JPH10309493A - Dust collection part of ionic wind type air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dust collection part of an ionic wind type air cleaner wherein a deodorizing function can be added without increasing a pressure loss, and a cleaning cost can be reduced. SOLUTION: An ionization wire 5 and a dust collection electrode board 6 jointly used for a counter electrode board to the ionization wire 5 are stored in a wind passage 4 of an air cleaner 1. Electricity is discharged from the ionization wire 5 to an end part of the dust collection electrode board 6, and an aeration wind is generated following the discharge to cause an aeration flow K. A plurality of dust collection electrode boards 6 are laminated to constitute a dust collection part 7. A photocatalyst having an oxydation decomposition function and the photocatalyst having an ultra-hydrophylic property are applied to a surface of the dust collection electrode board 6. The former photocatalyst develops a deodorizing function, and a bacteria cidal and antibacterial function, and the latter photocatalyst prevents a stain from being stuck to the dust collection electrode board 6 to accelerate drying after cleaning.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a dust collecting portion of an ion wind type air purifier that collects charged dust by using a ventilation flow generated by electric discharge.

[0002]

2. Description of the Related Art Heretofore, dust contained in air to be cleaned has been positively charged in advance by an ionization unit and charged by a dust collection unit disposed downstream of the ionization unit in the direction of air flow. An air purifier that collects dust is provided. Usually, the ionization unit includes an ionization line (discharge line) and a counter electrode plate, and discharges the dust to an ion shower to charge the dust by discharging from the ionization line to the counter electrode plate.

On the other hand, the above-mentioned dust collecting section is provided with a plurality of pairs of an applying electrode plate and a dust collecting electrode plate facing each other at a predetermined interval. The dust positively charged by the ionization unit is urged toward the application electrode plate by an electric field applied between the application electrode plate and the dust collection electrode plate, and the negatively charged dust collection electrode is charged. Collected on a board. Usually, in this type of air purifier, a blower fan is used to generate the above-mentioned ventilation flow, and the noise caused by the operation noise of the blower fan has been a problem.

In recent years, in order to ensure quietness,
Ion-type air purifiers that have eliminated the blower fan have become widespread. In this ion wind type air purifier, a wind (a so-called ion wind) generated by the discharge from the ionizing wire to the opposite electrode plate is used. Usually, the opposite electrode plate of the ionization unit itself constitutes the dust collection electrode plate of the dust collection unit for collecting dust (in other words, the dust collection electrode plate constitutes the opposite electrode plate for the ionization line). In this way, by partially using the configuration of the ionization unit and the dust collection unit in this way,
The structure has been greatly simplified.

[0005]

However, since the ion-air-type air purifier uses a small amount of wind generated by electric discharge, if an attempt is made to provide a deodorizing function, a generally used deodorizing filter is used. Cannot be used because of the large pressure loss. In addition, the above-mentioned dust collecting electrode plate is required to be cleaned regularly (for example, about once a month) since the dust collecting ability is reduced when the dirt becomes severe.

Conventionally, in this cleaning, the dust collecting part is immersed in an alkaline cleaning liquid, washed with water, and then dried. However, since the use of the alkaline cleaning liquid causes cost and increases the number of cleaning steps. , Washing costs were high. In addition, it takes a long time to dry after washing, and it takes about half a day to about one day when washing and drying are included. Such a large time cost has also been a factor that increases the cleaning cost.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the above-mentioned technical problems, and to provide an ion-air-type air purifier capable of adding a deodorizing function without increasing pressure loss and reducing the cleaning cost. It is to provide a dust part.

[0008]

In order to solve the above-mentioned problems, a dust collecting section of an ion wind type air purifier of the present invention receives a discharge from an ionizing wire and collects dust charged by the discharge. Dust plate is provided, and on the surface of this dust collection plate,
A photocatalyst having an oxidative decomposition function and a photocatalyst having superhydrophilicity are supported.

Generally, a photocatalyst absorbs light such as ultraviolet light,
It means a substance that gives the energy to a reactant to cause a chemical reaction. The main functions of this photocatalyst include a deodorizing function by removing odor components, a function of decomposing contaminants that are not odor components, and a function of disinfecting microorganisms and inactivating viruses (so-called sterilization and antibacterial functions). Although included, these functions are all achieved by the oxidative decomposition function of the photocatalyst.

Therefore, the inventor of the present application has proposed this oxidative decomposition function.
A photocatalyst having
Conventional ion wind without increasing pressure loss
Deodorizing function using the structure of the dust collecting section of the air purifier
Was added. Here, it has an oxidative decomposition function
As a photocatalyst, titanium oxide having an anatase-type crystal structure
Tan (for example, TiO_Two) Can be exemplified. this
If titanium oxide has an anatase-type crystal structure,
It is preferable in that it can exhibit high purification ability even with ultraviolet rays.
In addition, zinc oxide (ZnO) and tungsten oxide (eg,
For example, WO _Three) May be used.

Further, the inventor of the present application has analyzed the cause of the time required for drying conventionally as follows. That is, the water adhering to the surface of the dust collecting electrode plate tends to form a polka dot, and since the polka dot structure is a structure having the smallest surface area with respect to the internal volume, it is difficult for water to evaporate as a result. In contrast, the inventor of the present application has noticed that some photocatalysts have excellent hydrophilicity, and if such a photocatalyst is used, a dust collecting electrode plate that is difficult to be stained and that is easy to wash away even when soiled is used. The present invention was conceived to be obtained.

That is, the contact angle of water is reduced on the surface of the dust collecting electrode plate on which the photocatalyst having superhydrophilicity is supported, and as a result, the water adsorbed on the surface of the dust collecting electrode plate is unlikely to form polka dots. The thin water film is in a spread state. The spread of the water film can prevent adhesion of dirt to the surface of the dust collecting electrode plate. This is because dirt adheres to the water film. If the dirt adheres to the water film as described above, it can be easily washed away by washing with water or the like, so that it is not necessary to use an alkaline cleaning liquid which has been used conventionally. Further, as described above, since water drops are hardly formed and the water film is spread thinly, the evaporation rate of water can be increased and drying after washing can be performed in a short time.

Here, as the photocatalyst having superhydrophilicity, titanium oxide having a rutile type crystal structure (for example, T
iO ₂ ). Then, ultraviolet rays are generated by corona discharge from the ionization line to the dust collecting electrode plate, so that the ultraviolet rays can activate the photocatalyst carried on the dust collecting electrode plate. Therefore, it is not necessary to use a special ultraviolet lamp or the like.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION
This will be described with reference to the accompanying drawings. FIG. 1 is a schematic perspective view of an ion wind type air purifier including a dust collecting unit according to an embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view illustrating an internal configuration of the air purifier. FIG. 3 is a sectional view of a dust collecting electrode plate, and FIG. 4 is a schematic perspective view of a dust collecting portion as a stacked body of the dust collecting electrode plates.

First, referring to FIG. 1 and FIG. 2, the present ion wind type air purifier is of a desktop type, and a rectangular suction port is provided on the front surface 1a of a rectangular parallelepiped casing 1 which can be placed on the desktop. 2 and a rectangular outlet 3 on the rear surface 1b.
Are formed. The inlet 2 and the outlet 3 are provided with crosspieces 2a and 3a for restricting finger insertion, respectively. An air path 4 extending from the suction port 2 to the air outlet 3 is formed in the casing 1, and in the air path 4, an ionization line 5 and a dust collecting electrode that also serves as a counter electrode plate for the ionization line 5 are provided. The plates 6 are arranged in this order. A plurality of the dust collecting electrode plates 6 are stacked to form a dust collecting unit 7.

The above-mentioned ionization line 5 is charged to the positive side, and discharges toward the end of the dust collecting electrode plate 6 charged to the negative side. A high voltage applying unit for applying a high voltage to the ionizing wire 5 and the dust collecting electrode plate 6 is not shown. The dust collecting electrode plate 6 has a ventilation flow K
It is arranged at a predetermined distance from the ionization line 5 along the direction. This is to make it easier to generate ion wind in the direction of the ventilation flow K by the discharge from the ionization line 5 to the dust collecting electrode plate 6 (indicated by a broken line in FIG. 1). The ionic wind is generated when the charged particles collide with air molecules and the air molecules collide with each other one after another.

Referring to FIGS. 2 and 4, a plurality of the above-mentioned dust collecting electrode plates 6 extend along the direction of the air flow K and are stacked at predetermined intervals in a direction orthogonal to the direction of the air flow K. Are collectively fixed by a pair of current-carrying rods 8 penetrating through to form a dust collecting portion 7. Each dust collecting electrode plate 6 has its plate surface along the direction of the ventilation flow K. The rear surface 1b of the casing 1 is easily detachable by fitting or the like, and the dust collecting portion 7 as an integrated unit can be taken in and out through an opening formed by removing the rear surface 1b. The dust collection unit 7 is periodically removed and subjected to cleaning maintenance.

Referring to FIG. 3, dust collecting electrode plate 6 is formed of a long thin plate of stainless steel such as SUS. On the surface (both surfaces) of the dust collecting electrode plate 6, a photocatalyst 9 having an oxidative decomposition function and a photocatalyst 10 having superhydrophilicity are supported. The photocatalyst 9 having the oxidative decomposition function has a function of deodorizing by removing odor components, a function of decomposing contaminants that are not odor components, a function of disinfecting microorganisms and inactivating viruses by the oxidative decomposition function (so-called, Sterilization / antibacterial function) can be achieved.

As the photocatalyst 9 having the oxidative decomposition function, titanium oxide (for example, TiO ₂ ) having an anatase type crystal structure can be exemplified. Titanium oxide having the anatase-type crystal structure described above is preferable in that it can exhibit high purification ability even with weak ultraviolet light. Instead, zinc oxide (ZnO) and tungsten oxide (for example, WO ₃ ) are used. You can also.

As the photocatalyst 10 having superhydrophilicity, titanium oxide having a rutile type crystal structure (for example, T
iO ₂ ). The two photocatalysts 9, 10 are supported on the surface of the dust collecting electrode plate 6 in a mixed state by coating or the like. According to the present embodiment, since the photocatalyst 9 having the oxidative decomposition function is supported on the surface of the dust collecting electrode plate 6, a deodorizing function, a sterilizing function, and the like can be added to the dust collecting portion having the conventional structure as it is. Moreover, the pressure loss does not increase.

Further, since the photocatalyst 10 having super hydrophilicity is supported on the surface of the dust collecting electrode plate 6, the contact angle of water can be reduced. Therefore, it is difficult to form polka dots, and a thin water film can be spread on the surface of the dust collecting electrode plate 6. As a result, dirt can be deposited on the water film. Thus, it is possible to prevent adhesion of dirt to the surface of the dust collecting electrode plate 6.

Further, any dirt adhering to the water film can be easily washed away with water or the like without using a conventionally used alkaline cleaning liquid. In addition, water remaining on the surface of the dust collecting electrode plate 6 after cleaning makes it difficult to form polka dots, so that drying after cleaning can be performed in a short time. As described above, the cleaning does not require much labor and time, and an expensive alkaline cleaning liquid is not required, so that the cleaning cost can be significantly reduced.

Further, since the photocatalysts 9 and 10 can be activated by ultraviolet rays generated by corona discharge from the ionizing wire 5 to the dust collecting electrode plate 6, there is no need to use a special ultraviolet lamp or the like. The structure can be simplified. Further, when the dust collecting portion 7 is taken out of the casing 1 and washed and dried, the photocatalysts 9 and 10 are also activated by receiving external light including ultraviolet rays.

The present invention is not limited to the above embodiments. For example, the present invention can be applied to a stationary or wall-mounted air purifier other than a desktop type. Alternatively, the airflow may be increased by using an auxiliary fan that is very quiet in a slight breeze. Further, the present invention may be configured to be incorporated in, for example, an air conditioner having a dust removing function.

The photocatalysts 9 and 10 are preferably carried on both surfaces of the dust collecting electrode plate 6 as in the above embodiment.
It may be carried on only one side. Further, the dust collecting section 7 may be a unit including the ionization wire 5.

[0026]

According to the present invention, the photocatalyst having the oxidative decomposition function is supported on the surface of the dust collecting electrode plate, so that the dust collection of the ion wind type air purifier having the conventional structure without increasing the pressure loss. A deodorizing function, a sterilizing function, and the like can be added to the section. In addition, since the photocatalyst having super hydrophilicity is supported on the dust collecting electrode plate, a thin water film can be spread on the surface of the dust collecting electrode plate, and dirt can be attached to the water film. As a result, it is possible to prevent the adhesion of dirt to the surface of the dust collecting electrode plate, and if the dirt is attached to the water film,
It can be easily washed off with water or the like without using an alkaline washing solution conventionally used. Moreover, since polka dots are not easily formed on the surface of the dust collecting electrode plate, it can be dried in a short time after washing. As described above, the cleaning does not take time and effort, and an expensive alkaline cleaning liquid is not required.
The cleaning cost can be significantly reduced.

Further, since the photocatalyst can be activated by ultraviolet rays generated by corona discharge to the dust collecting electrode plate, the structure can be simplified without using a special ultraviolet lamp or the like.

[Brief description of the drawings]

FIG. 1 is a schematic perspective view showing a use state of an air purifier including a dust collecting unit according to an embodiment of the present invention.

FIG. 2 is a sectional view of the air purifier.

FIG. 3 is a cross-sectional view of a dust collecting electrode plate.

FIG. 4 is a schematic perspective view of a dust collecting unit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Casing 2 Inlet 3 Outlet 4 Airway 5 Ionization line 6 Dust collecting electrode plate 7 Dust collecting part 8 Electrode rod 9 Photocatalyst which has an oxidative decomposition function 10 Photocatalyst which has super hydrophilicity

──────────────────────────────────────────────────続 き Continued on front page (51) Int.Cl. ⁶ Identification code FI B03C 3/41 B03C 3/41 A 3/47 3/47 3/60 3/60 F24F 7/00 F24F 7/00 A

Claims (3)

[Claims] A dust collecting electrode plate receiving a discharge from an ionizing wire and collecting dust charged by the discharge.
A photocatalyst (9) having an oxidative decomposition function and a photocatalyst (1) having a superhydrophilic property are provided on the surface of the collecting electrode plate (6).
0) A dust collecting portion of an ion wind type air purifier, wherein the dust collecting portion carries 0). 2. A photocatalyst having an oxidative decomposition function (9).
The dust collector of an ion wind type air purifier according to claim 1, further comprising titanium oxide having an anatase-type crystal structure. 3. The photocatalyst having superhydrophilicity (10),
The dust collector of the ion-air air cleaner according to claim 1, further comprising titanium oxide having a rutile crystal structure.