KR200403414Y1 - Exchange stimulation magnetizer for water purifier - Google Patents

Abstract

The present invention relates to an exchange magnetic pole decomposer for water purifier,

Arrange a plurality of diaphragms with a permanent magnet attached to one side of the periphery,

Inside the diaphragm are arranged at positions opposite to the electromagnet,

In the center where the electromagnet portion is arranged, the diaphragm in which permanent magnets are arranged on one side thereof is arranged at opposite positions,

The electromagnet portion arranged between the two diaphragms is configured to alternately supply electricity after positioning the two electromagnets so that the polarities of both sides are reversed, thereby frequently converting the electromagnets while preventing power consumption from changing the electrodes of the electromagnet. Due to the chaos of the internal magnetic field and the heat generation inside, the purification of the water by the magnetization of the permanent magnet which hardly loses the magnetic force is continuously performed.

Description

Exchange stimulation magnetizer for water purifier

The present invention relates to an exchange stimulation magnetizer for water purifiers. In particular, two electromagnets are placed between two diaphragms with permanent magnets so that their polarities are reversed. In order to prevent the consumption of power, the internal magnetic field caused by frequent electroconversion of electromagnets and the internal heat generation phenomenon are eliminated, so that the purification of water by the magnetization of permanent magnet is carried out continuously. will be.

In modern times, many household wastes, including garbage, are emitted from homes, factories, and farms, so that waters with self-cleaning capacity are severely polluted and cannot be directly used for drinking water, as well as damaging many ecosystems such as rivers and seas. It is already well known.

And once polluted water is used for the purification process to clean the water, various apparatuses and methods are used a lot, and research for more efficient water purification is still being conducted.

Looking at some methods of integers known to date, there are some biological methods using activated sludge or microorganisms, chemical methods using chemical reactions, and physical methods using electrons or ultrasonic waves.

However, according to the conventional waste water purification method as described above, not only stable and complete water purification is performed, but also high operating costs required for water purification cannot increase water purification efficiency.

In other words, conventional biological methods using activated sludge or microorganisms are used in many countries internationally to decompose contaminants by microorganisms, but since they have a limit of effective concentration in digestive substances of microorganisms, they contain high concentrations of waste. In the state, the treatment is insufficient, and in the case of alkaline or acidic wastewater, pretreatment is required, and it is affected by the environment such as time and temperature. there was.

In addition, the chemical treatment method has the advantage of fast reaction speed and simple process, whereas even in the case of decomposing organic matters difficult by biological treatment, the installation and maintenance costs are too expensive to treat wastewater by itself. B was used only as a post-treatment.

In addition, the physical method using electrons or ultrasonic waves is applied to the process of decomposing hardly decomposable substances such as benzene compounds and halogen compounds that are difficult to process by biological methods or chemical methods, but they are not widely used because their effects are insignificant compared to the huge facility and maintenance costs. There was a disadvantage.

In particular, in the case of standing water, such as fish farms and lakes, the purified water is not easy, and is gradually polluted with time.

Therefore, as can be seen by the domestic patent application No. 1998-5484, which is the applicant of the applicant,

The exchange magnetic stimulation type magnetolysis cracker of the present invention configured as described above forms a inlet at the upper end of the main body so that a part of the stagnant water, such as a reservoir or fish farm, enters the inlet at the upper end and is discharged to the outlet. To be purified with water,

By irradiating electrons from the discharge electrodes installed in the upper beam of the main body to the water flowed in, ozone, ultraviolet rays and negative ions are generated and OH radicals with high oxidation power are generated.

In addition, the shaft having an integrated screw pin in the center of the beam is rotated counterclockwise by a motor so that water can be fused with the OH radical while moving downward while vortexing counterclockwise.

In addition, the shaft having the screw pin integrated at the center of the beam is rotated counterclockwise by the motor so that the water can be fused with the OH radical while moving downward while vortexing counterclockwise.

By installing a plurality of alternating magnets repeatedly having N polarity and S polarity in the path where the water moves downward, a magnetic plate having a plurality of permanent magnets attached to the inside and the outside of the main body is installed by alternating magnets and permanent magnets. The vibration is generated in the state of the ultrasonic wave so that the generation of OH radicals at the discharge electrode is accelerated by the vibration energy of the water amplified by the ultrasonic wave and the magnet, and at the same time, the water and the contaminants are shocked to increase the reactivity.

Since the far-infrared generator installed at the bottom center of the magnetizing plate is mixed with barite, germanium, zeolite, and turfite at an appropriate ratio on the outer circumferential surface of the permanent magnet, and forms a natural powder layer made of powder with 200 mesh, Far-infrared rays are generated, and photons of ultraviolet rays or more included in far-infrared rays generally raise electrons of atoms or molecules from a stable state to an excited state, thereby weakening the binding of molecules, so that the molecular bond state of water and contaminants is easily broken. It was.

In the conventional wastewater purification apparatus, the structure of the alternating magnet and the permanent magnet is as shown in FIG. 1,

Arranged around the plurality of diaphragms 1 attached to the permanent magnet 2 on one side,

In the center of the diaphragm 1, alternating magnets 3 are arranged at opposite positions, respectively,

In the center where the alternating magnets 3 are arranged, the diaphragm 4 having the permanent magnets 5 arranged on one side thereof is arranged in an opposite position.

However, according to the conventional structure as described above, because the vibration of the diaphragm (1) (4) is frequently caused to push or pull the permanent magnet (2) (5) in the process of changing the polarity of the alternating magnet (3), As the polarity of the alternating magnet (3) is changed, the consumption of power increases, there is a problem that the magnetization efficiency is lowered by the heat generated in the process of changing the electrical energy into thermal energy in the alternating magnet (3).

In addition, as the magnetization efficiency of the alternating magnets 3 is lowered, the magnetic force of the permanent magnets 2 and 5 is lost over time, resulting in a decrease in water treatment efficiency due to magnetization.

Accordingly, the present invention, by placing the two electromagnets so that the polarity of both sides is opposite between the two diaphragm attached to the permanent magnet alternately to supply electricity to the electromagnet while preventing the power consumption of changing the electrode of the electromagnet It is an object of the present invention to provide an exchange stimulation type magnetolysis device for water purifiers, which purges water by the magnetization of permanent magnets by eliminating confusion and internal heat generation of internal magnetic field caused by frequent electrode change.

The present invention for achieving the above object is arranged around the plurality of diaphragm attached to the permanent magnet on one side,

Inside the diaphragm are arranged at positions opposite to the electromagnet,

In the center where the electromagnet portion is arranged, the diaphragm in which permanent magnets are arranged on one side thereof is arranged at opposite positions,

The electromagnet portion arranged between the two diaphragms is configured to alternately supply electricity after positioning the two electromagnets so that the polarities of both sides are reversed, thereby frequently converting the electromagnets while preventing power consumption from changing the electrodes of the electromagnet. Due to the chaos of the internal magnetic field and the heat generation inside, the purification of the water by the magnetization of the permanent magnet which hardly loses the magnetic force is continuously performed.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention.

According to the capacity and area of water for water purification, a plurality of water purification systems equipped with a plurality of exchange stimulation magnetization crackers of the present invention are installed at predetermined intervals.

Arranged around the plurality of diaphragms 11 attached to the permanent magnet 12 on one side,

Inside the diaphragm 11, the electromagnet portion 13 is arranged at opposite positions, respectively,

In the center where the electromagnet 13 is arranged, the diaphragm 14 having the permanent magnet 15 arranged on one side thereof is arranged at an opposite position,

The electromagnet portion 13 arranged between the two diaphragms 11 and 14 has a direction in which current flows in the coils 22 and 25 wound around the outside of the electrode plates 21 and 24 so as to change the direction of the current. Position the two electromagnets 20, 23 so that the polarity is reversed, and configured to alternately supply electricity.

The exchange magnetic pole demagnetizer for the water purification device of the present invention configured as described above has a plurality of diaphragms having a permanent magnet attached to one side of the diaphragm in the outside and the inside, and two electromagnets so that the polarities of both sides are opposite between the two diaphragms. To position them separately,

A plurality of diaphragms 11 attached to one side of the permanent magnet 12 is arranged around the periphery to generate vibrations due to the shaking phenomenon like the permanent magnet 12.

In addition, the vibration plate 14 having the permanent magnets 15 arranged on one side thereof is arranged at an opposite position to generate vibrations due to the shaking phenomenon.

The electromagnet portion 13 arranged between the two diaphragms 11 and 14 has a direction in which current flows in the coils 22 and 25 wound around the outside of the electrode plates 21 and 24 so as to change the direction of the current. Position the two electromagnets 20 and 23 so that the polarities are reversed so as to alternately supply electricity.

Therefore, if the current flows only in the electromagnet 20 of the electromagnet part 13 so that the inner side has the N pole and the outer side has the S pole, respectively, the outer permanent magnets 12 having the N pole facing each other are mutually inclined. As the pushing repulsion occurs, the permanent magnets 15 having the S pole are pulled to each other so that the external diaphragm 11 vibrates once inward while the internal diaphragm 14 vibrates once outside. Will occur.

If the current flowing to the electromagnet 20 is stopped in this state and the current flows only to the electromagnet 23, if the inner side has the S pole and the outer side has the N pole, respectively, the permanent part of the exterior facing the N pole The magnet 12 has a pulling force to each other while the permanent magnet 15 of the inside of the S pole is pushed to each other to generate a repulsive force to the outside of the diaphragm 11 is vibrating once to the outside while the inner diaphragm 14 is inside Since the phenomenon of oscillation occurs once, the vibration plates 11 and 14 are vibrated by the state in which the current is alternately supplied, and the phone is continuously made by magnetization.

As described in detail above, in the exchange magnetic pole decomposer for water purifying apparatus according to the present invention, a plurality of diaphragms having permanent magnets attached to one side are arranged in the outside and the inside,

Between the two diaphragms, the two electromagnets are positioned so that the polarities of both sides are reversed, and then configured to supply electricity alternately, thereby preventing the power consumption of changing the electrodes of the electromagnet, and thereby causing frequent electroconversion of the electromagnet. There is an advantage that the purification of the water by the magnetization of the permanent magnet that almost loses the magnetic force due to the chaos of the magnetic field and the heat generation phenomenon inside is eliminated continuously.

1 is a schematic diagram schematically showing the configuration of a conventional magnetizer.

Figure 2 is a schematic diagram schematically showing the main configuration of the present invention.

Explanation of symbols on the main parts of the drawings

11, 14: diaphragm 12, 15: permanent magnet

13: electromagnet part 20, 23: electromagnet

21, 24: electrode plate 22, 25: coil

Claims (1)

Replacement of a plurality of diaphragms 11 and 14 with permanent magnets 12 and 15 attached to the side, respectively, on the outside and inside, and the electromagnet portion 13 arranged therebetween at opposite positions, respectively. In the stimulation magnetizer, The electromagnet portion 13 arranged between the two diaphragms 11 and 14 has a direction in which current flows in the coils 22 and 25 wound around the outside of the electrode plates 21 and 24 so as to change the direction of the current. Exchange magnetic pole type decomposer for water purification device, characterized in that the two electromagnets (20, 23) are positioned so that the polarity is reversed.