JP4186395B2 - air purifier - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air cleaner that includes ultraviolet irradiation means for irradiating ultraviolet rays, and prevents ultraviolet rays irradiated by the ultraviolet irradiation means from leaking out of the case.
[0002]
[Prior art]
Conventionally, as described above, for example, as described in JP-A-8-312977, a plurality of light shielding plates are arranged in parallel at a predetermined interval, so that each of these light shielding plates absorbs air from the ultraviolet irradiation means. There is known one that blocks ultraviolet rays that go out of the case through the mouth.
[0003]
[Problems to be solved by the invention]
However, in the above prior art, in order to block the ultraviolet rays by each light shielding plate, it is necessary to make adjacent light shielding plates as close as possible, so that the pressure loss of the air passing between each light shielding plate inevitably increases. A problem occurs.
[0004]
In view of the above problems, an object of the present invention is to reduce the pressure loss of air passing between the light shielding plates as much as possible while ensuring the light shielding property of the light shielding plates.
[0005]
[Means for Solving the Problems]
The present invention uses the following technical means to achieve the above object.
[0006]
That is, in invention of Claims 1-5, when the ultraviolet-ray is irradiated with the ventilation means (4) which generates an air flow in a case (2) from an air suction inlet (3) to an air blower outlet (8) A filter member (6) carrying an exciting catalyst, an ultraviolet irradiation means (7) for irradiating the filter member (6) with ultraviolet rays, and a plurality of first light-shielding plates (19) arranged in parallel at predetermined intervals. The first light-shielding plate (19) is configured to shield the ultraviolet rays going out of the case (2) from the ultraviolet irradiation means (7) via the air suction port (3) or the air blowout port (8). In the air purifier, the first light shielding plate (19) is formed between the first light shielding plates (19) shorter than the first light shielding plate (19) in the air flow direction between the first light shielding plates (19). The second light shielding plate (24) that blocks the ultraviolet rays passing between It is characterized in that the eclipse was.
[0007]
According to the above technical means, even if the first light shielding plates (19) adjacent to each other are separated from each other and the flow path cross-sectional area between the first light shielding plates (19) is increased, the second light shielding plate (24) is not protected from the first light shielding. By blocking the ultraviolet rays passing between the plates (19), the light shielding property can be ensured. Moreover, since the second light shielding plate (24) is shorter than the first light shielding plate (19) in the air flow direction between the first light shielding plates (19), the shape of the second light shielding plate (24) is devised. Thus, the ventilation resistance can be reduced, and the pressure loss of the air passing between the first light shielding plates (19) can be reduced.
[0008]
In particular, in the invention described in claim 2, the first light-shielding plate (19) has a plurality of surface portions (19a, 19b) having different angles in the direction of ultraviolet rays toward the outside of the case (2), and the plurality of surface portions (19a). , 19b) is characterized in that the ultraviolet rays are blocked by any one of the surface portions (19a, 19b).
[0009]
In the invention according to claim 3, since the adjacent first light shielding plates (19) overlap each other in the direction orthogonal to the irradiation surface (7a), the irradiation surface (7a) of the ultraviolet irradiation means (7). ) Can be reliably shielded from ultraviolet rays traveling straight in a direction orthogonal to.
[0010]
When the adjacent first light shielding plates (19) are separated from each other, a flow path (100) through which ultraviolet rays leak is formed between the first light shielding plates (19), as shown in FIG.
[0011]
Therefore, in the invention described in claim 4, by providing the second light shielding plate (24) over the entire flow path (100), it is possible to reliably block the ultraviolet rays passing through the leakage flow path (100). it can.
[0012]
In the invention according to claim 5, the air purifier purifies the indoor air sucked through the opening (30) and the air suction port (3) opened in the room, and the clean air is removed from the air outlet. (8) and the opening (30) that opens into the room, and the first and second light shielding plates (19, 24) are provided in the opening (30). It is characterized by.
[0013]
Thereby, the grill generally provided in the opening (30) can be constituted by the first and second light shielding plates (19, 24). As a result, the pressure loss can be reduced and the manufacturing cost can be reduced as compared with the grill and the first and second light shielding plates (19, 24) provided separately.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to an automobile air cleaner will be described with reference to FIGS. 1 is a side view showing the structure of the air purification unit 1, FIG. 2 is a view taken along the arrow A in FIG. 1 when the filter member 6 is removed, and FIG. 3 is a perspective view of FIG. 1 when the filter member 6 is attached. FIG. 4 is a schematic diagram showing an attachment state of the air purification unit 1 to the vehicle rear tray R, FIG. 5 is a sectional view taken along line XX of FIG. 3, and FIG. 6 is equivalent to FIG. 5 when the second light shielding plate 24 is not provided. FIG.
[0015]
First, the structure of the air purification unit 1 is demonstrated using FIGS.
[0016]
As shown in FIGS. 1-4, the air purification unit 1 is provided with the case 2 which makes the air path which guides air into a vehicle interior. An air suction port 3 for introducing air from the passenger compartment into the case 2 is formed at the upstream end of the case 2. On the air downstream side of the air suction port 3, air blowing means for generating an air flow is formed. Fan 4, gas sensor 5 for detecting the concentration of pollutant particles such as cigarette smoke, filter member 6 for cleaning air, and ultraviolet lamp 7 as an ultraviolet irradiation means for irradiating the filter member 6 with ultraviolet rays. . An air outlet 8 is formed at the downstream end of the case 2 to blow out air purified by the filter member 6 toward the vehicle interior.
[0017]
As shown in FIG. 4, the air conditioning unit 1 is configured so that the suction duct 3 a is connected to the upstream side of the air inlet 3 and the outlet duct 8 a is connected to the downstream side of the air outlet 8. It can be assembled to the rear tray R.
[0018]
The vehicle rear tray R has an opening 30 that is substantially the same size as the outer periphery of the grill 18, which will be described later. The upstream end opening of the suction duct 3a and the downstream end opening of the outlet duct 8a are connected to the opening 30. Yes. As a result, the air suction port 3 sucks vehicle interior air into the case 2 through the opening 30 and the suction duct 3 a, and the clean air blown out from the air outlet 8 passes through the outlet duct 8 a and the opening 30. Is blown into the passenger compartment.
[0019]
The fan 4 is driven by a fan motor 4a as its driving means. Note that by changing the voltage applied to the fan motor 4a, the rotational speed of the fan 4 can be switched between two stages (low-speed operation and high-speed operation described later).
[0020]
In this embodiment, the resonator 50 that suppresses discomfort to the occupant due to noise generated by the fan 4 is formed integrally with the case 2. A space (not shown) communicating with the air suction port 3 is formed inside the resonator 50. Thereby, the sound wave that has entered the space portion from the fan 4 is reflected by the inner wall surface of the space portion, and the frequency at which the passenger feels uncomfortable is reduced.
[0021]
In addition, since the resonator 50 is generally formed in the suction duct or the blowout duct, it cannot be manufactured in common among vehicles that need to change the shape of the duct. By forming the resonator 50 integrally with the case 2, it can be manufactured in common between vehicles that need to change the shape of the duct.
[0022]
The filter member 6 has a filter medium in which the air passage surface is folded in a plurality of places, and a filter body 9 (see FIG. 3) in which activated carbon and a photocatalyst are applied to the surface of the filter medium facing the ultraviolet lamp 7 is made of resin. The frame 10 is supported by the inner periphery.
[0023]
The filter medium is constituted by a known electret paper, and traps dust contained in the air passing through the filter member 6.
[0024]
The activated carbon adsorbs odor components contained in the air passing through the filter member 6.
[0025]
Further, the photocatalyst is made of a metal oxide (in this embodiment, titanium dioxide), and is excited when irradiated with ultraviolet rays, as will be described later, and oxidatively decomposes odor components adsorbed on the activated carbon.
[0026]
Further, the filter main body 9 is provided in a state where the ridgeline of the fold mountain in the filter medium is along the direction in which the air pumped from the fan 4 toward the filter main body 9 flows. Thereby, the air pumped from the fan 4 flows through the filter body 9 as smoothly as possible.
[0027]
The frame 10 is a resin frame having a rectangular cross section, and the filter body 9 can be attached to the inner periphery of the frame 10 in a removable state. Although not shown, the outer peripheral surface of the frame body 10 is provided with an elastic packing that seals the inner wall surface of the case and the outer peripheral surface of the frame body 10.
[0028]
By the way, the filter insertion opening part 11 which inserts the filter member 6 in the case 2 is formed in the site | part facing the filter member 6 among the case inner wall surfaces in which the ultraviolet lamp 7 is provided. The filter insertion opening 11 is opened and closed by a filter lid 12 that can slide in the vehicle longitudinal direction. Note that a handle 13 is provided integrally with the filter lid 12 so that an operator can easily open and close the filter lid 12 by grasping the handle 13 during the opening and closing operation.
[0029]
Further, since the outer periphery of the frame 10 is formed slightly smaller than the inner periphery of the rail 14 formed on the inner wall surface of the case, the filter member 6 with the filter body 9 attached to the frame 10 is connected to the filter insertion opening. The filter member 6 is supported in a removable state in the case 2 by being inserted obliquely along the rail 14 from the portion 11.
[0030]
Further, a handle 15 is integrally provided on a flat surface portion of the outer peripheral surface of the frame 10 that faces the filter insertion opening 11. When the filter member 6 is detached from the case 2, an operator can use this handle. It is possible to easily perform this detaching work by grasping 15.
[0031]
The ultraviolet lamp 7 has a cylindrical glass tube that extends in a direction substantially orthogonal to the ridge line of the filter member 6, and a high voltage generating portion is formed on the inner wall surface of the case between the filter member 6 and the air outlet 8. 16 is assembled. In addition, since the ultraviolet lamp 7 is provided in a state in which the ridgeline of the fold mountain of the filter main body 9 is substantially orthogonal over the longitudinal direction, the surface of the filter main body 9 coated with the activated carbon and the photocatalyst is not leaked. Ultraviolet rays are irradiated.
[0032]
The ultraviolet lamp 7 has a rare gas (xenon in this embodiment) sealed in the glass tube. Further, the curved surface portion of the glass tube is provided with an anode (not shown) and a cathode (not shown) in the longitudinal direction of the glass tube, respectively, and a supply voltage from the battery (not shown) (this embodiment) 12V) is boosted to a predetermined high voltage (2000V in this embodiment) by the high voltage generator 16 and then applied between the electrodes. A phosphor is applied to the inner surface of the glass tube.
[0033]
Therefore, when the high voltage is applied between the electrodes as described above, a discharge occurs between the electrodes, and the xenon is excited and collides with the phosphor. Ultraviolet rays are irradiated from a portion 7a (hereinafter referred to as an irradiation surface 7a) that is not provided.
[0034]
The ultraviolet lamp 7 is surrounded by a metal member 17 formed in a lattice shape. The metal member 17 absorbs noise generated when a discharge occurs between the electrodes of the ultraviolet lamp 7. This prevents the noise from adversely affecting other electrical devices.
[0035]
Since the filter member 6 is provided on the upstream side of the ultraviolet lamp 7, air removed by the filter member 6 always passes through the ultraviolet lamp 7, and as a result, the ultraviolet lamp 7 is not contaminated. Yes.
[0036]
As shown in FIG. 4, the opening 30 is provided with a resin grille 18 as a design part.
[0037]
The grill 18 is provided with a plurality of partitions in the left-right direction of the vehicle, thereby preventing passengers in the passenger compartment from entering the case 2 from the air inlet 3 and the air outlet 8 and the gap between the partitions. So that money etc. will not fall into Case 2. In the present embodiment, the first light shielding plate 19 and the second light shielding plate 24 in the upper grill 22 to be described later are continuously formed in the vehicle left-right direction, thereby forming the partition. . Further, the first light shielding plate 19 in the lower grill 23 to be described later is formed only in a portion 18 a (hereinafter referred to as a blow grill 18 a) of the grill 18 that faces the air outlet 8.
[0038]
By the way, although it is necessary to prevent the ultraviolet rays irradiated from the ultraviolet lamp 7 from leaking into the vehicle interior, in this embodiment, the ultraviolet lamp 7 faces the air outlet 8 as shown in FIGS. In addition, since the ultraviolet ray can leak from the air outlet 8 into the vehicle interior, the ultraviolet ray is blocked by the blowout grill 18a.
[0039]
Hereinafter, the structure of the blowing grill 18a will be described in detail with reference to FIG.
[0040]
As shown in FIG. 5, a plurality of first light shielding plates 19 bent in a substantially U shape in cross section are arranged in parallel along the longitudinal direction of the ultraviolet lamp 7 at a predetermined interval on the blowing grill 18a. Between each light shielding plate 19, a bent channel 20 through which air blown from the air outlet 8 flows is formed.
[0041]
The first light shielding plate 19 has an air upstream side surface portion 19a and an air downstream side surface portion 19b having different angles in the direction of ultraviolet rays going out of the case 2 with the bent portion 21 as a boundary.
[0042]
Of the adjacent first light shielding plates 19, the bent portion 21 of one first light shielding plate 19 and the air upstream side end portion 19c of the other first light shielding plate 19 are in the direction of arrow B, that is, the irradiation surface 7a. Overlap each other in a direction perpendicular to the vehicle (the vehicle vertical direction).
[0043]
In addition, between the first light shielding plates 19 is formed shorter than the first light shielding plates 19 in the air flow direction (direction of arrow C in FIG. 4) passing between the first light shielding plates 19 (in the bent flow path 20). A second light shielding plate 24 that shields ultraviolet rays passing between the first light shielding plates 19 is provided.
[0044]
More specifically, as shown in FIG. 6, if there is no second light shielding plate 24 between the first light shielding plates 19, the air downstream side surface portion 19 b is shorter than the air upstream side surface portion 19 a, and the slope is loose. Since it is provided, a flow path 100 through which ultraviolet rays leak is formed between the first light shielding plates 19. Therefore, each second light shielding plate 24 is provided over the entire leakage flow channel 100 in a state where the second light shielding plate 24 is inclined in substantially the same direction as the air downstream side surface portion 19b of the first light shielding plate 19, so that the leakage flow channel 100 is formed. It blocks the ultraviolet rays that pass through.
[0045]
Further, the grill 18 according to the present embodiment can be divided into an upper grill 22 and a lower grill 23 with the bent portion 21 of the first light shielding plate 19 as a boundary. It is fixed by the fixing means. The grill 18 is painted black so that the first and second light shielding plates 19 and 24 can easily absorb and diffuse ultraviolet rays.
[0046]
In addition, since the grill 18 is made of resin, the grill 18 is manufactured by well-known molding. However, when the upper grill 22 is manufactured, if the mold is punched along the above-described inclined shape, a single punching process may be performed. Similarly, the lower grille 23 can be similarly subjected to a single die cutting process.
[0047]
Next, the operation of the air purification unit 1 will be described.
[0048]
When an ignition switch (not shown) is turned on by the occupant and the battery power is supplied to the high voltage generator 16, ultraviolet rays are emitted from the light emitting part of the ultraviolet lamp 7.
[0049]
Further, when the occupant selects one of the low speed operation, the high speed operation, and the automatic operation by the instruction means (not shown), the passenger compartment air is supplied to the grill 18, the opening 30, and the suction. It is introduced into the case 2 from the air inlet 3 through the duct 3a. In the automatic operation, the fan 4 is operated at a low speed when the concentration of the contamination particles detected by the gas sensor 5 is less than a predetermined value, and the fan 4 is operated at a high speed when the concentration is higher than the predetermined value.
[0050]
The vehicle interior air introduced into the case 2 as described above passes through the filter member 6 and is dedusted and deodorized, and then is blown from the air outlet 8 to the outlet duct 8a, the opening 30, and the grill 18 (outlet grill 18a). ) To the passenger compartment.
[0051]
In the present embodiment described above, the ultraviolet rays passing between the first light shielding plates 19 are formed between the first light shielding plates 19 so as to be shorter than the first light shielding plates 19 in the air flow direction passing through the bent flow path 20. A second light shielding plate 24 that shields the light is provided.
[0052]
As a result, even if the adjacent first light shielding plates 19 are separated and the cross-sectional area of the bent flow path 20 is increased, the ultraviolet light passing through the bent flow path 20 can be blocked by the second light shielding plate 24, Can be secured. Moreover, since the second light shielding plate 24 is shorter than the first light shielding plate 19 in the air flow direction in the bent flow path 20, the air passing through the bent flow path 20 can be obtained by devising the shape of the second light shielding plate 24. The pressure loss can be reduced.
[0053]
Further, since the first light shielding plate 19 has the surface portions 19a and 19b having different angles in the direction of the ultraviolet rays going out of the case 2, the ultraviolet rays traveling straight from any angle are blocked by either the surface portions 19a or 19b. Can do.
[0054]
In addition, since the adjacent first light shielding plates 19 overlap each other in the direction orthogonal to the irradiation surface 7a of the ultraviolet lamp 7, it is possible to reliably block the component that goes straight in the direction orthogonal to the ultraviolet irradiation surface 7a.
[0055]
Further, since the second light shielding plate 24 is provided over the entire ultraviolet light leakage channel 100 formed between the first light shielding plates 19, it is possible to reliably block the ultraviolet light that passes through the leakage flow channel 100. it can.
[0056]
Further, since the first and second light shielding plates 19 and 24 are provided in the opening 30, the blow grill 18 a can be constituted by the first and second light shielding plates 19 and 24. The ventilation resistance can be reduced as compared with the case where the grill 18a is provided separately, and the manufacturing cost can be reduced.
[0057]
(Other embodiments)
In the above-described embodiment, the second light shielding plate 24 can completely block the component that travels obliquely straight (passes through the leakage flow path 100) with respect to the direction orthogonal to the ultraviolet irradiation surface 7a. The component that goes straight in the orthogonal direction and the component that goes straight obliquely with respect to the orthogonal direction do not necessarily need to be completely blocked, and may leak slightly.
[0058]
Further, the first light shielding plate can completely shield the component that goes straight in the direction orthogonal to the ultraviolet irradiation surface 7a, but it is not always necessary to completely shield it and may leak slightly.
[0059]
Further, in each of the above embodiments, the shape of the first light shielding plate 19 is substantially U-shaped in cross section. However, the shape is not limited to this. It may be curved.
[0060]
Moreover, in each said embodiment, although the 1st light-shielding plate 19 has the two surface parts 19a and 19b by making the bending part 21 into a boundary, there may be three or more surface parts.
[0061]
In the above embodiments, the first and second light shielding plates 19 and 24 are provided integrally with the blowout grill 18a. For example, the first and second light shielding plates 19 and 24 are provided separately from the blowout grill 18a. May be.
[0062]
In each of the above embodiments, the second light shielding plate 24 is provided on the upper grill 22, but may be provided on the lower grill 23.
[0063]
Moreover, in each said embodiment, since the ultraviolet lamp 7 was provided between the air blower outlet 8 and the filter member 6, although the 1st, 2nd light-shielding plates 19 and 24 were provided in the blowing grill 18a, In the case where the ultraviolet lamp 7 is provided between the air suction port 3 and the filter member 6, the first and second light shielding plates 19, 24 are disposed on the portion of the grill 18 facing the air suction port 3 (suction grill). It may be provided.
[0064]
In each of the above embodiments, air is sucked and blown out from one opening 30. Naturally, an opening for sucking air and an opening for blowing air may be provided.
[0065]
Moreover, in each said embodiment, although the grill 18 which has the 1st, 2nd light shielding plates 19 and 24 is provided in the opening part 30 opened to the rear package tray R, for example, in the air inlet 3 and the air outlet 8, It may be provided.
[0066]
Further, in each of the above embodiments, the second light shielding plate 24 is provided between the first light shielding plates 19, but it is not necessarily required to be provided between all the first light shielding plates 19.
[0067]
In each of the above embodiments, the case where the present invention is applied to an automobile air cleaner provided in the rear package tray R has been described. However, the present invention is not limited thereto, and for example, an automobile air cleaner provided in a side trim. Further, the present invention may be applied to a home air cleaner, an air cleaner integrated into an air conditioner, or the like.
[Brief description of the drawings]
FIG. 1 is a side view showing a configuration of an air cleaning unit 1 according to an embodiment of the present invention.
FIG. 2 is a view as seen from an arrow A in FIG. 1 when the filter member 6 is removed.
3 is a perspective view in FIG. 1 when a filter member 6 is attached. FIG.
FIG. 4 is a schematic diagram showing an attachment state of the air purification unit 1 to a vehicle rear tray R.
5 is a cross-sectional view taken along the line XX of FIG.
6 is a view corresponding to FIG. 5 when the second light shielding plate 24 is not provided. FIG.
[Explanation of symbols]
2 ... Case,
3 ... Air inlet,
4 ... Fan (air blowing means),
6 ... Filter member,
7 ... UV lamp (UV irradiation means),
7a: Irradiation surface,
8 ... Air outlet,
19 ... 1st light-shielding plate,
19 ... Upstream side surface (surface),
19: Downstream side surface (surface),
24. Second light shielding plate,
30 ... opening,
100: Leakage flow path.

Claims (5)

A case (2) forming an air passage from the air inlet (3) to the air outlet (8);
A blowing means (4) for generating an air flow from the air inlet (3) to the air outlet (8) in the case (2);
A filter member (6) provided in the case (2) and carrying a catalyst that is excited when irradiated with ultraviolet rays;
An ultraviolet irradiation means (7) provided in the case (2) for irradiating the catalyst carried on the filter member (6) with ultraviolet rays;
A plurality of first light shielding plates (19) arranged in parallel at a predetermined interval,
The plurality of first light shielding plates (19) shields ultraviolet rays from the ultraviolet irradiation means (7) to the outside of the case (2) through the air inlet (3) or the air outlet (8). In the air purifier configured in
A space between the first light shielding plates (19) is shorter than the first light shielding plates (19) in the air flow direction between the first light shielding plates (19). The air cleaner characterized by the 2nd light-shielding plate (24) which shields the ultraviolet-ray which passes. The first light shielding plate (19) has a plurality of surface portions (19a, 19b) having different angles in the direction of the ultraviolet rays going out of the case (2), and the plurality of surface portions (19a, 19b) block the ultraviolet rays. The air purifier according to claim 1. The ultraviolet irradiation means (7) has an irradiation surface (7a) for irradiating ultraviolet rays,
3. The plurality of first light shielding plates (19), wherein the adjacent first light shielding plates (19) overlap each other in a direction orthogonal to the irradiation surface (7 a). Air purifier. The said 2nd light-shielding plate (24) was provided over the whole ultraviolet-ray leak flow path (100) formed between said 1st light-shielding plates (19), The said 3rd light-shielding plate (24) is provided over the whole. air purifier. The air purifier purifies the indoor air sucked in through the opening (30) and the air suction port (3) opened in the room, and this clean air is purified into the air outlet (8) and the room. It is configured to blow out into the room through the opening (30) opened to
The air cleaner according to any one of claims 1 to 4, wherein the first and second light shielding plates (19, 24) are provided in the opening (30).

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