RU2657485C1 - Water or oil treatment device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the treatment of water or oil by infra-low frequency acoustic vibrations and can be used in physiotherapy, industry and agriculture. Device for treating water or oil contains master oscillator 1 of electrical oscillations, made on a microcontroller with the ability to generate infra-low-frequency oscillations in the range from 7 to 130 Hz. Output of generator 1 is connected to power amplifier 2, made according to the scheme of an amplifier of class D. Output of power amplifier 2 is connected to radiator 3, which is a resonator, inside which acoustic radiator 8 is fixed. Resonator is made in the form of a cylindrical hollow barrel without a bottom with a bevelled top covered with a flat sheet.

EFFECT: invention allows the processing of large volumes of water or oil and significantly expand the scope of the device.

4 cl, 2 dwg

Description

The field of technology.

The claimed technical solution relates to the field of processing water or oil infrared acoustic waves. In particular, the claimed device is intended to activate water and water-containing objects of animate and inanimate nature. The device can be used in the field of physiotherapy, in other industries and agriculture.

At low capacities, the device can be used in physiotherapy, and at large capacities - to activate the growth and increase in the mass of plants, animals, fish, as well as to activate water with its subsequent use for drinking (as a wellness), for watering plants, for dispersion spraying over vegetables, fruits, berries, meat, fish, caviar with the aim of a three to five-fold increase in their shelf life without the use of any other preservatives.

The prior art.

Known therapeutic irradiator (preliminary patent of Kazakhstan No.KZ11170 for invention, IPC A61N 1/00, AB 8/00, 2002). As in the claimed device, said analogue contains an infrasound emitter equipped with control and indication units. The ultrasonic emitter is connected to the master oscillator through a power amplifier and a transducer. The master oscillator is made on a resonant oscillatory circuit. The main nodes and blocks are mounted in the case-shaper of the radiation pattern. The radiation frequency is adjustable from 1 to 30 Hz. Power is adjustable from 1 to 100 watts. The body is made in the form of a hollow body of revolution with the rear part in the form of a hemisphere, and the front part in the form of a tapering conical tube.

The disadvantage of this analogue is the low stability and accuracy of the frequency setting. To handle large volumes, the analogue has an unsuitable emitter design and insufficient power.

The closest analogue is recognized as a liquid treatment device (Russian patent for invention RU 2253488, IPC A61N 2/06 (2000.01), A61N 7/00 (2000.01), A61K 41/00 (2000.01), 2005), containing, as well as the claimed invention , generator of electrical vibrations. Additionally, the device comprises a direct current source connected to a switching unit, which is electrically connected to an electric oscillation generator connected to a piezoelectric transducer. The switching unit is connected to a solenoid. The piezoelectric transducer and the solenoid are fixed motionless from the outer side of the fluid reservoir on its side and under the bottom, respectively. The switching unit provides switching power supply of the generator and the solenoid with a frequency of 10 to 160 Hz. The generator of electrical vibrations excites ultrasonic vibrations in the piezoelectric transducer. The solenoid generates a magnetic field with induction from 30 to 50 MT. The frequency of the generator of electrical vibrations is set equal to the frequency of acoustic relaxation of the solution. The intensity of the ultrasonic field is set below the cavitation threshold.

The disadvantage of this device is the use of high-frequency (ultrasonic) vibrations for processing liquids. Ultrasonic vibrations are much more absorbed by liquids and other media compared to infrasound. Ultrasonic vibrations quickly decay in air or a gaseous medium, which leads to the need to use a specially designed container in which it is necessary to place the processed fluid. The above leads to the inability to handle large volumes of liquids by the device. The device is not able to provide simultaneous processing of liquids in several containers, as well as liquids in natural conditions (for example, water bodies).

Disclosure of the claimed technical solution.

The technical problem to which the claimed technical solution is directed is to expand the range of operating parameters to expand the scope of application of a water or oil processing device.

The technical result provided by the claimed technical solution is to provide the possibility of processing large volumes, which leads to a significant expansion of the scope of the device for processing water or oil.

The essence of the claimed technical solution lies in the fact that the device for processing water or oil contains a master oscillator of electrical vibrations. It differs in that the generator is made on a microcontroller with the ability to generate infra-low-frequency oscillations in the range from 7 to 130 Hz. The power amplifier is connected to the output of the generator and is made according to the class D amplifier circuit. The emitter is connected to the output of the power amplifier and is a resonator, inside which an acoustic emitter is fixed. The resonator is made in the form of a cylindrical hollow barrel without a bottom with a beveled top, closed with a flat sheet.

The above essence is a set of essential features of the claimed technical solution, ensuring the achievement of the claimed technical result.

The processing of large volumes of substances by the claimed device became possible due to the performance of the low-frequency generator, and the design of the emitter in combination with an effective power amplifier and a stable generator. In this case, the radiation pattern of the emitter is diverging, the specific parameters of this discrepancy depend on the frequency and power of the sound wave. For example, at a frequency of 18.6 Hz and a power of 300 W, the angle of divergence of the sound wave to a distance of 50 m from the emitter varies from 0 to 45 degrees to the right and left. Further to a distance of 7 km, this angle remains unchanged, equal to about 45 degrees.

In special cases, it is permissible to carry out the technical solution as follows.

The master oscillator is preferably configured to generate oscillations in the range from 13 to 20 Hz. The power amplifier is configured to control the signal power at its output from 1 to 500 watts.

It is possible to perform the resonator with steel and glue its inner surface with vibration damping material. Several acoustic emitters are preferably mounted on a first removable partition mounted inside the resonator. It is also advisable in the resonator to fix a second removable partition made in the form of a grid and located closer to the open end of the resonator in comparison with the first partition.

On the second partition, it is possible to fix electromagnetic radiating heads, which are coils with cores of neodymium magnets. The axis of the coils in this case are oriented parallel to the axis of the cylinder of the resonator. The coils are electrically connected in a serial circuit, which through a series-connected capacitor and modulator is connected to the output of the power amplifier.

The authors of the claimed technical solution made a prototype of this solution, the tests of which confirmed the achievement of the technical result.

A brief description of the drawings.

FIG. 1 is a schematic diagram of a water or oil processing apparatus; FIG. 2 - longitudinal vertical section of the emitter. Implementation of a technical solution.

The water or oil processing device comprises a master oscillator (1) of an infra-low-frequency electric signal (Fig. 1). The generator (1) contains a microcontroller, which makes it possible to obtain high stability of the operating frequency equal to the stability of the quartz resonator, as well as to set the entire set of working parameters (frequency, exposure time, output signal level) in the form of a profile that is stored in the memory of the microcontroller. The generator (1) is controlled by an encoder.

The generator (1) is configured to generate an output signal with a frequency of from 7 to 130 Hz. However, the preferred range is frequencies from 13 to 20 Hz because of the relatively efficient and inexpensive acoustic emitters and the low sensitivity of human hearing in this range.

The exact value of the frequency of the generated signal is determined in advance empirically.

The frequency value of the generated signal for water treatment is determined first by assessing the Ph of the treated water, then by assessing the evolution of hydrogen, the properties of the treated water after freezing and the degree of its effect on plants and living organisms. In particular, the two characteristic and most used frequencies for treating water and water-containing objects (solutions, plants, animals, fish) are the frequencies of 17.7 Hz and 18.6 Hz. For other liquids and substances, multiple analogs of high and ultra-high frequencies are used. These analogues are 13.8; 14.2; 16.71; 16.9; 22.34 and 25.2 Hz. It was experimentally found that processing objects with ultra-high frequencies does not give the effect that their processing with the indicated low frequencies gives.

It was experimentally established that ensuring the most efficient operation of a water or oil processing device occurs while ensuring the radiation frequency stability is not worse than 0.2%.

The output of the generator (1) is connected to the input of a power amplifier (2) of class D. The use of such an amplifier provides a high, more than 0.9, efficiency of the electrical part of the device. At the output of the amplifier provides a variable signal power from 1 to 500 watts.

The amplifier (2) is connected to the emitter (3) with a cable 10 m long.

The emitter (3) is an acoustic resonator (4), made in the form of a metal (steel) cylindrical hollow barrel (5) without a bottom with an oblique beveled top, covered with a 3 mm thick flat steel sheet (6) (Fig. 2). The bevel angle is from 9 to 13 degrees, depending on the purpose and size of the emitter. Said sheet (6) is preferably welded to the top of the barrel.

The inner surface of the resonator (4) is glued with a vibration damping material.

The resonator (4) has two removable internal partitions perpendicular to its axis. Acoustic emitters (8) are installed on the first partition (7) with a very low resonant frequency, significantly lower than the operating frequency range of the emitted signal. Acoustic emitters (8) are quite effective in the operating range indicated above. Acoustic emitters can be mounted directly on the resonator, however, their placement on a removable partition leads to ease of maintenance and repair of the claimed device. Acoustic emitters (8) are electrically connected to the output of the power amplifier (2).

Acoustic emitters (8) provide direct exposure intensities from 75 to 115 dB in the zone of optimal placement of the affected objects - from 0.6 to 20 m.At the same time, due to the low attenuation of infrasonic vibrations, exposure is also possible at large distances. So, in the open air, the intensity of infrasound exposure at a distance of 5 km is reduced by only 20%, the angle of deviation of the sound wave at a distance of 3 km is 45 degrees left-right-up-down, which allows you to use the processing device on large-scale objects with a maximum power of 300 up to 500 watts.

Closer to the open end of the resonator (4), a second partition (9) is installed in the form of a stainless steel mesh. Electromagnetic emitting heads (10), which are coils with neodymium magnet cores, can optionally be installed on the grid. The axis of the coils are parallel to the axis of the cylinder of the resonator (4). Electromagnetic emitting heads (10) are electrically connected in a series circuit, which is connected through a series-connected capacitor to the output of a power amplifier (2). Electromagnetic emitting heads (10) are a source of low-frequency electromagnetic radiation with a pronounced magnetic component. The frequency of low-frequency electromagnetic radiation coincides with the frequency of acoustic radiation. A modulator (11) is intended for connecting and disconnecting the above-described scheme for generating electromagnetic radiation.

To narrow the directivity of the radiation, a removable nozzle (not shown) is used, mounted on the open end of the resonator. The nozzle is made in the form of a plastic funnel. The wide edge of the funnel, using latches, is attached to the end of the resonator, and the narrow edge is directed to the object. If the object is located at a distance of 1 to 1.5 km, then at a power of 500 W and a frequency of 17.7 Hz, wave deviation is not observed. The nozzle is used to process and activate one selected object and does not affect the adjacent ones.

For ease of use, the emitter is mounted on a stand (not shown), which allows you to change the direction of radiation in azimuth and elevation.

The water or oil processing device may additionally contain an EHF generator (12) made in the form of an EHF therapy apparatus with a portable radiating horn head "PORT 56/76 ELM" manufactured by ELM LLC, Nizhny Novgorod, Russia (Internet resource http : //www.elmnn.ru/PORT5676.html). EHF radiation power of about 10 mW. It is used optionally when using the device for physiotherapeutic purposes.

An EHF generator and a source of low-frequency electromagnetic radiation are used to solve specific problems, for example, during physiotherapy in combination with infrasound.

The water or oil processing device is equipped with a liquid crystal display on which manipulations with the generator are displayed: current and set values of frequency, exposure time, output level, total operating time.

The order of use.

Objects that should be exposed to at powers from 24 to 100 watts are placed at a distance of 0.6 to 20 m from the device. When the device is operating at a power of more than 200 W, the distance of the acoustic impact can be from 3 to 7 kilometers.

The processing device is installed and oriented so that the processed objects are in the zone of maximum impact efficiency.

Then configure the operating parameters of the device. Instead of tuning, these parameters can be selected from the memory of the microcontroller that stores sets of operating parameters for various tasks that can be solved using the claimed device. Among the operating parameters, the power and frequency of the radiation, the exposure time, the additional inclusion of magnetic and / or EHF exposure are selected.

Then turn on the generator and the device for processing water or oil emits acoustic, electromagnetic and EHF waves in accordance with the operating parameters.

When processing small volumes of water, it is purified from suspensions and pathogenic flora directly during processing. When processing large volumes directly during processing, this process of purification is initiated, which continues for a long time after the end of processing.

During oil processing, the process of removing sulfur, paraffin, and part of other suspensions, which lasts several days, is initiated.

When processing sea water, magnesium salts are excreted.

It was also experimentally found that a single treatment with the claimed device of salt, alkaline, lithium and acid batteries, which have partially exhausted their resources, leads to a significant, several-fold increase in their capacity.

Industrial applicability.

The claimed technical solution is implemented using industrially produced devices and materials, can be manufactured at any industrial enterprise and will be widely used in many sectors of the economy.

Claims (4)

1. A device for processing water or oil, containing a master oscillator of electrical oscillations, characterized in that the generator is made on a microcontroller with the ability to generate infra-low-frequency oscillations in the range from 7 to 130 Hz, the output of the generator is connected to a power amplifier made according to the class D amplifier circuit, the output of which is connected to the emitter, which is a resonator, inside which is fixed an acoustic emitter, while the resonator is made in the form of a cylindrical hollow barrel without a bottom with a beveled erhom, it closed flat sheet. 2. The device according to claim 1, characterized in that the master oscillator is configured to generate oscillations in the range from 13 to 20 Hz, and the power amplifier is configured to control the signal power at its output from 1 to 500 watts. 3. The device according to claim 1, characterized in that the resonator is made of steel and its inner surface is glued with vibration damping material, while several acoustic emitters are fixed to the first removable partition installed inside the resonator, while the second removable partition made in in the form of a grid and located closer to the open end of the resonator than the first partition. 4. The device according to p. 3, characterized in that on the second partition there are electromagnetic emitting heads, which are coils with cores of neodymium magnets, the axis of the coils are parallel to the axis of the cylinder of the resonator, the coils are electrically connected in a serial circuit, which is connected through a series-connected capacitor and modulator connected to the output of the power amplifier.

Images