RU1787948C - Ionizer - Google Patents

Abstract

Usage: for the disinfection of drinking water and food, the prevention of treatment of infectious diseases. SUMMARY OF THE INVENTION: an ionizer comprises an action unit including electrodes and means for their fastening, while the electrodes are removable and movable to adjust their immersion depth. At least one of the electrodes is made of silver and one of the electrodes is hygroscopic coated. The electrodosing device with connectors for connecting the impact unit and the power source is equipped with an autonomous power source, a power supply switch, an additional connector with a blocker for connecting the action unit and a voltage converter with connectors for connecting the power source. 2 C.p. f-ly, 2 ill.

Description

The invention relates to the field of household appliances, namely, equipment for the individual disinfection of drinking water and food products, the prevention and treatment of infectious diseases.

The known ionizer contains an action unit including interchangeable electrodes and means for their fastening, made with the possibility of adjusting the relative position of the electrodes, at least one of the electrodes is silver, flexible connecting conductors provided with connectors at one end, an electrodosing device having an electronic and stabilized regulator and an indicator of an electric signal, a polarity indicator and connectors for connecting a power source and an impact unit, while one of the electrodes of the unit and the impact is made flexible of a corrosion-resistant material coated with a sterile hygroscopic material, and

the working surface of the other electrode is made of silver and coated with a sterile hygroscopic material.

The aim of the invention is to increase the efficiency and safety of the ionizer and to expand its operational capabilities.

Figure 1 shows a general view of an ionizer for preparing silver water; Fig. 2 is a general view of an ionizer for iontophoresis.

The ionizer includes an electrodosing device, including a housing 1, in which a milliammeter 2 is placed for visual control of the current value, an adjustable current stabilizer 3 for setting the required current level and keeping it constant when the load value changes, a handle 4 for controlling the current regulator, a power-on indicator 5 for visual observation under (L

WITH

vj

00

VI

2

00

When voltage is applied to the device, the switch 6 is full, used to reverse the signal on the electrodes, the element of connector 7 is connected to the output of the ionizer through the switch of polarity of the element - connector 8, connected directly to the output of the ionizer and equipped with a blocker 9, a stand-alone power supply 10, an element of the connector 11 for connecting external power, a power switch 12 connected to the outputs of the stand-alone and external power, and a current range switch 13 setting different levels of currents boundary, external power supply 14, replaceable silver electrodes 15 and 16, their fastening means 17 made in the form of a cover, electrode displacement unit 18 for adjusting their immersion depth, flexible conductors 19 and 20 for connecting the electrodes 15 and 16 with the output of the ionizer, clamps 21 and 22 for connecting the ends of the flexible conductors 19 and 20 on one side to the electrodes 15 and 16, an element of the connector 23 for securing the leads of the conductors 19 and 20 on the other side and attaching to the mating portion of the connector 7.

In addition, the ionizer contains (Fig. 2) an action unit including electrodes 24 and 25 with a hygroscopic coating 26, 27 and 28, conductors 29 and 30 connected to the electrodes 24 and 25 at one end and connected to the connector element at the other ends 31 connected to the counterpart, an element of connector 8 with a lock 9, while the electrodes 24 and 25 contain elements of adjustable fastening 32,33,34,35.

The ionator works as follows. In order to prepare silver water (Fig. 1), the lid 17 with electrodes 15 and 16 is installed in a container with water, for example, 1 d, Silver electrodes Ср 999.9, using the displacement unit 18, are set to the required immersion depth, before coating water of the entire working surface, the element of the connector 23 with flexible conductors 19 and 20 is connected to the counterpart - the element of the connector 7, and the clamps 21 and 22, for example, of a crocodile type with a PVC cover, are connected to the electrodes 15 and 16, using the source switch Food 12 includes a standalone pit source and such battery Corundum, wherein the indicator 5 zato- raets powerup pereklyuchatelem13 ranges set the desired range of current control, for example, 100 mA, 4 rotate to the right, adjusting

current stabilizer 3, a current of 15 mA is set on a milliammeter 2 scale and, every 20 with a polarity switch 6, the signal is reversed at electrodes 15 and 16 to ensure uniform silver current output. The current is stabilized during the preparation of silver water by a current stabilizer 3. In this case, when the load resistance changes, which happens with this process, the current value on the electrodes remains unchanged. The amount of silver t (mg) dissolved in the form is determined by the formula:

m-kit

where K is the electrical equivalent of silver, I is the strength of the current passing through water, T is the electrolysis time, n is the percentage of silver current output, depending on the salt composition of the water. For silver K, 1.118 mg / A.s. At I 0.015 A, T 60 s, n 80%, m 0.80496 mg of silver enters the solution. Therefore, the silver concentration in the resulting solution was 0.8 mg / L.

More often it is necessary to solve the inverse problem - to determine the time T of preparation of an electrolytic silver solution of the required concentration under given conditions. For example, how long does it take to prepare one liter of a solution of electrolytic silver with a concentration of 10 mg / l, at a current I of 0.015 A

From the previously given formula, you can determine T:

T

10 100

 745.4 from 12.4 minutes

1.118 0.015 -80

An electrolytic silver solution can be prepared using an external power supply unit. For this purpose, a power supply unit is connected to the element of the connector 11, the power supply switch 12 is set to the external power supply, the power indicator 5 lights up and the device is ready for operation.

If it is necessary to prepare the solution in transport, for example, in a car smbbi-jjЈ, using the on-board network of the battery as a source, a voltage converter, for example, Electronics D2-24, is used, for which a unified plug of the LUC connector is connected to the element of connector 11, insert They turn the converter into the cigarette lighter socket of the car, and the switch 12 is set to the external power position, while the power indicator 5 lights up and the device is ready for operation.

When the ionizer is operating in the iontophoresis mode, the coating 26 of the electrode 24, hereinafter referred to as passive, is moistened with tap water, after which the electrode is fixed to the neck with the help of adjustable fasteners 32 and 33. Coat 27 and 28 of the electrode 25, hereinafter referred to as active, wetted in a silver water solution with an electrolytic silver concentration of 40 mg / l, placed in both nostrils of the nose, after which the electrode 25 is fixed using adjustable fasteners 34 and 35. The connector element 30 is installed in response part is a connector element 8, while for safety reasons only an autonomous power supply 10 can be used, the external power circuit is broken when the element of the connector 31 is installed by means of a lock 9, for example, a mechanical spring, the power supply switch 12 is set to the autonomous power position then indicator 5 lights up and the device is ready for operation.

The range switch 13 is set to a range of 10 mA, turning the knob 4 sets the current 1.5 mA on the milliammeter 2 scale and maintains this mode unchanged for 10 minutes, then turning the knob 4 to the left smoothly reduces the current to 0, switch 12 turns off the power to the device, disconnect the electrodes 24 and 25 from the device and release them.

The device can be used in everyday life, in production, in transport, in the field, in rural areas, which gives a significant economic effect due to the prevention and effective treatment of infectious diseases due to

known prophylactic and therapeutic effects of electrolytic silver, especially in iontophoresis mode.

Claims (3)

1. An ionator containing an action 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 of silver, flexible connecting conductors with connectors at one end, an electrodosing device having power supply, regulator and indicator of electric signal, switch and polarity indicator, connectors for connecting a power source and an impact unit, characterized in that, in order to increase ffektivnosti and operation maintenance and expansion capabilities elektrodoziruyuschee device is provided with an autonomous power source, the power source switch and the additional connector with backstop assembly for connecting exposure, a means for securing the electrode assembly is provided for controlling the movement of their dipping depth. 2. The ionizer according to claim 1, characterized in that to ensure uniform silver current output 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.