JP2002000710A - Deodorizing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a deodorizing device capable of eliminating locally generated malodor such as pet odor, garbage odor at its generating source before it is diffused in a room, and also removing both water soluble odor components and hydrophobic odor components to attain deodorization. SOLUTION: This deodorizing device is provided with a sealed water-soluble component removing part 2 holding a removing material 8 for removing water- soluble odor components and a sealed hydrophobic component removing part 3 holding a removing material 9 for removing hydrophobic odor components.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deodorizing apparatus which is used by being incorporated in an odor source, such as a pet hut, a garbage disposer, a waste container, etc., installed indoors. .

[0002]

2. Description of the Related Art Conventionally, bad smells such as pet smells and garbage smells which are locally generated indoors are discharged outside by ventilation,
The odor spread in the room was deodorized by deodorizing the air with an air purifier. Here, when deodorizing with an air purifier, an activated carbon filter using physical adsorption action, activated carbon, or adsorption treatment using a chemical adsorbent obtained by attaching a chemical component effective for deodorization to solids such as ceramics It was generally done.

[0003]

However, even in the case of performing deodorization by ventilation or an air purifier, the malodor generated locally is diffused into the room once and then deodorized. Until the odor was smelled, the consumer felt odor, and could not reduce the discomfort in life.

The odor components of pet odors are mainly composed of nitrogen compounds such as trimethylamine and ammonia, mercaptans such as methyl mercaptan, sulfur compounds such as hydrogen sulfide, aldehydes, and organic acids. The odor is mainly composed of nitrogen compounds such as ammonia and trimethylamine and sulfur compounds such as methyl sulfide. Among them, nitrogen compounds such as ammonia and trimethylamine and organic acids are water-soluble odor components, while sulfur compounds such as mercaptans and hydrogen sulfide are hydrophobic odor components which are relatively hard to dissolve in water. In order to deodorize air containing various odor components as described above, a deodorizing device capable of removing both a water-soluble odor component and a hydrophobic odor component has been required.

The present invention has been made in view of the above points, and deodorizes locally generated odors, such as pet odors and garbage odors, at the source of the odors and removes the odors before diffusing indoors. It is an object of the present invention to provide a deodorizing apparatus capable of performing odor, and capable of performing deodorization by removing both a water-soluble odor component and a hydrophobic odor component.

[0006]

According to a first aspect of the present invention, there is provided a deodorizing apparatus comprising: a hermetically sealed water-soluble component removing section 2 holding a removing material 8 for removing a water-soluble odor component; And a hermetically-removable hydrophobic component removing section 3 holding a removing material 9 for removing the odor component.

A second aspect of the present invention is characterized in that, in the first aspect, the water-soluble component removing portion 2 and the hydrophobic component removing portion 3 are integrally formed.

According to a third aspect of the present invention, in the first aspect, the water-soluble component removing section 2 and the hydrophobic component removing section 3 are formed separately.

According to a fourth aspect of the present invention, in any one of the first to third aspects, the water-soluble odor component removing material 8 is formed of a liquid or a carrier impregnated with the liquid so as to be exchangeable. It is characterized by comprising.

According to a fifth aspect of the present invention, in the fourth aspect, water, a deodorant liquid or an aqueous deodorant solution is used as a liquid constituting the water-soluble odor component removing material 8, and the water-soluble odor component removing material is used. 8 is characterized in that it is made of a hydrophilic gel, felt or other hydrophilic substance as a carrier constituting 8.

A sixth aspect of the present invention is characterized in that in any one of the first to fifth aspects, a solid deodorant is used as the hydrophobic odor component removing material 9.

According to a seventh aspect of the present invention, in the sixth aspect, the solid deodorant includes honeycomb activated carbon, granular activated carbon, fibrous activated carbon, granular ceramic deodorant, honeycomb ceramic deodorant, and ion exchange resin. And at least one selected from deodorants obtained by supporting a deodorant component on an inorganic material or an organic material.

The invention according to claim 8 is the invention according to any one of claims 1 to 7, wherein the water-soluble odor component removing material 8 is composed of water, a deodorant liquid or a deodorant aqueous solution,
It is characterized in that a material composed of a solid deodorant is used as the hydrophobic odor component removing material 9.

According to a ninth aspect of the present invention, in the first to eighth aspects, a water-soluble odor component removing material 8 is mixed with a pH indicator for indicating a replacement time. .

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to embodiments.

First, the embodiment shown in FIGS. 1 and 2 will be described.

In the figure, reference numeral 1 denotes various types of odor sources 7 such as animal droppings and garbage, such as pet sheds, garbage disposers, waste containers, etc. 1 shows a container (hereinafter, referred to as “odor odor generating section 1”).

The water-soluble component removing section 2 is formed of a sealed container except that the two communication paths 4 and 5 are connected. In the water-soluble component removing section 2, a removing material 8 for removing a water-soluble odor component is held.

On the other hand, the hydrophobic component removing section 3 is constituted by a sealed container except that one communication path 5 and one exhaust path 6 are connected. A removing material 9 for removing a hydrophobic odor component is held in the hydrophobic component removing section 3.

The above-mentioned odor generating section 1 and the water-soluble component removing section 2
And are connected through communication path 4 at this time,
On the side of the water-soluble component removing unit 2, the communication path 4 is connected to a lower portion of the water-soluble component removing unit 2.

The water-soluble component removing section 2 and the hydrophobic component removing section 3 are connected to each other through a communication path 5. At this time, on the water-soluble component removing section 2 side, the communication path 5 It is connected to the upper part of the removing unit 2.

Further, one end of an exhaust path 6 is connected to the hydrophobic component removing section 3, and the other end of the exhaust path 6 is open to the outside air.

The path composed of the odor generating section 1, the water-soluble component removing section 2, the hydrophobic component removing section 3, the communication paths 4, 5 and the exhaust path 6 is provided with a vacuum pump at an arbitrary position. Exhaust means including a fan and a fan is provided.
This exhaust means generates an airflow which flows in the above-described path in the order of the offensive odor generating section 1, the communicating path 4, the water-soluble component removing section 2, the communicating path 5, the hydrophobic component removing section 3, and the exhaust path 6. .

When an airflow is generated in the above-described path by the exhaust means using the deodorizing device configured as described above, the air containing the odor component causing the offensive odor in the offensive odor generating section 1 is firstly removed. After passing through the communication path 4, it is introduced into the water-soluble component removing section 2. In the water-soluble component removing section 2, water-soluble odor components such as ammonia, trimethylamine and other nitrogen-based compounds, aldehydes, organic acids, etc. Odor components are removed.

Next, air containing a hydrophobic odor component that has not been removed by the water-soluble component removing unit 2 passes through the communication path 5 from the water-soluble component removing unit 2 and is introduced into the hydrophobic component removing unit 3. Is done. In the hydrophobic component removing unit 3, a hydrophobic material such as mercaptans such as methyl mercaptan and sulfur-based compounds such as hydrogen sulfide and methyl sulfide among the odor components is removed by a removing material 9 for removing a hydrophobic odor component. Odorous components are removed.

The deodorized air from which both the water-soluble odor component and the hydrophobic odor component have been removed is discharged from the hydrophobic component removing section 3 to the outside air through the exhaust path 6. .

Here, when deodorizing an odor containing a large amount of one of the water-soluble odor component and the hydrophobic odor component, the absorption capacity of one of the two types of removing materials 8 and 9 becomes higher. Although it is easy to decrease, as a result, a difference occurs in the replacement frequency of the two types of removing materials 8 and 9, but if the water-soluble component removing unit 2 and the hydrophobic component removing unit 3 are configured separately as described above. ,
It is easy to separately replace the removing materials 8 and 9 in the respective removing units 2 and 3.

The odor component removing materials 8 and 9 used in the deodorizing apparatus having the above-mentioned configuration will be described.

The water-soluble odor component removing material 8 may be any material as long as it can absorb water-soluble odor components such as nitrogen compounds such as ammonia and trimethylamine, and aldehydes and organic acids. Those can also be used.

As such a removing material 8, a material composed of a liquid or a carrier impregnated with a liquid can be used. In this case, the removing material 8 can be replaced. In other words, the removal material 8 having a reduced water-soluble odor component absorption capacity is taken out of the water-soluble component removal unit 2, and a new removal material 8 is held in the water-soluble component removal unit 2, thereby facilitating the removal material 8. In addition, at the time of this exchange, a removing material 8 different from that originally retained in the water-soluble component removing section 2 can be retained.

As a liquid constituting the water-soluble odor component removing material 8, water, a deodorant liquid or a deodorant aqueous solution can be used. The deodorant aqueous solution means an aqueous solution of the deodorant. As the deodorant liquid, for example, a solution of glutaraldehyde or citric acid can be used. For example, an active ingredient containing glutaraldehyde and citric acid as main components is 10% by mass.
Product name "Purière" manufactured by Matsushita Electric Works, Ltd.
Can be used. When an aqueous deodorant solution is used, for example, 0.1% by mass or more of
An aqueous solution having a concentration of less than 00% by mass can be used.

As the carrier constituting the water-soluble odor component removing material 8, a hydrophilic gel, felt or other hydrophilic substance can be used. As the hydrophilic gel, a commonly used water-absorbing polymer can be used.

The other hydrophilic substance may be in any shape, such as porous, fibrous, honeycomb, or granular, as long as it allows gas to pass therethrough. Activated carbon,
Any material, such as silica gel, zeolite, glass, ion-exchange resin, and organic matter, can be used as long as it retains moisture when formed into a shape through which gas can pass. Here, as the ion exchange resin, for example, “Diaion” (trade name, manufactured by Mitsubishi Chemical Corporation) can be used.

As described above, water, a deodorant liquid or an aqueous deodorant solution is used as the liquid constituting the water-soluble odor component removing material 8,
When a hydrophilic gel, felt or other hydrophilic substance is used as a carrier constituting the water-soluble odor component removing material 8, the handleability when the removing material 8 is exchanged is improved.

The above-mentioned water-soluble odor component removing material 8
Is preferably mixed with a pH indicator for indicating the replacement time. Specifically, phenolphthalein, thymol blue, methyl orange, thymolphthalein, or the like can be used as the pH indicator. Such a pH indicator is used as a liquid constituting the water-soluble odor component removing material 8. It is mixed in. In this way, when a water-soluble odor component mainly containing an alkaline nitrogen-based compound such as ammonia and trimethylamine is absorbed by the removing material 8, or a water-soluble odor component mainly containing an acidic component such as an organic acid is removed. When the pH value of the removing material 8 fluctuates when it is absorbed by the removing material 8, the variation of the pH value can be visually recognized due to the discoloration of the pH indicator, and the absorption amount of the water-soluble odor component increases. It is possible to provide an indicator function for easily recognizing the replacement time of the removal material 8 whose absorption capacity has been reduced. The removal material 8 is replaced at an appropriate time to absorb the water-soluble odor component. The ability can be maintained.

The water-soluble odor component removing material 8 constructed as described above is connected between the connection position of the upper communication path 5 and the connection position of the lower communication path 4 in the water-soluble component removing section 2. Held in between. Then, when air is introduced into the water-soluble component removing unit 2 from the communication path 4, the air passes through the water-soluble component removing unit 2 from below to above and through the removing material 8. Water-soluble odor components are absorbed and removed.

If the water-soluble odor component removing material 8 is composed of only a liquid, the air introduced into the water-soluble component removing portion 2 from the communication path 4 is bubbled into the liquid removing material 8. As a result, the contact efficiency between the removing material 8 and the water-soluble odor component is improved, and the water-soluble odor component is efficiently removed. Further, when a porous body 10 such as a sponge connected to the communication path 4 is disposed at the bottom of the water-soluble component removing section 2 as shown in FIG.
The air introduced into the porous body 10 becomes fine bubbles by passing through the porous body 10 and is bubbled into the removing material 8. As a result, the contact efficiency between the removing material 8 and the water-soluble odor component is further improved, Water-soluble odor components are more efficiently removed.

On the other hand, the material 9 for removing hydrophobic odor components is a material capable of absorbing hydrophobic odor components such as mercaptans such as methyl mercaptan and sulfur compounds such as hydrogen sulfide and methyl sulfide. Anything can be used.

[0039] Such a hydrophobic odor component removing material 9
It is preferable to use a solid deodorant, for example, honeycomb activated carbon, granular activated carbon, fibrous activated carbon, granular ceramic deodorant, honeycomb ceramic deodorant, ion exchange resin, or inorganic or organic material A deodorant material carrying a deodorant component can be used. Such a removing material 9 may be used alone or in combination of a plurality of types. In this case, the handleability at the time of replacement of the removing material 9 is improved when the absorbing ability of the removing material 9 for the hydrophobic odor component is reduced.

Here, as the ceramic deodorant such as the granular ceramic deodorant and the honeycomb-shaped ceramic deodorant, cordierite impregnated with ZnCl ₂ can be used. As the ion exchange resin, “Diaion” or the like can be used.

In the deodorizing material in which an inorganic material or an organic material carries a deodorizing component, zeolite or the like can be used as the inorganic material. As the organic material, a polystyrene porous material or the like can be used. As the deodorant component, for example, a solution of glutaraldehyde or citric acid can be used. For example, a trade name of Matsushita Electric Works, Ltd. containing 10% by mass of an active ingredient containing glutaraldehyde and citric acid as main components is available. Puriere "can be used.

The hydrophobic odor component removing material 9 configured as described above is held in the hydrophobic component removing section 3 between the connection position of the communication path 5 and the connection position of the exhaust path 6. You. Then, the hydrophobic component removing unit 3 is connected to the communication path 5.
When air is introduced into the inside, the air passes through the removing material 9 in the hydrophobic component removing unit 3, and at this time, the hydrophobic odor component is absorbed and removed by the removing material 9.

When a plurality of types of hydrophobic odor component removing materials 9 are used in combination, a plurality of removing materials 9 are connected in series between the connection position of the communication path 5 and the connection position of the exhaust path 6. It is preferable to dispose the air, and in this case, the air introduced into the hydrophobic component removing unit 3 sequentially passes through the plurality of removing materials 9, so that all the removing materials 9 can be reliably passed. In this way, air can be reliably passed through the plurality of removing materials 9 having different performances, and many types of odor components can be reliably removed. Here, FIG.
Fig. 2 shows a state in which only one type of hydrophobic odor component removing material 9 is used, while Fig. 2 shows a case in which two types of hydrophobic odor component removing materials 9 (9a, 9b) are used to form a hydrophobic component. FIG. 4 shows a state in which the components are arranged in series in the removing unit 3.

As the water-soluble odor component removing material 8 as described above, a material composed of water, a deodorant liquid or a deodorizing aqueous solution is used, and the hydrophobic odor component removing material 9 is a solid deodorant. By using a material (solid deodorant), it is possible to simultaneously remove odor components having different properties, and to remove the water-soluble odor component from the removal material 8 and the hydrophobic odor component. When the absorption capacity of one of the removing materials 9 is reduced, the removing material can be easily replaced.

Next, the embodiment shown in FIG. 3 will be described.

In the illustrated example, a bad odor generating section 1 similar to that shown in FIG. 1 is provided.

Further, one odor component removing section 11 in which the water-soluble component removing section 2 and the hydrophobic component removing section 3 are integrally formed.
Is provided. In the odor component removing section 11, a water-soluble odor component removing material 8 similar to that shown in FIG.
The material 9 for removing a hydrophobic odor component is held.

The above-mentioned odor generating section 1 and odor component removing section 11
And are connected through communication path 4 at this time,
On the side of the water-soluble component removing unit 2, the communication path 4 is connected to a lower portion of the water-soluble component removing unit 2.

Further, one end of the exhaust path 6 is connected to the odor component removing section 11, and the other end of the exhaust path 6 is open to the outside air.

In the path composed of the odor generating section 1, the odor component removing section 11, the communication path 4 and the exhaust path 6, an exhaust means such as a vacuum pump or a fan is provided at an arbitrary position. Is provided. This exhaust means includes an odor generating section 1, a communication path 4, an odor component removing section 1
1. To generate an airflow flowing in the order of the exhaust path 6.

Here, in the odor component removing section 11, a water-soluble odor component removing material 8 is held at a lower portion, and a hydrophobic odor component removing material 8 is provided above the water-soluble odor component removing material 8. The component removing material 9 is retained.

When an airflow is generated in the above-described path by the exhaust means using the deodorizing device configured as described above, the air containing the odor component causing the offensive odor in the offensive odor generating section 1 is firstly removed. After passing through the communication path 4, it is introduced into the odor component removing unit 11.

The air introduced into the odor component removing section 11 first passes through a removing material 8 for removing water-soluble odor components. At this time, among the odor components, nitrogen-based compounds such as ammonia and trimethylamine, aldehydes, Water-soluble odor components such as organic acids are removed.

Next, the air containing the hydrophobic odor component, which has not been removed by the water-soluble odor component removing material 8, passes through the hydrophobic odor component removing material 9, and at this time, the odor component is removed. Among them, mercaptans such as methyl mercaptan,
Hydrophobic odor components such as sulfur compounds such as hydrogen sulfide and methyl sulfide are removed.

The deodorized air from which both the water-soluble odor component and the hydrophobic odor component are removed is discharged from the odor component removal unit 11 through the exhaust path 6 to the outside air.

Here, when the water-soluble odor component removing material 8 is composed of only a liquid, the odor component removing section 1 is connected to the communication path 4.
The air introduced into 1 is bubbled into the liquid removing material 8, so that the contact efficiency between the removing material 8 and the water-soluble odor component is improved, and the water-soluble odor component is efficiently removed. You. Further, when a porous body 10 such as a sponge connected to the communication path 4 is provided at the bottom of the odor component removal section 11 as shown in FIG.
The air introduced into the porous body 10 becomes fine bubbles by passing through the porous body 10 and is bubbled into the removing material 8. As a result, the contact efficiency between the removing material 8 and the water-soluble odor component is further improved, Water-soluble odor components are more efficiently removed.

When a plurality of removing materials 9 are used in combination as the hydrophobic odor removing material 9, the water-soluble odor component between the connecting position of the communication path 4 and the connecting position of the exhaust path 6 is used. Preferably, a plurality of hydrophobic odor component removing materials 9 are arranged in series above the removing material 8 in this case. In this case, the air introduced into the hydrophobic component removing unit 3 removes the plurality of removing materials 9. It passes sequentially and all the removing materials 9 can pass through reliably. In this way, air is reliably passed through the plurality of removing materials 9 having different performances,
Many types of odor components can be reliably removed.

When the water-soluble component removing section 2 and the hydrophobic component removing section 3 are integrally formed in this manner, the odor component removing section 11 in which the water-soluble component removing section 2 and the hydrophobic component removing section 3 are integrated. Can be formed compactly, and the size of the deodorizing device can be reduced.

[0059]

EXAMPLE (Example 1) An experiment was conducted with a deodorizing device having the configuration shown in FIG.

Here, a container having a capacity of 20 liters was used as the odor generating section 1, and inside the odor generating section 1,
As the odor generation source 7, cat feces of 30 cm ³ were put.

As the water-soluble odor component removing material 8, a deodorizing aqueous solution containing 10% by mass of “Purier” manufactured by Matsushita Electric Works, Ltd. was adjusted to pH 4, and phenolphthalein was added to 180 ml of the deodorizing aqueous solution. A removing material 8 composed of an indicator was used.

As a material 9 for removing a hydrophobic odor component, a honeycomb-shaped cordierite having 400 cells (voids) per 6.45 cm ² (1 in ² ) was formed of Zn.
Ceramic honeycomb deodorant 270c impregnated with Cl ₂
m ³ was used.

Then, the whole path of the deodorizing device was sucked at an air volume of 20 liter / min.

(Comparative Example 1) The same operation as in Example 1 was performed except that the water-soluble component removing section 2 was not provided.

(Comparative Example 2) The same operation as in Example 1 was carried out except that the hydrophobic component removing section 3 was not provided.

(Evaluation) Example 1 and Comparative Examples 1 and 2
, After the start of the test, the exhaust path 6
The air discharged from is collected in a Tedlar bag (bag for sampling of offensive odor gas), and a sensory test is conducted on 10 subjects with normal olfaction to smell the air in the Tedlar bag. The subjects were evaluated for the degree of the odor based on the display method, and the average of the evaluation results was derived. 0: Do not feel 1: Feel slightly 2: Feel slightly strong 3: Feel strong 4: Feel very strong 5: Feel extreme The evaluation results are shown in FIG.

As is apparent from FIG.
The following was maintained (feeling faint), and it was found that the deodorizing performance was superior to that of the comparative example.

In Example 1, the color tone of the water-soluble odor component removing material 8 was still colorless after 16 hours.
After 0 hour, the color changed to red and the sensory value of the odor also changed to 3 (feel strong). It is clear that the decrease in the deodorizing performance can be confirmed based on the change in the color tone of the removing material 8. It became.

(Example 2) An experiment was conducted using a deodorizing apparatus having the configuration shown in FIG.

Here, the odor generating section 1 is the same as that of the first embodiment.
A container having a capacity of 20 liters was used in the same manner as described above, and cat feces of 30 cm ³ were put in the malodor generation section 1 as the odor generation source 7.

As the water-soluble odor component removing material 8, McIlvain (McIlvai) adjusted to pH 4 was used.
250 ml of buffer (aqueous solution of disodium hydrogen phosphate and citric acid) in n) was used.

As the material 9 for removing the hydrophobic odor component, a honeycomb-shaped cordierite having 400 cells (voids) per 6.45 cm ² (1 in ² ) is formed of Zn.
Ceramic honeycomb deodorant 270c impregnated with Cl ₂
m ³ and 150 cm ³ of granular activated carbon (particle diameter: 2 to 3 mm) supported on a mesh wire mesh, a ceramic honeycomb deodorant on the upstream side in the hydrophobic component removing section 3 and a wire mesh on the downstream side. Each of the supported granular activated carbon was held.

Then, the whole path of the deodorizing device was sucked at an air volume of 20 liter / min.

Example 3 An experiment was conducted with a deodorizing apparatus having the configuration shown in FIG.

Here, the odor generating section 1 is the same as that of the first embodiment.
A container having a capacity of 20 liters was used in the same manner as described above, and cat feces of 30 cm ³ were put in the malodor generation section 1 as the odor generation source 7.

As the water-soluble odor component removing material 8, a deodorizing aqueous solution containing 80% by mass of “Purier” manufactured by Matsushita Electric Works, Ltd. was adjusted to pH 4, and the deodorizing aqueous solution was further converted to a hydrophilic solution. 20 ml of a polymer impregnated and supported so that the weight ratio of the hydrophilic polymer to the deodorant aqueous solution was 1: 5 was used and dispersed in 160 ml of water.

As a material 9 for removing a hydrophobic odor component, a honeycomb-shaped cordierite having 400 cells (voids) per 6.45 cm ² (1 in ² ) is formed of Zn.
Ceramic honeycomb deodorant 270c impregnated with Cl ₂
m ³ was used.

Then, the whole path of the deodorizing device was sucked at an air volume of 30 liter / min.

Example 4 An experiment was conducted with a deodorizing device having the configuration shown in FIG.

Here, the odor generating section 1 is the same as that of the first embodiment.
A container having a capacity of 20 liters was used in the same manner as described above, and cat feces of 30 cm ³ were put in the malodor generation section 1 as the odor generation source 7.

As the water-soluble odor component removing material 8, a honeycomb-shaped cordierite having 400 cells (pores) per 6.45 cm ² (1 in ² ) may be used.
Ceramic honeycomb deodorant 150c impregnated with Cl ₂
in m ^3, Matsushita Electric Works of Research Co., Ltd. to "Pyurieru" 5
A deodorant aqueous solution containing 0% by mass was impregnated with 100 cm ^{3 of} a deodorant aqueous solution adjusted to pH 6 and supported.

As the material 9 for removing hydrophobic odor components, 280 cm ^{3 of} honeycomb activated carbon having 400 cells (voids) per 6.45 cm ² (1 in ² ), and ZnCl _{2 in} cordierite were used. The impregnated ceramic honeycomb deodorant 270 cm ³ was used in combination, and the honeycomb-shaped activated carbon was held upstream of the hydrophobic component removing section 3 and the ceramic honeycomb deodorant was held downstream.

Then, the entire path of the deodorizing device was sucked at an air volume of 30 liter / min.

Example 5 As shown in FIG. 3, an experiment was conducted using a deodorizing apparatus having a configuration in which the water-soluble component removing unit 2 and the hydrophobic component removing unit 3 were integrated.

Here, the odor generating section 1 is the same as that of the first embodiment.
A container having a capacity of 20 liters was used in the same manner as described above, and cat feces of 30 cm ³ were put in the malodor generation section 1 as the odor generation source 7.

As the water-soluble odor component removing material 8, a deodorizing aqueous solution containing 55% by mass of “Purier” manufactured by Matsushita Electric Works, Ltd. was adjusted to pH 8, and 180 cm ^{3 of} this deodorizing aqueous solution was further added. What was impregnated and supported on 250 cm ³ of fibrous activated carbon was used.

As the material 9 for removing the hydrophobic odor component, 150 cm ³ of granular activated carbon (particle diameter: 2 to 3 mm) supported on a mesh wire mesh was used.

Then, the whole path of the deodorizing device was sucked at an air volume of 30 liter / min.

(Comparative Example 3) Cat feces, which is the odor generating source 7, were not deodorized by the deodorizing device.

(Evaluation Test) Five hours after the start of the test in the above Examples 2 to 5, the air discharged from the exhaust path 6 was collected in a Tedlar bag (bag for sampling of offensive odor gas), and the air with normal olfactory sense was collected. A sensory test was conducted in which a human subject smelled the air in the Tedlar bag, and as described above, the degree of the odor was evaluated by the subject, and the average value of the evaluation results was derived. Also, for Comparative Example 3, the subject smelled the air around the feces of the cat 5 hours after the start of the test,
The same evaluation was performed.

Table 1 shows the results.

[0092]

[Table 1]

The average value of the evaluation results was 3.5 in Comparative Example 3.
4 (very strong) and 3 (strong)
While in Examples 2 to 5, the evaluation was 1
An evaluation between (slightly felt) and 0 (not felt) was obtained, and Examples 2 to 5 were found to have excellent deodorizing performance.

Example 6 An experiment was conducted with a deodorizing device having the configuration shown in FIG.

Here, a container of a garbage disposal machine having a capacity of 40 liters was used as the odor generating section 1, and garbage was put in the odor generating section 1 as an odor generating source 7.

As the water-soluble odor component removing material 8, a deodorizing aqueous solution containing 25% by mass of "Purier" manufactured by Matsushita Electric Works, Ltd. was adjusted to pH 4, and 200 ml of this deodorizing aqueous solution was added to phenolphthalein. A removing material 8 composed of an indicator was used.

As the material 9 for removing a hydrophobic odor component, a honeycomb-shaped cordierite having 400 cells (voids) per 6.45 cm ² (1 in ² ) was coated with Zn.
Ceramic honeycomb deodorant 100c impregnated with Cl ₂ 100c
m ³ was used.

Then, the whole path of the deodorizing device was sucked at an air volume of 25 L / min.

(Comparative Example 4) The garbage as the odor source 7 was not deodorized by the deodorizer.

(Evaluation Test) The air exhausted from the exhaust path 6 was taken into a Tedlar bag (bag for sampling of odorous gas) every predetermined period from the start of the test in the above-mentioned Example 6, and a normal olfactory sense was measured. A sensory test was conducted in which a human subject smelled the air in the Tedlar bag, and as described above, the degree of the odor was evaluated by the subject, and the average value of the evaluation results was derived. Then, when the evaluation changes to 2 (feels somewhat strong) and the color of the water-soluble odor component removing material 8 becomes red, the water-soluble odor component removing material 8 is replaced with one month. The deodorizing device was operated continuously during the period.

As a result, in Example 6, it was possible to drive continuously for one month while maintaining an evaluation of 2 (somewhat strongly felt) or less.

Further, in Comparative Example 4, when the subject smelled the air around the garbage and made a similar evaluation, the evaluation was 5 (extremely felt), which is also excellent in Example 6. It was found to have deodorant performance.

[0103]

As described above, the deodorizing apparatus according to the first aspect of the present invention comprises a hermetically sealed water-soluble component removing section holding a water-removing material for removing a water-soluble odor component; Since it is equipped with a hermetically sealed hydrophobic component removing section in which a removing material for removing components is held, local odors such as pet odors and garbage odors are eliminated at the source thereof, and indoors. It can be deodorized before being diffused, and it can remove deodorants by removing both water-soluble odor components and hydrophobic odor components, and can perform effective deodorization. It can be reduced to a level that is not felt by consumers.

According to a second aspect of the present invention, in the first aspect, the water-soluble component removing section and the hydrophobic component removing section are integrally formed, so that the water-soluble component removing section and the hydrophobic component removing section are compact. Therefore, the size of the deodorizing device can be reduced, and two types of odor components having different properties can be simultaneously removed by one removing unit.

According to a third aspect of the present invention, in the first aspect, since the water-soluble component removing portion and the hydrophobic component removing portion are formed separately, there is a difference in replacement frequency of the two kinds of removing materials. In addition, the replacement of the removing material can be easily performed.

According to a fourth aspect of the present invention, in any one of the first to third aspects, the water-soluble odor component-removing material is constituted by a liquid or a carrier impregnated with the liquid so as to be exchangeable. Therefore, by replacing the removing material having a reduced odor component absorbing ability, the deodorizing ability can be maintained for a long period of time.

According to a fifth aspect of the present invention, in the fourth aspect, water, a deodorant liquid, or an aqueous deodorant solution is used as a liquid constituting the water-soluble odor component removing material, and the water-soluble odor component removing material is used. Since a hydrophilic gel, felt, or other hydrophilic substance is used as the carrier to be constituted, the handling property at the time of replacing the water-soluble odor component removing material is improved.

The invention according to claim 6 is the invention according to any one of claims 1 to 5, wherein the material for removing a hydrophobic odor component is:
Since a solid deodorant is used, the handleability at the time of replacement of the hydrophobic odor component removing material is improved.

The invention according to claim 7 is the invention according to claim 6, wherein the solid deodorant is honeycomb activated carbon, granular activated carbon, fibrous activated carbon, granular ceramic deodorant, honeycomb ceramic deodorant, ion exchange resin. In addition, since at least one selected from the deodorizing materials in which the deodorizing component is supported on an inorganic material or an organic material is used, the handleability at the time of replacing the material for removing the hydrophobic odor component is improved. .

The invention according to claim 8 is the invention according to any one of claims 1 to 7, wherein the material for removing a water-soluble odor component is composed of water, a deodorant liquid or an aqueous deodorant solution.
Since a material composed of a solid deodorant is used as a hydrophobic odor component remover, odor components with different properties can be removed at the same time. When the absorption ability of one of the odor component removing materials is reduced, the removing material can be easily replaced.

Further, according to the ninth aspect of the present invention, in the first to eighth aspects, the water-soluble odor component is mixed with the pH indicator for indicating the replacement time, so that the water-soluble odor component is added to the material. When the pH value of the removing material fluctuates by being absorbed, the fluctuation of the pH value can be visually recognized by the discoloration of the pH indicator, and the absorption amount of the water-soluble odor component increases, and the absorption capacity decreases. The replacement time of the removing material can be easily recognized.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing an example of an embodiment of the present invention.

FIG. 2 is a schematic diagram showing another example of the embodiment of the present invention.

FIG. 3 is a schematic diagram showing still another example of the embodiment of the present invention.

FIG. 4 is a graph showing evaluation results of Example 1 and Comparative Examples 1 and 2.

[Explanation of symbols]

 2 Water-soluble component removal section 3 Hydrophobic component removal section 8 Removal material 9 Removal material

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B01D 53/04 B01D 53/04 Z 53/14 53/14 A B01J 20/02 B01J 20/02 A 20 / 10 20/10 C 20/20 20/20 A 20/28 20/28 A (72) Inventor Yoshinori Masuko 1048 Odakadoma, Kadoma, Osaka Prefecture Inside Matsushita Electric Works, Ltd. (72) Inventor Yasuo Shiba Nishinomiya, Hyogo 4-2-1 Nishinomiyahama F-term (reference) in Matsushita Electric Works, Ltd. 4C080 AA05 BB02 CC01 CC07 CC08 CC09 CC13 CC15 HH03 HH05 HH09 JJ03 KK08 LL03 LL04 MM05 MM13 MM14 NN04 NN05 NN06 NN22 4D012 CB13 CB17 CB02 CG04 CG06 CH04 CK06 CK07 4D020 AA08 AA09 BA19 BA23 BB03 BB07 CA01 CB02 CB33 CC20 CD03 4G066 AA02C AA05B AA05C AA14B AA32B AA50B AA50D AA66B AA72B AA72C AB06 BA07B AC12 AD03 BA28 BA41 CA02 CA07 CA22 CA24 CA27 CA29 CA52 DA15 DA20

Claims (9)

[Claims] 1. A hermetically-sealed water-soluble component removing section holding a water-soluble odor component removing material, and a hermetically-sealed hydrophobic component removing device holding a hydrophobic odor component removing material. And a deodorizing device. 2. The deodorizing apparatus according to claim 1, wherein the water-soluble component removing portion and the hydrophobic component removing portion are integrally formed. 3. The deodorizing apparatus according to claim 1, wherein the water-soluble component removing section and the hydrophobic component removing section are formed separately. 4. The method according to claim 1, wherein the water-soluble odor component removing material is formed of a liquid or a carrier impregnated with the liquid so as to be replaceable. The deodorizing device described. 5. A water, a deodorant solution or an aqueous deodorant solution is used as a liquid constituting a water-soluble odor component removing material, and a hydrophilic gel, felt or a carrier is used as a carrier constituting a water-soluble odor component removing material. The deodorizing device according to claim 4, wherein the deodorizing device is formed using another hydrophilic substance. 6. A solid deodorizing material is used as a material for removing a hydrophobic odor component.
The deodorizing device according to any one of the above. 7. Solid deodorants include honeycomb activated carbon, granular activated carbon, fibrous activated carbon, granular ceramic deodorant, honeycomb ceramic deodorant, ion-exchange resin, and deodorant components for inorganic or organic materials. 7. The deodorizing apparatus according to claim 6, wherein at least one selected from the deodorizing materials carrying the material is used. 8. A water-removable odor component remover composed of water, a deodorant solution or a deodorant aqueous solution, and a hydrophobic odor component remover composed of a solid deodorant material. The deodorizing device according to any one of claims 1 to 7, wherein the deodorizing device is made of a material. 9. The deodorizing apparatus according to claim 1, wherein a pH indicator for indicating a replacement time is mixed in the water-soluble odor component removing material.