RU2584198C2 - Method of producing colloidal silver solution - Google Patents

Abstract

FIELD: medicine; biology.

SUBSTANCE: invention can be used in biology and medicine. Method of producing colloidal silver solution includes electric discharge in liquid medium and determining of concentration of silver solution. Electrical discharges in liquid medium are performed in the shape of damped discharge pulses with a duration of 1-2 mcs and a frequency of 0.2-0.5 kHz to achieve the extinction value solution index not less than 0.75 m^-1 in the spectral range with a wavelength of 195-205 nm.

EFFECT: invention allows to increase biological activity of colloidal solution.

1 cl, 1 dwg

Description

The invention relates to methods for the manufacture of colloidal silver solutions and is intended for use in various fields of technology, biology and medicine.

A known method of manufacturing a colloidal silver solution, including electrical discharges in a liquid medium and determining the concentration of silver solution (RF patent 2422377, IPC C02F 1/50, publ. 2011).

The disadvantage of this method is the inability to provide a predetermined concentration in a solution of silver in an atomic state.

The basis of the invention is the task of improving the method of manufacturing a colloidal silver solution to provide a predetermined concentration in a silver solution in an atomic state, thereby increasing the biological activity of the colloidal solution.

The problem is solved in that in the method of manufacturing a colloidal silver solution, including electric discharges in a liquid medium and determining the concentration of silver solution, electric discharges in a liquid medium are carried out in the form of decaying discharge pulses with a duration of 1-2 μs with a frequency of 0.2-0.5 kHz to achievement by the extinction index of the solution of a value of at least 0.75 m ^-1 in the spectral range with a wavelength of 195-205 nm.

Since electric discharges in a liquid medium are carried out in the form of decaying discharge pulses of 1-2 μs duration with a frequency of 0.2-0.5 kHz until the solution extinction index reaches a value of at least 0.75 m ^-1 in the spectral range with a wavelength of 195-205 nm , a predetermined concentration in the silver solution in the atomic state is provided, and thereby the biological activity of the colloidal solution is increased. The graphic material shows a block diagram of an installation for the production of colloidal metal solutions.

The installation for the production of colloidal solutions of metals includes a chamber 1 with a working fluid, a timer-programmer 2, a gap adjuster 3, a control unit 4 of a stepper motor M ₁ , a reverse relay 5, a high voltage unit 6, a contact relay 7, a contact 8 for supplying a signal to the contact relay 7, the flow sensor 9, the concentration sensor 10, the switch 11 of the flow sensor 9, the switch 12 of the concentration sensor 10 and the electrodes 13 and 14. The electrode 13 is connected to the drive of its rotation M ₁ .

A method of manufacturing a colloidal silver solution is as follows.

The timer-programmer 2 according to the specified program periodically turns on the rotation of the electrode 13 through the drive M ₁ and gives signals to turn on the high voltage unit 6 and pump the liquid between the electrodes 13 and 14. Electric discharges in a liquid medium are carried out in the form of decaying discharge pulses with a duration of 1-2 μs s frequency not less than 0.2 and not more than 0.5 kHz. During the operation of the installation, the gap between the electrodes 13 and 14 increases by about 10 μm in 5 minutes. The consequence of this is a decrease in the repetition rate of discharge pulses and, accordingly, the rate of generation of nanoparticles decreases. After 5 minutes, the timer-programmer 2 sends a signal to the control unit 4 of the stepper motor M ₂ and the electrodes 13 and 14 come together until they are fully touched. A signal is formed that switches the stepping motor M ₂ to reverse, and the electrodes 13 and 14 are extended to a predetermined gap. The specified clearance is also determined by the signal from the adjuster of the clearance 3 to the control unit 4 of the stepper motor M ₂ . The electrodes 13 and 14 are set to a predetermined gap and the timer-programmer 2 gives a command to continue the process of producing a colloidal solution. When the solution extinction index reaches a value of at least 0.75 m ^-1 in the spectral range with a wavelength of 195 to 205 nm, the technological process for the production of a colloidal silver solution is stopped.

To increase the accuracy of controlling the rate of generation of a colloidal solution and maintain the gap between the electrodes 13 and 14 at the same level in the installation, the gap adjuster 3 can be connected to a flow sensor 9 and / or concentration sensor 10, which are mounted in the outlet line of the finished solution. To enable the flow sensor 9, the switch 11 is in the on state. In this case, when the gap is excessively acceptable between the electrodes 13 and 14, the flow sensor 9 detects an increase in the fluid flow and issues a command to adjust the gap between the electrodes 13 and 14 by applying a signal to the gap adjuster 3. After that, the gap between the electrodes 13 and 14 is adjusted. working as a regulator of the concentration sensor 10, it is connected to the gap adjuster 3 by the switch 12. With an increase in the gap between the electrodes 13 and 14, the concentration sensor 10 detects a change in the concentration of the solution between the electrodes 13 and 14 and taxly to the flow sensor 9 issues a command to adjust the gap between the electrodes 13 and 14, by applying a signal to the gap adjuster 3.

Simultaneously with the flow of the technological process for obtaining a colloidal silver solution, its diagnosis is also carried out, which consists in the following. Probing radiation is carried out, for example, in the wavelength range of 200 ± 1 nm. From the measured extinction values of solution A, the extinction index of solution K is calculated by the formula ln (1 / l-A) / l, where l is the thickness of the container in which the colloidal silver solution is located. When the extinction index K reaches values of at least 0.75 m ^-1 , which corresponds to a concentration of the atomic component of silver in the solution of at least 10 ^-4 mol / l, the installation is turned off, completing the process for producing a colloidal solution with the above concentration of the atomic component of silver in the solution . At such a concentration of the atomic component of silver, the solution, as shown by experimental studies, has increased biological activity.

Claims (1)

A method of manufacturing a colloidal silver solution, comprising electric discharges in a liquid medium and determining the concentration of a silver solution, characterized in that the electric discharges in a liquid medium are carried out in the form of decaying discharge pulses of 1-2 μs duration with a frequency of 0.2-0.5 kHz until the extinction index is reached solution values of at least 0.75 m ^-1 in the spectral range with a wavelength of 195-205 nm.

Images