UA22673U - Device for water treatment with silver ions - Google Patents

Abstract

The device for water treatment with silver ions relates to devices for water treatment, in particular, to equipment for water treatment with silver ions, and may be used for disinfection and conservation of potable water on water, air and land transport.

Description

Description of the invention

The utility model belongs to devices intended for water treatment, in particular to equipment for 2 water treatment with silver ions, and can be used for disinfection and preservation of drinking water on water, air and land transport, facilities for their provision, in the production of alcoholic and non-alcoholic beverages, in sanatoriums and medical institutions and in other sectors of the national economy.

One of the problems with the antiseptic treatment of water with silver ions is the need for operational change and reliable control of the amount of released silver in a certain volume of water.

Known equipment for water treatment with silver ions (French patent Mo2057332 MPK 6 C 02 V 1/00, 19711 contains an electrolyzer with silver electrodes, a direct current source of the electrolyzer with a switch of electrode polarity and a system of pipelines for supplying and removing water. The disadvantage of this equipment is the inability to maintain the required concentration of silver ions, as it is ensured by the control of the water treatment time 72 without taking into account other factors, for example, fluctuations of the electric current, the degree of wear of the electrodes, etc.

Known equipment for treating water with silver ions (description of the invention to the author's certificate Mob29727, IPC 6 S. 02 GE 1/46, 1993). The specified equipment includes an electrolyzer with silver electrodes, a direct current source of the electrolyzer with an electrode polarity switch, a system of pipelines for supplying and removing water, and a water flow control sensor.

This equipment is not able to maintain with a low error the required concentration of silver ions in the volume of water because the current values of the process parameters (electric current, voltage in the electrolyzer and the degree of activation during the electrolysis of silver electrodes) are not controlled, and there is also no possibility of assessing the degree of wear electrodes over time.

The device is also known | Sorokoumov V. Silver water // Journal "Radio". - 2003. - Mob. - p.381), chosen as a prototype. The device includes a power supply unit, a control unit, an electrolyzer with silver electrodes, a multivibrator based on a T trigger, a frequency divider with two anti-phase outputs connected to the inputs of an electronic polarity switch.

The disadvantage of this device is the similar impossibility of normalization with a low error of the required dose of ionization of water with silver ions and the impossibility of assessing the degree of electrode wear over time. at

The useful model is based on the task of creating such a device for treating water with silver ions - which would allow for the standardization with a low error of the dose of released silver ions in an aqueous solution depending on the need for its application (canning, sterilization of food products, antiseptic treatment, treatment of wounds and burns , etc.) and quantitative control of the degree of wear of silver electrodes. Ha

The task is solved by the fact that the device for treating water with silver ions, according to a useful model, contains a power supply unit and a serially connected control unit, a trigger, an electronic polarity switch and an electrolyzer with silver electrodes, and additionally contains a microcontroller, the input of which is connected to the control unit, and the output is connected to the trigger input, a digital current sensor, the input of which is connected to the output of the electronic polarity switch, and the output is to the input of the electrolyzer with silver electrodes and to one of the microcontroller ports, digital voltmeter, the input of which is connected to the output Z 50 of the electrolyzer with silver electrodes, and the output to one of the ports of the microcontroller. c The essence of the claimed device for water treatment with silver ions is shown in the block diagram (Figure).

From" The device contains a series-connected control unit 1, a microcontroller 2, a trigger 3, an electronic polarity switch 4, a digital current sensor 5, an electrolyzer with silver electrodes 6, a digital voltmeter 7, and also contains a power supply unit 8, with the output of a digital sensor current 5 is connected to one of the ports of the microcontroller 2, and the output of the digital voltmeter 7 is connected to one of the other ports of the microcontroller 2. o The device works as follows. In the initial state, the power circuit 8 of the device is open. When one of the buttons of the control unit 1 is pressed, the power supply of the control unit 1 and microcontroller 2 is turned on. By pressing the other button of the control unit 1, the required value of the concentration of silver ions in the water is set, after which another button of the control unit 1 is pressed, thanks to which the power is supplied to the entire device. At the same time - and 20, the microcontroller 2 records the initial values of the digital current sensor 5 and digital voltmeter 7, stores them in non-volatile memory and sends a sequence of pulses to the trigger Z, which forms two anti-phase signals c" and activates the electronic polarity switch 4, which, in turn, changes the direction of current flow through the electrodes of the electrolyzer 6. During the entire time of operation of the electrolyzer 6, the digital current sensor 5 and the digital voltmeter 7 register the value of the current flowing through the electrodes of the electrolyzer 6 and the value of the voltage 29 at the electrodes of the electrolyzer b, and send them to microcontroller 2. Microcontroller 2, according to the program based on the initial and current values of current and voltage, calculates the initial and current value of the electrical resistance of the aqueous solution in the electrolyzer 6 and by the difference of these resistance values, taking into account the degree of activation in the electrolysis process silver electrodes, calculates the concentration of released silver in an aqueous solution . Upon reaching the set concentration of silver ions in the aqueous solution of the electrolyzer 6 60, the microcontroller 2 stops the operation of the device, calculates the degree of wear of the silver electrodes and stores this information in the non-volatile memory.

The introduction of a digital voltmeter and a current sensor allows you to control the concentration of silver in the aqueous solution, as well as the degree of wear of the silver electrodes, with sufficiently high accuracy.

The introduction of a microcontroller provides the ability to control the concentration of silver and the degree of wear of the electrodes in automatic mode.

The proposed useful model makes it possible to implement a device for treating water with silver ions with increased consumer properties with relatively simple schematic solutions, namely: to carry out with a low error the normalization of the dose of released silver ions in an aqueous solution and quantitative control of the degree of wear of silver electrodes.

Claims (1)

Formula of the invention 70 A device for treating water with silver ions, containing a power supply unit and a serially connected control unit, a trigger, an electronic polarity switch and an electrolyzer with silver electrodes, which is distinguished by the fact that it additionally contains a microcontroller, the input of which is connected to the control unit , and the output is connected to the trigger input, a digital current sensor, the input of which is connected to the output of the electronic polarity switch, and the output is connected to the input of the electrolyzer with silver electrodes and to one of the ports of the microcontroller, a digital voltmeter, the input of which is connected to with the output of the electrolyzer with silver electrodes, and the output with one of the other ports of the microcontroller. that 2 (ze) in (Se) with p - and? ime) ime) (o) -i syu» 60 b5