power is supplied from a DC source with a supply voltage not lower than the discharge voltage of a water, for example, 2.8 V.

Under the influence of an electric current at the anode, the release of finely dispersed oxygen bubbles begins. The resulting stream of gas-water mixture flows around a protective tube. When the mixture passes through the ultraviolet radiation from the ultraviolet diode, the oxygen generated at the anode recombines into ozone, which, together with ultraviolet radiation, disinfects the treated stream.

Through catalysis and photolysis, the effect of "water ozone" is created, which in turn allows more efficient disinfection of water from microbiology in a short period of time. Water acquires a negative redox potential in the range from -100 to -350 mV.

An example of using the device individually

In the field, the user, through additional pipes installed at the ends of the fittings, turns one end, for example, into a reservoir, and from the other drinks already purified water. It is allowed to use a manual pump for pumping water, for example, with a three- or five-second water delay after each pumping. Moreover, when water is absorbed, its static treatment is achieved, the so-called exposure, and further consumption by the user, which is not the case with the analogue and prototype, where the water is processed in dynamics.

For group use, the sequence of actions is the same as for an individual, in addition, containers for purified liquid may be required - this is a mug or flask.

High biogenic properties of the water treated with this device are confirmed by the results of testing, which was carried out in specialized NRU using modern equipment and a number of biological tests.

Tests at the Research Institute of Epidemiology and Microbiology named after Pasteur, St. Petersburg, 02/08/2010, "Study of the bactericidal activity of technical means of water treatment devices." Results: the research results showed that the device has a pronounced bactericidal effect against a wide range of microorganisms, including pathogens of human infectious diseases. The device purified water samples from various enterobacteria (eshyrichia, shigella, salmonella, Klebsiella, etc.), the content of which was 10 ^-7 CFU in 1.0 ml.

Tests at the Research Institute of Epidemiology and Microbiology named after Pasteur, St. Petersburg, 02/08/2010, "Tests of the effects of the device on poliovirus P1." Results: An analysis of the results showed that after the virus-containing liquid was in the device and turned on for 1 minute, the virus was inactivated.

Tests at the Federal State Unitary Enterprise Research Institute of Industrial and Marine Medicine, St. Petersburg, November 18, 2009. "Evaluation of the bactericidal effect of the device on contaminated water." Results: an essential property of the device is its bactericidal activity. The greatest biological effect is observed under the condition of combined exposure to ultraviolet radiation and electrochemical treatment.

Tests at the Institute of Toxicology Federal State Institution of Health, St. Petersburg, 02/01/2010, "Ecological and toxicological assessment of water treated using the device’s water treatment equipment." Results: when used 17 hours after the treatment, the water that has been protected for 7 days and treated in the device does not show toxicity and has a protective effect on daphnia in adverse environmental conditions (their lifespan increases significantly).

Thus, the analysis and testing of the prototype confirm the influence of essential features on the achieved technical result: mobility and compactness of the device while maintaining high reliability and efficiency in the purification and disinfection of water. It does not take up much space: it fits easily in a backpack, bag or pocket.

The utility model is new, since the entire set of features is not known from the prior art described in the corresponding section of the description, as well as industrially applicable in the field of processing liquid media.

Claims (4)

1. A mobile individual group device for water disinfection, comprising a housing with water inlet and outlet fittings, a working insoluble electrode, a source of ultraviolet radiation, microcircuits and a charger, characterized in that the water inlet and outlet fittings are attached to the upper part the case with threaded connections, while the fittings have notches, an electrode is made in the water treatment chamber, made perforated ring, located in the upper part of the processing chamber in rows, with the second electrode device housing is, ultraviolet diode is mounted inside a protective tube mounted at the top of the housing in the opening with sealing rings, the water processing chamber mounted rigidly chip and batteries. 2. Mobile individual group device for water disinfection according to claim 1, characterized in that the fittings are made of stainless steel. 3. Mobile group individually device for disinfecting water as claimed in claim. 1, characterized in that the used inert-silicon electrodes to the introduction into the lattice SiO _2. 4. The mobile individual group device for disinfecting water according to claim 1, characterized in that the wavelength of the ultraviolet diode is 260 nm.

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