JPH01218677A - Apparatus for preparing activated water by irradiation with far infrared ray - Google Patents

Abstract

PURPOSE:To obtain an activated water for keeping and promoting soundness and growth of animals and plants by directing a far infrared ray to a water such as tap water so as to turn it into the activated water of nearly the same purity as a pure water. CONSTITUTION:An electrically controlled electric heater 8 is heated and a water such as tap water is pressed into a water flow pipe 6 by opening a valve- cock 5'. Though a far infrared ray of about 4-14mum in wavelength is always emitted from a far infrared ray emitting layer 2 by sun light, warm atmosphere, etc., it is further amplified and emitted by a forced heating of the electric heater 8, which causes a beat reflection at the inside face of a casing 1 and in the far infrared ray emitting layer 2 composed of a heat-ray reflector. The far infrared ray belonging to a long wavelength region or 4-14mum in wavelength, penetrates the body of the water flow pipe 6 and irradiates the water in the pipe to activate that water. An activated water is discharged by opening a valve-cock 6 and stored in a water tank 13.

Description

DETAILED DESCRIPTION OF THE INVENTION Purpose of the Invention The present invention utilizes the activation effect of far infrared rays on water molecules by irradiating tap water or water in a water tank with far infrared rays to remove these impure water. The present invention relates to a water production device that generates activated water by irradiating far infrared rays, which can activate water close to pure water, supply activated water close to pure water, and promote the health and growth of animals and plants.

Water is a source of life that is indispensable for the survival of animals and plants, and the demand for purification of water for domestic use, industrial water, etc. is increasing.
In addition, the supply of moisture for cultivating and ornamental breeding of fish and shellfish, maintaining the freshness, growth, and preservation of vegetables, flowers, seeds, etc., and the antibacterial purification of river water, tap water, etc. are indispensable. As a result, research and development on water purification is being carried out in a wide range of fields, both in households and in industry.

The upbringing and growth of such conventional animals and plants is largely dependent on sheep as a means of feeding, watering, and fertilizing.

Furthermore, there were many unsatisfactory points because the environment was artificially constructed. In addition, when it comes to water, contamination by organic substances, especially drinking water sterilized with chlorine, water for swimming pools, etc., has come to undermine the health of humans without us even realizing it. There is an urgent need to provide purified water close to pure water for other plants and animals as well.

On the other hand, far-infrared light, which belongs to a particularly long wavelength range among infrared light, activates water molecules and easily penetrates into the cellular tissues of animals and plants, activating water molecules and proteins.
It is being confirmed that it is extremely useful for the breeding, growth, survival, etc. of animals and plants. Silently, far-infrared light and heat have an affinity and compatibility with molecules and proteins, so when the water itself is irradiated with far-infrared light and heat, the water is quickly activated and removes chlorine and other harmful organic substances. The usefulness of far-infrared light and heat depends on the removal of unconfirmed factors, and recent experiments have shown that animals and plants that come into contact with the activated water are given the unique usefulness of far-infrared light and heat. This problem is being elucidated, and new technologies such as supplying activated water to revitalize plants and animals have not yet emerged.

The present invention was made in view of the problem of wages, and it activates the water molecules by irradiating the water, such as the water molecules that make up animals and plants, regardless of whether it is seawater or freshwater, with an appropriate amount of far-infrared light. Therefore, in the present invention, a large amount of water can be activated and produced, thereby enabling the active life activities of animals and plants, which will be of great benefit not only for household use but also for industry. The object of the present invention is to provide a water production device that generates activated water by far-infrared irradiation, which activates plants and animals that cannot be useful.

As a means of achieving this, a far-infrared radiation layer is formed, and the far-infrared rays are amplified and irradiated using sunlight, warm air, or an appropriate heating means, and harmful organic substances are removed by the active action unique to far-infrared rays caused by the far-infrared irradiation. We aim to solve this problem with an activated water production device that uses far-infrared irradiation, which makes it possible to quickly activate the water content.

There are many far-infrared emitting substances that emit far-infrared rays.

It is estimated that there are approximately 200,000 types of far-infrared radiating materials, but the far-infrared radiating materials that have particularly excellent radiation efficiency include ceramic materials, metal oxide materials, carbon-based materials,
Natural stone materials such as Oya stone and Maihan stone exist. In addition to these composites, artificially created far-infrared emitting substances are also selectively used. In the natural world, these far-infrared emitting substances emit far-infrared rays from themselves, but when exposed to sunlight, warm air, or appropriate heating means, heat is absorbed by the far-infrared ray-emitting substances, and the heat rays are reflected. Far infrared rays are efficiently amplified and radiated. However, far-infrared radiation in the long wavelength range has no positive effect on plants and animals. Since this light and heat have an affinity and compatibility with water, it effectively acts on the activation of water molecules and proteins, although this is due to some unidentified reasons.

After appropriately irradiating water molecules with far-infrared rays, the results of a water quality test of activated water using the Yaku reagent show that chlorine and ammonia disappear in a short period of time, the formation of harmful organic substances is inhibited, and the generation of microorganisms such as bacteria is inhibited. It has been found that it has the effect of preventing water algae from occurring.

Since far-infrared rays are uniquely activated against water molecules, impure water is successively replaced with pure water.

It is a matter of course that harmful organic substances that inhibit the growth and growth of animals and plants can be removed by supplying activated water, and the health of animals and plants can be maintained.

Normally, the wavelength of far-infrared rays emitted from far-infrared emitting materials due to sunlight or warm air varies depending on the amount, radiation area, intensity of light heat, etc., but it is approximately 4 to 10 microns. be. In addition, appropriate heating f
The wavelength of far infrared rays suitable for the human body, animals and plants is about 1 to 14 microns, and it is also possible to emit far infrared rays in this long wavelength range.

Therefore, in the present invention, a far-infrared emitting material with good radiation efficiency is selected from the far-infrared emitting materials, and a far-infrared emitting layer is formed using the far-infrared emitting material, and the far-infrared rays are mainly emitted by electrical heating together with sunlight, warm air, etc. The system enables amplified radiation and supplies a desired amount of activated water.

Configuration Section The configuration of a specific example of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic diagram of a preferred embodiment of the present invention, and FIG. 2 is a diagram accommodating five water pipes, a far-infrared radiation layer is formed on the inside, and an electric heating element is installed near the layer. FIG. 3 is a plan view with the upper part of the case removed, and FIG. 3 is a side view with the measuring part of the case partially removed.

In Fig. 1, reference numeral 1 denotes a box on which a far-infrared rays emitting layer 2 is formed on the inner surface using a coating agent or adhesive made of a far-infrared rays emitting substance, and one side of the box 1 has a far-infrared rays emitting layer 2 formed thereon. A water discharge conduit 4 for discharging water is fixedly installed on one side of the water conduit 3 where the injection is carried out, and a pulp cock 5 is installed in the chain pipe 4 to adjust the discharge of water, or intermittently for a predetermined period of time. An automatic water discharge control device (not shown) is provided that sprays and stops water at intervals. A water flow pipe 6 connected to the press-in water pipe 3 and the water discharge pipe 4 is housed in the casing 1 in a meandering form. This configuration may be spirally shaped or otherwise shaped.

The reason why the water pipe 6 is formed in a meandering shape is that water is retained in the pipe for a long time, far infrared rays are irradiated over time, and all impure water is activated and released. It is something.

It is preferable that the housing 1 is made of a stainless steel material that is heat ray-impermeable, so that the far infrared rays are not emitted outside the housing 1 and are concentrated inside the housing 1. radiation efficiency is improved.

In addition, the flowing water pipe 6 is made of a heat ray transparent material, and a synthetic resin pipe or the like is mainly used. Far-infrared rays easily pass through the tube and are irradiated to the water inside the tube.

An electric heating element 8 electrically controlled by a pressure reducing transformer 7 connected to a power source is installed close to the water pipe 6. The heating temperature of this electric heating element 8 is 40°C.
A suitable temperature between ~100°C is selected. This is to avoid an increase in the temperature of the activated water, and to limit the far-infrared radiation wavelength to a wavelength range suitable for animals and plants. The space inside the case 1 is further filled with a ceramic material made of a far-infrared emitting material or
Powders and granules made of natural stone materials such as Maifan stone and Oya stone, or
Powder, granules, etc. made of buried water, heat ray reflectors such as stainless steel, tin, aluminum, etc. of non-ferrous metals with shiny surfaces.
It is filled with an appropriate amount of i*#, thin wires, strips, etc. to form a far-infrared radiation layer 2''.

Reference numeral 9 indicates a wiring cord connected to a power source, and a connecting pipe 10 connected to the press-fit water pipe 3 is a drainage pipe that passes through a water supply or a water storage tank (not shown) provided with a valve cock 5. A water discharge pipe 12 connected to the water discharge pipe 11 and the water discharge pipe 4 is inserted into a water tank 13.

The activated water generating device using far infrared ray irradiation according to the present invention is constructed as described above.

Effects Section Next, the functions and effects of the specific example having the above configuration will be described.

In a specific example of the present invention configured as a diagonal top, electric heating #: 8 is made to generate heat, valve 5 is opened, and tap water or tank water of stored water ← h is forced into the water pipe 6. . The far infrared radiation layer constantly emits far infrared rays of about 4 to 10 microns due to sunlight, warm air, etc., but due to the forced heating of the electric heating element 8, the inner surface of the box #1, the far infrared radiation layer (I O) Far-infrared rays are further amplified and radiated by the reflected heat from the mixed heat ray reflector, etc., and the far-infrared rays belonging to the long wavelength range of about 4 to 14 microns pass through the pipe body of the water pipe 6 and enter the pipe. The water is irradiated. If the amount of water held in the water pipe 6 is about 5Q, the impure water will be converted to activated water within about 1 to 2'1'F. This activated water is discharged by opening the valve cock 5 and stored in the water tank 13. A desired amount of activated water is stored in the water tank 13 repeatedly. In order to avoid the complexity of operating the valve cock 5, it is also possible to store the desired mouse activation water using an automatic water discharge control device that is electrically constructed. In tap water, the produced activated water dechlorinates the chlorine administered for the purpose of sterilization, eliminates harmful substances, has antibacterial and antiseptic effects, and has antimicrobial effects. This prevents the survival of water and makes the water more mellow and purified.

In other words, when water, oxygen molecules, nutritional substances, etc. receive excited vibrations induced by long wavelengths unique to far infrared rays, they become activated.
This is due to an increase in the affinity and attraction of animals and plants to water, an increase in the permeability of biological membranes, which promotes the absorption of oxygen, nutrients, etc., and some other unidentified reasons. The activated water has a significant effect on the cultivation, growth, maintenance of health, etc., and the plants and animals that drink this activated water become active and can carry out vigorous life activities.

For example, if you put wilted store-bought vegetables into a water tank filled with this activated water, the vegetables will be activated and restored to their freshness after 3 to 4 hours. However, there are many vegetables that do not lose their freshness even after half a month, and depending on the variety, can even begin to grow in the tank.

As described above, the activated water generating device using far infrared ray irradiation according to the specific example of the present invention is adapted to the activation conversion of impure water that is automatically flowed by water pressure, thereby generating purified activated water. Water for keeping fresh vegetables, water for food processing, water for domestic use such as fish bellies, water for growing and surviving plants, water for paddy fields, water for swimming pools, water for brewing alcoholic beverages, water for drinking water, etc. Alternatively, it is extremely useful in being able to supply activated water to a wide range of industries, regardless of its use (1 liter).
).

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram of a specific example of the present invention, FIG. 2 is a partially fragmented plan view of the main part, and FIG. 3 is a partially fragmented side view thereof. DESCRIPTION OF SYMBOLS 1... Enclosure, 2... Far-infrared radiation layer, 3... Press-fit water conduit, 4... Water discharge conduit, 5... Valve cock, 6
...Water pipe, 7.Reducing pressure transformer, 8.Electric heating element, 9.Wiring cord, 10.Connection pipe, 11.
...Water pipe, 12...Water pipe, 13...Aquarium.

Claims (1)

[Scope of Claims] 1. A water discharge pipe comprising a press-in water conduit for forcibly injecting water and a water discharge conduit provided with a water discharge control device for controlling discharge of activated water, and a water discharge pipe connected to the press-in water conduit and the water discharge conduit. A pipe is housed in a case with a far-infrared radiation layer formed on the inner surface, a far-infrared radiation layer is formed on the circumferential side of the water pipe, and an electric heating element is electrically controlled by being placed near the far-infrared radiation layer. is installed, impure water held or flowing in the water pipe is converted into activated water by far infrared irradiation, and the activated water can be discharged in a desired amount from the water discharge pipe. A water production device for activated water using far infrared irradiation. 2. The activated water generating device by far-infrared irradiation according to claim 1, wherein the water flow pipe is made of a heat ray transparent material. 3. Far-infrared irradiation according to claim 1, wherein the far-infrared radiation layer is made of a ceramic material, a metal oxide material, a carbon-based material, or a natural stone material consisting of a far-infrared radiator. Activated water production equipment. 4. The activated water generating device by far-infrared irradiation according to claims 1 and 2, characterized in that the water pipe is formed in a meandering or spiral shape. 5. The activated water generating device by far infrared irradiation according to claim 1, wherein the heat generation temperature of the electric heating element is electrically controlled between 40°C and 100°C.