JP2001219172A - Water cleaning apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water cleaning apparatus for precipitating and removing solubles such as a silica component, and the like, in feedwater, decomposing and treating an organic compound, especially an organochlorine compound such as dioxins in feedwater and avoiding members requiring supply/replacement frequently such as a chemical agent, a filter to the utmost to remove complicated elements from the use of the apparatus. SOLUTION: The water cleaning apparatus is constituted of a cleaning apparatus body (1) provided with an inflow port (3) and an outflow port (4) and having a water channel (2) formed therein and a magnetic field generation element generating a magnetic field in the water channel (2).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purifier to be attached to water supply equipment and water supply pipes for general households, restaurants, hospitals, food service centers, and various industries.

[0002]

2. Description of the Related Art It is well known that water plays an important role in human life. Water is necessary for drinking at general households, restaurants, hospitals, lunch centers, etc., and for treating pollutants generated in life,
Also, in the field of industrial production, manufacturing and manufacturing of various industrial products
A large amount of water is often required for washing and the like.

[0003] As described above, water occupies an extremely important place in terms of life and industry, but water (hereinafter referred to as "water supply") sent from a water source such as the Waterworks Bureau contains various impurities and harmful molten components. It is included. To give a concrete example,
Suspended matter includes insoluble organic compounds such as bacteria and small garbage, and molten components include chlorine components for disinfection and sterilization.
Soluble inorganic / organic compounds, particularly in the case of Japan, are known as inorganic compounds called silica components (composition formula: SiO ₄ ) which form single crystals in pipes and block the pipes. Further, as other molten components, there are organochlorine compounds such as dioxin, which have become a serious problem in recent years. This organochlorine compound is known as a substance having various problems, such as being highly toxic and having a property of being accumulated without being decomposed in a living body or the natural world. In fact, there is no processing method.

[0004] As described above, there are unnecessary or harmful substances in the water supply, and in many cases, an operation called detoxification or removal of these substances can be added according to the purpose of use. The content of purified water varies depending on the purpose of use, and in general households and restaurants, etc., it decomposes and disinfects calcium and various germs in the water supply to ensure safety and sanitation for beverages. In the case of industrial water, unnecessary or harmful dissolved components are removed in the case of industrial water, and pure water of extremely high purity is often extracted and used.

[0005] Specific methods for conventional water purification include: For the removal of specific chemical substances and the like dissolved in water, a neutralizing agent or the like is added to decompose or precipitate to make them harmless, and if necessary, they are removed by a filtration method. 2. When detoxifying germs in water, the germs are decomposed and sterilized to a simple organic or inorganic compound by adding / melting a sterilizing agent to the water or irradiating with ultraviolet light. . 3. When removing dirt and suspended matter in water, place a filter in the passage of the water supply pipe and remove by a filtration method. And the like. In order to perform these operations, a water purification device is a device in which mechanisms and members for performing these operations are compactly arranged, and is disposed in a water supply pipe to purify water supplied therethrough.

[0006]

The main water supply purification methods known so far are as follows.

However, these methods cannot treat the above-mentioned molten components of an organic chlorine compound such as dioxin or an inorganic compound. In addition, in the method based on the application of the medicine or the method using a filter, it is necessary to frequently replenish or replace the medicine or the filter, and there is a problem that the use becomes complicated. In addition, most of the direct UV irradiation methods can only process complex organic compounds such as proteins such as fungi, and melt components such as silica components and substances with relatively simple structures such as dioxins. There is a problem that can not be.

[0007] The present invention has been made in view of the above problems. Precipitates and removes dissolved substances such as silica components in feed water. 2. Decompose and treat organic compounds in feed water, especially organic chlorinated compounds such as dioxin. 3. Parts that need to be frequently refilled or replaced, such as drugs and filters, are eliminated as much as possible, and complicated elements are removed from the use of the apparatus. The above 1. ~ 3. The purpose is to achieve.

[0008]

In the present invention, a purification method using a magnetic field according to the following principle is employed as a method for depositing, separating and removing molten components in feed water such as silica components. In FIGS. 5 to 7, a large white sphere schematically shows an oxygen atom, a black sphere schematically shows a hydrogen atom, and a series of small white spheres schematically show a hydrogen bond. The illustration of the branch structure in the cluster is omitted.

Water is generally known as H ₂ O, and as shown in FIG. 5, a monomer composed of two hydrogen atoms and one oxygen atom (a molecule formed from one structural unit) As a strong image. However, in a liquid state, oxygen atoms in water molecules electromagnetically attract hydrogen atoms in other water molecules to form an extremely weak bond called a hydrogen bond, and in fact, as shown in FIGS. In addition, it is known that water molecules form a polymer-like state (a molecule formed by repeating one structural unit) (a water molecule in this state is hereinafter referred to as a “cluster”).

In general, the cluster is the largest when water has just changed from another form, such as water vapor or ice, to a liquid (that is, the state with the highest molecular weight as shown in FIG. 7), and the clusters change over time. Accordingly, when energy is applied (for example, in the form of heat or vibration), the hydrogen bond is broken, and the hydrogen bond is gradually split into smaller states (small molecular weight states as shown in FIGS. 6 and 5).

By the way, since the water molecule is bent as shown in FIG. 5, it has an electromagnetic bias (positive on the hydrogen side and negative on the oxygen side). This bias is called polarity. When water molecules form a cluster, they cancel each other's polarity. (As mentioned earlier, the association of clusters is an electromagnetic bond called hydrogen bond, that is, the mutual cancellation of polarities. Is the same as
The larger the cluster, the less polar the water as a whole. Since a soluble substance or compound is dissolved in a liquid by taking on a state of charge called an ion in the water, if the polarity of water as a solvent is large, that is, clusters of FIG. 5 and FIG. In the case of such a small state, it can relatively well dissolve in water, but in the case of a large state as shown in FIG. 7, the cluster hardly dissolves due to a decrease in polarity. From this, if the cluster can be enlarged by adding water to the water in a state where the cluster is small and the molten substance is well-dissolved (that is, if the molecular weight can be increased by bonding the clusters together), The molten substance is rapidly precipitated and becomes a fine solid called coarse crystals,
It can be separated and removed from the liquid.

More specifically, as a method of activating clusters in feed water to form clusters having a larger molecular weight, the present invention uses a method of generating a magnetic field and passing the feed water through the magnetic field. I have. In this way, the water molecules forming the cluster of the supplied feedwater become magnetically active, whereby the water molecules forming the cluster again form hydrogen bonds with other water molecules, and are in the state of FIG. From such a water molecule (or an extremely small cluster), a cluster having a large molecular weight as shown in FIG. 7 is regenerated through the state shown in FIG.

Further, according to the present invention, in the purification of feed water,
As a method for detoxifying unnecessary or harmful components, a purification method using a photocatalyst based on the following principle is adopted. 2. Description of the Related Art A substance called a photocatalyst that generates electric energy when irradiated with light energy such as ultraviolet light has been known for some time. Examples include titanium dioxide (TiO ₂ ) and zinc oxide (ZnO). If this photocatalyst is applied to a member having a large surface area, such as a plate, and placed in flowing water and irradiated with ultraviolet rays, the surface of the plate becomes electrically charged. (In this context, coating refers to the work of fixing and fixing a powdery substance or the like in a layer on the surface of an object without impairing the functions it possesses. Is a concept). On the other hand, in an environment around water, various organic compounds and the like are charged with negative ions. For this reason, various compounds charged by the electric action are attracted to the plate material side, and organic chlorine compounds such as dioxin and organic compounds such as various fungi are electrocuted and decomposed, and carbon dioxide (CO ₂₎ ) Or harmless substances such as water (H ₂ O)
It changes to a substance that has low toxicity such as hydrochloric acid (HCl) and is not so troublesome for processing.

The present invention has been invented on the basis of the above-mentioned theory, and specifically, is a water purification apparatus having the following configuration.

The water purifier according to the first aspect of the present invention has an inlet (3) and an outlet (4), and a water purifier main body (1) forming a water passage (2) in which water is supplied, and a water passage. And a magnetic field generating element for generating a magnetic field therein.

According to a second aspect of the present invention, in the water purification apparatus according to the first aspect, the magnetic field generating element includes a conductor.
A water purification apparatus characterized by using a coil member (5) for generating a magnetic field by receiving electric power and providing a power supply unit (6) for supplying electric power to the coil member (5).

According to a third aspect of the present invention, in the water purification apparatus according to the above-mentioned invention, wherein the coil member (5) is used as the magnetic field generating element, the electric power supplied from an external power supply is supplied to the power supply unit (6). And a conversion device section (7) for converting the output into a power source output for generating a magnetic field.

According to a fourth aspect of the present invention, in the water purification apparatus using the coil member (5) for the magnetic field generating element, the shape of the coil member (5) made of an electric conductor is as follows.
A water purification device characterized by having a regular polygonal shape when viewed from the axial direction.

According to a fifth aspect of the present invention, in the water purification apparatus using the coil member (5) for the magnetic field generating element, the shape of the coil member (5) made of an electric conductor is as follows.
The water purification device is characterized in that the water purification device has a helical shape in which the diameter at the center is maximum and the diameter decreases toward the end.

According to a sixth aspect of the present invention, there is provided the water purification apparatus according to the above-described water purification apparatus, further comprising a discharge mechanism for discharging settled components generated in the water purification apparatus main body (1).

According to a seventh aspect of the present invention, there is provided the water purification device according to the above-mentioned water purification device, wherein the water purification device is made of a light-transmitting material, and is disposed in the water purification device main body (1) in a state where water does not enter the inside. A case (8) is provided, and a purple line emitter that emits ultraviolet light is housed in the translucent case (8).
A purifying apparatus characterized in that a photocatalyst is applied to a position other than the translucent case (8) to which the ultraviolet light of the ultraviolet light emitter is irradiated.

The water purifier according to claim 8 is the water purifier using the photocatalyst, wherein the water purifier is disposed at a position in the water passage (2) where the light emitted from the ultraviolet light emitter is irradiated, and the water passage (2) is connected to the water passage (2). A water purification device comprising a purifying blade (9) coated with a photocatalyst, which stirs water passing therethrough.

According to a ninth aspect of the present invention, in the water purifier using the purifying wings described above, a motor unit (10) for rotating the purifying wings (9) and a rotation speed of the motor unit (10) are provided. Rotation control device (1
1) A water purification device characterized by comprising:

According to a tenth aspect of the present invention, in the water purifier using the purifying wing described above, the water purifier main body (1) is constituted by a vertically extending cylindrical body, and the flow is sequentially arranged from upstream to downstream. A water purifier characterized by disposing an inlet (3), a purification blade (9), a magnetic field generating element, an outlet (4), and a discharge mechanism.

An eleventh aspect of the present invention is the water purifier using the photocatalyst described above, wherein the ultraviolet light emitter emits light on the inner wall surface of a water passage (2) in the water purifier main body (1). At the position where is irradiated with the photocatalyst (1)
This is a water purification device in which 2) is arranged.

A water purifier according to a twelfth aspect of the present invention is the water purifier using a photocatalyst, wherein the photocatalyst is titanium dioxide (TiO ₂ ).

A water purifier according to a thirteenth aspect of the present invention is the water purifier using a photocatalyst as described above, wherein the photocatalyst is zinc oxide (ZnO).

The water purifier according to claim 14 is the water purifier according to the above, wherein the ozone generator for generating ozone and the ozone generated by the ozone generator are passed through the water passage (2).
An ozone diffuser (13) that diffuses air therein.

A water purifier according to claim 15 is the water purifier using the ultraviolet light emitter, wherein the light transmitting case (8).
An air supply unit (14) for supplying air to the inside, and the air supply unit (14)
An ozone generator comprising the above-mentioned ultraviolet light emitter for irradiating ultraviolet rays to oxygen in the air sent by the above, and a light transmitting case for diffusing ozone generated by the ozone generator into the water passage (2). (8) An ozone diffuser (13) provided at a lower end of the water purifier.

BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, embodiments of the water purification apparatus will be described with reference to the drawings. The embodiment of the present invention includes the following members as shown in FIGS. 1 to 3. The water purification device according to the present invention includes a water purification device main body (1) described below, a coil member (5) as a magnetic field generating element, an ultraviolet lamp (15) as an ultraviolet light emitter, a translucent case (8), and a purification blade ( 9), composed of other members. The water purification device main body (1) is a cylindrical body extending vertically, and inside thereof forms a water passage (2) coated with a photocatalyst (such as titanium dioxide) as a photocatalyst on the inner surface, and in order from the upstream. , An inlet (3), an outlet (4), an outlet (16) provided with an on-off valve (16a) as a discharge mechanism,
And a support bed (12) composed of rib pieces (12a) coated with a photocatalyst is disposed on the inner wall surface of the water passage (2) between the inflow port (3) and the outflow port (4). Consisting of The light-transmitting case (8) is made of a light-transmitting material, and contains an ultraviolet lamp (17), which is an ultraviolet light emitter, housed in a state where water does not enter therein, and is disposed in the water passage (2). The purifying blade (9) is provided with a plurality of blade pieces (9a) coated with a photocatalyst between two substantially circular members provided on the upper and lower sides so as to have a substantially cylindrical shape. Purification wing (9)
In the water passage (2), the center of the cleaning blade (9) coincides with the center of the translucent case (8), and at least a part of the cleaning blade (9) is formed by a coil member (5) described later. Also be located upstream. Further, a motor unit (10) connected to the purification blade (9) and a motor unit (1) for rotating the purification blade (9) along its axis.
0) is provided with a rotation control device (11) for controlling the number of rotations. By this rotation control device (11), the purifying blade (9) at the time of use is appropriately adjusted to a purifying action that is neither too fast nor too slow. It is adjusted so as to rotate at a high speed. The operation of the ultraviolet lamp (15) and the purifying wing (9) naturally requires the supply of electric power, but here, it is connected to the coil member (5), which will be described below, which needs to be functionally improved. Only the power supply unit (6) will be described in detail, and other mechanisms related to the power supply will be omitted. The power supply unit (6) supplies power to a coil member (5) described later, receives power from a power source generally used in homes and the like, and changes the power output and frequency of a required magnetic field. It is composed of a converter unit (7) for converting the output into an output / frequency suitable for generation. The coil member (5) is attached so as to be wound around a shaft core portion (17) made of an electric non-conductor provided in the translucent case (8) so as to form a regular hexagon when viewed from the shaft center direction. And
It is configured to receive supply of power output from the power supply unit (6), which is converted so that a magnetic field in an appropriate state can be generated through the conversion unit (7). In the water purification apparatus of the present embodiment, the ozone generator for generating ozone is supplied to the light-transmitting case (8) by an air-supply unit (14) for supplying air into the light-transmitting case (8), and air sent by the air-supply unit (14). An ozone tank (18) for storing an ozone generated by the ozone generator, and an ozone tank (18), which is constituted by an ultraviolet lamp (15) for irradiating ultraviolet rays to oxygen in the interior, and a light transmitting case (8)
And an ozone diffuser (13) for diffusing the ozone of the ozone tank (18) into the water passage (2) at the lower end. These arrangements include, in order from the upstream of the water passage (2), the inflow port (3), the purification blade (9) and the coil member (5) and the support floor (12) arranged at substantially the same height, Outlet (4), ozone diffuser (13), outlet (16),
Are arranged in such a way that

The water purifier constructed as described above has an inflow port (3) on the upstream side of the water supply, an outflow port (4) on the downstream side (water outlet side), and a drainage port of, for example, a sink. By connecting the discharge port (16) to a place where discharge is possible, and further connecting a power supply to a place where power supply is required, such as the power supply unit (6), the connection and preparation for operation of the water purification device are completed.

In the water purification apparatus configured as described above, each part is activated while supplying water to the water passage (2), whereby:
It operates as follows to purify the water supply. 1. When power from the power supply unit (6) is supplied to the coil member (5) via the converter unit (7), a magnetic field is generated around the coil member (5) as a characteristic of the conductive coil, and the water passage (2) ) To expand during the above

[0008]

As a result, the molten component in the feed water rapidly precipitates as coarse crystals, separates from the feed water, and precipitates further below the outlet (4). Thereafter, by periodically opening the on-off valve (16a) of the discharge port (16), it is possible to discharge and process the molten component that has been coarsely crystallized and separated / removed into the drain port or the like at the connection destination. . 2. The ultraviolet lamp is turned on to irradiate the blade piece (9a) of the purification blade (9), the rib piece (12a) of the support floor (12), and the inner wall surface of the water passage (2) with ultraviolet light, so that the blade piece is formed. Electrical energy is generated on the titanium dioxide surface on (9a) and the rib pieces (12a). Here, the purifying blade (9) rotates about the axis at an arbitrary speed by the operation of the rotation control device (11), and agitates the water in the water passage (2). ), The organic chlorine compounds such as dioxins and the organic compounds such as various fungi efficiently contact the blade pieces (9a) and the rib pieces (12a), and the blade pieces (9a) and the rib pieces ( Electric shock and decomposition are caused by the electric energy generated in the photocatalyst applied to 12a). 3. Oxygen in the air sent into the translucent case (8) by the air sending unit (14) generates ozone by irradiation of ultraviolet rays from the ultraviolet lamp (15). Further, the ozone generated by the action of the air supply section (14) is sent to the ozone tank (18), and the ozone tank (18) sends the ozone tank (18) to the light-transmitting case (8).
From the ozone diffuser (13) at the end of the water supply. Bacteria can also be decomposed by this ozone, and the bactericidal effect can be improved.

Although the present embodiment is as described above, the present invention is not limited to the above embodiment, and various changes can be made without changing the gist. For example, in the present invention, the water purification device main body (1) is configured to have a cylindrical shape extending vertically, but instead, if the objective can be achieved, such as a substantially square pillar or a box shape, any other shape can be used. It may be configured in such a shape.

Similarly, a member other than the coil member (5) may be used as long as the magnetic field generating element generates a necessary and sufficient magnetic field by receiving power supply.

Further, even when the coil member (5) is used for the magnetic field generating element, the coil member (5) is not limited to the shape as shown in FIG. A coil member having a helical shape in which the diameter of the center portion is maximum and the diameter decreases toward the end portion (5)
May be used. Since the magnetic field is generated on the surface of the coil, when the coil member (5) has a substantially cylindrical shape, the high frequency is simply emitted in the lateral direction, but as shown in FIG. When the shape is used, a high frequency is generated perpendicular to the tapered surface, so that the magnetic field develops not only in the horizontal direction but also in the vertical direction (correctly, the oblique direction where they are combined), and the purification process is more effective. Done in

In the above embodiment, the on-off valve (1) is used as a discharging mechanism for discharging the sediment components generated in the water passage.
Although the outlet (16) provided with 6a) is provided in the water purification device main body (1), instead of this, a storage unit for storing the sedimentary component is detachably attached and the sedimentary component is replaced by replacing the storage unit. Processing may be performed. With this configuration, the replacement of the storage unit is complicated, but there is no need to provide piping to the discharge mechanism, and the maintenance work of the discharge mechanism becomes easy. In addition, since the size of the storage unit, that is, the storage amount, can be easily increased, it is easy to increase the storage amount and reduce the number of replacements by that much, which requires complicated operations like conventional filter replacement. It does not become.

[0037]

According to the present invention, the following advantageous effects can be obtained. 1) Since the molten component in running water is precipitated and removed as coarse crystals by using the magnetic force of a magnetic field, separation / removal of the molten component, which was impossible in the past, can be performed without using a filter or the like. . 2) Organic compounds such as fungi and organic chlorine compounds such as dioxin, which had not been treated in the conventional method,
Decomposition treatment by electric shock and destruction using photocatalyst became possible. This allows the use of chemicals and the like to cause abnormalities in water quality, unlike the chemical spraying method,
Further, a higher level of water purification treatment can be performed as compared with a direct irradiation method of ultraviolet light which cannot decompose an organic chlorine compound or the like. 3) If a storage unit is not used for discharging the sediment components,
As described in 1) and 2), there is no need to perform replenishment / exchange work because separation / removal using a drug, a filter, or the like is not performed. In addition, even when a storage unit or the like is used for discharging the sediment component, by increasing the storage amount, it is not necessary to replace the storage unit or the like as frequently as a filter or the like. be able to. 4) In the present invention, in which the coil member is wound in a regular polygon when viewed from the axial direction, for example, a regular hexagon as in the embodiment, compared with the case where the coil member is wound in a circular shape. Therefore, high-frequency mutual interference is small, and the efficiency of high-frequency operation can be improved. 5) In the present invention in which the coil member is formed in a helical shape in which the diameter at the center is maximum when viewed from the axial direction and the diameter decreases toward the end, the magnetic field is generated by the surface of the coil. Therefore, the magnetic field is developed not only in the horizontal direction but also in the vertical direction (correctly, in a diagonal direction where they are combined), and the purification process can be performed more effectively. 6) In the purifying apparatus of the present invention in which a magnetic field generating element and a purifying blade are installed upstream thereof in one device, debris of the organic chlorine compound or organic compound decomposed by the purifying blade or the like and once dissolved is formed. , And are separated and removed by the effect of the magnetic field generating element, so that a high-performance water purification effect can be obtained more efficiently than in the case where each is provided alone. 7) In the present invention using a photocatalyst, when a supporting bed is arranged on the inner surface of the water purification device main body, the surface area increases, so that the energy of ultraviolet light can be used more efficiently and the amount of water supplied to contact the photocatalyst can be increased. it can. 8) In the present invention using the photocatalyst, the rotation speed of the purification blade must not be too slow or too fast to perform the sterilization purification, but by controlling the rotation speed of the motor unit connected to the purification blade. In addition, an efficient rotation speed can be set for sterilizing water purification. 9) In the present invention in which an ozone generator and an ozone diffuser are incorporated in a water purification device, sterilization with ozone can be enabled, and purification efficiency can be increased.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a perspective view of an embodiment of the present invention in which a water purification device main body is cut away.

FIG. 3 is a perspective view showing a member configuration of the embodiment of the present invention, in which a water purification device main body is cut away.

FIG. 4 is a side view showing an example of a coil member.

FIG. 5 is a schematic diagram showing water molecules.

FIG. 6 is a schematic diagram illustrating a medium-sized cluster.

FIG. 7 is a schematic diagram showing a relatively large cluster.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 water purification device main body 2 water passage 3 inflow port 4 outflow port 5 coil member 6 power supply unit 7 conversion unit 8 translucent case 9 purification blade 9 a blade piece 10 motor unit 11 rotation control device 12 support floor 12 a rib piece 13 ozone diffusion Air unit 14 Air supply unit 15 Ultraviolet lamp 16 Outlet 16a Open / close valve 17 Shaft core 18 Ozone tank

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (reference) C02F 1/72 101 C02F 1/72 101 1/78 1/78 F term (reference) 4D037 AA02 AB03 AB10 AB14 BA18 CA05 CA12 4D050 AA04 AB19 BB02 BC06 BD06 CA07 CA11 4D061 DA03 EA18 EC11 ED03 ED17 ED20 FA07 FA16 FA20 4G069 AA03 BA04A BA04B BA48A BB04A BB04B BC35A BC35B CA01 CA10 CA11 CA19 EA07

Claims (15)

[Claims] An inlet (3) and an outlet (4) are provided,
A water purification device, comprising: a water purification device main body (1) forming a water passage (2) through which water is supplied; and a magnetic field generating element for generating a magnetic field in the water passage (2). 2. The water purification device according to claim 1, wherein the magnetic field generating element includes a coil member (5) made of a conductor and receiving a supply of electric power to generate a magnetic field.
A power supply unit (6) for supplying power to the coil member (5)
A water purification device characterized by having a. 3. The water purifier according to claim 2, wherein the power supply unit (6) is provided with a conversion device unit (7) for converting electric power supplied from an external power supply into a power output for generating a magnetic field. A water purification device, comprising: 4. The water purification device according to claim 2, wherein the shape of the coil member (5) made of an electric conductor is a regular polygon when viewed from the axial direction. Water purification equipment. 5. The water purifier according to claim 2 or 3, wherein the shape of the coil member (5) made of an electric conductor is such that the diameter at the center is the largest and the diameter decreases toward the end. A water purification device, wherein the water purification device has a helical shape having a shape as described below. 6. The method according to claim 1, wherein:
The water purifier according to any one of claims 1 to 3, further comprising a discharge mechanism configured to discharge a sediment component generated in the water purifier main body (1). 7. The method according to claim 1, wherein
The water purifier according to (1), further comprising: a light-transmitting case (8) made of a light-transmitting material and disposed inside the water-purifying device main body (1) in a state where water does not enter therein. (8) A purifying apparatus characterized in that an ultraviolet light emitter that emits ultraviolet light is accommodated therein, and a photocatalyst is applied to an arbitrary position of the ultraviolet light emitter that is irradiated with ultraviolet light. 8. The purifying apparatus according to claim 7, wherein the water flowing through the water passage (2) is arranged at a position in the water passage (2) where light emitted from the ultraviolet light emitter is irradiated. A water purification device comprising a purifying blade (9) coated with a photocatalyst. 9. The water purification device according to claim 8, wherein the motor unit (1) for rotating the purification blade (9).
0) and a rotation control device (11) for controlling the number of rotations of the motor unit (10). 10. The water purification device according to claim 8 or 9, wherein the water purification device main body (1) is formed of a vertically extending tubular body, and the inflow port (3) is arranged in order from the upstream.
A water purification device, comprising a purifier (9), a magnetic field generating element, an outlet (4), and a discharge mechanism. 11. The water purification device according to claim 7, wherein the water purification device main body (1).
A water purification apparatus, wherein a support bed (12) coated with a photocatalyst is disposed at a position on the inner wall surface of the inner water passage (2) where light emitted by the ultraviolet light emitter is irradiated. 12. The water purifier according to claim 7, wherein the photocatalyst is titanium dioxide (TiO ₂ ). 13. The water purifier according to claim 7, wherein the photocatalyst is zinc oxide (ZnO). 14. The water purification apparatus according to claim 1, wherein the ozone generator for generating ozone and the ozone generated by the ozone generator are passed through a water passage (2). A water purifier comprising: an ozone diffuser (13) for diffusing air into the water. 15. The water purification device according to claim 7, wherein an air supply section (14) for supplying air into the light transmitting case (8),
An ozone generator configured to irradiate ultraviolet rays to oxygen in the air sent by the air supply unit (14), and ozone generated by the ozone generator in the water passage (2). A water purification device, comprising: an ozone diffuser (13) provided at a lower end portion of the translucent case (8).