DE112012001784B4 - Process and apparatus for the production of colloidal silver - Google Patents

Abstract

A method of producing colloidal silver by electrolyzing distilled water through two electrodes (21, 22), at least one of which is high purity silver, the method comprising the steps of: - generating a high frequency carrier signal in the form of constant amplitude voltage pulses; - generating a low-frequency voltage signal as a modulation signal; Modulating the high frequency carrier signal by means of the modulation signal such that the amplitudes of the voltage pulses of the carrier signal change in accordance with the modulation signal; wherein the modulated carrier signal is provided by the electronic package (11) housed in a housing comprising a filter (111), a high frequency generator (112), a low frequency generator (114), an amplifier (113) and a modulator (115), is connected to the electrodes (21, 22) such that the amplitude modulated signal is above 0 volts.

Description

Area of registration

The technique of producing colloidal silver is mainly designed for the preparation of dietary supplements, disinfectants, antibacterial agents, antiviral agents, antifungal agents mainly in the form of beverages, and includes the design of the colloidal silver generator.

Background of the application

Colloidal silver is produced by electrolysis of distilled water using two electrodes, one of which must be silver. The quality of the colloidal silver depends (among other factors) on the purity of the silver electrode; therefore, silver electrodes with a purity of 99.99% are used.

There are two conventional ways of producing colloidal silver.

In the first case, a constant voltage source is used during the electrolysis process, while with decreasing resistance of the distilled water, the DC current increases due to the increasingly higher concentration of silver particles in the distilled water. Larger streams tear larger particles from the silver electrode, which is a disadvantage of this method because the most favorable size of the silver particles is within a defined range of small to medium size. This health-promoting broad spectrum is a mixture of small to medium size particles.

In the second case, a constant current source is used in the electrolysis and the voltage changes with decreasing resistance of the silver particle filled distilled water. Since the size of the silver particles depends on the amount of current between the electrodes and the current does not change, the generated silver particles all have a similar size. This is a disadvantage of this method because the most beneficial particle mixture is within a defined range of small to medium sized silver particles.

In another method of producing colloidal silver, DC voltage is shifted to zero with the minimum voltage set at 0 volts.

A well-known example of a device for colloidal silver, utility model DE 20 2004 000 770 U1 , consists of a plastic cover of a container of distilled water, through which two secured by fasteners electrodes extend into the container, which are connected by a bipolar plug to a power source. The disadvantage of this device is that it uses only one of the previously described methods of producing colloidal silver, either the constant voltage method or the constant current method.

Furthermore, from the DE 20 2009 001 866 U1 a device for the electrolytic production of colloidal gold and silver water known. The device comprises an integrated circuit, which is provided for loading electrodes with the voltage components required for the electrolysis process.

The object of the invention is to provide an improved technique for producing colloidal silver which overcomes the above-described problems of known production methods.

Short illustration

The object is achieved by a method and a device according to claims 1 and 2. The technical principle of the invention supports the production of a defined particle size range of silver particles and is the basis for the apparatus for producing colloidal silver.

By the way in which the colloidal silver is made - Electrolysis of distilled water by two electrodes, at least one of which is high purity silver, with a modulated high frequency AC voltage and a DC offset such that the minimum value of the signal is above 0 volts The disadvantages of the previous processes for the production of colloidal silver have been largely eliminated.

The alternating voltage has a constant frequency and amplitude or a constant frequency and a varying amplitude. The amplitude changes in accordance with a low frequency signal.

Most of the colloidal silver manufacturing equipment is housed in a housing to which two demountable electrodes are connected. The housing is connected via an adapter to a power source. Inside the housing is an electronic assembly that generates and modulates an electrical signal between the main electrode and the secondary electrode. The electronic assembly includes a filter connected to the electrodes via a high frequency generator and an amplifier. The modulator on the electronic assembly is placed between the amplifier and the electrodes, and is also connected to a low frequency generator connected to a filter.

There is an LED turn-on indicator on the housing.

Brief description of the drawings

The figures show the interpretation.

1 shows the structure for the production of colloidal silver.

2 shows a basic block diagram of the electronic construction.

3 shows the block diagram of the electronic module with the amplitude modulation circuit.

4 shows the composition of the amplitude modulation signals.

Detailed description of the invention

example 1

The carrier

The carrier is a high frequency signal with a square, sine, or triangle waveform and has a constant voltage of 12 volts.

Example 2

The amplitude modulated signal

The carrier amplitude takes the form of the low frequency modulation signal waveform while retaining its high frequency. Both the carrier and the modulation signal have the same peak voltage. The shape of the modulation signal may be a sine or a triangular waveform.

4 is an example of amplitude modulation. The carrier is a square wave with the frequency 100 Hz, and the modulation signal is a triangular wave with the frequency 5 Hz. The resulting amplitude modulated signal is a triangular waveform with the frequency 5 Hz, that of the square wave with the frequency 100 Hz is composed. One period of the triangular wave is composed of twenty periods of the rectangular wave.

Example 3

During the production of colloidal silver, the rupture of silver particles from the electrode into the distilled water begins at about 2 volts, and therefore it is inefficient to start the signal between the electrodes at 0 volts. It is more efficient to start the signal by providing another DC offset (D.C. offset) at 2 volts. This DC offset also applies to Examples 1 and 2.

The advantage of using a signal with amplitude modulation lies in the fact that small particles are still generated even at larger average currents, since one period of the signal contains a mixture of high and low voltages that are proportional to Ohm's law are the streams. The DC offset saves time because the signal does not drop to zero volts. The tearing off of silver particles into the water is very low or absent between zero and two volts, and if the signal does not go below 2 volts, silver particles are produced all the time.

Claims (2)

Process for producing colloidal silver by electrolysis of distilled water through two electrodes ( 21 . 22 ), at least one of which consists of high-purity silver, the method comprising the following steps: - generating a high-frequency carrier signal in the form of voltage pulses having a constant amplitude; - generating a low-frequency voltage signal as a modulation signal; Modulating the high-frequency carrier signal by means of the modulation signal such that the amplitudes of the voltage pulses of the carrier signal change in accordance with the modulation signal; wherein - the modulated carrier signal is provided by placing the electronic subassembly ( 11 ) comprising a filter ( 111 ), a high frequency generator ( 112 ), one Low frequency generator ( 114 ), an amplifier ( 113 ) and a modulator ( 115 ), with the electrodes ( 21 . 22 ) is connected such that the amplitude modulated signal is above 0 volts. Device for the production of colloidal silver by electrolysis, the device comprising a housing ( 2 ) with built-in electronic module ( 11 ), which with two electrodes ( 21 . 22 ), at least one of which consists of high-purity silver, the electronic assembly ( 11 ) a filter ( 111 ), a high frequency generator ( 112 ), a low frequency generator ( 114 ), an amplifier ( 113 ) and a modulator ( 115 ) which are adapted to generate a high frequency carrier signal in the form of voltage pulses of constant amplitude and a low frequency voltage signal as a modulation signal, and to modulate the high frequency carrier signal by means of the modulation signal such that the amplitudes of the voltage pulses of the carrier signal are in accordance with change the modulation signal and the amplitude modulated signal is above 0 volts.

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