RU81491U1 - DEVICE FOR PROCESSING WATER-CONTAINING LIQUID MEDIA - Google Patents

Abstract

The utility model relates to the treatment of aqueous liquids with electromagnetic radiation and can be used to activate drinking water and various drinks, as well as to increase the activity of aqueous solutions of substances used in various industries, for example, to increase the activity of biocidal preparations designed to suppress pathogenic microorganisms and microorganisms that cause the destruction of industrial facilities.

The device comprises a high-frequency signal generator in the form of a semiconductor device connected to a power source, the active layer of which contains a semiconductor structure based on compound A ₃ B ₅ . The semiconductor device can be made in the form of a Gunn diode or in the form of a tunnel diode or in the form of a BARRIT diode or in the form of a transistor or a combination thereof. The semiconductor device is located in a housing made of a dielectric material made in the form of a glass, the end of which is provided with a shoulder for fixing the glass on a container with liquid.

Description

The utility model relates to the treatment of aqueous liquids with electromagnetic radiation and can be used to activate drinking water and various drinks, as well as to increase the activity of aqueous solutions of substances used in various industries, for example, to increase the activity of biocidal preparations designed to suppress pathogenic microorganisms and microorganisms that cause the destruction of industrial facilities.

Currently, much attention is paid to water treatment to remove the mechanical and biological contaminants contained in them, as well as to change the physicochemical characteristics of liquid media and control the solubility of various substances in them.

It is known to use electromagnetic radiation with a frequency from 1 Hz to 300 GHz for these purposes.

Known devices for processing liquid media are distinguished by structural elements for forming high-frequency electromagnetic radiation and introducing the latter into the volume of the processed liquid medium.

It is known to treat running water by placing plasma generators in the water supply, which generate plasma radiation with a frequency lying in the range from 0.44 MHz to 40.68 MHz, modulated by a radio frequency signal from 10 KHz to 34 KHz (for example, RU 2272787, 2005.02.10; US 7163664, 2007.01.16). These devices are bulky, require stationary installation and large energy costs.

It is known that liquid media is treated with an electromagnetic field with a frequency of 750 Hz - 12.5 KHz, for the formation of which electromagnetic systems are used, including an electric signal source

radio frequency range connected to an electrical coil located on or near the outer surface of the vessel with the liquid medium (e.g., WO 2006072125, 2006.07.13). These devices are intended only for water purification from various mechanical impurities. In addition, they have a low frequency range of the generated field, quite large sizes and require installation time. These disadvantages limit the scope of the devices.

A device is known comprising a generator connected to electrodes immersed in treated water (US 5326446, 1994.07.04). The generator circuit allows you to simultaneously form a static electromagnetic displacement, radio-frequency and low-frequency electromagnetic fields (up to 20 KHz). The generator contains step-up and step-down transformers and a powerful transistor connected to the winding of the step-up transformer, the secondary winding of which is connected to the first electrode. The container body is made of steel and serves as a second electrode. The disadvantages of this device are cumbersome, the use of high-voltage equipment, the inappropriateness of its use for water treatment in small containers.

This utility model is aimed at developing a device for processing liquid media in small containers that are pre-filled with water or an aqueous solution of substances with properties that correspond to their purpose.

A device is known that is applicable for processing electromagnetic radiation of liquid media in relatively small containers.

The device comprises an emitter placed in the volume of the processed liquid medium and connected to the output of a high-frequency generator that generates a signal with a wide spectrum of frequencies from 1 Hz to 300 GHz (WO 2004004887, 2004.01.15). The device generator contains four blocks, the first of which is designed to generate a modulating signal, which is used in the second block to generate a voltage applied to the input of the third block generating a high-frequency

signal. The fourth block is a high-frequency amplifier, which allows you to get a signal output of up to 20 watts.

The disadvantage of this device is the complex circuit of the generator and the relatively high power consumption, which limits the possibility of its use as a small portable device for processing liquid media. In addition, in this device, the emitter is unprotected from the medium being processed, which results in the inability to use the same emitter for processing liquid media that differ in purpose (for example, food product and biocide solution), chemical composition, aggressiveness with respect to the material of which the emitter is made , etc.

The technical result achieved by this utility model is to create a small-sized portable low-voltage device for processing various water-containing media (water. Drinks, solutions), which is highly effective in the activation of water and water-containing drinks.

The device can be used to process liquid media that differ in purpose, chemical composition, aggressiveness with respect to the material from which the elements of the device in contact with the liquid are made, etc.

The device, like the known one, contains a high-frequency signal generator, and differs from the known one in that the high-frequency signal generator is made in the form of a semiconductor device connected to a power source, the active layer of which contains a semiconductor structure based on compound A ₃ B ₅ , while the semiconductor device located in the case of a dielectric material, made in the form of a glass, the end of which is provided with a shoulder for fixing iskana on the neck of the container with liquid

You can make a semiconductor device in the form of a Gunn diode or in the form of a tunnel diode or in the form of a BARRIT diode or in the form of a transistor.

The utility model is based on the proposal to use low-intensity electromagnetic radiation in the range of 30 GHz - 70 GHz for processing liquid media, which has an activating effect on water and water-containing drinks and helps to increase the activity of water-soluble substances with biologically active properties. To generate low-intensity electromagnetic radiation in the above range, it is proposed to use a radiation generator containing a semiconductor device with an active layer in the form of a semiconductor structure based on compound A ₃ B ₅ , which include gallium arsenide (GaAs) and indium phosphide (InP). These structures generate electromagnetic radiation in the active mode when a non-working voltage is applied, and they are also sources of background radiation in the cold state (when they are disconnected from the voltage source) due to the conversion of external radiation into its own, generated by the polariton mechanism (E.A. Vinogradov, Polaritons semiconductor microcavity, UFN, 2002, vol. 172, No. 12, p. 1371). The characteristics of background radiation are determined by dipole-active states of the crystal volume. The semiconductor device can be made in the form of a Gunn diode or in the form of a tunnel diode or in the form of a BARRIT diode or in the form of a transistor. To expand the frequency range, the semiconductor structure can be performed with at least two working volumes, while the working volumes of the semiconductor structure can be made with different geometric dimensions and from one or different compounds A ₃ B ₅ .

The choice for processing aqueous liquids of a high-frequency signal generator that generates low-intensity electromagnetic radiation with a frequency of 30 GHz - 70 GHz is associated with the fact that electromagnetic radiation of this range resonantly interacts with water and

solutions based on it. An effective change in the activity of water-soluble substances with biologically active properties was established experimentally when irradiated with electromagnetic radiation formed by devices on a semiconductor structure based on compounds A ₃ B ₅ .

The housing for the emitter can be made of any shape: on the basis of a cylinder, parallelepiped, cone and any other complex figure. The main requirement for the housing is to make it of a dielectric material that is transparent to electromagnetic radiation. The bead can be made integral with the case, and it is advisable to make it with such an external diameter so that the device can be used for processing liquid media in containers having different diameters of the neck cross-section, for example, for bottles and cans. An embodiment of the housing with a small flange is possible, while to install it on the necks of containers with liquids of various sizes, it is necessary to use an additional plate of a large cross section with an opening in which the housing of the device is installed.

Figure 1 schematically shows a longitudinal section of a variant of the device with the implementation of the shoulder along with the housing.

The device comprises a cylindrical housing 1, in which a semiconductor device 2 is placed with a wire 3 connecting the device 2 with a power source (not shown in Fig. 1).

The housing 1 may be made of a dielectric material, for example, glass and plastic, used for packaging water and drinks.

The end face of the housing 1 has a shoulder 4, designed to install the housing 1 on the neck of the tank 5, which is filled with liquid medium to a level exceeding the level of arrangement of the semiconductor device 2.

The housing 1 isolates the device 2 from the liquid medium, and the possibility of easily replacing one housing with another allows the use of the device 2 for processing liquid media that differ in the purpose and chemical composition of the liquid being treated.

The device is compact, the operating voltage of the elements in the device does not exceed 15 V, which allows its use at home.

Claims (2)

1. A device for processing aqueous liquid media containing a high-frequency signal generator and emitter, characterized in that the high-frequency signal generator is made in the form of a semiconductor device connected to a power source, the active layer of which contains a semiconductor structure based on compound A ₃ B ₅ , while the semiconductor the device is located in a housing made of dielectric material, made in the form of a glass, the end of which is provided with a shoulder for fixing the glass on the neck of the container with liquid newt. 2. The device according to claim 1, characterized in that the semiconductor device is made in the form of a Gunn diode, or in the form of a tunnel diode, or in the form of a BARRIT diode, or in the form of a transistor.