KR101365390B1 - A Nearinfrared Light Emitting Method and Device for Water Treatment - Google Patents

Abstract

Provide a near infrared ray irradiation method for water treatment.
The present invention provides a method of irradiating near-infrared rays inside a tank in which water is stored, the method comprising: filling an internal space of a water storage tank with water supplied from the outside, and supplying external air into the water storage tank through an air supply pipe; Rotating the stirring blades disposed in the water storage tank by driving the motor to increase the oxygen solubility of the water filled in the water storage tank; And irradiating near-infrared light when power is supplied to the internal space of the water storage tank so that energy of the near-infrared ray is absorbed by the water filled in the water storage tank.

Description

A nearinfrared light emitting method and device for water treatment

The present invention relates to a method and apparatus for irradiating near-infrared water for improving water treatment by irradiating near-infrared to transfer energy contained in near-infrared to water contained in a water tank such as a water purifier or a water tank.

In general, drinking water is known to treat various diseases, depending on the condition of drinking water, and also to treat incurable diseases.

In the past, even drinking groundwater from a well was good for health because it can drink various minerals and large amounts of minerals together. However, in recent years, the groundwater is contaminated and the water in the mountain is also contaminated, so the deterioration of water quality is getting worse.

The tap water is purified to more clean water by the state-of-the-art purification facilities, but it is provided to the people, but various bacteria, heavy metals, and impurities are introduced into the human body by the old pipe while the purified tap water is passed through the pipe to each home. The result was bad.

In order to purify the tap water and provide various minerals and anions which are good for the user's body, the situation is continuously developed.

However, these devices are enormous in size, which places great economic constraints on purchasing them in the home.

Accordingly, the Republic of Korea Patent Publication No. 10-2008-23244 discloses a device for sterilizing water by using ultraviolet rays generated from the LED light source, water treatment device using a near-infrared ray that has excellent physiological effects on the human body and promotes metabolism Is not disclosed.

The near-infrared light is a light existing between visible light and mid-infrared light, which means light having a wavelength range of 0.72 to 1.6 μm longer than visible light and shorter than medium infrared light. Such near-infrared light is visible light or ultraviolet light. It is also called a heating wire because it has a strong heat action.

When near-infrared rays generated from the light source penetrate the body tissues, heat is generated in the body parts, and in general, when penetrated into the subcutaneous body of the body, the effect of disinfection or sterilization can be obtained in addition to the heat action, and the production of nitric oxide in the blood. By promoting the action, it is possible to obtain an excellent effect of activating the physiological function of the tissue.

The present invention is to solve the problems described above, the purpose of the metabolism of the human body to drink the water activated by the function of the near infrared is irradiated by retaining the energy of the near infrared generated from the light source to the water To provide a method and apparatus for near-infrared irradiation for water treatment that can promote the

As a specific means for achieving the above object, the present invention, in the method of irradiating near-infrared rays inside the tank in which the water is stored, filling the internal space of the water storage tank with water supplied from the outside, and through the air supply pipe Supplying the inside of the water storage tank; Rotating the stirring blades disposed in the water storage tank by driving the motor to increase the oxygen solubility of the water filled in the water storage tank; It provides a near-infrared irradiation method for water treatment, comprising the steps of: irradiating near-infrared radiation when the power is supplied to the internal space of the water storage tank so that the energy of the near-infrared ray is absorbed in the water filled in the water storage tank.

In addition, the present invention is a device for irradiating near-infrared rays inside the tank in which the water is stored, having an inner space to fill the water supplied from the outside, a drain pipe for discharging the water treated to the outside, the outside air A water storage tank having an air supply pipe for supplying water; A motor for rotating the stirring blades disposed in the water storage tank when the power is applied so as to increase the oxygen solubility of the water filled in the water storage tank; And at least one light emitting source for irradiating near infrared rays to the inner space of the water storage tank to irradiate near infrared rays so that the energy of the near infrared rays is absorbed by the water filled in the water storage tank. It provides a near-infrared irradiation apparatus for water treatment.

Preferably, the near infrared ray is irradiated with a specific wavelength band of any one of 740 ± 15 nm, 840 ± 15 nm and 970 ± 15 nm or the near infrared ray is a specific frequency band of any one of 73 hz, 146 hz, 292 hz, 584 hz, 1168 hz and 2336 hz Can be investigated.

Preferably, the water filled in the water storage tank may be maintained at 34 ℃ to 40 ℃.

Preferably, the light emitting source may be electrically connected to a control unit so as to selectively change a specific wavelength band or a specific frequency band of near infrared rays generated when power is applied.

The present invention as described above has the following effects.

(1) The near-infrared energy is transferred to the water by irradiating near-infrared light to the water through a light emitting source which is emitted when the power is applied while stirring the water filled in the water storage tank with the external air supplied from the outside, and the near-infrared water is irradiated. You can get the same effect as direct irradiation of NIR by drinking.

1 is a schematic diagram showing a near-infrared irradiation apparatus for water treatment according to a preferred embodiment of the present invention.
Figure 2 is a flow chart showing a near-infrared irradiation method for water treatment according to a preferred embodiment of the present invention.
3 (a) to (v) is a graph showing the correlation between the near infrared wavelength band, water temperature and absorption rate in the near infrared irradiation device and method for water treatment according to a preferred embodiment of the present invention.

The above objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The near-infrared irradiation apparatus 100 for water treatment according to a preferred embodiment of the present invention irradiates near-infrared rays so as to transfer and retain the energy of the near-infrared rays in the storage space in which a certain amount of water is stored, as shown in FIGS. 1 and 2. By the water treatment, such a device 100 includes a water storage tank 110, a motor 120 and the irradiation unit 130.

The water storage tank 110 is a storage structure having an internal space of a predetermined size so that the water supplied through the water supply pipe 112 from the outside is filled with a certain amount, such a water storage tank 110 is the bottom surface is sealed and the top is open. The tank body 111 and the cover 113 to cover the open upper portion of the tank body 111 is included.

The tank body 111 is provided with a drain pipe 114 for irradiating near-infrared radiation to discharge the water treated to retain the energy possessed by the near-infrared, the drain pipe 114, the water-treated water A control valve 114a is provided to control discharge to the outside.

In addition, the bottom surface of the tank body 111 is provided with an air supply pipe 116 for supplying air from the outside to increase the dissolved oxygen concentration of the water to be treated, the air supply pipe exposed to the inside of the tank body 111 The end of 116 is provided with a porous nozzle 117 to bubble the outside air supplied from the outside into the fine bubbles.

At this time, the air supply pipe 116 is maintained by the addition of a constant air pressure it is possible to prevent the water stored in the tank body 111 to flow back to the outside through the air supply pipe (16).

In addition, the air supply pipe 116 is preferably provided with a filter member to filter the foreign matter contained in the external air supplied from the outside.

The motor 120 is provided with a stirring blade 122 at the tip of the drive shaft that is rotationally driven when the power is applied to agitate the water with the external air supplied into the water storage tank to increase the oxygen dissolution of the water to be treated. It can be.

Here, the motor 120 of the tank body 111 so that the drive shaft end is exposed to the inside of the tank body 111 so as to assemble through the center of the bottom surface of the tank body 111 and the stirring blade 122. It is preferable to be disposed and fixed immediately below, and the drive shaft penetrating the center of the bottom surface of the tank body 111 is preferably sealed to prevent water from flowing out of the tank body to the outside.

One such motor is illustrated and described as being provided at a lower portion of the water storage tank, but is not limited thereto and may be provided in plural.

The irradiation unit 130 includes at least one light emitting source 132 to irradiate near-infrared rays in the 700 nm to 1200 nm band into the inner space of the water storage tank 110 when power is applied to provide near-infrared light to the water filled in the water storage tank. It is to be irradiated to maintain the energy contained in the near-infrared by transferring to water.

Here, the light emitting source 132 is shown and described as being provided in the upper center of the cover 113 to cover the open upper portion of the tank body 111, but is not limited to this on the outer surface of the tank body (11) It may be provided.

The light emitting source 132 may be provided as an LED, a near infrared lamp, or the like to emit light to irradiate near infrared light when power is applied.

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The water filled in the water storage tank is known to store or maintain stimulus information such as energy delivered from the outside.

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The process of transferring near-infrared rays to water using the near-infrared device for water treatment having the above-described configuration will be described below.

First, when a predetermined amount of water is supplied to the inner space of the water storage tank 110 and filled, and when the external air is supplied to the inside of the water storage tank 110 through the air supply pipe 116, the external air is a porous nozzle It is bubbled and supplied while passing.

In this state, when the external power is applied to the motor 120, the stirring blade mounted on the drive shaft is rotated to increase the oxygen dissolved concentration of the water by stirring the bubbled external air and water.

In addition, when an external power source is applied to the light emitting source 132, the near-infrared ray of a predetermined wavelength band is irradiated to the internal space of the water storage tank for a predetermined time, and thus the energy of the near-infrared ray is naturally transferred to the water and thus, due to the characteristics of the water. As it retains energy and retains near-infrared energy, water at room temperature rises to about 40 ° C to 45 ° C.

In addition, the treated water treated by the near-infrared energy transfer is discharged to the outside through the drain pipe for drinking.

Here, the near-infrared wavelength band provided by the light emitting source 132 is preferably selected and irradiated from 700 nm to 1200 nm through control to 740 ± 15 nm, 840 ± 15 nm and 970 ± 15 nm bands.

That is, the near-infrared rays irradiated from the light emitting sources are known to have unique characteristics for specific wavelength bands, and three wavelength bands can be selectively used through a control unit connected to at least one light emitting source 132.

In addition, a plurality of light emitting sources 132 generating three wavelength bands may be selectively emitted to irradiate near infrared rays.

In addition, the frequency of the near infrared rays provided by the light emitting source is preferably generated by selecting any one of 73hz, 146hz, 292hz, 584hz, 1168hz and 2336hz through the control of the controller.

That is, like a specific wavelength of near-infrared rays, the frequency changes when irradiated with a specific frequency to water. Especially, water has a characteristic that the frequency is stably maintained for a long time when irradiated with a frequency of a specific region.

For example, the frequency of tap water is 117 hz at room temperature, and when the near-infrared frequency of the 146 hz band is irradiated, the water changes to 146 hz.

Near-infrared rays irradiated from the light emitting sources are known to have unique characteristics for specific frequency bands. The near-infrared frequencies of the 73 hz band promote hormones, and the near-infrared frequencies of the 146 hz band and the 292 hz band are effective for the treatment of trauma. The near-infrared frequency of the band promotes blood circulation and lymph stimulation, the near-infrared frequency of the 1168hz band is effective for the treatment of visceral diseases, and the near-infrared frequency of the 2336hz band serves to treat chronic diseases. Through the control unit connected to the various frequencies of the wavelength band can be used selectively.

<Examples>

Near-infrared rays having a strength of 50 mW / cm2 at wavelengths of 740 nm to 970 nm for 100 ms to 500 ms at a temperature of 24-44 ° C. were maintained in a water storage tank of 2.5 cm in diameter and 15 cm in height with 12 cm of water. 3 (a) to (b), when the water temperature is maintained at 34 ° C. to 44 ° C., when the temperature rises or falls, 740 ± 15 nm, and 840 ± 15 nm, It can be seen that the higher.

What is important in these experiments is that when irradiated with near-infrared light, the water has a specific wavelength band of irradiated near-infrared light.

In particular, if water is maintained at about 40 ° C, the near-infrared wavelength does not disappear but remains as it is. Becomes smaller and the charge becomes larger, resulting in a dense structure of water.

When near-infrared radiation is irradiated at a water temperature of about 40 ° C, intermolecular hydrogen bonding occurs actively by infrared vibration.

At this time, the bond tends to maintain a straight line, such as O-H-O, and maintaining the straight line acts as an important variable in making the hexagonal structure, which is a unique structure of water.

In conclusion, near-infrared irradiation not only enhances the hydrogen bonding of water but also maintains the near-infrared properties in water.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

110: water storage tank 111: tank body
112: water supply pipe 113: cover
114: drain pipe 116: air supply pipe
120: motor 122: stirring blade
130: irradiation unit 132: light emitting source

Claims (8)

delete delete delete delete In the device for irradiating near infrared rays inside the tank in which water is stored,
It is provided with an internal space so that water supplied from the outside is filled, a drain pipe for discharging the water treated water to the outside, and an air supply pipe having a porous nozzle at the end to bubble and discharge external air supplied from the outside. Water storage tank;
A motor for rotating the stirring blades disposed in the water storage tank when the power is applied so as to increase the oxygen solubility of the water filled in the water storage tank; And
And an irradiation unit for irradiating near infrared rays such that energy of near infrared rays is absorbed into the water filled in the water storage tank by providing at least one light emitting source for irradiating near infrared rays when the power is applied to the internal space of the water storage tank.
The near-infrared ray is irradiated with a specific wavelength band of any one of 740 ± 15 nm, 840 ± 15 nm and 970 ± 15nm, and is irradiated with a specific frequency band of any one of 73hz, 146hz, 292hz, 584hz, 1168hz and 2336hz,
Water filled in the water storage tank is maintained at 34 ℃ to 40 ℃,
The light emitting source is a near-infrared irradiation apparatus for water treatment, characterized in that it is electrically connected to the control unit to selectively vary a specific wavelength band or a specific frequency band of the near-infrared rays generated when the power is applied. delete delete delete

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