JPH1028967A - Water purifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simultaneously and effectively attain both a treatment of organic mattes contained in water and a sterilizing treatment. SOLUTION: This device is provided with a treating chamber S for allowing water to be treated to pass through, an U.V. lamp 20 for irradiating with U.V. rays in the inside of this treating chamber S, and a purifying treatment member 30 arranged in the treating chamber S and carrying optical catalyst substance activated by being irradiated with U.V. rays. The purifying treatment member 30 is preferably a product produced by sintering optical catalyst substance on a surface of a base comprising metal. Also a high pressure mercury lamp 30 for irradiating with U.V. rays having a peak in the proximity of 265nm wavelength is preferred.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a water purification device,
More specifically, the present invention relates to a water purification device that purifies water using ultraviolet light and a photocatalytic substance that is activated by irradiation with ultraviolet light.

[0002]

2. Description of the Related Art In general, drinking tap water is taken from rivers or the like, which is a water intake source, and sterilized by chlorine in a water treatment facility.
It is manufactured by subjecting to water purification treatment such as filtration. Anyway,
In a water treatment facility, usually, water purification treatment by distillation is not performed, so that various organic substances are contained in tap water. The organic matter contained in such tap water not only causes a bad smell of the tap water, but also causes a harmful substance such as trihalomethane to be generated by reacting with chlorine used in the sterilization treatment. In particular, recently,
Due to significant contamination of the water intake source, the amount of chlorine used in the sterilization process is increasing, and the possibility of generating harmful substances is extremely high. Under such circumstances, it is required to purify water by decomposing or altering organic substances contained in the water.

On the other hand, when natural water such as well water, rainwater, spring water, etc. is used as drinking water or washing water, it is necessary to sterilize water in addition to treating organic substances contained in the water. is there.

[0004]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
An object of the present invention is to provide a water purification device capable of simultaneously and effectively achieving both the treatment of organic matter contained in water and the sterilization treatment.

[0005]

The water purifying apparatus of the present invention comprises:
A treatment chamber through which water to be treated flows, an ultraviolet lamp for irradiating the treatment chamber with ultraviolet light, and a purification treatment provided with a photocatalytic substance that is activated in response to the irradiation of ultraviolet light and is disposed in the treatment chamber. And a member.

In the water purification apparatus of the present invention, there is provided a flow path member forming a cylindrical processing chamber having an outer pipe and an ultraviolet-transparent inner pipe, and the pipe shaft is provided in the inner pipe of the flow path member. A rod-shaped UV lamp is arranged along the direction,
It is preferable that a plurality of plate-shaped cleaning members extending in the tube axis direction are radially arranged in the processing chamber with reference to the position of the ultraviolet lamp.

Further, in the water purification apparatus of the present invention, an ultraviolet-permeable tubular flow path member forming the treatment chamber is juxtaposed to extend in the same direction as the rod-shaped ultraviolet lamp, and transmits visible light. A surrounding member having a property of reflecting ultraviolet rays is provided to surround the ultraviolet lamp and the flow path member, and visible light emitted from the ultraviolet lamp is radiated to the outside via the surrounding member. Is preferred.

In the water purifying apparatus of the present invention, it is preferable that the purifying member is formed by sintering a photocatalytic substance on a surface of a base made of metal.

Further, in the water purification apparatus of the present invention, it is preferable that the ultraviolet lamp is a high-pressure mercury lamp that emits ultraviolet light having a peak near a wavelength of 265 nm.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a water purification apparatus of the present invention will be described in detail. 1 and 2 are cross-sectional views for illustrating the configuration of an example of the water purification apparatus of the present invention. FIG. 1 is a vertical cross-sectional view, and FIG. 2 is a horizontal cross-sectional view. 1 and 2
In the figure, reference numeral 10 denotes a flow path member that forms a cylindrical processing chamber S through which water to be purified (hereinafter, referred to as “treatment water”) flows, and includes a tubular outer pipe 11, This outer tube 1
1 comprises a cylindrical inner tube 12 having an outer diameter smaller than the inner diameter of the outer tube 11 and two circular lid members 13 each having a through hole in the center, which are arranged along the tube axis thereof. ing.

The outer tube 11 is made of, for example, a metal material such as stainless steel or aluminum having a high ultraviolet reflectance, and an inlet for introducing water to be treated into the processing chamber S is provided on one side of the outer tube. 14 is formed, and a discharge port 15 for discharging purified water from the treatment chamber S is formed on the side surface of the other end. In addition, outer tube 1
Flanges 16 are formed at both ends of 1. on the other hand,
The inner tube 12 is made of, for example, quartz glass having a high transmittance of ultraviolet rays. Further, the lid member 13 is fixed to each of the flanges 16 of the outer tube 11 via the O-ring 18 in a state where both ends of the inner tube 12 are inserted into the through holes through the O-rings 17. The lid 13 and O-
The openings between the outer pipe 11 and the inner pipe 12 are closed by the rings 17 and 18 in a liquid-tight manner.

Reference numeral 20 denotes a rod-shaped ultraviolet lamp which emits ultraviolet light, and is disposed in the inner tube 12 of the flow path member 10 along the axis of the tube. In the ultraviolet lamp 20, a cylindrical lamp base 22 is provided at each of the pinch seal portions 21 at both ends of the sealing body. As the ultraviolet lamp 20, a high-pressure mercury lamp or a low-pressure mercury lamp can be used. In particular, a high-pressure mercury lamp that emits ultraviolet light having a maximum peak near a wavelength of 265 nm is preferable. By using such a high-pressure mercury lamp, a long service life can be obtained, and sterilization of the water to be treated can be achieved with high efficiency. The high-pressure mercury lamp is superior to the low-pressure mercury lamp in starting characteristics in a low-temperature environment such as a cold region. Further, the high-pressure mercury lamp has a high output and a high-pressure gas is sealed therein, so that the amount of heat conduction of gas convection in the enclosure is large, and the sealed mercury evaporates quickly.

Numeral 25 denotes a pair of cylindrical lamp holding members for holding both ends of the ultraviolet lamp 20.
Has a large-diameter portion 26 having an outer diameter slightly smaller than the inner diameter of the inner tube 12 and a small-diameter portion 27 having an inner diameter adapted to the outer diameter of the lamp base 22 of the ultraviolet lamp 20. Each of the lamp bases 22 of the ultraviolet lamp 20 is fitted and held. The large diameter portion 27 of the lamp holding member 25 is fixed to both ends of the flow path member 10 inside the inner tube 12 by a ring-shaped fixing member 28.

Reference numeral 30 denotes a plurality (six in the illustrated example) of plate-like purification processing members provided in the processing chamber S of the flow path member 10 and extending in the tube axis direction of the flow path member 10.
The ultraviolet lamps 20 are arranged radially with respect to the center axis of the ultraviolet lamp 20 and at equal intervals in the circumferential direction. Also, at both ends of the purification processing member 30 in this example, projecting portions 3 protruding outward are provided.
1 is formed.

The purifying member 30 is a member in which a photocatalytic substance is carried on the surface of a plate-like base made of, for example, metal. As the photocatalyst substance, a substance which can be activated by irradiation with ultraviolet rays to decompose or alter organic substances contained in water is used, and for example, titanium dioxide, particularly anatase type titanium dioxide is suitable. This titanium dioxide is excited by irradiation with ultraviolet rays,
It has a function of decomposing water to generate OH radicals, and the generated OH radicals decompose or alter organic substances contained in the water. As a means for supporting the photocatalyst substance on the surface of the base, it is preferable to use a means based on a sintering process, whereby the photocatalyst substance can be prevented from falling off the surface of the base. In addition, as the metal material forming the base, it is preferable to use a metal material made of the same kind of element as the metal element forming the photocatalytic substance. For example, when using titanium dioxide as the photocatalytic substance, it is preferable to use titanium .

Reference numeral 35 denotes a pair of cylindrical holders for holding the purifying member,
Has an inner diameter matching the outer diameter of the outer tube, and has a flange portion 36 having an outer diameter matching the inner diameter of the outer tube 11 in the flow path member 10 at both ends.
Are formed between the outer pipe 11 and the inner pipe 12 at both ends of the flow path member 10 so as to be fitted to the inner pipe 12. The purifying member 30 is configured such that each of the protruding portions 31 has a flange portion 36 on the inner end side of the holder 35.
Is held by penetrating through. Further, a plurality of openings 37 for allowing the water to be treated to flow are formed in the flange 36 on the inner end side of the holder 35.

An example of specific dimensions and the like of the above-mentioned water purification device is as follows. <Flow path member 10> Outer tube 11: material; stainless steel, total length 310mm, inner diameter 1
08.3 mm, outer diameter 114.3 mm, inner tube 12: material; quartz glass, total length 310 mm, inner diameter 4
8 mm, outer diameter 53 mm, <ultraviolet lamp 20> high-pressure mercury lamp, maximum peak wavelength 265 nm, total length 225 mm, outer diameter 16 mm, lamp voltage 220 V, lamp current 3.8 A, <purification member 30> total length 180 mm, width 20 mm, 3 mm thick, base material; titanium, photocatalytic substance; anatase type titanium dioxide

In the above water purification apparatus, the water to be treated is introduced into the processing chamber S from the inlet 14 of the outer pipe 11 in the flow path member 10, and the inside of the processing chamber S is moved in the pipe axis direction of the flow path member 10. Flow along. Then, the treatment chamber S is irradiated with ultraviolet rays by the ultraviolet lamp 20 to sterilize the water to be treated, and the ultraviolet lamp 20 is applied to the photocatalytic substance of the purification member 30 disposed in the treatment chamber S.
Is irradiated, the organic matter contained in the water to be treated is decomposed or degraded by the action of the photocatalytic substance, thereby purifying the water to be treated. Thereafter, the purified water is supplied to the outer pipe 1 in the flow path member 10.
It is discharged to the outside from one discharge port 15.

According to the above-mentioned water purification apparatus, the photocatalyst which irradiates the inside of the processing chamber S through which the water to be treated flows with ultraviolet rays, and activates the inside of the processing chamber S by being irradiated with the ultraviolet rays Since the purification treatment member 30 carrying the substance is disposed, the water to be treated flows through the treatment chamber S,
Both the treatment of the organic matter contained in the water to be treated and the sterilization treatment of the water to be treated can be simultaneously and effectively achieved.

The cleaning member 30 is an ultraviolet lamp 2
Since they are arranged radially with respect to the central axis of 0,
In the processing chamber S, it is possible to reduce the shaded area formed by the purification processing member 30 as an obstacle, which is not directly irradiated with the light from the ultraviolet lamp 30, so that the purification is performed with high efficiency. Processing can be achieved.

FIG. 3 is an explanatory diagram showing the configuration of another example of the water purification apparatus of the present invention. In this figure, 40
Is a rod-shaped ultraviolet lamp composed of, for example, a high-pressure mercury lamp, and is arranged to extend in the vertical direction. In the ultraviolet lamp 40, a cylindrical lamp base 42 is provided at each of the pinch seal portions 41 at both ends of the sealing body.

Reference numeral 45 denotes a plurality (six in the illustrated example) of tubular flow path members forming the processing chamber S, each of which is located at a position on the circumference centered on the ultraviolet lamp 40 in the circumferential direction thereof. They are arranged side by side so as to extend in the same direction as the ultraviolet lamp 40 at intervals. The flow path member 45 is made of, for example, quartz glass having a high transmittance of ultraviolet rays. The adjacent flow path members 45 are connected in series by a U-shaped connection pipe 46, whereby one flow path is formed by the plurality of flow path members 45 as a whole. An L-shaped introduction pipe 47 for introducing water to be purified is provided at a lower end of the flow path member 45 on the most upstream side. An L-shaped discharge pipe 48 for discharging the treated water is provided.

Reference numeral 50 denotes a cleaning member,
5 are arranged to extend along the tube axis direction. As shown in FIG. 4, the purification processing member 50 in this example has a plurality of plate-like purification processing member pieces 51 each having a photocatalyst substance carried on its surface, and is alternately inclined at a substantially right angle. It is configured to be connected. Specifically, a rectangular groove 52 having a width matching the thickness of the purification processing member piece 51 is formed at both ends of the purification processing member piece 51, and the groove 52 of the adjacent purification processing member piece 51 is formed. Each is fitted and connected to each other.

55 is transparent to visible light,
In addition, it is a surrounding member having ultraviolet reflectivity, and is disposed so as to surround each of the ultraviolet lamp 40 and the flow path member 45. The surrounding member 55 is formed, for example, by forming a multilayer film that reflects only ultraviolet light and transmits visible light on a surface of a milky white fluororesin sheet having a thickness of 0.5 mm by, for example, a coating method. .

In the above-mentioned water purifier, the water to be treated is introduced from the introduction pipe 47 into the processing chamber S in the flow path member 45, and flows through the processing chamber S along the pipe axis direction of the flow path member 45. Further, the gas sequentially flows through the inside of the processing chamber S in the flow path member 45 on the downstream side via the connection pipe 46, and then is discharged to the outside through the discharge pipe 48. In each of the processing chambers S, the ultraviolet light from the ultraviolet lamp 40 is directly or reflected by the surrounding member 55 and applied to the flowing water to be sterilized, thereby performing the sterilization of the water to be processed. By irradiating the photocatalytic substance of the purification processing member 50 disposed in the processing chamber S with light from the ultraviolet lamp 40, the organic substance contained in the water to be treated is decomposed or deteriorated by the action of the photocatalytic substance. Thus, purification treatment of the water to be treated is achieved. On the other hand, the visible light emitted from the ultraviolet lamp 40 is radiated outside through the surrounding member 55.

According to the water purification apparatus described above, similarly to the water purification apparatus shown in FIG. 1, both the treatment of organic substances contained in the water to be treated and the sterilization treatment of the water to be treated can be simultaneously and effectively achieved. . Further, since the plurality of flow path members 45 forming the processing chamber S are connected in series, the water to be treated is sequentially purified in each processing chamber S of the flow path member 45, so that high efficiency is achieved. Thus, purification treatment of the water to be treated can be achieved. Further, since the purification processing member 50 is configured by connecting a plurality of plate-shaped purification processing member pieces 51 in a state of being alternately inclined at a substantially right angle, the flow of the water to be treated introduced into the processing chamber S is performed. Is greatly disturbed and agitated, so that purification treatment of the water to be treated is reliably achieved.

An enclosing member 55 having ultraviolet reflectivity
Are arranged so as to surround each of the ultraviolet lamp 40 and the flow path member 45, so that a high light utilization rate can be obtained. Further, since the surrounding member 55 has transparency to visible light, the visible light emitted from the ultraviolet lamp 40 is radiated to the outside through the surrounding member 55, and is used as a light source for illumination. be able to.

[0028]

According to the water purification apparatus of the present invention, the treatment chamber is provided with an ultraviolet lamp for irradiating ultraviolet rays, and the treatment chamber is provided with a purification member carrying a photocatalytic substance. Since the water to be treated flows through the treatment chamber, both the treatment of the organic substances contained in the water to be treated and the sterilization treatment of the water to be treated can be simultaneously and effectively achieved.

[Brief description of the drawings]

FIG. 1 is an explanatory longitudinal sectional view showing a configuration of an example of a water purification device of the present invention.

FIG. 2 is an explanatory cross-sectional view of the water purification device of FIG.

FIG. 3 is an explanatory diagram showing a configuration of another example of the water purification device of the present invention.

4 is an exploded explanatory view showing a purification processing member in the water purification apparatus shown in FIG. 3;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Flow path member 11 Outer tube 12 Inner tube 13 Lid 14 Inlet 15 Outlet 16 Flange 17, 18 O-ring 20 Ultraviolet lamp 21 Pinch seal part 22 Lamp base 25 Lamp holding member 26 Large diameter part 27 Small diameter part 28 Fixed Member 30 Purification member 31 Protrusion part 40 Ultraviolet lamp 41 Pinch seal part 42 Lamp base 45 Flow path member 46 Connection tube 47 Inlet tube 48 Discharge tube 50 Purification member 51 Purification member piece 52 Groove 55 Enclosure member S Processing chamber

Claims (5)

[Claims] 1. A processing chamber through which water to be processed flows, an ultraviolet lamp for irradiating ultraviolet light into the processing chamber, and a photocatalyst substance, which is disposed in the processing chamber and activated by being irradiated with ultraviolet light, is carried. A water purification apparatus, comprising: a purification member formed. 2. A flow path member forming a cylindrical processing chamber having an outer pipe and an ultraviolet-transparent inner pipe is provided, and a rod-shaped ultraviolet ray is provided in the inner pipe of the flow path member along the pipe axis direction. 2. The water according to claim 1, wherein a lamp is arranged, and a plurality of plate-shaped cleaning members extending in a tube axis direction are radially arranged with respect to a position of the ultraviolet lamp in the processing chamber. 3. Purification device. 3. An ultraviolet-permeable tubular flow path member forming a processing chamber is juxtaposed so as to extend in the same direction as a rod-shaped ultraviolet lamp, has transparency to visible light, and reflects ultraviolet light. The surrounding member having a property is provided so as to surround the ultraviolet lamp and the flow path member, and visible light emitted from the ultraviolet lamp is radiated to the outside through the surrounding member.
A water purification device according to item 1. 4. The water purification apparatus according to claim 1, wherein the purification member is formed by sintering a photocatalytic substance on a surface of a base made of metal. . 5. The water purifying apparatus according to claim 1, wherein the ultraviolet lamp is a high-pressure mercury lamp that emits ultraviolet light having a peak near a wavelength of 265 nm.