KR19980026178A - Structure Improvement and Water Quality Improvement Method Using Far Infrared Radiation Ceramics and Permanent Magnets - Google Patents

Abstract

The present invention relates to a water quality improver structure and a water quality improvement method using far-infrared radiation ceramics and permanent magnets, and a ceramic ball is enclosed in a water inlet side in a cylindrical stainless perforated network formed a plurality of through holes in a cylindrical stainless steel tube. In addition, the permanent magnet is mounted in parallel with the symmetrical pole on the water outlet side, and the water flows through the pump at a high flow rate due to the strong earth output of the pump, so that the ceramic balls repeatedly collide with each other due to the strong flow rate and countercurrent rotation of the water. When the water electrons vibration, while this rotation far infrared ray is absorbed by the water of the water molecule dissociation by the synergistic action of the magnetic energy of the strong magnet at the same time, hydroxide ion (OH ^-) and is generated and the water associated structure proton (H ⁺⁾ and Dissolves by changing the surface tension and ionizing minerals dissolved in water Increases with an alkali hydroxide ion (OH ^-) of oxygen in the soil by the action of chemical resistance, physical properties, and improve biological it houses and facilities increase cultivation water holding capacity of the salt directly to the soil is the most problematic, and continuous cropping disorder prevented or The present invention relates to a water quality improver structure and a water quality improvement method using far-infrared radiation ceramics and permanent magnets, which can contribute to improving the quality of crops.

Description

Vertical Improving Machine Structure and Water Quality Improvement Method Using Far Infrared Radiation Ceramics and Permanent Magnets

The present invention relates to a water quality improver structure and a water quality improvement method using a far infrared radiation ceramics and a permanent magnet, the present invention relates to a water quality improver structure and a water quality improvement method using a far infrared radiation ceramics and a permanent magnet, a cylindrical stainless steel tube Fast water flow rate due to strong earth output of pumping pump by inserting ceramic ball into water inlet side and permanent magnet in symmetrical pole at water outlet side in cylindrical stainless perforated network which formed a large number of through holes By passing through the ceramic, the ceramic balls repeatedly collide with each other and vibrate due to the strong flow rate and countercurrent rotation of the water. as the dissociation hydroxide ions (OH ^-) and a hydrogen ion (H ⁺⁾ is generated and water The associated structure and is granted a change in surface tension written because ionized minerals which are dissolved in water and water, the hydroxide ion increasing the alkali of dissolved oxygen (OH ^-) chemical resistance of the soil by the action of, physical properties, biological The water quality improvement machine using far-infrared radiation ceramics and permanent magnets, which can contribute to the improvement of crop quality, can be achieved by increasing the water-retaining power of salt-integrated soils and preventing or reducing the serial disturbances, which are the most problematic when planting facilities such as houses. The present invention relates to a structure and a method for improving water quality.

In general, far-infrared refers to a wavelength range of 4 to 1000 microns (μ) of 0.76 to 1000 microns (μ), which is the infrared wavelength range of light. There is this.

Far infrared rays (energy) are absorbed by water molecules that consist of one oxygen atom and two hydrogen atoms, and abnormality occurs in molecular bonds, and thus it has a property of receiving oxygen and nitrogen from the outside, and vibration is amplified between the hydrogen atom and oxygen atom. The gas streams and melts (impurities) in the room are relaxed and activated, and the density is increased.

Far-infrared ceramics are materials that radiate far-infrared rays of about 5.6 to 15 microns (μ) and have various properties.However, in plants, water molecules absorbing specific wavelengths of far-infrared rays are activated, which promotes metabolic activity of plants. In addition, it has the effect of increasing the temperature, and also has the effect of promoting the metabolic activity by generating excitation between water molecules by the radiation of far infrared rays.

The present invention by using the far-infrared ceramics having the properties as described above can prevent the maintenance of the salt-integrated soil of the soil that is the most problem when planting facilities, such as house maintenance and continuous damage, can help to promote the growth of crops The present invention relates to a water quality improver structure and a water quality improvement method using far-infrared radiation ceramics and permanent magnets, wherein a cylindrical shape formed a plurality of through holes in a cylindrical stainless steel tube in a stainless steel perforated network (Ceramic Ball) to the water inlet side It is sealed and the permanent magnet is mounted in parallel with the symmetrical pole on the water outlet side to pass the high-speed water through the strong earth output of the pump, so that the ceramic ball repeats the collision and friction due to the strong flow rate and countercurrent rotation of the water. As the electrons in the water vibrate and rotate, the far infrared is absorbed by the water As the molecular dissociation of water by a synergy of the magnetic energy of the magnet hydroxide ions (OH ^-) and hydrogen ions (H ⁺⁾ it is generated and is to give a change in the water associated structure and the surface tension of mineral that is dissolved in water and the water component a because writing the hydroxide ion (OH ^-) increased with the alkali of the dissolved oxygen ionized chemicals in the soil by the action of, increasing the physical property, it can improve the biological's water holding capacity of salt accumulation soil to be the most problematic during cultivation facilities house And it aims to provide a water quality improver structure and water quality improvement method using a far-infrared radiation ceramics permanent magnet that can contribute to the improvement of crop quality by preventing or reducing the extension.

1 is a cross-sectional view of the device of the present invention.

* Description of the symbols for the main parts of the drawings *

10: stainless steel outer body 11: water inlet

12: water outlet 20: stainless perforated network

21: Through 30: Ceramic ball

40: magnet

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration and operation of the present invention.

1 is a cross-sectional view of the apparatus of the present invention, the configuration of the present invention is a water inlet 11 on one side and the water inlet 11 of the cylindrical stainless outer body 10 having a water outlet 13 on the other side A plurality of through-holes 21 are formed on the periphery thereof, and a plurality of ceramic balls 30 are inserted therein to enclose a sealed stainless steel perforated network 20, and the water outlet 12 inside the stainless outer body 10. At the side), a magnet 40 mounted in parallel with a symmetrical pole is provided.

The ceramic ball 30 is made of a sphere by mixing clay and metal chemicals in ceramic materials such as silicon carbide, silica, nitrogen compounds, non-oxide ceramics, and then fired at a high temperature of 1100 ℃ to remove the toxic substances to increase the adsorption power. Make it strong and emit far infrared rays between 5.6 and 15 microns (μ).

The action of the present invention having the configuration as described above is a stainless perforated network when the water flows into the stainless outer body (10) through the water inlet (11) through the water injection port (11) The ceramic ball 30 rubs and collides with each other due to the reverse flow of water inside the stainless perforated network 20 which flows into the stainless perforated network 20 through a plurality of perforated holes 21 around the perforation 20. This is repeated while generating far infrared rays, after absorbing the generated far infrared rays and receiving a strong magnetic wave by the magnet 40 before the water is discharged through the water outlet 12 to activate the molecular motion of the water By changing the chemical structure, the minerals dissolved in the water are ionized, and the molecules of water dissociate to produce hydroxide ions, increasing the dissolved oxygen and water softening. The farm will be promoted.

Since it is electromagnetic wave (or light) by the photon of the nature of far infrared ray, it is given as electromagnetic wave or photon energy when radiation energy from far infrared ray emitter enters pure water (water) with space in between. If there is no energy transfer between the two, no structural or state change will occur on the water side.

All materials have thermal energy at temperatures exceeding zero degrees, which are inherent in the interlocking energy of the nuclei, electrons, ions, bonding gratings, molecules, and molecular assemblies (polymer phases or clusters) that make up each material.

The far infrared wavelength range is 4 ~ 1000 microns and the wave range is 10 ~ 3.33cm ^-1 . In the interaction between far infrared rays and water molecules in this energy range,

Since the minimum vibration transition energy is about 0.2 eV, vibration excitation by far infrared rays is possible because it is included in the wave range of far infrared rays.

Since rotation excitation occurs at an energy of 0.005 eV or more, this is also included in the far infrared energy range.

However, in order to excite electrons of water molecules of far-infrared rays to generate radicals or ions, at least 10 eV or more photon energy (photon energy having a wave number of at least 80.555 cm ⁻¹ or more) is required. This is more than 20 times the far infrared short wavelength. That is, the water molecule dissociation energy is not because the H-OH simple 5.11eV (41.164cm ^-1), HO simple 4.4eV (35.444cm ^-1) can take place any loosening only the far-infrared energy.

That is, the primary process in which the far infrared rays are absorbed by water is absorption by vibration excitation or rotation excitation of water molecules.

In order to dissociate water molecules, a secondary process of applying strong magnetic energy with a magnet is required.

OH hydrogen bonding in water The energy required to convert the group into OH which is not hydrogen bonded is hydrogen bonding energy, and the hydrogen bonding energy is in the range of 0.056 to 0.20 eV (451.8 to 1.164 cm ^-1 ), so that it matches the wave range of far infrared rays.

However, in order for the molecular structure of the water molecule to be a single molecule, two hydrogen bonds must be broken down, so the required energy is more than doubled.

Therefore, since the dissolution of hydrogen bonds cannot basically occur due to the energy of the far infrared electromagnetic waves, a secondary process of dissociating water molecules by applying strong magnetic energy is required.

As a result of applying the present invention in the facility cultivation house, the tomato did not produce heat, and in the case of leafy vegetables, the lower lobe did not dry and grew vigorously. The height of the pepper stand was about 3 meters, and in the case of watermelon, the sugar content was high, the fruit was enlarged and the freshness was good.

In the case of fruit and vegetable, the sugar content was increased and the disease resistance was strong, and the damage of various pests was reduced, resulting in improved quality.

In addition, in the case of hothouse facility house cultivation, withering disease caused by pepper, tomato, and ions became a problem. As a result of using the present invention, it was completely recovered in 3 days to a week.

The effect obtained by the present invention having the configuration and action as described above can prevent the increase of water holding capacity of the salted direct soil of soil which is the most problem when planting facilities such as houses, and the like, such as softening, and spraying of pesticides. It is possible to reduce the recovery, increase the concentration of hydrogen ions in the soil, as well as to promote the growth of crops.

Claims (2)

A plurality of through-holes are formed around the inner water inlet of the stainless outer body having a water inlet, which is a passage through which water discharged from the pump is injected, and a water outlet through which ion-activated water is discharged, on one side thereof. A plurality of ceramic balls are inserted into the enclosed stainless steel perforated network, and the crop growth promoter using far-infrared radiation ceramics, characterized in that the magnet is installed on the water outlet side inside the stainless outer body. The far infrared rays are absorbed by the water by the collision friction force of the ceramic ball caused by the reverse flow rotation from the enclosed mesh with the air flow rate and the water discharged by the pump, and then apply a strong magnetic field to excite the electrons in the water molecules. Far-infrared radiation ceramics, which generate radicals or ions, subdivide associative structures and surface tensions, promote ionization of water molecules and minerals contained in water, and induce growth of crops. How to promote growth of crops.