JPH03217779A - High-humidity refrigerator - Google Patents

Abstract

PURPOSE:To obtain a refrigerator, high in humidifying capacity, sanitized and capable of preserving stored matters without being affected badly by noise and vibration by a method wherein a receiving pan is arranged near the upper part of a compressor and a porous water absorbing body is penetrated through the heat insulating wall of the main body of the refrigerator while the lower end of the porous water absorbing body is inserted into the receiving pan with a gap between the bottom surface of the receiving pan and the lower end of the porous water absorbing body. CONSTITUTION:A receiving pan 17 is arranged near the upper part of a compressor 11 whereby reserved water 21 is heated efficiently by the waste heat of the compressor 11. A porous water absorbing body 22 is penetrated detachably through a heat insulating wall 5. The lower end 25 of the porous water absorbing body 22 is inserted into the receiving pan 17 with a predetermined gap X between the bottom surface of the receiving pan 17 and the lower end 23 of the porous water absorbing body 22. Water, produced by defrosting and reserved in the receiving pan 17, is absorbed into the porous water absorbing body 22 under a heated condition by the compressor 11, and is evaporated and dissipated efficiently into a reserving chamber 4 whereby the temperature of the reserving chamber 4 is increased quickly and, thereafter, the reserving chamber 4 is maintained in a condition near saturated condition by a balance between the humidifying effect of the porous water absorbing body 22 and the dehumidifying effect of an evaporator 13.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial Application Field The present invention relates to a high-humidity refrigerator whose interior is humidified using defrosting water.

(Example) Prior Art In the conventional high-humidity refrigerator described in Utility Model Application Publication No. 54-134964, which precedes the present invention, the defrosting water stored in the saucer is evaporated by the heat of the compressor to humidify the inside of the refrigerator. However, since the tray is placed inside the refrigerator, dust, etc. inside the refrigerator accumulates on this tray, causing it to become like sludge and breeding bacteria, which makes the interior of the refrigerator unsanitary. Disadvantages: Since the saucer is in contact with the compressor, the vibration and noise of the compressor is transmitted into the refrigerator, and this vibration and noise may agitate sediment in stored items such as wine, causing negative effects, and There is a drawback that the installation position of the storage tray is restricted by the tray, and the ineffective volume within the refrigerator increases by the restriction.

Furthermore, in the conventional high-humidity refrigerator described in Japanese Utility Model Publication No. 54-175653, the interior of the refrigerator is humidified by placing a water-supplying sheet that absorbs defrosting water inside the refrigerator. Since the defrosting water is not heated, its evaporation efficiency is low, and it is necessary to increase the surface area of the water absorbent sheet accordingly.
This enlarged water-absorbing sheet has the disadvantage that a large amount of bacteria grows, making the inside of the refrigerator unsanitary, and that the task of replacing the wide-area water-absorbing sheet, etc., becomes complicated.

(c) Problems to be Solved by the Invention The present invention solves the above-mentioned drawbacks, makes maintenance and inspection easy and sanitary, and can appropriately refrigerate large quantities of stored items without being adversely affected by noise and vibration. This provides a high humidity refrigerator.

(2) Means for Solving the Problems The present invention configures a refrigeration cycle with a compressor, a condenser, an evaporator, etc., stores defrosting water from the evaporator in a saucer, and uses the water stored in the saucer to cool the refrigerator. In a high-humidity refrigerator that humidifies the inside, the saucer is disposed near the top of the compressor, and a porous water absorbent is provided through an insulating wall of the refrigerator main body, and the lower end of the porous water absorbent is It is inserted into the interior of the saucer with a gap formed between it and the bottom surface of the saucer.

(E) Function According to the present invention, the defrosting water stored in the saucer is superheated by the compressor and absorbed by the porous water absorbing body, and is efficiently evaporated and dissipated into the refrigerator, so that the interior of the refrigerator is quickly heated. relative humidity increases.

In addition, since the porous water absorbent body is spaced apart from the bottom surface of the saucer, it is prevented from absorbing sludge-like deposits on the bottom surface and from clogging thereby. Deterioration of the body is prevented and the interior of the refrigerator is kept sanitary.

In addition, since the tray is placed near the top of the compressor and does not come into contact with it, the vibration noise of the compressor is not transmitted to the stored items, and the internal volume of the refrigerator is reduced due to restrictions on the position of the compressor. is now also prevented,
Therefore, a large amount of stored items can be properly refrigerated without being adversely affected by noise, vibration, etc.

(f) Example Next, one embodiment of the present invention will be described.

In Figure 1, (1) is the refrigerator body, and the insulation material (2)
A high-humidity storage room (4) is located inside the insulated wall (3) filled with
is formed. (5) is a door disposed on the front side of the storage room (4), and is rotatably supported on an example part of the refrigerator body (1). (6) is the top plate attached to the refrigerator body (1), (7) is the exterior plate attached to the rear of the refrigerator body (1),
(8) is a bottom plate attached to the refrigerator main body (1); (9) is a machine room formed between the bottom plate (8) and the heat insulating wall (3);
(10) is a heat radiation air passage communicating with the machine room (9), which is formed between the exterior plate (7) and the heat insulating wall (3);
The upper part of this heat radiation air passage (10) is partially open. (1l) is a compressor disposed in the machine room (9) of the refrigerator body (1), which together with a condenser (12), an evaporator (13), etc. forms a refrigeration cycle (14). (15) is a drain pipe for discharging defrosting water from the evaporator (13) to the outside of the refrigerator, and is connected to a defrosting water receiving tray (16). (17) is a saucer disposed below the drain pipe (15), and is freely attached to the refrigerator body (1). (1
8) (18) (18) is a wine bottle used as a storage item, and its cork stopper (19) (19) (19) is stored in a high humidity atmosphere of 70% or more to prevent it from drying out, and the wine bottle is It should be stored in a vibration-free environment to prevent stirring of the sediment. (20) (20) are other stored items, all of which are fresh foods suitable for refrigerated storage in a high humidity atmosphere.

Specifically, the fresh foods (20) (20) include cabbage, Chinese cabbage, lettuce, spinach, green onion, radish, cucumber, taro, etc., which are suitable for storage at high humidity of 90% or more.

By disposing the saucer (17) near the top of the compressor (11) as shown in FIG. 2, the collected water (2
1) is configured to be heated. In addition, insulated walls (
3) has a porous water absorbent (22) inserted therethrough in a detachable manner. The porous water absorbent (22) is inserted into the saucer (17) with a predetermined gap (X) between its lower end (23) and the bottom surface of the saucer (17). It is configured. This porous water-absorbing body (22) is made of an alumina material developed with particular emphasis on water-absorbing properties due to capillary phenomenon. Continuous pores of a certain size that are open to the outside are formed due to volume reduction due to oxidation and melting.

In addition, the porous water absorbing body (22) includes a plurality of porous water absorbing plates (24) (25) (26) (as shown in FIG. 3).
27) Fit and hold (28) with a binding member (29), and engage the flange (30) of this binding member (29) with the opening edge (3a) of the heat insulating wall (3) from inside the refrigerator. By doing so, it is configured to be detachably attached to the refrigerator main body (1). This porous water absorbent body (22) has an exposed part that has a larger inside part (I) than the outside part (0), and also has a step-shaped upper surface of this inside part (1). As a result, the evaporation area of humidifying water is increased.

In the high-humidity refrigerator, the defrosting water stored in the saucer (17) is heated by the compressor (11), absorbed by the multi-porous water absorbent (22), and efficiently evaporated into the storage chamber (4). is dissipated, the humidity in the storage room (4) is quickly increased,
Thereafter, the storage chamber (4) is maintained in a nearly saturated state due to the balance between the humidifying action of the porous water absorber (22) and the dehumidifying action of the evaporator (13).

Further, in a high humidity refrigerator, the porous water absorbent body (22) is
Since it is spaced apart from the bottom surface of the saucer (17), it is prevented from absorbing sludge-like deposits on the bottom surface and from clogging due to this, and therefore, deterioration of the porous water absorbent body (22) is prevented. This will prevent the storage room (4) from becoming hygienic. Moreover, the saucer (17)
is located near the top of the compressor (11) and does not come in contact with it, so the vibration noise of the compressor (11) is not transmitted to the stored items (18) and (20). ) is also prevented from being reduced in volume, and therefore a large amount of storage (18
)(20) can be properly refrigerated and stored without being affected by noise, vibration, etc.

In addition, regarding the above-mentioned high humidity refrigerator, a cooling structure such as an evaporator may be of a cold air forced circulation type (fan type) instead of the cold air natural convection type (direct cooling type) described above.

(G) Effects of the Invention Since the present invention is constructed as described above, the defrosting water stored in the saucer is heated by the compressor and absorbed by the porous water absorbent body, and is efficiently evaporated and dissipated into the refrigerator. Therefore, the relative humidity inside the refrigerator can be increased quickly, and since the porous water absorbent body is spaced from the bottom surface of the saucer, it is also possible to absorb sludge-like deposits on the bottom surface. This also prevents clogging, thereby preventing contamination and deterioration of the porous water absorbing body.Also, since the saucer is placed near the top of the compressor and does not come into contact with it, vibrations of the compressor and nozzle are prevented. This prevents noise from being transmitted to stored items and from reducing the internal volume due to constraints on the compressor position.
Therefore, large amounts of stored items can be properly refrigerated without being adversely affected by noise and vibrations, etc. Therefore, the humidifying capacity is high, it is hygienic, and large amounts of stored items can be stored without being adversely affected by noise and vibrations. A high humidity refrigerator may be provided.

[Brief explanation of drawings]

1 to 3 show an embodiment of the present invention, FIG. 1 is a longitudinal sectional view, FIG. 2 is a longitudinal sectional view of the main part, and FIG. 3 is a perspective view of one component provided in the embodiment. It is a diagram. (1)...refrigerator body, (3)...insulation wall, (1l
)...Compressor, (12)...Capacitor, (
13) Evaporator, (l4) Refrigeration cycle, (17) Receiver, (22) Porous water absorber, (23) Lower end, (X) Gap .

Claims (1)

[Claims] 1) A refrigeration cycle is constituted by a compressor, a condenser, an evaporator, etc., and the defrosting water from the evaporator is stored in a saucer, and the inside of the refrigerator body is humidified by the water stored in the saucer. In the high-humidity refrigerator, the saucer is arranged near the top of the compressor, and a porous water absorbent is provided through an insulating wall of the refrigerator body, and the lower end of the porous water absorber is connected to the bottom surface of the saucer. A high-humidity refrigerator characterized in that the refrigerator is inserted into the tray with a gap between the trays.