JP7179256B2 - Deodorizing device for toilet space - Google Patents

Description

The present invention relates to a deodorizing device for toilet space.

2. Description of the Related Art Various types of toilet space deodorizing devices are known for deodorizing a toilet space. In addition, it is known that some of the odorous components contained in the air in the toilet space are highly water-soluble. A deodorizing device for toilet space has been proposed.
For example, there is a toilet seat equipped with a warm-water washing toilet seat that includes a water ejection device that ejects water into the inhaled air (for example, Patent Document 1). The water jetting device includes a reservoir for storing water and a vibrator arranged at the bottom of the water reservoir, or the water jetting device is a nozzle for jetting water in the form of a mist.
Also, as this type of deodorizing device, there is one that introduces sucked air into water stored in a deodorizing chamber (for example, Patent Document 2).

Japanese Unexamined Patent Application Publication No. 2017-223030 Japanese Utility Model Laid-Open No. 4-117074

In the form of Patent Document 1, a vibrator and a nozzle are required, and there is a concern that the deodorizing device will become large and complicated due to the vibrator itself, the nozzle itself, and the mechanism for operating the vibrator and nozzle. . In addition, in the form of introducing air into water as in Patent Document 2, a suction device having a relatively strong suction force is usually required, and there is a concern that the size of the suction device will increase and the deodorizing device will become large. be. Without the above-described configuration for increasing the size or complication, the increase in size and complication are suppressed, but there is a concern that the deodorizing performance may be degraded.

Accordingly, the present invention provides a deodorizing device for a toilet space that is capable of suppressing an increase in size and complication and deodorizing performance.

A deodorizing device for a toilet space of a first invention comprises: an intake section forming an intake port for sucking air; an exhaust section forming an exhaust port for discharging deodorized air; and the intake port and the exhaust port are communicated with each other. A fan device provided in a deodorizing air passage for circulating air, and a water reservoir part capable of accumulating water and having a water surface of the accumulated water forming part of the deodorizing air passage. The water reservoir has a projecting portion protruding from the inner wall surface on the intake port side of the water reservoir so as to narrow the cross-sectional area of the deodorizing air passage.
According to the first invention, the air sucked from the air inlet is accelerated at the portion where the cross-sectional area of the deodorizing air passage is narrowed by the projecting portion. As a result, the surface of the water in the reservoir forming a part of the deodorizing air passage is easily shaken (easily rippling), and the contact area between the air and the water surface can be increased. An increase in the contact area between the air and the water surface improves the dissolution efficiency of highly water-soluble odorous components in the air into water.
In addition, according to the first invention, the deodorizing air passage is constructed without using a structure for introducing air into water, which requires a water ejection device having a vibrator or a nozzle, or a suction device having a relatively strong suction force. A simple configuration of narrowing the cross-sectional area can increase the contact area between the air and the water surface and improve the dissolution efficiency of highly water-soluble odorous components in water. Therefore, it is possible to achieve both suppression of size increase and complication and deodorization performance.
In a second aspect based on the first aspect, the water reservoir has a first space and a second space communicating with the first space and positioned closer to the air inlet than the first space. , the protrusion protrudes downward from the upper surface of the water reservoir to form an inner wall surface of the second space.
According to the second aspect of the invention, the air sucked from the intake port is accelerated at the portion where the cross-sectional area of the deodorizing air passage is narrowed by the projecting portion. As a result, the surface of the water in the reservoir forming a part of the deodorizing air passage is easily shaken (easily rippling), and the contact area between the air and the water surface can be increased. An increase in the contact area between the air and the water surface improves the dissolution efficiency of water-soluble odorous components in the air into water.
In a third aspect based on the second aspect, the water pooled in the water reservoir has a wall-shaped water surface facing the air flowing in from the intake port and flowing along the bottom surface of the water reservoir. be done.
According to the third aspect of the present invention, air hits the wall-shaped water surface, so that the dissolution efficiency of highly water-soluble odorous components in water can be improved.
In a fourth aspect based on the third aspect, a water receiving wall projecting from the bottom surface of the water reservoir into the deodorizing air passage is provided, and the upper end of the water receiving wall is located in the second space. Located at a height above the top surface.
According to the fourth invention, the wall-shaped water surface is easily formed in the water stored in the water reservoir.
In a fifth aspect based on the fourth aspect, water accumulates in a region extending from the water receiving wall through the first space to the second space.
According to the fifth invention, the contact area between the air and the water surface can be increased, and the dissolution efficiency of highly water-soluble malodorous components in the air into water is improved.

According to the present invention, it is possible to achieve both suppression of enlargement and complication and deodorizing performance.

1 is an external perspective view of a toilet apparatus according to one embodiment; FIG. 1 is a plan view of a deodorizing device for toilet space according to one embodiment; FIG. 1 is a perspective view of a water deodorizing unit in a deodorizing device for toilet space according to one embodiment. FIG. Fig. 4 is a perspective view of the water deodorizing unit of Fig. 3 with a cover removed; It is a cross-sectional perspective view of the water deodorizing unit in the toilet space deodorizing device according to one embodiment. FIG. 4 is a cross-sectional view of the deodorizing device for toilet space according to one embodiment during a water accumulating operation. FIG. 4 is a cross-sectional view of the deodorizing device for toilet space according to one embodiment during a draining operation.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In order to facilitate understanding of the description, the same constituent elements in each drawing are denoted by the same reference numerals as much as possible, and overlapping descriptions are omitted.

FIG. 1 is an external perspective view of a toilet device 1 according to one embodiment.

As shown in FIG. 1, a toilet apparatus 1 installed in a toilet space has a seated toilet bowl (hereinafter simply referred to as toilet bowl) 100 and a sanitary washing device 200 installed on the toilet bowl 100 . The toilet bowl 100 has a bowl portion 101 which is open upward and holds water. The sanitary washing device 200 has a private part washing function part that realizes washing of the private parts such as the buttocks of the user sitting on the toilet bowl 100 . The sanitary washing device 200 also has a toilet space deodorizing device (hereinafter simply referred to as a deodorizing device).

FIG. 2 is a plan view of the deodorizing device 10 according to this embodiment, showing a state in which the cover 201 of the sanitary washing device 200 in FIG. 1 is removed. In addition, in FIG. 2, the nozzles and the like included in the private part washing function unit are not shown and omitted.
As shown in FIG. 2 , the deodorizing device 10 has a water deodorizing unit 20 and a controller 30 .

FIG. 3 is a perspective view of the water deodorizing unit 20. FIG.
FIG. 4 is a perspective view of the water deodorizing unit 20 of FIG. 3 with the cover 22 removed.
FIG. 5 is a cross-sectional perspective view of the water deodorizing unit 20. As shown in FIG.

As shown in FIGS. 3 to 5, the water deodorizing unit 20 has a case 21 and a cover 22. As shown in FIG. A water deodorizing section 40 , a fan device 60 and an oxidation catalyst 70 are provided in the space between the case 21 and the cover 22 .

Air flows through the space between the case 21 and the cover 22 by driving the fan device 60 . An air passage (deodorizing air passage) 80 through which the air flows is provided with an air inlet at one end and an air outlet at the other end. The inlet portion forms an inlet port 23 and the outlet portion forms an outlet port 24 . The deodorizing air passage 80 communicates the intake port 23 and the exhaust port 24 . Areas other than the intake port 23 and the exhaust port 24 in the deodorizing air passage 80 are covered with the case 21 and the cover 22 .

The intake port 23 is positioned most upstream of the deodorizing air passage 80 , and the exhaust port 24 is positioned most downstream of the deodorizing air passage 80 . The fan device 60 is arranged downstream of the water deodorizing section 40 in the deodorizing air passage 80 . The oxidation catalyst 70 is arranged downstream of the fan device 60 in the deodorizing air passage 80 . Between the intake port 23 and the exhaust port 24, a water deodorizing section 40, a fan device 60, and an oxidation catalyst 70 are arranged in this order from the intake port 23 side.

The water deodorizing section 40 has a water reservoir section 50 . The water reservoir 50 has a first space 51 and a second space 52 . The first space 51 and the second space 52 communicate with each other, and the second space 52 is located closer to the air inlet 23 than the first space 51 is. The second space 52 is provided between the intake port 23 and the first space 51 .

As shown in FIGS. 5 to 7, a projecting portion 55 is provided on the inlet port 23 side of the water reservoir portion 50 . As shown in FIG. 5, the projecting portion 55 is formed over the entire width of the intake port 23 (direction orthogonal to the vertical direction). The protruding portion 55 protrudes downward from, for example, the upper surface of the inner wall surface of the water reservoir 50, and narrows the cross-sectional area of the deodorizing air passage 80 on the air inlet 23 side. The projecting portion 55 projects downward from the upper surface 51 a of the first space 51 and forms the inner wall surface (here, the upper surface) of the second space 52 . The first space 51 continues from the second space 52 below the projecting portion 55 with the cross-sectional area of the air passage expanding rapidly.

The intake port 23 opens toward the bowl portion 101 when the water deodorizing unit 20 is installed on the toilet bowl 100 shown in FIG.

By driving the fan device 60 , air is drawn into the first space 51 from the intake port 23 via the second space 52 . The height of the downstream end of the deodorizing air passage 80 of the second space 52 formed below the projecting portion 55 is lower than the height of the upstream end of the deodorizing air passage 80 of the first space 51 . Here, “height” represents the height along the vertical direction between the inner surface of the case 21 and the inner surface of the cover 22 . The second space 52 functions as a narrowed portion having an air passage cross-sectional area smaller than that of the first space 51 . The first space 51 is an enlarged portion having an air passage cross-sectional area larger than that of the second space 52 .

As shown in FIG. 4 , a water supply portion 45 is provided in a portion of the case 21 that forms the side wall of the water reservoir portion 50 . The water supply section 45 is provided, for example, at a position close to the most downstream end of the deodorizing air passage 80 of the water reservoir section 50 . Water is supplied from the water supply part 45 by flowing into the water reservoir part 50, and the water reservoir part 50 can store the water. In the present invention, the position where the water supply part 45 is provided is not limited to the position near the most downstream end of the deodorizing air passage 80 of the water reservoir 50, and any position where water can be supplied to the water reservoir 50. good.

The water stored in the water reservoir 50 is drained from the drain. The drain portion forms a drain port 25. In this embodiment, the intake port 23 also serves as the drain port 25. The drain port 25 opens toward the bowl portion 101, and the water stored in the water reservoir portion 50 is discharged. Water is drained from the drain port 25 to the bowl portion 101 . The bottom surface of the water reservoir 50 forms a downward slope toward the drain port 25. - 特許庁

A water receiving wall 41 is provided at the most downstream end of the deodorizing air passage 80 on the fan device 60 side in the water reservoir 50 . The water receiving wall 41 protrudes from the bottom surface of the water reservoir 50 into the deodorizing air passage 80 of the first space 51 . The upper end of the water receiving wall 41 is positioned upstream in the deodorizing air passage 80 from the lower end thereof. The upper end of the water receiving wall 41 is located at a height above the upper surface of the second space 52, and the distance (height) between the upper end of the water receiving wall 41 and the bottom surface of the water reservoir 50 is the second higher than the height of the space 52; A space is formed between the upper end of the water receiving wall 41 and the cover 22 to allow air to flow from the first space 51 to the fan device 60 side.

Next, the operation of the deodorizing device 10 according to this embodiment will be described.

FIG. 6 is a cross-sectional view of the deodorizing device 10 during the operation of accumulating water.
FIG. 7 is a cross-sectional view of the deodorizing device 10 during the draining operation.

When it is detected that the user is seated on the toilet bowl 100 , the control unit 30 controls the fan device 60 to drive the water supply unit 45 to supply water to the water reservoir 50 . For example, the driving of the fan device 60 and the supply of water from the water supply unit 45 are started at the same time. Alternatively, there may be a time lag between the driving timing of the fan device 60 and the water supply timing. The control unit 30 controls the start and stop of driving the fan device 60 and the start and stop of water supply from the water supply unit 45 .

The driven fan device 60 sucks air into the deodorizing air passage 80 from the air inlet 23 . In FIG. 6, the flow of air in the deodorizing air passage 80 is represented by a thick black arrow. The air sucked from the intake port 23 flows through the second space 52 and the first space 51 of the water reservoir 50 and is sucked into the fan device 60, and the air blown out from the fan device 60 passes through the oxidation catalyst 70. is exhausted from the exhaust port 24.

Air under atmospheric pressure is sucked into the deodorizing air passage 80 through the intake port 23 . That is, the fan device 60 functions as negative pressure forming means for generating negative pressure in the deodorizing air passage 80 . Since the bottom surface of the water reservoir 50 forms a downward slope toward the drain port 25 (which also serves as the intake port 23), the water supplied to the water reservoir 50 flows from the bottom surface of the water reservoir 50 to the drain port 25. can flow towards Further, the bottom surface of the water reservoir 50 is not provided with a structure that blocks the flow of water. Therefore, the water supplied to the water reservoir 50 can be drained from the drain port 25 as it is.

However, when the fan device 60 is driven, the negative pressure generated in the water reservoir 50 pushes the air flowing in the direction opposite to the direction of water discharge against the water, causing the water supplied from the water supply unit 45 to become water. It can be stored in the reservoir 50 .

Water supply from the water supply unit 45 is stopped after a predetermined period of time. For example, by controlling the rotation speed of the fan device 60, the magnitude of the negative pressure generated in the water reservoir 50 can be controlled. Depending on the magnitude of the negative pressure, the entire amount of water supplied from the water supply unit 45 may be held in the water reservoir 50, and part of the water supplied from the water supply unit 45 may be discharged from the drain port 25. In some cases, the remaining predetermined amount of water is retained in the water reservoir 50 . It is desirable to hold the entire amount of water supplied from the water supply part 45 in the water reservoir part 50, and with this configuration, a larger amount of water can be held in the water reservoir part 50, so that better deodorizing performance can be ensured. can be done. On the other hand, since the amount of water held in the water reservoir 50 can be controlled depending on the magnitude of the negative pressure, for example, by setting the water supply unit 45 to supply more than the desired amount of water to be stored, the water supply can be controlled. Even if the amount of water supplied from the part 45 varies, a part of the supplied water is drained from the drain port 25, and the desired amount of water to be stored can be more reliably held in the water reservoir part 50.例文帳に追加

The air sucked from the intake port 23 and containing the odor component flows along the water surface of the water W stored in the water reservoir 50, and the water surface of the water W stored in the water reservoir 50 passes through the deodorizing air passage 80. form part of Then, highly water-soluble odorous components such as ammonia and trimethylamine, which cause urine odor, are dissolved in the water W stored in the water reservoir 50 and deodorized.

Odorous components such as hydrogen sulfide and methyl mercaptan that are not dissolved in the water W and cause fecal odors in the air flowing further downstream in the deodorizing air passage 80 are deodorized by the oxidation catalyst 70 . The oxidation catalyst 70 oxidizes and decomposes hydrogen sulfide and methyl mercaptan.

As described above, according to the present embodiment, the water deodorizing unit 40 can deodorize highly water-soluble ammonia and trimethylamine, and the oxidation catalyst 70 can deodorize hydrogen sulfide and methyl mercaptan, which are less soluble in water than ammonia and trimethylamine. can be deodorized. The deodorized air is exhausted from the exhaust port 24. - 特許庁

In addition, dust such as dust and paper chips sucked together with air from the air intake port 23 can be captured by the water W stored in the water reservoir 50, and the dust flows into the oxidation catalyst 70. performance degradation can be suppressed. Furthermore, since the fan device 60 is also arranged downstream of the deodorizing air passage from the water reservoir 50, it is possible to prevent dust from reaching the fan device 60. FIG. In addition, normally, a mesh filter for trapping dust is provided at the intake port of the deodorizing device. good. Therefore, in this embodiment, it is possible to eliminate the trouble of maintaining the mesh filter.

In addition, with a simple configuration in which the water deodorizing unit 40 and the oxidation catalyst 70 are arranged in one deodorizing air passage 80 using one fan device 60, odor components with high water solubility and water-soluble components with lower water solubility than these odor components can be obtained. can effectively deodorize both highly oxidatively decomposable odor components. It is possible to achieve both suppression of size increase and complication and deodorization performance.

The water reservoir 50 has a second space 52 which is lower in height than the first space 51 and functions as a constricted portion having a small cross-sectional area of the air passage. The second space 52 accelerates the air taken in from the intake port 23 . As a result, the water surface of the water W in the water reservoir 50 that forms part of the deodorizing air passage 80 is easily swayed (easily rippling), and the contact area between the air and the water surface can be increased. An increase in the contact area between the air and the water surface improves the dissolution efficiency in water of odorous components that are highly water-soluble in the air. A simple configuration in which the cross-sectional area of the deodorizing air passage 80 is narrowed without using a configuration for introducing air into water that requires a water ejection device having a vibrator or nozzle, or a suction device having a relatively strong suction force. , the contact area between the air and the water surface can be increased, and the dissolution efficiency of highly water-soluble odorous components in water can be improved. Therefore, it is possible to achieve both suppression of size increase and complication and deodorization performance.
Further, when the air is accelerated in the second space 52 (throttled portion), the pressure of the air pushing the water W increases, and the effect of retaining the water W in the water reservoir 50 also increases.

An air freshener is often placed in the toilet space. In general, there is a concern that an oxidation catalyst may generate an offensive odor when an alcohol component (eg, ethanol or methanol) contained in a fragrance or the like adheres to it. The alcohol component can be dissolved in water in the water deodorizing unit 40, but if the water in which the alcohol component is dissolved scatters downstream, there is a concern that the oxidation catalyst 70 will be wet with the water in which the alcohol component is dissolved. In particular, when the water deodorizing unit 20 is provided in the sanitary washing device 200, the water deodorizing unit 40 and the oxidation catalyst 70 are likely to be closer to each other because miniaturization is required.

In the present embodiment, the water receiving wall 41 is provided as a scattering suppression means for suppressing the water W stored in the water storage portion 50 from scattering toward the oxidation catalyst 70 side. According to this embodiment, the dissolution of the water reservoir 50 in the water W effectively suppresses the adhesion of the alcohol component to the oxidation catalyst 70, and the water receiving wall 41 allows the water in which the alcohol component is dissolved. can be suppressed from scattering toward the oxidation catalyst 70, and the oxidation catalyst 70 can be prevented from being exposed to water in which the alcohol component is dissolved.

Further, according to the present embodiment, alcohol can be dissolved only by storing the water W in the water reservoir 50, so the configuration can be simpler than mist spraying from a nozzle, for example. Furthermore, since the water receiving wall 41 also has a simple configuration, according to the present embodiment, it is possible to suppress the generation of an offensive odor in the oxidation catalyst 70 caused by the alcohol component while suppressing an increase in size and complication. .

In addition, the first space 51 in the water reservoir 50 is provided as an enlarged portion having a greater height and volume than the second space 52 and an enlarged air passage cross-sectional area. Such a first space 51 can also function as the scattering suppression means. That is, the expansion of the cross-sectional area of the air passage in the first space 51 can reduce the wind speed of the air, thereby suppressing the scattering of the water W to the downstream side. Splashing of water to the fan device 60 can also be suppressed, and failure and performance degradation of the fan device 60 can be suppressed.

FIG. 6 shows an example in which water W accumulates in a region extending from the water receiving wall 41 through the first space 51 to the second space 52 . The water W may be accumulated in at least a partial area of the first space 51 and may not be accumulated in the second space 52 . When water W is also stored in the second space 52, the contact area between the air and the water surface can be increased, which improves the efficiency of dissolving odorous components in the air, which are highly water-soluble, into water. .

The water W pushed by the air is dammed by the water receiving wall 41 and prevented from retreating downstream in the deodorizing air passage 80 . In this state, a wall-like water surface Wa is likely to be formed facing the air that flows in from the intake port 23 and flows along the upper surface of the second space 52 . With this wall-shaped water surface Wa as a boundary, the water surface on the upstream side of the deodorizing air passage 80 is formed at a position higher than the water surface on the downstream side. A step is formed between a water surface on the upstream side of the water surface Wa and a water surface on the downstream side of the water surface Wa. In addition to the upper surface of the water W, the wall-like water surface Wa is also exposed to the air, so that the dissolution efficiency of highly water-soluble odor components in water can be improved, and dust can be easily captured by the water W.

Since the water receiving wall 41 extends to a height above the upper surface of the second space 52 on the intake port 23 side, the height of the water W blocked by the water receiving wall 41 in the first space 51 is 2 It tends to be higher than the height within the space 52 . This facilitates the formation of a step on the water surface near the boundary between the first space 51 and the second space 52, and facilitates the formation of the wall-like water surface Wa.

When the user leaves the toilet bowl 100, the driving of the fan device 60 is stopped. By stopping the fan device 60, the water reservoir 50 returns to the atmospheric pressure, and the force holding the water W in the accumulated state is released. Since the bottom surface of the water reservoir 50 is inclined downward toward the drain port 25, the water W accumulated in the water reservoir 50 is discharged from the drain port 25 into the bowl of the toilet bowl 100 as shown in FIG. Drains to section 101 (shown in FIGS. 1 and 2).

If a movable member such as an electromagnetic valve is used as the drainage mechanism, there is a concern that the electromagnetic valve may become stuck, resulting in a valve opening failure that prevents drainage. The water can be drained simply by stopping the negative pressure build-up. Water can be drained from the water reservoir 50 with a simple configuration, water remaining in the water reservoir 50 can be reduced, and biofilm formation caused by the remaining water can be suppressed. Also, dust and the like trapped in the water W stored in the water reservoir 50 are drained together with the water W.
In addition, as a means for forming a negative pressure, it is possible to store and drain water with a minimum of electrical components such as a fan device that is originally necessary for the deodorizing device for sucking and discharging air, thereby forming a negative pressure. There is no need to separately provide a pump or the like for this purpose, and cost reduction and miniaturization are possible.
In addition, by sloping the bottom surface of the water reservoir 50 downward, water can be easily drained from the water reservoir 50, and the amount of water remaining in the water reservoir 50 can be reduced, thereby suppressing the formation of biofilms. can be raised.

According to the present embodiment described above, water W is accumulated in the water reservoir 50 by forming a negative pressure accompanied by air flow, and the water surface of the water W forms a part of the deodorizing air passage 80. Air containing odorous components flows along the water surface. In such a configuration, for example, water is stored in a tank in advance instead of storing water by forming a negative pressure, and the amount of air that contacts the surface of the water is increased compared to the configuration in which air is brought into contact with the surface of the stored water. It is possible to improve the dissolution efficiency of odorous components in water. Therefore, this embodiment achieves both suppression of enlargement and complication and deodorizing performance.

The oxidation catalyst 70 is configured in a cartridge form, for example, and can be attached to and detached from the sanitary washing device 200 for replacement. As shown in FIG. 2 , the oxidation catalyst 70 is arranged on the outer edge side of the casing 202 of the sanitary washing device 200 , so that the user can easily replace the oxidation catalyst 70 .

Moreover, the oxidation catalyst 70 has, for example, a honeycomb structure, and has the effect of eliminating the operating noise of the fan device 60 . The positional relationship between the oxidation catalyst 70 and the fan device 60 described above can reduce noise during deodorization, compared to the configuration in which the fan device 60 is arranged closer to the outer edge of the casing 202 than the oxidation catalyst 70 .

In the embodiment described above, an example in which the deodorizing device 10 is provided in the sanitary washing device 200 has been described. The deodorizing device 10 may be provided, for example, in a urinal.

In the example shown in FIG. 6, by providing a projecting portion 55 projecting downward from, for example, the upper surface of the inner wall surface of the water reservoir portion 50, the air passage cross-sectional area of the second space 52 is reduced to that of the first space 51. is smaller than the cross-sectional area of the air passage. However, the present invention is not limited to this. For example, by providing a protruding portion that protrudes upward from the lower surface of the inner wall surface of the water reservoir portion 50, the air passage cross-sectional area of the second space 52 can be reduced to that of the first space. It may be smaller than the air passage cross-sectional area of 51 . Alternatively, by providing a projecting portion projecting in the lateral direction from the side surface of the inner wall surface of the water reservoir 50, the air passage cross-sectional area of the second space 52 is made smaller than the air passage cross-sectional area of the first space 51. good too.

The present invention is not limited to forming the negative pressure by sucking air from a fan device, but may also form the negative pressure by sucking air from a pump, for example.

Further, the present invention is not limited to the configuration in which the intake port 23 also serves as the drain port 25, and the intake port 23 and the drain port 25 may be provided as separate components.

Also, according to the present invention, the drain port 25 does not have to open toward the bowl portion 101 . For example, the water in the water reservoir 50 is drained from a drain opening into the water stored in the bowl 101, or the water in the water reservoir 50 is drained from the drain to a drainage pipe into which the wastewater from the toilet device 1 flows. may be configured to be drained.
Among deodorizing devices for the toilet space, a deodorizing device provided in the sanitary washing device 200 in particular is required to be downsized. Complication and enlargement of the deodorizing apparatus can be suppressed from the configuration in which the water is drained into the collected water or the configuration in which the water is drained to the drain pipe.

The embodiments of the present invention have been described above with reference to specific examples. However, the present invention is not limited to them, and various modifications are possible based on the technical idea of the present invention.

DESCRIPTION OF SYMBOLS 1... Toilet apparatus 10... Deodorizing apparatus 20... Water deodorizing unit 23... Intake port 24... Exhaust port 25... Drain port 30... Control part 40... Water deodorizing part 41... Water receiving wall 45... Water supply unit 50 Water reservoir 51 First space 52 Second space 55 Projection 60 Fan device 70 Oxidation catalyst 80 Deodorizing air passage 100 Toilet bowl 101 Bowl , 200 Sanitary washing device

Claims (3)

A deodorizing device for toilet space,
an intake part forming an intake port for sucking air;
an exhaust part forming an exhaust port for exhausting deodorized air;
a fan device provided in a deodorizing air passage that communicates the air inlet and the air outlet and circulates air;
a water reservoir that can hold water, and the water surface of which is held forms part of the deodorizing air passage;
with
The water reservoir has a projecting portion projecting from the inner wall surface on the intake port side of the water reservoir so as to narrow the cross-sectional area of the deodorizing air passage,
The water reservoir has a first space and a second space communicating with the first space and positioned closer to the air inlet than the first space,
the protrusion protrudes downward from the upper surface of the water reservoir and forms an inner wall surface of the second space;
A deodorizing device for a toilet space, in which a wall-shaped water surface is formed in the water stored in the water reservoir so as to face the air flowing along the bottom surface of the water reservoir from the intake port. further comprising a water receiving wall protruding from the bottom surface of the water reservoir into the deodorizing air passage;
2. The deodorizing device for a toilet space according to claim 1 , wherein the upper end of said water receiving wall is positioned above the upper surface of said second space. 3. The deodorizing device for a toilet space according to claim 2, wherein water accumulates in a region extending from said water receiving wall through said first space to said second space.

Images