JP2001165477A - Humidifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a humidifier dispensing with a control of the amount of humidification, having a small-sized structure and being suitable for humidifying the inside of a refrigerator. SOLUTION: One humidifying element 60 is provided at each of the opposite ends of a casing 22 shaped like a rectangular parallelepiped. In the humidifying element 60, a large number of moisture-permeable membrane tubes 65 are so provided as to pierce a water tank 66. When a blower fan 21 is operated, the air in the refrigerator is distributed into each humidifying element 60 through an intake 26 and an air introducing space 28. The air flows through the moisture-permeable membrane tubes 65 in the humidifying element 60 and water vapor generated by natural vaporization permeates through the moisture- permeable membrane tubes 65 and humidifies the air.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidifying device for humidifying a refrigerator.

[0002]

2. Description of the Related Art It is known that low temperature and high humidity are desirable in order to maintain the freshness of flowers and fruits and vegetables. For this reason, conventionally, a humidifier (humidifier) is installed in a refrigerator to humidify the inside of the refrigerator.

[0003] There are various types of humidifiers as disclosed in the "New Edition / Fourth Edition Refrigeration and Air Conditioning Handbook (Applied Edition), page 132" edited by the Japan Refrigeration Association. For example, a forced evaporation humidifier that heats and evaporates water with a heater and supplies steam to air is known. Further, there is known a water spray humidifier which sprays high-pressure water into the air as fine particles from small holes of a nozzle and evaporates and humidifies the spray water by heat exchange with air.
There is also known an ultrasonic humidifier that emits ultrasonic waves from a vibrator immersed in water toward the surface of water and disturbs the surface of the water to generate superfine particles of water vapor to humidify. There is also known a natural evaporative humidifier in which water is contained in a sponge-like or felt-like member, and the member is brought into contact with air to humidify by natural evaporation of water.

[0004]

However, among the above humidifiers, those of the type in which water vapor is forcibly sent to air, such as a forced evaporation type, a water spray type, and an ultrasonic type, have a humidity inside the refrigerator. It is necessary to control the humidification amount correspondingly. That is, if the humidification amount is too small, fruits and vegetables and the like are deteriorated by drying, while if the humidification amount is too large, dew condensation occurs on the fruits and vegetables and the like, and in any case, the commercial value of the stored product is reduced, and the like. . Therefore, in the above type, control of the humidification amount is indispensable, which complicates the structure and increases the cost.

On the other hand, in the natural evaporation type, since the evaporation amount naturally changes in accordance with the humidity in the refrigerator, it is not necessary to control the humidification amount. However, if an attempt is made to ensure a sufficient humidification amount, the size becomes large because it is necessary to ensure a contact area between the member containing water and air. Therefore, if a large humidifier is installed in a limited space such as a refrigerator, there is a problem in that the storage space for storing items becomes narrow, and the humidifier lacks practicality.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a humidifying device which does not require control of the humidification amount, is small, and is suitable for humidification in a refrigerator. is there.

[0007]

The first solution taken by the present invention is directed to a humidifying device, and includes a tank (66) for storing water and a moisture-permeable membrane tube (66) for transmitting water vapor. 65), and a humidifying element (60) in which a number of moisture permeable membrane tubes (65) are arranged to penetrate the tank (66), and are installed in the refrigerator (10). Is supplied to the humidifying element (60), and the supplied air is allowed to flow through the moisture-permeable membrane tube (65).
The air is humidified by natural evaporation of the water stored in the tank (66).

A second solution taken by the present invention is the first solution, wherein a plurality of humidifying elements (60) are housed in one casing (22), while the casing (22) is provided. ), One air guiding space (28) into which air in the refrigerator is introduced is formed, and each humidifying element (60)
Is placed facing the air guiding space (28), and the air in the air guiding space (28) is introduced into the moisture permeable membrane tube (65) of each humidifying element (60) and passes through the humidifying element (60). An outlet (27) for blowing out the air is formed for each humidifying element (60).

A third solution taken by the present invention is the second solution, wherein the casing (22) is formed in a rectangular parallelepiped shape, while the casing (22) is provided with the casing (22). A baffle space (28) is formed in the central part in the longitudinal direction, a pair of humidifying elements (60) are arranged on both sides of the baffle space (28), and an outlet ( 27) are formed one by one.

[Operation] In the first solution, the humidifying device is constituted by using the predetermined humidifying element (60). In the humidifying element (60), air flows inside the moisture permeable membrane tube (65) penetrating the tank (66).
On the other hand, water is stored in the tank (66). Therefore, the moisture-permeable membrane tube (65) comes into contact with water on its outer peripheral surface and comes into contact with air on its inner peripheral surface. Since there is a water vapor pressure difference between the inside and outside of the moisture permeable membrane tube (65), the water in the tank (66) spontaneously evaporates, and the generated water vapor passes through the moisture permeable membrane tube (65) and is thus removed. (65) is supplied to the air inside. Then, the air supplied with the water vapor is supplied into the refrigerator to humidify the inside of the refrigerator (10).

At this time, when the humidity of the air in the refrigerator decreases, the water vapor pressure of the air decreases, so that the vapor pressure difference between the inside and outside of the moisture permeable membrane tube (65) increases, and the amount of evaporation increases. Further, when the humidity of the air in the refrigerator increases, the water vapor pressure of the air increases, so that the difference in water vapor pressure between the inside and outside of the moisture permeable membrane tube (65) is reduced, and the amount of evaporation is reduced. As described above, since the evaporation amount of water, that is, the humidification amount changes according to the humidity of the air, it is not necessary to control the humidification amount.

In the humidifying element (60), the air is humidified by coming into contact with the inner peripheral surface of a large number of moisture-permeable membrane tubes (65). Therefore, the contact area between the moisture permeable membrane tube (65) and the air is sufficiently ensured while keeping the humidifying element (60) small.

In the second solution, a plurality of humidifying elements (60) are housed in one casing (22) to constitute a humidifying device. One air guide space (28) is formed inside the casing (22). Each of the plurality of humidifying elements (60) is arranged facing the air guide space (28). Then, air in the refrigerator (10) is introduced into the moisture permeable membrane tube (65) of each humidifying element (60) through the ventilation space (28). In the casing (22), one outlet (27) is formed for each humidifying element (60), and air passing through one humidifying element (60) is supplied to one outlet (27). ) Is blown out into the chamber.
That is, the air in the refrigerator introduced into one air guide space (28) is distributed to the plurality of humidifying elements (60), and after being humidified, returned to the refrigerator from the plurality of outlets (27).

In the third solution, two humidifying elements (60) are housed in a rectangular parallelepiped casing (22). In the casing (22), a wind guide space (28) is formed in the central part in the longitudinal direction, and one humidifying element (60) is arranged on each side of the wind guide section. Further, the casing (22) is provided with air outlets (27) at both end surfaces thereof. Therefore, the air in the refrigerator introduced into the ventilation space (28) is divided into right and left, flows through the moisture permeable membrane tube (65) of the humidifying element (60), and after being humidified, from each outlet (27). Returned to the warehouse.

[0015]

According to the present invention, the air is humidified by natural evaporation of water, and the amount of evaporation naturally changes according to the change in humidity of the humidified air. And the humidity in the refrigerator (10) can be kept almost constant. Therefore, a configuration for controlling the humidification amount is not required, and the configuration of the humidification device can be simplified and the cost can be reduced.

Further, a large number of moisture-permeable membrane tubes (65) are provided in the humidifying element (60), and the air is humidified by being brought into contact with the inner peripheral surface of the large number of moisture-permeable membrane tubes (65). Therefore, while keeping the humidifying element (60) small, a sufficient contact area between the moisture-permeable membrane tube (65) and the air, that is, an area for supplying water vapor to the air can be sufficiently secured. As a result, a humidifier capable of exhibiting sufficient humidifying ability and being simple and small and suitable for humidifying the refrigerator (10) can be realized.

In particular, in the second solving means, when a humidifying device is constituted by using a plurality of humidifying elements (60), the air in the refrigerator introduced into the air guiding space (28) is separated by each humidifying element (60). 60), and the distributed air is humidified and then blown out from separate outlets (27). For this reason, the flow velocity of the air blown out from the outlet (27) can be suppressed as compared with a configuration in which the taken air in the refrigerator flows sequentially through the plurality of humidifying elements and is blown out from one outlet. Here, if the wind speed from the air outlet (27) is excessive, the storage of fruits and vegetables and the like placed at the position where the wind directly hits will rather dry out, and rather accelerate deterioration. On the other hand, according to the present solution, even when the humidification amount is increased by using a plurality of humidification elements (60), the above-described adverse effect can be prevented by suppressing the blowout air velocity at the outlet (27).

According to the third solution, when using two humidifying elements (60), the refrigerator (10)
The humidifying device can be in a form suitable for installation in the refrigerator so as not to hinder the storage of the stored items inside.

[0019]

Embodiments of the present invention will be described below in detail with reference to the drawings. The humidifying device (20) according to the present embodiment is used for storing flowers (persimmons) and vegetables.
It humidifies the inside of the so-called prefabricated refrigerator (10).

As shown in FIG. 1, the humidifier (20)
Is mounted and fixed to the inner wall (12) in the refrigerator of the prefabricated refrigerator (10). The prefabricated refrigerator (10) is provided with a low-temperature air conditioner (11). And
The inside of the prefabricated refrigerator (10) is maintained at a temperature (for example, about 1 to 5 ° C.) suitable for storage of stored items by a low-temperature air conditioner (11).

As shown in FIGS. 2 and 3, the humidifying device (20) includes a cuboid casing (22) containing a blower fan (21), a humidifying element (60), and a water level tank (29). It is configured. 3 is a schematic configuration diagram of the humidifier (20), FIG. 3 (a) is a plan view, and FIG. 3 (b)
Shows a front view. In FIG. 3A, the illustration of the blower fan (21) and the water level tank (29) is omitted.

On the side surface of the casing (22), a slit-shaped suction port (26) is opened at a central portion in the longitudinal direction of the casing (22) (see FIG. 2). At both ends of the casing (22), an elbow-shaped air outlet duct (2
7) are connected one by one. This outlet duct (27)
Constitutes an outlet for blowing out humidified air.

As shown in FIG. 3, the casing (22) contains two humidifying elements (60) formed in a rectangular parallelepiped. Specifically, the humidifying element (60)
Are the respective ends of the casing (22) (left and right ends in FIG. 3)
Are arranged one by one. In the casing (22), one air guiding space (28) is formed at a central portion in the longitudinal direction of the casing (22). The air guide space (28) is formed between two humidifying elements (60). The air guide space (28) is located at the inlet (26)
And communicates with the interior space of the prefabricated refrigerator (10).

The blower fan (21) is provided with a ventilation space (28).
Are located in When the blower fan (21) is operated, the air in the refrigerator is introduced through the suction port (26) into the air guide space (28).
Will be introduced.

The water level tank (29) is provided with a draft space (28).
And above the humidifying element (60). This water level tank (29) stores water for humidification and is connected to each humidification element (60) by piping.
Water is supplied to the humidifying element (60) by a head difference.

As shown in FIG. 4, the humidifying element (60) comprises a water storage tank (66) and a number of moisture permeable membrane tubes (65). Water storage tank (66)
Is formed in a rectangular parallelepiped shape and stores water for humidification. The moisture-permeable membrane tube (65) is provided so as to penetrate the water storage tank (66) in the transverse direction (the left-right direction in FIG. 4), and air flows through the inside. The moisture permeable membrane tubes (65) are arranged in a so-called staggered manner.

In the humidifying element (60), liquid water exists outside the moisture permeable membrane tube (65), and air exists inside the moisture permeable membrane tube (65). Since there is a difference in water vapor pressure between the inside and outside of the moisture permeable membrane tube (65), the water in the water storage tank (66) evaporates spontaneously, and the water vapor that has passed through the moisture permeable membrane tube (65) is inside the moisture permeable membrane tube (65). Is supplied to the air. The water tank (66) is connected to the water level tank (29), and water corresponding to the amount of evaporation is supplied from the water level tank (29).

The moisture permeable membrane tube (65) is formed by molding a moisture permeable membrane made of fluororesin into a tube shape. Specifically, the moisture permeable membrane tube (65) is made of polytetrafluoroethylene (PTFE). The moisture permeable membrane tube (65) has many fine holes. Although water vapor can pass through the fine pores, water, which is liquid, cannot pass through the fine pores due to surface tension because the fluororesin has excellent water repellency. In this way, the moisture permeable membrane tube (65) allows only water vapor to permeate.

As described above, in the casing (22),
Ventilation space (28) sandwiched between two humidifying elements (60)
Are formed (see FIG. 3). That is, both humidifying elements (60) are arranged facing the air guide space (28). At that time, the humidifying element (60) is installed in a posture in which the moisture-permeable membrane tube (65) communicates with the air guide space (28). Therefore, the air in the air guide space (28) is introduced into the moisture permeable membrane tube (65). In the casing (22), one humidifying element (60) is arranged at each end, and an outlet duct (27) is connected to each end face. That is, one outlet duct (27) is provided for each humidifying element (60).

-Operation-The operation of the humidifier (20) will be described.

When the blower fan (21) is operated, air in the refrigerator is introduced into the air guide space (28) through the suction port (26). In the air guide space (28), the air is divided into two parts and sent to the moisture permeable membrane tubes (65) of the humidifying elements (60). On the other hand, the water storage tank (66) of the humidifying element (60)
, Water for humidification is stored. Accordingly, in the humidifying element (60), the water stored in the water storage tank (66) comes into contact with the outer peripheral surface of the moisture permeable membrane tube (65), while the air flowing through the moisture permeable membrane tube (65) is exposed to the moisture permeable membrane (65). Membrane tube (6
Contact the inner surface of 5).

Here, a steam pressure difference exists inside and outside the moisture permeable membrane tube (65). For this reason, the water in the water storage tank (66) evaporates spontaneously, and the water vapor transmitted through the moisture permeable membrane tube (65) is supplied to the air in the moisture permeable membrane tube (65). That is, the air taken in from the refrigerator is supplied with water vapor while flowing through the many moisture permeable membrane tubes (65), and is humidified. The water tank (66) has a water level tank (2
Since water is supplied from 9), the amount of water stored in the water storage tank (66) is always kept constant.

The air humidified by passing through the humidifying element (60) is sent to the inside of the prefabricated refrigerator (10) through the blowing duct (27). By the above operation, the inside of the refrigerator of the prefabricated refrigerator (10) is kept in a high humidity state with a relative humidity of 95% or more. At this time, the air that has passed through one humidifying element (60) is blown out from one blowing duct (27) provided corresponding to the humidifying element (60).
Therefore, compared to a configuration in which all of the internal air taken in from the suction port (26) of the casing (22) is blown out from one location, the humidification according to the present embodiment in which the air is divided into two blowout ducts (27) and blown out. The device (20) is connected to the outlet duct (2
7) The wind speed from the outlet can be reduced.

In the humidifier (20), the amount of humidification naturally changes according to the humidity in the prefabricated refrigerator (10). That is, when the humidity of the air in the refrigerator decreases, the water vapor pressure of the air decreases, so that the vapor pressure difference between the inside and outside of the moisture permeable membrane tube (65) increases, and the amount of evaporation increases. On the other hand, when the humidity of the air in the refrigerator increases, the water vapor pressure of the air increases, so that the difference in water vapor pressure between the inside and outside of the moisture permeable membrane tube (65) is reduced, and the amount of evaporation is reduced. As described above, the evaporation amount of water, that is, the humidification amount naturally changes according to the humidity of the air. Therefore, the water vapor can be supplied into the refrigerator without excess or shortage without controlling the humidification amount, and the humidity in the refrigerator is maintained at a predetermined high humidity state.

According to the present embodiment, the air is humidified by natural evaporation of water, and the evaporation amount naturally changes according to the change in humidity of the humidified air. The humidity in the refrigerator can be maintained almost constant without controlling the temperature. Therefore, a configuration such as a controller for controlling the humidification amount becomes unnecessary, and the configuration of the humidification device (20) can be simplified and the cost can be reduced.

Further, a number of moisture permeable membrane tubes (65) are provided in the humidifying element (60), and the air is humidified by being brought into contact with the inner peripheral surface of the plurality of moisture permeable membrane tubes (65). Therefore, while keeping the humidifying element (60) small, a sufficient contact area between the moisture-permeable membrane tube (65) and the air, that is, an area for supplying water vapor to the air can be sufficiently secured. As a result, sufficient humidification ability can be exhibited,
Moreover, it is possible to realize a humidifying device (20) which is simple, small and suitable for humidifying a refrigerator.

In the humidifying device (20), the air in the refrigerator taken from one suction port (26) is divided into two humidifying elements (60), and the air humidified by each humidifying element (60). Are separately blown out from the blow-out duct (27). For this reason, the wind speed blown from the blow duct (27) can be reduced, and problems such as deterioration of stored materials due to excessive blow wind speed can be reliably avoided.

Further, according to the present embodiment, the humidifying device (20) may be formed in a form suitable for installation in the refrigerator so as not to hinder the storage of the storage in the prefabricated refrigerator (10). it can. Hereinafter, this point will be described with reference to FIG. FIG. 5 shows the casing (22) and the blower fan (2
1) and the like are omitted, and only the arrangement of the humidifying element (60) is schematically illustrated.

When two humidifying elements (60) are provided in the humidifying device (20) and the taken-in air is distributed to each humidifying element (60) as in the present embodiment, the humidifying element (60) Various arrangements are conceivable.

First, as shown in FIG. 5A, it is conceivable to arrange two humidifying elements (60) one above the other. However, in this arrangement, the water pressure acting on the moisture permeable membrane tube (65) becomes excessive near the bottom of the lower humidifying element (60). For this reason, the moisture permeable membrane tube (65) is crushed by the water pressure, and air cannot pass through the inside, so that the humidification amount is rather reduced.

On the other hand, as shown in FIG. 5B, it is conceivable to arrange two humidifying elements (60) in front of and behind the inner wall (12). In this arrangement, there is no problem that the moisture-permeable membrane tube (65) is crushed by the water pressure as described above. However, there is a problem that the size of the overhang from the inner wall (12) becomes large, which hinders the storage of the stored items in the storage.

On the other hand, as shown in FIG. 5C, two humidifying elements (60) are arranged on the left and right sides with respect to the inner wall (12), and the air taken in is distributed to the left and right humidifying elements (60). In the configuration of the present embodiment, none of the problems in the arrangement shown in FIGS. 5A and 5B occur. In other words, the moisture-permeable membrane tube (65) does not collapse due to water pressure, and the overhang dimension from the inner wall (12) is almost equal to the humidifying element (60).
Fits in one width. Therefore, as described above, according to the present embodiment, the humidifier (20) suitable for installation in a refrigerator
Can be realized.

[Brief description of the drawings]

FIG. 1 is a schematic perspective view of a prefabricated refrigerator showing an installed state of a humidifier according to an embodiment.

FIG. 2 is a perspective view showing an external appearance of the humidifying device according to the embodiment.

FIG. 3 is a schematic configuration diagram of a humidifier according to the embodiment.

FIG. 4 is a schematic perspective view of a humidifying element according to the embodiment.

FIG. 5 is a schematic diagram showing an arrangement of humidifying elements for explaining effects of the embodiment.

[Explanation of symbols]

 (10) Prefabricated refrigerator (22) Casing (27) Outlet duct (outlet) (28) Ventilation space (60) Humidifying element (65) Moisture permeable membrane tube (66) Water storage tank

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Keiji Arii 1304 Kanaokacho, Sakai-shi, Osaka Daikin Industries, Ltd. Sakai Seisakusho Kanaoka Factory F-term (reference) 3L055 AA10 BA01 DA05

Claims (3)

[Claims] 1. A tank (66) for storing water and a moisture permeable membrane tube (65) permeable to water vapor, and a large number of moisture permeable membrane tubes (65) are arranged so as to pass through the tank (66). The humidifying element (60) is provided in the refrigerator (10), and the air in the refrigerator is supplied to the humidifying element (60), and the supplied air is supplied to the humidifying membrane tube (65). Circulate inside the tank (6
6) A humidifier that humidifies air by natural evaporation of the water stored in 2. The humidifying device according to claim 1, wherein a plurality of humidifying elements (60) are provided in one casing (22).
On the other hand, the casing (22) is provided with one air guide space (28) through which air in the refrigerator is introduced, and each humidifying element (6
0) is arranged facing the air guiding space (28), and the air of the air guiding space (28) is introduced into the moisture permeable membrane tube (65) of each humidifying element (60), and the humidifying element (60) A humidifier in which one outlet (27) for blowing out the air passing through is provided for each humidifying element (60). 3. The humidifying device according to claim 2, wherein the casing (22) is formed in a rectangular parallelepiped shape, and the casing (22) has a wind guiding space at a central portion in a longitudinal direction of the casing (22). (28) is formed, a pair of humidifying elements (60) are arranged on both sides of the air guiding space (28), and one outlet (27) is formed on an end face of the casing (22). Humidifier that is.