SU1742219A1 - Ionizer - Google Patents

Abstract

Usage: in household appliances for electrolysis and iontophoresis for disinfecting drinking water, allows for expanding operational capabilities. SUMMARY OF THE INVENTION: The ionator comprises an impact unit comprising an electrode and means for mounting them, adapted to adjust the relative position of the electrodes, with at least one of the electrodes being silver, flexible connecting conductors equipped with plugs at one end, an electrodosing device, having electronic and stabilized regulator and electric signal indicator, polarity indicator and connectors for connecting a power source and an impact unit, with one of the electrode The impact unit is made of flexible corrosion-resistant material with a coating of sterile hygroscopic material, and the working surface of the other electrode is made of silver and provided with a coating of sterile hygroscopic material. 1 hp f-ly, 2 ill. J

Description

The invention relates to household appliances, more specifically to equipment for the electrolysis of iontophoresis.

The LK-31 ionator is known, comprising a housing, silver electrodes, a cover and a toggle switch for switching the polarity of the electrodes. Performance ionator 0.5 mg / min.

The disadvantage of this ionator is the low productivity, the absence of an indicator for the output of silver, and the unregulated nature of the electrolysis process.

The LC-32 ionizer is known, containing an impact unit comprising electrodes and means of their attachment, with at least one of the electrodes being silver, flexible connecting conductors, an electro-metering device having a regulator and an electrical signal indicator, and a switch rnity

A disadvantage of the known ionator design is the lack of voltage stabilization, the absence of an output signal indicator, a rigid connection of the electrical circuit with the electrodes, which reduces the operational capabilities of the ionator, as well as the lack of protection of the device against overloads.

The purpose of the invention is to expand the operational capabilities of the device.

FIG. 1 shows an ionator for preparing silver water, a general view; in fig. 2 - the same for iontophoresis.

The ionizer contains an electrodosing device which includes a housing 1, a current indicator 2, an electronic and stabilized regulator 3 of an electrical signal, a switch 4 current-voltage, an indicator 5 of polarity and a signal on electrodes, a switch 6 of polarity, a connector 17 for connecting electrodes and an impact unit , connector 8 for connecting the source

power supply, power supply 9, replaceable silver electrodes 10 and 11, means for fastening them 12, made in the form of a cover with the ability to control the mutual arrangement of electrodes and equipped with a controller 13, their position, flexible connecting conductors 14 and 15 with a connector 16 on one end and clamps 17 and 18 on the other for connection to the electrodes, an impact unit including a passive electrode 19, made flexible of a corrosion-resistant material with a coating 20 of sterile hygroscopic material, elements 21 and 22 About the electrode and the connecting conductor 23 of the passive electrode, the active electrode 24 with an insulator 25, whose working surface is made of silver, in the form of tips 26 and 27 and provided with a coating 28 and 29 of sterile hygroscopic material, the connecting conductor of the active electrode -30 with a connector 31 .

Ionator works as follows.

To prepare silver water (Fig. 1), electrodes 10 and 11 are installed in a container with water, electrodes are installed with a regulator 13, for example, of a spring type, and 12 mm apart from each other, with a connector attached to a battery Corundum, clamps 17 and 18, for example, of the crocodile type, are connected to the ionizer output electrodes 11 and 12 using flexible conductors 14 and 15. As well as connecting connectors 7 and 16. Use the knob of electric signal adjuster 3 to set the current, for example, 15 mA. on the current indicator 2. The current and voltage of the ionator, in the process of electrolysis, is controlled with the help of indicator 2 and switch 4. Every 30 seconds the polarity is switched by switch 6 to ensure uniform current output by silver, and periodic indicator ignition 5 occurs. polarity, which indicates the operation of the switch 6 of the polarity. In the event of an overload or short circuit, the electronic protection is activated, which disconnects the electrical part of the consumer from the source pi Ani signal lamp is lighted and silver number m (mg) dissolved out into water by electrolysis is determined by the formula

m KIT

100

where K is the electrochemical equivalent of silver;

BUT;

I is the current flowing through the water.

5 0 5 0

5 0 5 0 5 0

five

T is the electrolysis time, s,

n is the current output of silver, depending on the salt composition of water. %

When the ionator is operating in the ionophoresis mode (FIG. 2), the coating 20 of the passive electrode 19 is washed off with tap water, after which the electrode is attached to the neck with fastening elements 21 and 22, for example, fabric-shaped cords. Covers 28 and 29 of the active electrode 30 are wetted in a solution of silver water (50 mg / l) and installed in both nostrils of the nose, connectors 31 and 7 are connected, electric current regulator 3 sets a current of 5 mA and whereupon the current source is disconnected and the electrodes 19 and 24 are released.

The device can be used in everyday life, at work and in the field, which gives a significant economic effect due to the prevention of infectious diseases. The therapeutic and prophylactic effect of electrolytic silver is well known.

Claims (2)

1. An ionizer containing an impact unit, including electrodes and means of their attachment, with at least one of the electrodes being silver, flexible connecting conductors, an electrodosing device having an electric signal regulator and indicator, and a polarity switch distinguishing c, in order to expand the operational capabilities, the electrodes are made interchangeable with the possibility of adjusting the relative position, the electrodosing device is equipped with an polarity indicator, connectors for connecting the source power and exposure assembly, flexible connection wires are provided with slots at one end, the electric signal regulator torus made electronically and stabilized, 2. Ionator according to claim 1, characterized in that one of the electrodes of the exposure unit is made of a flexible corrosion resistant material coated with a sterile hygroscopic material, and the working surface of the other electrode is made of silver and provided with a coating of sterile hygroscopic material iO k //