RU37086U1 - DRINKING WATER DISINFECTION IONATOR - Google Patents

Description

2003137934

; : eppliPPPP,

 ° Ex. No. /

DRINKING WATER DISINFECTION IONATOR

The utility model relates to aseptic technology and can be used for medical, industrial and domestic purposes,

Currently, the most effective means of disinfecting drinking water are silver electrolytic solutions, which are formed by dissolving silver in water under the influence of direct current.

The apparatus for producing an electrolytic solution of silver in water is called an ionizer.

The main parts of the ionizer are an electrodosing device and electrodes. The electrodosing device of ionizers powered by alternating current consists of a step-down transformer, a rectifier, a voltmeter and a direct current milliammeter, as well as a rheostat for regulating the force, and other devices that automate the process. Autonomous power sources can also be used: batteries, chemical batteries, etc. The electrode part of the ionizer consists of a pair of silver electrodes. For water disinfection, chemically pure silver of 99.99 samples is used.

The beginning of the production of ionizers dates back to 1937, when, in accordance with the requirements of industrial enterprises, the mechanical workshops of the Ukrainian SSR Academy of Sciences produced a small batch of the first domestic ionizers. Since 1939, the production of stationary ionizers LK-21, LK-22, portable LK-25 and road LK-26 was established in Kiev. Since 1967, the Kiev pilot plant of medical instruments and equipment begins serial production of LK-28 ionizers intended for installation on ships of the navy, and ionizers

MPK7S02R1 / 46

LK-30 for swimming pools, soft drinks factories. In 1970, models of household ionizers LK-31 and LK-32 developed by the Melitopol Compressor Plant were developed. The indicated models of ionizers were constantly improved, mainly due to the improvement of the electrical circuits of the ionizers. So, in 1986, the Institute of Colloidal Water Chemistry of the Academy of Sciences of the Ukrainian SSR developed a household ionizer LK-29. Its electrical circuit is designed in such a way that the current through the electrodes is maintained unchanged with varying conductivity of the interelectrode gap. This is achieved using an electronic current stabilizer that maintains an electrolysis current of 10 mA. The industrial production of the LK-29 ionizer was established at the Sumy Electron Microscope Plant. For the disinfection of drinking water in flight conditions, the LK-ZZs ionizer was developed. This device consists of a flowing electrolyzer with silver electrodes and a power supply connected to the on-board DC network. The ionizer LK-ZZs provides the treatment of 30 l / h of water with a dose of silver of 0.1 h-0.2 mg / l, while it works reliably for a long time both in continuous and in pulsed mode. The silver electrode resource is sufficient to process 7500 liters of water.

Among foreign ionizers, ionizers of the SshpaSina system are known, manufactured by the German company Angelmi Werken for installation on small water pipes; ionizers from Comega (France) type Elektro Agroligene and Combine, ionizers type ZUV (Czechoslovakia).

A well-known household stand-alone ionizer Silva containing a power source connected through an electric circuit to electrodes immersed in water, at least one of which is an anode made of silver, characterized in that the power source is autonomous in the form of an electric battery and is enclosed with an electric circuit into a single geometric housing with the output of the electrodes, also fixed on the sealed housing beyond its boundaries, providing the ionizer with the functions of a fully immersed device, while the second of the electrodes the method is made of any metal that is acceptable for contact with food products, the ionizer being equipped with a signaling device for operability and / or monitoring the operation time of the ionizer in the form of a timer, the capacity of the power source and the mass of silver of the ionizer anode when the latter is immersed in water and the electrical circuit is closed ionizer circuit, and the capacity of an autonomous power source is consistent with the mass flow rate of the silver anode and is necessary and sufficient for the complete dissolution of the silver anode (see RF patent with a priority of April 29, 1996). The disadvantage of this ionizer is the lack of movement of water at the electrodes, as a result of which it is difficult to wash off the ions from the electrodes and their further release until the ionizer stops working.

As a prototype, an ionizer can be adopted according to copyright certificate No. 1787948 with priority dated June 7, 1990, containing an impact unit including electrodes and means for their fastening, while the electrodes are interchangeable with the possibility of adjusting their relative position and at least one of the electrodes is made silver, flexible connecting conductors with connectors at one end, electrodosing device having a power source, regulator and indicator of electric signal, switch and indicator of polarity, p connectors for connecting a power source and an impact unit, characterized in that, in order to increase the efficiency and safety of work and expand operational capabilities, the electrodosing device is equipped with an autonomous power source, a switch for power sources and an additional connector with a lock for connecting an impact unit, and means for attaching The electrodes are equipped with a displacement unit for regulating the depth of their immersion.

2. The ionizer according to claim 1, characterized in that to ensure a uniform current output of silver during the preparation of silver water, the electrodes are made identical in material, shape and size, and their surfaces with a maximum area are opposite and parallel to each other.

3. The ionizer according to claim 1, characterized in that it is equipped with a voltage converter with connectors for connecting an electrodosing device to a power source.

The disadvantage of the prototype is the low efficiency of the ionizer for the transition of silver ions into solution due to the lack of movement of water at the electrodes.

The problem to which this application for the proposed utility model is directed is to increase the efficiency of the electrolytic process for the disinfection of drinking water with silver ions.

According to the technical solution set forth in the application for a utility model, the problem is solved by the new design of the electrode part of the ionizer - cassette.

The essence of the proposed technical solution is illustrated by the drawing, which shows a General view of a household silver ionizer.

The ionizer comprises an electrodosing device 1, a cassette 2 with electrodes 3 installed in it, a connecting cord 4 with a connector 5. The electrodes 3 are predominantly triangular in shape and perforated with round holes 6, are enclosed in a dielectric cassette 2 of a similar shape and perforation 7, while the electrodes 3 are installed parallel to each other with a gap of 7 mm. The cartridge 2 is equipped with a handle 8, made in one piece with the cartridge 2, and has the form of a spoon. The electrodes 3 are connected to the connector 5 by a silver bus 9.

The electrodosing device 1 comprises a toggle switch 10 for switching the volume of the treated water, a polarity switch 11, an LED 12, a timer start button 13, a Stop button 14.

The device operates as follows. To get water treated with silver, it is necessary to draw water into the dishes, for example, in a 3-liter glass jar, set the toggle switch 10 of the water volume to the 3-liter position, lower the cassette 2 into the water and press the timer button 13

Start, while the LED 12 lights up, this means that the device is working. Two silver electrodes 3 immersed in water are supplied with a direct current of 10 mA, under the influence of which the anode dissolves, transferring silver ions into water (the cathode does not dissolve). To obtain a strictly fixed concentration of silver in solution, for a given volume of water, a fixed electrolysis time is required. This is done automatically - for each volume its own timer operation time is programmed.

During the electrolysis, it is necessary to stir the water so that the water circulates through the openings 7 of the cassette 2 and the openings 6 of the electrodes 3, as a result of which the silver ions are separated from the electrodes 3 and washed off into the water.

Every 5 minutes of operation of the ionizer it is necessary to change the polarity of the switch 11 to ensure uniform wear of the electrodes 3.

The proposed design of the ionizer allows you to increase the efficiency of the device for the transition of silver ions into solution. The resulting solution has a stable concentration of silver ions, sufficient to destroy microbes and safe for human health, approved by SanPiN 2.1.4.559-96 Drinking water - 0.05 mg / l.

Claims (1)

An ionizer for disinfecting drinking water with silver ions, containing an electrodosing device, where a current isolation is provided, which ensures ionizer safety, current stabilization and polarity reversal, a dissolution process indicator, a timer, an ion concentration stabilizer in a given volume of drinking water and chemically pure silver electrodes made identical in shape and size, parallel to each other, characterized in that the electrodes are made mainly triangular in shape and per orirovany circular holes are enclosed in the dielectric tape of similar shape and perforation, the cassette is provided with a handle formed integrally with the cassette, and has the form "spoons" for the forced separation of silver ions from electrodes by stirring water throughout the electrolytic process.