JP2001091145A - Refrigerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To lower the humidity within a storage chamber, and also, deodorize a large quantity of offensive smell, by employing a compact and inexpensive deodorizing member, in a refrigerator. SOLUTION: In a refrigerator which is equipped with the main body of itself forming storage chambers 2, 4, and A and a deodorizing member B arranged within the storage chamber A, hydroscopic fibers which absorb and keep the moisture within the storage chambers 2, 4, and 4 and deodorizing fibers 21 which deodorize the components 24 of the offensive smell within the storage chambers 2, 4, and A by adsorption or decomposition are mixed to form it integrally.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a refrigerator, and more particularly to a refrigerator having a deodorizing function in a storage room.

[0002]

2. Description of the Related Art As a conventional refrigerator having a deodorizing function, for example, as described in Japanese Patent Application Laid-Open No. 7-12451, in a vegetable room of a refrigerator, it is formed into a film-like shape on a moisture permeable film portion on an upper surface of a vegetable container. By integrating the adsorbent
There are some that deodorize inside the vegetable room while maintaining the freshness of vegetables and fruits. This moisture permeable membrane is a laminate of a silicon thin film and a hydrophilic nylon fiber, and gradually permeates moisture equal to or higher than the saturation humidity of the moisture evaporated from the vegetables stored in the vegetable container, so that the inside of the vegetable container has a humidity of 80 to 95% R. H. Is to keep it. The adsorbent is for adsorbing odor molecules generated from vegetables and fruits in the vegetable container and deodorizing them.

[0003]

However, in the above-mentioned prior art, even though the moisture permeable membrane and the adsorbent are integrated, only the two are simply adhered to each other, and the moisture permeable membrane is simply attached. It merely has a moisture permeation function due to water and a deodorizing function by the adsorbent alone, and does not describe that the moisture-permeable membrane functions synergistically with the function of the adsorbent.

[0004] In this prior art, the moisture permeable membrane permeates the moisture evaporation of the food itself, and supplies moisture from the moisture permeable membrane when the load is small or when the moisture content of the load is small. It is not described.

An object of the present invention is to provide a compact and inexpensive structure in which moisture in contact with a deodorizing member is adsorbed and held by a hygroscopic fiber, so that odor components existing together with water in the storage chamber are adsorbed. The odor components are collected in the deodorizing member together with the retained moisture, and are retained in the deodorizing member by being retained together with the retained moisture, thereby effectively adsorbing or absorbing the deodorant fibers. An object of the present invention is to provide a refrigerator that can be decomposed and deodorized, thereby removing a large amount of odor.

Another object of the present invention is to provide a compact and inexpensive structure in which moisture in a storage chamber is adsorbed and held by hygroscopic fibers, whereby odor components in the storage chamber are collected together with the moisture. Since the odor components are retained by the moisture and retained in the deodorizing member, the odor components can be effectively deodorized by the deodorizing fibers, and the retained moisture is released, and then new moisture is adsorbed. By being held, the odor components are collected together with the newly adsorbed moisture, and the above-described effective deodorization is performed.
It is an object of the present invention to provide a refrigerator capable of deodorizing a larger amount of odor by repeating this process.

[0007] It is another object of the present invention to keep the inside of a storage container arranged in a storage room at high humidity,
An object of the present invention is to provide a refrigerator capable of satisfactorily deodorizing inside and outside of a storage container.

[0008]

A first feature of the present invention to achieve the above object is that a refrigerator main body forming a storage room opened and closed by a door, and moisture in the storage room is absorbed and held. A deodorizing member for deodorizing an odor component in the storage chamber, wherein the deodorizing member absorbs and retains moisture in the storage room, and desorbs or decomposes the odor component in the storage room. And deodorant fibers are mixed and integrally formed.

A second feature of the present invention is that a refrigerator main body forming a storage room opened and closed by a door, a device for absorbing and holding moisture in the storage room, releasing the held water and releasing an odor in the storage room A deodorizing member for deodorizing components, wherein the deodorizing member adsorbs and retains moisture in the storage chamber and releases the retained moisture, and absorbs or decomposes odor components in the storage chamber. And deodorizing fibers which are deodorized.

Preferably, the deodorizing fiber has a crosslinked structure and contains fine particles of a metal salt.

More preferably, the moisture-absorbing and desorbing fiber is
The acrylate-based moisture-absorbing and desorbing fiber is characterized in that the deodorizing fiber contains silver oxide fine particles in an acrylate-based fiber having an alkali metal salt-type carboxyl group and a crosslinked structure.

[0012] Preferably, any fiber constituting the deodorizing member is impregnated with a quaternary ammonium salt.

Preferably, the ratio of the deodorizing fibers constituting the deodorizing member is 21 to 50% by weight.

A third feature of the present invention is that a refrigerator body forming a storage room opened and closed by a door, and a deodorizing member for absorbing and holding moisture in the storage room and deodorizing odor components in the storage room. The deodorizing member comprises a hygroscopic fiber that adsorbs and retains moisture in the storage chamber and a deodorant fiber that adsorbs or decomposes and deodorizes odor components in the storage chamber to form an integrated body. The storage chamber is formed in the shape of a plate, and is disposed in the vicinity of the cool air vent of the storage chamber.

[0015] A fourth feature of the present invention is that a refrigerator main body forming a storage room opened and closed by a door, a storage container arranged in the storage room for storing stored items in a high humidity state,
Along with adsorbing and holding the moisture in the storage chamber, a deodorizing member is provided for deodorizing odor components in the storage chamber, wherein the deodorizing member absorbs and retains the moisture in the storage chamber, A deodorant fiber that adsorbs or decomposes and deodorizes an odor component in the storage chamber is mixed with the deodorant fiber to form an integrally plate-like shape. Configuration.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings.

1 to 3, reference numeral 1 denotes a refrigerator main body, 2
Is a freezer compartment, 3 is a freezer compartment door, 4 is a refrigerator compartment, and 5 is a refrigerator compartment door. 6 is a fan for circulating cool air, 7 is a motor for driving the fan 6, and 8 is an evaporator. A is a high humidity vegetable room, 9 is a door of the vegetable room A, and 10 is a compressor. Numeral 11 denotes a vegetable container lid arranged to increase the hermeticity of the vegetable compartment A for indirect cooling, B denotes a deodorizing plate constituting a deodorizing member, and C denotes a vegetable container.

The refrigerator main body 1 has a freezer compartment 2, a refrigerating compartment 4, and a high-humidity vegetable compartment A, which constitute a storage compartment, formed vertically. A cooling air circulation fan 6 is provided on the rear side of the freezing compartment 2.
And an evaporator 8. The freezer compartment 2, the refrigerator compartment 4, and the high-humidity vegetable compartment A communicate with a space having a fan 6 and an evaporator 8 via a duct or the like. The evaporator 8 and the compressor 10 are connected by a pipe through which a refrigerant flows to form a refrigeration cycle.

The vegetable container C is installed in the vegetable room A, has a vegetable container lid 11 on the upper surface, and forms a closed storage container. The deodorizing plate B is disposed so as to close the opening 11a provided at the rear center of the vegetable container lid 11,
It is provided so as to face inside and outside the vegetable container C. The position where the deodorizing plate B is arranged is a portion where the cool air is discharged to the vegetable room A, that is, in the vicinity of the cool air vent. Vegetable container lid 11
A beam 11b is provided at the center of the opening 11a so that the deodorizing plate B does not easily come off. By disposing the deodorizing plate B in this manner, the deodorizing plate B can have a function of adjusting the humidity in the vegetable container C as described later.

By driving the cooling air circulation fan 6, the air in each of the storage chambers 2, 4, and A is sucked into the evaporator 8, cooled by the evaporator 8, and then cooled. , A, and the inside of each storage room 2, 4, A is cooled. Thus, the air in each of the storage chambers 2, 4, and A circulates in all the storage chambers 2, 4, and A.

Here, the vegetable room A will be further described. Cooling air flows into the vegetable compartment A from the upper rear side. The inflowing cool air is branched to the upper surface of the vegetable container lid 11 and the lower side of the vegetable container C, the cool air flows so as to cover the vegetable container C, and returns to the evaporator 8 from the upper front of the vegetable room A. ing. The deodorizing plate B is in contact with the cool air passing through the upper surface of the vegetable container lid 11, and is particularly installed near the outlet, where the cool air is concentrated and passes through the upper surface, so that the odor in the cool air is intensively deodorized. You can do it.

The deodorizing plate B is mainly made of fiber, and is given a rigidity by compression-molding it into a plate shape in consideration of assemblability and handling in mass production. That is, the deodorizing plate B is made of a nonwoven fabric of functional fibers. The type of the fiber constituting the deodorizing plate B is an acrylate-based moisture-absorbing / desorbing fiber having excellent moisture-absorbing / desorbing performance, for example, NX- manufactured by Nippon Exlan Industrial Co.
72, an acrylate-based deodorant fiber having excellent deodorizing performance,
For example, NX-82G manufactured by Exlan Japan Co., Ltd., and a heat-fusible fiber for bonding fibers at the time of compression molding to impart rigidity, such as a heat-fusible polyester fiber, and other fibers. Are mixed and integrally formed. Other fibers are general fibers having no special function, for example, acrylic fibers. In this embodiment, the moisture absorbing / releasing fiber is used. However, the present invention includes the moisture absorbing / releasing fiber having a function of adsorbing and retaining moisture.

The moisture absorbing / releasing fiber NX-72 can be produced by the method described in JP-A-5-132858. Specifically, a crosslinked structure is introduced into the acrylic fiber by hydrazine treatment. When the obtained crosslinked fiber is further hydrolyzed with a caustic soda solution, a Na salt type carboxyl group is introduced, and a moisture absorbing / releasing fiber is obtained. The salt type of the carboxyl group may be any alkali metal, and is not limited to Na.

The deodorant fiber NX-82G can be produced by the method described in Japanese Patent Application Laid-Open No. 9-241967. Specifically, a crosslinked structure is introduced into the acrylic fiber by hydrazine treatment. When the obtained crosslinked fiber is further hydrolyzed with a caustic soda solution, a carboxyl group is introduced, and then treated with an aqueous silver nitrate solution to obtain a fiber substituted with silver ions. The obtained fiber is treated with an aqueous solution of caustic soda to obtain a fiber containing silver oxide fine particles which is a deodorant fiber having a Na salt type carboxyl group. The salt form of the carboxyl group is the same as described above.

Although silver oxide is present as fine particles inside the fiber, the silver oxide of the fine particles can be retained inside by containing the crosslinked structure and the structure containing an alkali metal salt type carboxyl group. A deodorizing fiber having excellent deodorizing performance without easily falling off silver oxide is obtained.

The moisture-absorbing and desorbing fibers of the deodorizing plate B contain many alkali metal salt-type carboxyl groups inside the fibers, so that a large amount of water in the storage chamber can be adsorbed and retained, and Since it has a crosslinked structure, it has a function of releasing retained moisture. Further, the deodorant fiber has a function of adsorbing or decomposing odor components in the storage chamber to deodorize, has a crosslinked structure and contains fine particles of a metal salt, specifically, This is a fiber in which fine particles of silver oxide are contained in a fiber having an alkali metal salt-type carboxyl group and a crosslinked structure.

Here, a more specific configuration and functions of the deodorizing plate B will be schematically described with reference to FIG. As shown in FIG. 4, the deodorizing plate B includes a moisture absorbing / releasing fiber 27, a deodorizing fiber 21, a heat fusible fiber 28, and other fibers 29 mixed and integrated. The deodorizing fiber 21 of the deodorizing plate B has a cross-link 26 as shown in a schematic enlarged view of one of the fibers.
The acrylate-based fiber having the formula (1) contains a Na salt type carboxyl group 22 and silver oxide fine particles 23 inside the fiber. It is considered that the odor components in the air inside and outside the vegetable container C in contact with the deodorizing plate B, for example, methyl mercaptan 24, are oxidatively decomposed by the silver oxide fine particles 23 and deodorized. The reaction formula is shown below. Ag ₂ O + CH ₃ SH + 3 / 2O ₂ → Ag ₂ S + CO ₂ +2
H ₂ O The water 25 generated here is adsorbed on the alkali metal salt type carboxyl groups in the moisture absorbing / desorbing fiber or on the alkali metal salt type carboxyl groups 22 inside the deodorant fiber which partially remains, and is effective for humidity control. Be utilized.

Next, the performance of the deodorizing plate B of the present invention depending on the mixing ratio of each fiber will be described.

First, the mixing ratio of the deodorant fibers 21 is shown in FIG.
This will be described with reference to Table 1. The deodorizing performance represented by the residual ratio of methyl mercaptan was measured along with the elapsed time while changing the mixing ratio of the deodorizing fibers 21 of the deodorizing plate B of the present invention, and the refrigerator (conventional product) using a conventionally known low-temperature active deodorizing catalyst was measured. As a result of a comparative study, as shown in FIG. 5, when the content of the deodorizing fiber 21 of the deodorizing plate B was set to 21% by weight or more, it was found that the deodorizing performance was higher than that of the conventional product after a predetermined time had elapsed. In addition, as the mixing ratio of the deodorizing fibers 21 of the deodorizing plate B increases, the performance improves, but as shown in Table 1, the mixing ratio of the deodorizing fibers 21 is 5%.
It has been found that when the content exceeds 0% by weight, the strength decreases below a predetermined value.

[0030]

[Table 1]

Therefore, the mixing ratio of the deodorant fibers 21 of the deodorizing plate B is desirably 21 to 50% by weight.

Further, the deodorizing plate B is easy to assemble in mass production.
It is desirable to impart strength (rigidity) by compression-molding this into a plate shape in consideration of handleability. For this purpose, it is necessary to mix heat-fusible fibers 28. The change in strength (rigidity) depending on the mixing ratio of the heat-fusible fibers 28 is as shown in Table 2, and the mixing ratio of the heat-fusible fibers 28 is 40% by weight.
It has been found that the strength drops below a predetermined value when the strength falls below the predetermined value.

[0033]

[Table 2]

Therefore, in order to compress and form the deodorizing plate B into a plate shape, it is necessary to set the mixing ratio of the heat-fusible fibers 28 to 40% by weight or more.

Further, regarding the moisture absorbing / releasing fiber 27,
Although it is necessary to keep moisture at all times, in particular, if moisture can be absorbed quickly, odor components collected together with moisture can be quickly absorbed, and deodorizing performance is improved. Therefore, it is necessary to preferably maintain the same amount of moisture-absorbing and releasing fibers as in the past, and for example, 33% by weight or more is effective.

In the deodorizing plate B, the moisture absorbing and releasing fibers 27 retain moisture, and the odor components collected by the moisture are removed by the deodorant fibers 2.
1 is chemically adsorbed or chemically decomposed so as to exhibit a deodorizing effect. Therefore, it is necessary to arrange the moisture absorbing / releasing fiber 27 and the deodorant fiber 21 so as to be close to each other.

By installing the deodorizing plate B inside the storage room, when the load is large, or when the outside warm air flows into the low-temperature storage room due to the opening and closing of the door, it absorbs excess moisture in the room to form dew. When the humidity in the storage room is reduced due to a small load or a food with a low moisture content being stored as a load, etc. The moisture can be evaporated to adjust the humidity to a level suitable for preserving indoor food. With the above configuration,
The moisture inside the deodorizing plate B can be kept at all times during storage of the food, and the moisture can be effectively deodorized as an adsorbent.

Furthermore, since water is always retained, the environment is advantageous for the propagation of bacteria.
Propagation of the fibers with an antibacterial agent such as a quaternary ammonium salt or chemical treatment of the fibers with the antibacterial agent, and carrying the antibacterial agent on the deodorizing plate can prevent the propagation of bacteria.

When the deodorizing member is impregnated with a quaternary ammonium salt to impart antibacterial properties, the processing method is not limited. That is, any fiber constituting the member may be preliminarily impregnated and then used as a deodorizing member, or a formed deodorizing plate may be impregnated.

In the refrigerator of the present invention, the hygroscopic fiber 27 that adsorbs and retains moisture in the storage room and the deodorant fiber 21 that adsorbs or decomposes odor components to deodorize are mixed and integrally formed. Since the deodorizing member B is used, the humidity in the storage room can be reduced by the compact and inexpensive configuration, and the moisture in contact with the deodorization member B is adsorbed and held by the hygroscopic fiber 27, and The odor component present together with the moisture is collected in the deodorizing member B together with the absorbed and retained moisture, and is retained in the deodorizing member B by retaining the odor component together with the retained moisture. As a result, the fibers are effectively adsorbed or decomposed by the deodorant fibers 21 and deodorized, whereby a large amount of odor can be deodorized.

The moisture absorbing / releasing fiber 27 which absorbs and holds the water in the storage chamber and releases the held water.
And the deodorizing fiber 21 that adsorbs or decomposes and deodorizes the odor components in the storage chamber to form an integrated deodorizing member B, so that the moisture in the storage chamber is absorbed by a compact and inexpensive configuration. By being adsorbed and held by the moisture releasing fibers 27, the odor component in the storage chamber is collected together with the moisture, and the odor component is held by the moisture and the deodorizing member B
Odor components can be effectively deodorized, and the retained moisture is released.After that, new moisture is adsorbed and retained, so that the odor components are newly adsorbed. The water is collected together with the water, and the above-mentioned effective deodorization is carried out. By repeating this process, a large amount of odor can be deodorized.

Further, since the deodorizing fiber 21 having the crosslinked structure and containing the fine particles 23 of the metal salt is used for the deodorizing member B, a more excellent deodorizing effect can be obtained.

Further, the odor-absorbing and desorbing fiber 21 containing acrylate-based moisture-absorbing / desorbing fiber 27 and silver oxide fine particles 23 in a fiber having a crosslinked structure with the alkali metal salt type carboxyl group 22 is used for the deodorizing member B. Therefore, a more excellent humidity control effect and deodorizing effect can be obtained.

Further, since the deodorizing member B is impregnated with a quaternary ammonium salt, it is possible to prevent the deodorizing member B from being contaminated by bacteria, etc., despite the environment in which water is retained and suitable for propagation of bacteria. It can be reliably prevented. The quaternary ammonium salt mentioned here includes, for example, an alkyltrimethylammonium salt and an alkyldimethylbenzylammonium salt.

Further, since the ratio of the deodorant fibers 21 constituting the deodorizing member B is set to 21 to 50% by weight,
A deodorizing member excellent in deodorizing performance and processability can be obtained.

Further, since the deodorizing member B is disposed in the vicinity of the cool air vent of the storage room, odor components in the air circulating in the storage can be intensively removed.

Further, the opening 11a provided in the storage container C
The deodorizing member B is disposed in the storage container C, and the inside and the outside of the storage container C are communicated through the deodorizing member B. Therefore, the inside of the storage container C can be maintained at a high humidity, and the deodorization inside and outside the storage container C can be performed well. be able to.

[0048]

According to the present invention, it is possible to reduce the humidity in the storage chamber by absorbing moisture in the storage chamber and holding it in a compact and inexpensive configuration by the absorbent fibers.
Further, the odor component in the storage chamber is collected together with the moisture, and the odor component is retained in the deodorizing member by being retained together with the retained moisture, whereby the odor component is effectively adsorbed or absorbed by the deodorant fiber. Decomposed and deodorized,
Thus, a refrigerator capable of deodorizing a large amount of odor can be obtained.

In a compact and inexpensive configuration, the moisture in the storage chamber is adsorbed and held by the moisture-absorbing and desorbing fibers, so that the odor components in the storage chamber are collected together with the moisture.
This odor component is retained by the moisture and retained in the deodorizing member, so that the odor component can be effectively deodorized by the deodorizing fiber, and the retained moisture is released, and then new moisture is adsorbed. By being kept and held, the odor component is collected together with the newly adsorbed moisture, and the above-described effective deodorization is performed. By repeating this operation, a larger amount of odor can be deodorized. You can get a refrigerator.

Further, it is possible to obtain a refrigerator which can keep the inside of the storage container arranged in the storage room at high humidity and can well deodorize the inside and outside of the closed container.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a refrigerator of the present invention.

FIG. 2 is an enlarged vertical sectional view of a vegetable compartment of the refrigerator of FIG.

FIG. 3 is a perspective view of a vegetable container lid used for the vegetable compartment container of the refrigerator of FIG. 1;

FIG. 4 is a diagram schematically illustrating a deodorizing plate used in the refrigerator in FIG. 1;

5 is a characteristic diagram comparing the deodorizing performance of a deodorizing plate used in the refrigerator of FIG. 1 with a low-temperature active deodorizing catalyst used in a conventional refrigerator.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Refrigerator main body, 2 ... Freezer compartment, 3 ... Freezer compartment door, 4 ... Refrigerator compartment, 5 ... Refrigerator compartment door, 6 ... Fan, 7 ... Fan motor, 8
... Evaporator, 9 ... Vegetable compartment door, 10 ... Compressor, A ... High humidity vegetable compartment, 11 ... Vegetable container lid, 11a ... Opening, 11b ... Beam, B ... Deodorizing member (deodorizing plate), C ... Storage container ( Vegetable container), 21: deodorant fiber, 22: Na salt type carboxyl group, 23: silver oxide fine particles, 24: odor component, 25: moisture, 26: cross-linking, 27: moisture absorbing / releasing fiber (hygroscopic fiber) , 28: heat fusible fibers, 29: other fibers.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Kunari Araki 800, Tomita, Odai, Ohira-cho, Shimotsuga-gun, Tochigi Prefecture Inside the Cooling and Refrigerating Business Dept., Hitachi, Ltd. Hitachi, Ltd.Cooling Division (72) Inventor Nobuaki Kuriyama 800, Oita-cho, Ohira-cho, Shimotsuga-gun, Tochigi Prefecture, JapanCooling & Heating Division, Hitachi, Ltd. Exlan Industrial Co., Ltd.

Claims (8)

[Claims] 1. A refrigerator main body forming a storage room opened and closed by a door, and a deodorizing member for absorbing and retaining moisture in the storage room and deodorizing an odor component in the storage room, wherein the deodorizing member is provided. A moisture absorbing fiber that adsorbs and retains moisture in the storage chamber and a deodorant fiber that adsorbs or decomposes and deodorizes an odor component in the storage chamber are formed integrally. refrigerator. 2. A refrigerator body forming a storage room opened and closed by a door, a deodorizing member for absorbing and holding moisture in the storage room, releasing the held water, and deodorizing odor components in the storage room. Wherein the deodorizing member adsorbs and retains moisture in the storage chamber and releases the retained moisture, and a deodorant fiber that adsorbs or decomposes and deodorizes odor components in the storage chamber. Characterized by being integrally formed by mixing the above. 3. The refrigerator according to claim 1, wherein the deodorizing fiber has a crosslinked structure and contains fine particles of a metal salt. 4. The moisture-absorbing and desorbing fiber is an acrylate-based moisture-absorbing and desorbing fiber, and the deodorant fiber contains an acrylate-based fiber having a crosslinked structure with an alkali metal salt-type carboxyl group and silver oxide fine particles. The refrigerator according to claim 2, wherein the refrigerator is a refrigerator. 5. The refrigerator according to claim 1, wherein a quaternary ammonium salt is impregnated in any one of the fibers constituting the deodorizing member. 6. The refrigerator according to claim 1, wherein the proportion of the deodorant fibers constituting the deodorizing member is 21 to 50% by weight. 7. A refrigerator main body forming a storage room opened and closed by a door, and a deodorizing member for absorbing and holding moisture in the storage room and deodorizing an odor component in the storage room, wherein the deodorizing member is provided. A hygroscopic fiber that adsorbs and retains moisture in the storage chamber, and a deodorant fiber that adsorbs or decomposes and deodorizes odor components in the storage chamber are mixed and formed integrally into a plate shape, A refrigerator, wherein the refrigerator is arranged near a cool air vent of the storage room. 8. A refrigerator main body forming a storage room opened and closed by a door, a storage container arranged in the storage room for storing stored items in a high-humidity state, and adsorbing moisture in the storage room. A deodorizing member for holding and deodorizing an odor component in the storage room, wherein the deodorizing member adsorbs or decomposes the odor component in the storage room and a hygroscopic fiber for absorbing and retaining the moisture in the storage room. And a deodorant fiber that is deodorized by mixing with the storage container, is integrally formed in a plate shape, and is disposed in an opening provided in the storage container to communicate inside and outside of the storage container.