RU48530U1 - IONATOR FOR DISINFECTING DRINKING WATER BY IONS OF SILVER OR COPPER AND PREPARING SILVER OR COPPER WATER SOLUTIONS OF A PRESENT CONCENTRATION - Google Patents

Abstract

The utility model relates to aseptic technique and can be used for medical and domestic purposes. The ionizer contains an autonomous power supply and a network electrodosing device, where a current isolation is provided, which ensures the safety of the ionizer, stabilizes the current and reverses the polarity, has a timer, an ion concentration stabilizer in a given volume of drinking water and chemically pure silver (copper) electrodes made identical to shape and size, parallel to each other in a dielectric perforated cassette with a handle made in the form of a "spoon" for stirring water during electrolysis. An electronic device (tester) is mounted in the handle of the “spoon”. The proposed design allows visual control over the amount of dissolved silver (copper) in the solution.

Description

The utility model relates to aseptic technique and can be used for medical and domestic purposes.

Currently, the most effective means of disinfecting drinking water are electrolytic solutions of silver (copper), which are formed by dissolving silver (copper) in water under the influence of direct current. The apparatus for producing an electrolytic solution of silver (copper) 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 current strength, 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 (copper) electrodes.

For water disinfection, chemically pure silver (copper) of 99.99 samples is used.

The beginning of the production of silver ionizers dates back to 1937, when, in accordance with the requests 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 factory production of stationary ionizers LK-21, LK-22,

portable LK-25 and road LK-26. Since 1967, the Kiev pilot plant of medical instruments and equipment begins serial production of ionizers LK-28, intended for installation on ships of the navy, and ionizers 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 kept constant with varying conductivity of the interelectrode gap. This is achieved using an electronic current stabilizer that maintains an electrolysis current of 10 mA. Industrial production of the ionizer LK-29 was established at the Sumy plant of electronic microscopes. To disinfect drinking water under the conditions of spacecraft flight, the LK-33 s 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-33 with provides the processing of 30 l / h of water with a dose of silver of 0.1-0.2 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 Cuma-Sina system are known, manufactured by the German company Angelmi Werken for installation on small water pipes; ionizers of the Comega company (France) of the Elektro Agroligene and Combine type, ionizers of the ZUV type (Czechoslovakia), household Colloidal silver generator manufactured in the USA. Recently, some American firms also specialize in the production of copper ionizers.

A common drawback of all known ionizers is the lack of a device (tester) in the circuit that allows you to visually control the concentration of electrolytic solutions.

As a prototype, an ionizer can be adopted according to the patent for utility model No. 37086 with priority dated December 29, 2003, containing an electrodosing device, where a current isolation is provided, which ensures ionizer safety, current stabilization and polarity reversal, an indication of the dissolution process, which has a timer, stabilizer of the concentration of ions in a given volume of drinking water and electrodes of chemically pure silver, made identical in shape and size, arranged parallel to each other, characterized in that The cathodes are predominantly triangular in shape and perforated with round holes, enclosed in a dielectric cassette of a similar shape and perforation, while the cassette is equipped with a handle that is integral with the cassette and has the form of a “spoon” for forcing silver ions to be separated from the electrodes by stirring water all over during the electrolytic process.

The disadvantage of the prototype is the absence in the circuit of the device (tester) that allows you to visually control the concentration of the electrolytic solution, and therefore narrowing the functionality of the ionizer, for preparing solutions of various concentrations.

The task to which this application for the proposed utility model is directed is to provide visual control over the amount of dissolved silver (copper) in the electrolytic solution.

According to the technical solution set forth in the application for a utility model, the problem is solved by a new design - a device,

equipped with an electronic device (tester), mounted in the electrode part of the ionizer and powered through resistance from a power source.

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

The ionizer comprises an electrodosing device 1, a cassette with a handle 2, with electrodes 3 installed in it, and an electronic device (tester) 4, comprising: a liquid crystal display 5, an autonomous power supply 6, a non-polar LED 7, a polarity switch 8, a power switch 9, a button starting the tester 10, the mounting plate 11, the connecting cord 12 with the connector 13. The electronic part of the cassette is mounted on the mounting plate 11 and filled with polyethylene. The battery is inserted into a special holder (two polyethylene caps 14, two spring contacts 15).

The electrodosing device 1 contains a switch for switching the volume of treated water 16, a switch "I-drinking water - II silver water solution" 17, LED 18, the button "start timer" 19, the button "stop" 20.

Drinking water is processed using an electrodosing device, and silver aqueous solutions are prepared using an electrodosing device, as well as autonomously.

The device operates as follows. To obtain drinking water treated with silver (0.05 mg / l), it is necessary to draw water into the appropriate container (3 l, 6 l, 12 l). Set the switch 17 to the position “I - drinking water”, and set the switch 16 to the appropriate volume of water (3 l, 6 l, 12 l). Connect the electrodosing device to the network, press the start-up tester button 10, (the indication 0,000 appears on the display), lower the cassette into water and press the “start timer” button 19, LED 7 will light up (in red, and when changing

polarity in green), it means that the device is working. Two silver electrodes 3 immersed in water are supplied with a direct current of 10 mA, under the action of which the anode dissolves, transferring silver ions into water (the cathode does not dissolve). For forced separation of ions from the anode, stirring the solution with a "spoon" is necessary. From the moment the current is supplied to the circuit, an electronic device (tester) 4 starts to work. 4. On the liquid crystal display 5, the initial reading of 0,000 is displayed, and then the intermediate readings every second. After the timer is turned off, the dissolution process stops, and the display shows the final count - the amount of dissolved silver (3 l × 0.05 mg / l = 0.15 mg). To prepare silver aqueous solutions (solutions above a concentration of 0.05 mg / l), for example 10 mg / liter, in a volume of 1 liter of water, it is necessary to set the toggle switch 17 to the “II - silver aqueous solution” position (the timer is forced off in this position) , the metering device 1 to be included in the network. Press the “start-tester” button 10 (0,000 will appear on the display), lower the “spoon” to the selected volume, press button 19 “Start timer”. Non-polar LED 7 lights up, the dissolution process has begun. When the tester reaches the preset value of dissolved silver 10 mg, it is necessary to turn off the electrodosing device 1 with the 20 stop button.

During the production of dissolution in the autonomous mode, when the tester reaches the preset value of dissolved silver 10 mg, it is enough to remove the “spoon” from the water, the dissolution process will stop. Every 5 minutes, it is necessary to change the polarity of the electrodes with switch 8 to ensure uniform wear of the electrodes 3.

To obtain copper aqueous solutions, the electrodes are made of 99.99 copper sample.

Due to the fact that at any time you can visually determine the amount of dissolved silver (copper) and stop the process by

achievement of a preset value, increases the functionality of the device.

Claims (1)

An ionizer for disinfecting drinking water with silver or copper ions and preparing silver or copper aqueous solutions of a given concentration, containing a network electro metering device, where a current isolation is provided, which ensures the safety of the ionizer, stabilizes the current and reverses the polarity, has a timer, an ion concentration stabilizer in a given volume drinking water and electrodes of chemically pure silver or copper, made identical in shape and size, located parallel to each other, electrodes in They are predominantly triangular in shape and perforated with round holes, enclosed in a dielectric cassette of a similar shape and perforation, the cassette provided with a handle made in one piece with the cassette, and has the shape of a “spoon” for the forced separation of silver or copper ions from the electrodes by stirring water on throughout the electrolytic process, characterized in that the ionizer is equipped with an autonomous power source, and an electronic device (tester) of visual control of the amount of dissolved silver or copper.