JP2004028497A - Refrigerator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a refrigerator including a direct cooling storage room for introducing forced ventilation cooled air for cooling, and an indirect cooling storage room with a housing container and a housing container cover of the housing container arranged in the storage room and indirectly cooling an inside of the housing container, for suitably maintaining freshness of food in the indirect cooling storage room. <P>SOLUTION: The refrigerator includes the direct cooling storage room for introducing forced ventilation cooled air for cooling, and the indirect cooling storage room with the housing container and the housing container cover of the housing container in the storage room and indirectly cooling the inside of the housing container. A discharge port and suction port are drilled on the housing container cover. A circulation air blower for circulating cool air in the housing container, and a minus ion generator are installed on an upper surface of the housing container cover. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a refrigerator.
[0002]
[Prior art]
Japanese Patent Application Laid-Open No. 8-145545 discloses a refrigerator having a function of generating negative ions and blowing the ions on the food as a function of maintaining the freshness of the food. Negative ion (mainly O₂ ⁻The invention of the above-mentioned publication has been proposed based on the finding that the inflation of ()) into food does not adversely affect the human body and can suppress the growth of microorganisms and mold at an extremely low concentration.
[0003]
FIG. 13 is a view showing an example of a refrigerator provided with a negative ion generator described in Japanese Patent Application Laid-Open No. 8-145545. In FIG. 13, 101 is a freezing room, 102 is a refrigerator room, 103 is a chilled room, 104 is a vegetable room, 105 is a compressor, 106 is an evaporator, 107 is a fan (cold air blower), 108 is a negative ion generator, Negative ions generated by the ion generator 108 are sent into each chamber together with cool air by the fan 107.
[0004]
By the way, if a high AC voltage is applied to the electrode to generate negative ions, ozone and positive ions are generated at the same time. Ozone has a very strong oxidizing power, which greatly reduces the quality of food, so that positive ions should be collected near the negative ion generator to prevent ozone from circulating in the storage room. An electrode and an ozone decomposition catalyst are required, and the structure becomes extremely complicated and expensive. Therefore, in the technique described in JP-A-8-145545, a direct current voltage is applied to a negative ion generator so that ozone and positive ions are not generated.
[0005]
Japanese Patent Application Laid-Open No. 8-145545 discloses that a negative ion generator is disposed on the back side of any storage room, and when the storage room is of a drawer type, an extendable cord is attached to the negative ion generator. It is connected to the generator power supply.
[0006]
[Problems to be solved by the invention]
As shown in FIG. 13 described above, when the ion generator 108 is installed in a duct provided on the ceiling portion and the negative ions are sent into each room by the fan 107, the negative ions are made of plastic. The amount of negative ions sprayed directly on food (especially, vegetables in the vegetable compartment) by attaching to the ducts of the foodstuffs decreases, and there is a problem that the effect of disinfecting bacteria and antibacterial activity is small. In other words, in the case of the configuration as shown in FIG. 13, since the negative ion generator is installed in the cooling air blowing passage farther from the vegetable room, the negative ions generated with great effort may pass through the narrow ventilation path. There is a problem that the number of negative ions absorbed into the surrounding plastic passage and discharged to the vegetable compartment is extremely small, and the effects of sterilization and antibacterial activity are reduced. Therefore, it has been pointed out that the negative ion generator needs to be used as close as possible to the storage room (particularly the vegetable room) to use the negative ions effectively.
[0007]
In addition, when the negative ion generator is arranged on the back side of the storage room, the action of splashing the negative ions is improved, but in the case of a drawer type storage room such as a vegetable room, it is expandable and contractible. The cord must be connected to the negative ion generator, which may damage the cord over time and lead to poor contact or disconnection. There is a problem that you can not.
[0008]
In addition, an independent negative ion generator and a blower are installed in the upper part of the sealed vegetable room, and cooling air is flown outside the vegetable room (vegetable storage container that forms the main part of the vegetable room) to perform indirect cooling. In addition, there is a problem that moisture evaporated from the storage of vegetables and the like condenses on the vegetable compartment cover that covers the upper part of the vegetable storage container and drops on the stored food in the vegetable storage container. Therefore, realization of a configuration that can reliably prevent such dripping of water has been demanded.
[0009]
In addition, if the structure of the negative ion generator having the negative ion generating electrode and the positive ion receiving electrode is not appropriate, harmful ozone will be generated and the stored foods such as vegetables will be discolored or decolorized, and the vegetables will be discolored. There is a problem that is damaged early. Therefore, it has been required to realize a negative ion generator that generates less ozone.
[0010]
In addition, if a negative ion generator is installed above the enclosed vegetable compartment and a small container is placed above the vegetable container that constitutes the main part of the vegetable compartment, the upper Negative ions hit the stored food of vegetables well, but the stored food of vegetables in the vegetable storage container on the lower side of the small storage container is blocked by the upper small storage container and the negative ions do not hit, There is a problem that freshness of vegetables cannot be maintained for a long time. Therefore, even if the accessory storage container is installed above the vegetable storage container that constitutes the main part of the vegetable compartment, it is possible to realize a structure in which the negative ions also hit the vegetables in the vegetable storage container below the accessory storage container. Was sought. In addition, if food is stored in a pile of small items in the upper small container, the convection of air deteriorates, and the negative ions are not evenly dispersed in the stored food, so that the convection is improved and the air containing negative ions is improved. There was also a need for a device that would increase the flow rate of water.
[0011]
In addition, if the negative ion generator is incorporated in the vegetable compartment cover located at the top of the vegetable compartment (vegetable storage container that forms the main part of the vegetable compartment), the negative ion generator electrode can be used to store food or human fingers. A guard member in the form of a grill is provided to protect the member from contact and damage, but depending on the material of the guard member, the generated negative ions may be absorbed and the number of negative ions may be reduced. Therefore, it has been pointed out that it is necessary to select a material that does not easily reduce negative ions as a material of the guard member.
[0012]
In addition, if the fan for cooling air to cool the storage room other than the vegetable room is also used as the fan for sending in negative ions, the fan for cooling air can be linked to the operation of the refrigerator when the outside air temperature is low in winter. The operation rate is lowered, the amount of air blown by the negative ions is reduced, and the effect of the negative ions is reduced. Therefore, it was pointed out that it was necessary to have an independent fan for feeding negative ions, which was not linked to the operation rate of the refrigerator. However, at this time, if an independent fan for feeding negative ions is provided, a space is required correspondingly, and the internal volume of the food storage of the refrigerator is reduced. Therefore, it is necessary to have a structure in which the internal volume is not reduced as much as possible. Can be
[0013]
Also, if the dedicated independent fan for sending the negative ions generated by the negative ion generator is covered by the blower cover attached to the vegetable compartment cover, the blower for the negative ion blower will malfunction, Even in the stopped state, there is a possibility that this may not be noticed. In that case, there is a problem that freshness of the stored food cannot be maintained and the stored food is damaged quickly. Therefore, it is desired that the rotation status of the dedicated independent fan for sending the negative ions be configured so that the user can easily visually recognize the rotation status.
[0014]
Generally, in a refrigerator provided with a direct cooling storage room for cooling by introducing forced ventilation cooling air and an indirect cooling storage room for indirectly cooling from the surroundings without introducing cooling air directly into the storage room, There are various issues to be studied in order to maintain the freshness of foods in a suitable manner.
[0015]
[Means for Solving the Problems]
The present invention has been made in view of the technical problems as described above, and in one representative invention according to the present application, a direct cooling storage room for introducing and cooling forced ventilation cooling air, a storage container in the storage room, In a refrigerator provided with a storage container cover for the storage container and an indirect cooling storage room for indirectly cooling the inside of the storage container, a discharge port and a suction port are provided in the storage container cover, and the inside of the storage container is provided. A circulation blower for circulating cold air and a negative ion generator are installed on the upper surface of the storage container cover.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0017]
1 to 12 relate to a refrigerator according to an embodiment of the present invention, FIG. 1 is a longitudinal sectional view of the refrigerator of the embodiment, FIG. 2 is a longitudinal sectional view of a main part of the refrigerator of the embodiment, and FIG. FIG. 4 is a perspective view showing a storage container constituting a main body of the vegetable compartment of the refrigerator of the present embodiment and a small item storage container placed thereon, and FIG. 5 is a refrigerator of the present embodiment. FIG. 6 is an explanatory view showing the reflux of air in the vegetable compartment of FIG. 6, and FIG. Explanatory drawing showing test results, FIG. 7 is a perspective view of a main part of a negative ion generator used in the refrigerator of the present embodiment, and FIG. 8 is a negative ion generator used in the refrigerator of the present embodiment and a grill-like protection attached thereto. FIG. 9 is a sectional view of a main part showing members and FIG. FIG. 10 is an explanatory view showing experimental results for examining the suitability of the material of the grill-like protective member attached to the negative ion generator used in the refrigerator of FIG. 10, and FIG. 10 is a grill attached to the negative ion generator used in the refrigerator of the present embodiment. FIG. 11 is an explanatory diagram showing physical property values for each material for examining the suitability of the material of the shape protection member. FIG. FIG. 12 is a main part perspective view showing a state of a bottom surface of a refrigerator room located at an upper stage in the refrigerator of the present embodiment.
[0018]
In FIG. 1, 1 is a refrigerator, 2 is a refrigerating room (refrigerated storage room) with an openable door, 3 is a drawer-type vegetable room (refrigerated storage room for vegetables), 4 and 5 are drawer-type freezer rooms, 6 Is a compressor, 7 is a fan (cold air blower) for the refrigerator compartment 2 and the vegetable compartment 3, 8 is a cooler for the refrigerator compartment 2 and the vegetable compartment 3, and 9 is a fan (cold air blower) for the freezer compartment 4 and the freezer compartment 5 Numerals 10 and 10 are coolers for the freezing room 4 and the freezing room 5. In the present embodiment, the refrigerating compartment 2, the freezing compartment 4, and the freezing compartment 5 are direct cooling type storage compartments for introducing and cooling forced ventilation cooling air, and the vegetable compartment 3 is a vegetable compartment provided in the compartment. This is an indirect cooling type storage room in which cooling air is not directly introduced into the storage container 14 (see FIG. 2), but is indirectly cooled from around the vegetable storage container 14. In this embodiment, the vegetable compartment 3 is arranged in the middle of the refrigerator, but the location of the vegetable compartment is arbitrary as long as it has a structure as described later.
[0019]
As shown in FIG. 2, the vegetable compartment 3 of the present embodiment is located between the horizontal partition plate 11 and the horizontal partition plate 12 of the refrigerator 1. The vegetable compartment 3 includes a vegetable storage container (a vegetable storage container constituting the main component of the vegetable compartment) 14 that can be pulled out integrally with the vegetable compartment door 13, and a vegetable compartment cover 15 that covers the upper surface of the vegetable storage container 14. A small storage container (small container) 16 which is placed on the upper side of the vegetable storage container 14 and held so as to be able to be pulled out to the vegetable storage container 14, and a minus member arranged on the upper surface of the vegetable compartment cover 15. An ion generator 17, an independent vegetable compartment fan 18 dedicated to the vegetable compartment arranged on the upper surface of the vegetable compartment cover 15, and attached to the upper surface of the vegetable compartment cover 15 to cover the negative ion generator 17 and the vegetable compartment fan 18. The blower cover 19 is included.
[0020]
The horizontal partition plate 11 forms a part of the framework of the refrigerator 1 and has a function of adsorbing a packing (not shown) of the door of the refrigerator compartment 2 and the vegetable compartment door 13. A space is provided. The vegetable compartment cover 15 is attached below the horizontal partition plate 11, and a negative ion generator 17 and a vegetable compartment fan 18 are disposed on the upper surface at the back of the vegetable compartment cover 15, and the negative ion generator 17 and the vegetable A blower cover 19 that covers the room fan 18 is attached to an upper portion of the vegetable room cover 15. That is, the negative ion generator 17, the vegetable room fan 18, and the blower cover 19 are compactly stored in the flat space on the back side of the horizontal partition plate 11, and the vegetable room door 13 The negative ion generator 17 and the vegetable compartment fan 18 are mounted on the vegetable compartment cover 15 which is a fixing member of the refrigerator 1 instead of the vegetable storage container 14 which can be pulled out integrally with the refrigerator 1. Compared to a structure in which a negative ion generator is attached to a possible member, there is no risk of breakage of the cord, and the connection structure can be simplified.
[0021]
The blower cover 19 is formed at least in part of a transparent or translucent material so that the vegetable compartment fan 18 can be visually recognized from above, and the bottom plate 20 of the refrigerator compartment 2 located above the blower cover 19. Is also formed of a transparent or translucent material.
[0022]
The upper surface of the vegetable storage container 14 is hermetically sealed by a vegetable room cover 15 and a blower cover 19, and the sealed vegetable room 3 is cooled by the cool air blown by the fan (cool air blower) 7. Then, cooling is performed from the outer periphery of the vegetable storage container 14.
[0023]
An air suction port 15a and a discharge port 15b are formed in the vegetable compartment cover 15 that covers the upper surface of the vegetable storage container 14, and the air (cool air) sucked from the suction port 15a by the vegetable compartment fan 18 is: The vegetables are blown out from the discharge port 15b by the vegetable room fan 18 and are forcedly circulated in the vegetable storage container 14. The negative ions generated by the negative ion generator 17 are disposed in the vegetable storage container 14 together with the cool air sent out from the discharge port 15b because the negative ion generator 17 is arranged more leeward than the vegetable compartment fan 18. The vegetables in the accessory storage container 16 are sprayed like a shower.
[0024]
In other words, in the present embodiment, since the negative ions are easily absorbed by the plastic material, the negative ions are generated by the negative ion generator 17 instead of the method of passing the negative ions through the cooling air circulation duct of the refrigerator as in the above-described conventional technology. Cold air containing negative ions is sprayed directly onto the vegetables in a shower. Moreover, since the cool air in the closed vegetable room is forcedly circulated, the negative ions evenly reach every corner of the vegetable storage container 14, and the effect of maintaining the freshness of the food by the negative ions is greatly enhanced.
[0025]
As shown in FIG. 3, the negative ion generator 17 is disposed so as to be located directly above the discharge port 15b, and the vegetable compartment fan 18 is located on the windward side of the negative ion generator 17 and at the suction port. It is provided at an intermediate position between the discharge port 15a and the discharge port 15b. The vegetable room fan 18 employs a propeller-type fan having a large diameter in order to secure the air volume including negative ions, and is set within the height of the horizontal partition plate 11 (see FIG. 2). The vegetable room fan 18 is arranged so that its discharge side faces downward and is inclined so as to have an inclination of 30 degrees or less from the horizontal. According to the vegetable room fan 18 of the present embodiment having such a structure and mounting posture, it is possible to simultaneously secure a sufficient air volume and dispose it in a flat and narrow space. In addition, since it is a propeller type fan, the rotation / stop state of the vegetable room fan 18 can be easily confirmed as described later.
[0026]
As shown in FIG. 3, a moisture absorbing / deodorizing sheet 21 is attached below the vegetable room fan 18 on the upper surface side of the vegetable room cover 15, and the vegetable room fan 18 is attached to the moisture absorbing / deodorizing sheet 21. It is configured so that the wind blown out from is directly and vigorously hit. The moisture absorbing and deodorizing sheet 21 absorbs and retains the water produced by the vegetables when there is a large amount of vegetables in the vegetable storage container 14. When the amount of vegetables decreases and the interior of the vegetable storage container 14 dries, Is released to increase the humidity inside the vegetable storage container 14, thus automatically adjusting the humidity inside the vegetable storage container 14, absorbing the odor, and being located above the negative ion generator 17. It has a function of adsorbing water droplets condensed on the inner surface of the blower cover 19 and flowing down the cover to prevent the water droplets from dropping on the vegetable storage container 14. In addition, since the moisture absorption / deodorization sheet 21 is moist, an odor component can be efficiently adsorbed.
[0027]
The moisture-absorbing and deodorizing sheet 21 is arranged at a position where water droplets condensed on the inner surface of the blower cover 19 at the upper position of the negative ion generator 17 can be prevented from collecting and dripping, in order to absorb the water drops dripping from the blower cover 19. Is established. Here, the condensation of moisture on the upper surface of the blower cover 19 on the side where the negative ion generator 17 is stored is caused when the vegetable storage container 14 is closed when the vegetable compartment door 13 is closed, and the fan (cool air) described above is used. The cool air blown by the blower 7 cools the vegetable storage container 14 indirectly from the outer periphery, the temperature inside the vegetable storage container 14 becomes higher than the temperature outside the vegetable storage container 14, and the moisture contained in the vegetables is reduced. When vaporized and circulated in the vegetable storage container 14 by the vegetable room fan 18, it comes into contact with the cooled upper portion of the negative ion generator 17 of the blower cover 19 to cool the moisture and form dew. is there.
[0028]
Therefore, in the present embodiment, as shown in FIG. 3, the ceiling 19 a of the blower cover 19 above the negative ion generator 17 is inclined toward the moisture-absorbing and deodorizing sheet 21, and water droplets formed on the ceiling 19 a are condensed. It is configured to drop on the moisture absorbing / deodorizing sheet 21. In the present embodiment, only the ceiling 19 a of the blower cover 19 above the negative ion generator 17 is inclined toward the moisture-absorbing / deodorizing sheet 21, but the ceiling above the vegetable compartment fan 18 in the blower cover 19. The portion may also be inclined toward the moisture-absorbing and deodorizing sheet 21 (may be inclined in the direction opposite to the ceiling portion 19a).
[0029]
In addition, in FIG. 3, 19b is a transparent window member provided on the blower cover 19, which is located above the vegetable room fan 18.
[0030]
As described above, in the present embodiment, in the vegetable compartment 3, in addition to the vegetable storage container 14, a small storage container 16 having a shallow height for organizing and storing small vegetables is provided. The small item storage container 16 is located below the discharge port 15b so as to be superimposed on the upper back portion of the vegetable storage container 14. Therefore, in this state, the vegetables in the accessory storage container 16 are exposed to the negative ions that are sent while being mixed with the circulating cool air. However, if the shape of the accessory storage container 16 is not devised, the accessory storage container may cause the flow of the circulating cool air. , The negative ions do not easily hit the vegetables in the vegetable storage container 14, and the maintenance period of the freshness of the vegetables in the vegetable storage container 14 is shortened.
[0031]
Therefore, in the present embodiment, in order to improve the circulation of cool air in the vegetable storage container 14, as shown in FIG. Slits 16a are provided, so that negative ions fall through the slits 16a while mixing with the circulating cold air, and are configured to reliably hit (touch) vegetables in the vegetable storage container 14. is there. The position, shape, and number of slits (through holes) formed in the accessory storage container 16 are arbitrary, but if provided below the accessory storage container 16, cold air in the vegetable storage container 14 as described later will be provided. This is suitable for forming a circulation path.
[0032]
Furthermore, in order to improve the circulation of cold air in the vegetable storage container 14 and increase the amount of circulating air in the vegetable storage container 14, that is, the negative ions are made to touch the vegetables in the vegetable storage container 14 well. For this reason, in the present embodiment, as shown in FIG. 5, the front plate of the accessory storage container 16 is set to be lower than the side plate and the back plate of the accessory storage container 16. A gap is provided between the upper end of the front panel and the vegetable compartment cover 15 so that air can sufficiently circulate.
[0033]
As described above, the slit 16 a provided at the position of the accessory storage container 16 and the gap provided between the upper end of the front plate of the accessory storage container 16 and the vegetable compartment cover 15 allow cold air mixed with negative ions to be generated. By the operation of the vegetable room fan 18, the inside of the sealed vegetable storage container 14 is circulated as shown by the arrow in FIG. 5 so as to evenly hit the small storage container 16 and the vegetables in the vegetable storage container 14. Have been. The height L1 of the gap provided between the upper end of the front plate of the accessory storage container 16 and the vegetable compartment cover 15 is about の of the depth (height) 80 to 100 mm of the accessory storage container 16. By doing so, it was confirmed that even if foods such as vegetables enter the heap of vegetables in the vegetable storage container 14, the convection of the air in the vegetable storage container 14 was not hindered. In addition, the distance between the front plate of the accessory storage container 16 and the front plate of the vegetable storage container 14 is set to about 100 to 120 mm here.
[0034]
By the way, when a high AC voltage is applied to the electrodes of the negative ion generator to generate negative ions, ozone (O³) And positive ions are also generated at the same time, so that a positive ion collecting electrode and an ozone decomposition catalyst are required as described above. Therefore, in the present embodiment, an alternating current is converted into a direct current, and a negative direct current voltage is applied to the cathode of the negative ion generator 17 to generate only negative ions. In addition, when corona discharge or glow discharge occurs, high energy is given to oxygen molecules to promote the reaction of generating ozone from oxygen molecules. Therefore, in order to prevent corona discharge or glow discharge from occurring, a negative ion generator 17 is required. A guard made of an insulating material is provided between the two electrodes.
[0035]
That is, in the present embodiment, as shown in FIGS. 6 and 7, the protrusions of both electrodes 31, 32 are provided between the needle-shaped electrode (cathode) 31 and the ring-shaped electrode (positive electrode) 32 of the negative ion generator 17. The configuration is such that a ring-shaped guard 33 made of an insulating material, which is higher than the height, is provided. In the present embodiment, the protrusion height H2 of the needle electrode 31 is 4.5 mm, and the protrusion height of the ring electrode 32 is 3.0 mm. At this time, the height of the guard 33 is changed to reduce the amount of ozone generated. The table in FIG. 6 shows the experimental results of measuring the amount of generated negative ions. As can be seen from the experimental results, when the height dimension H1 of the guard 33 is 8 to 9 mm, the amount of generated ozone can be suppressed to 0.1 to 0.01 or less. , 6.45 to 20.93 k / cc, which is not a preferable value. On the other hand, if the height dimension H1 of the guard 33 is 6 to 7 mm, the amount of generated negative ions is sufficient, and the amount of generated ozone is 0.009 to 0.018 ppm in terms of the concentration in the vegetable container. It was confirmed that the value was sufficiently low and a suitable value.
[0036]
In addition, in the present embodiment, when the user of the refrigerator puts his hand in the vegetable compartment 3 to protect from electric shock and the like and to protect the negative ion generator 17 from damage and the like, As shown in FIG. 8, a plastic grill-like protection member 34 is provided. The grill-shaped protection member 34 has a shallow arm shape, at least the bottom surface of which is formed in a grill shape (protection net shape), and is formed in a shape that allows negative ions to pass therethrough.
[0037]
By the way, since the amount of the negative ion decreases when it comes into contact with positively charged plastic or the like, it is preferable to select a plastic material that is difficult to be charged as the grill-like protection member 34. FIG. 9 is an experimental result showing the number of negative ions measured when the plastic material of the grill-like protection member 34 is changed, and FIG. 10 is a table showing the physical properties of the plastic material used in the experiment of FIG. As can be seen from FIGS. 9 and 10, in the case of PBT (polybutylene terephthalate), the number of negative ions measured is large and the volume resistivity is large, and therefore, in this embodiment, the amount of negative ions is not reduced as much as possible. For this purpose, the grill-like protection member 34 is formed of PBT. Although not used in the experiment, PPS (polyphenylene sulfide) also has the same characteristics as PBT, and can be used similarly to PBT.
[0038]
Also, as described above, if the fan for cooling air for cooling the storage room other than the vegetable room and the vegetable room is also used as the fan for sending negative ions, the outside air temperature (indoor temperature) in winter can be reduced. When the temperature is low, the cooling air blower fan, which is linked to the operation of the refrigerator, is controlled at a lower operation rate (shorter air blowing time), so that the amount of air blown by the negative ions also decreases, and sufficient negative ions for vegetables and the like are obtained. Is not sprayed, and the effect of negative ions is reduced. Therefore, in the present embodiment, the air is forcibly forced in the sealed vegetable storage container 14 separately from the fan 7 for the refrigerator compartment 2 and the vegetable compartment 3 and the fan 9 for the freezer compartment 4 and the freezer compartment 5. A vegetable room fan 18 for circulating and sending negative ions is provided, and the vegetable room fan 18 is configured as an independently controllable fan that is not linked to the operation rate of the refrigerator.
[0039]
In other words, in this embodiment, the vegetable room fan 18 for blowing negative ions (spraying) is driven for a predetermined time in an independent operation without synchronizing with the operation of the fan 7, and always in winter or in summer. The operation of the vegetable room fan 18 is controlled so that negative ions are sufficiently distributed in the vegetable storage container 14. The operation of the negative ion generator 17 is synchronized with the operation of the vegetable room fan 18.
[0040]
Alternatively, the operation of the vegetable room fan 18 and the negative ion generator 17 is completely synchronized with the fan 7 in summer or the like when the operation rate of the refrigerator is high (when the outside air temperature is high), as shown in FIG. In the winter or the like when the operation rate of the refrigerator is low (when the outside air temperature is low), the operation is started in synchronization with the start of the operation of the fan 7 or for several minutes after the operation of the fan 7 is stopped. The extended operation may be performed so that the negative ions are sufficiently distributed in the vegetable storage container 14 even in summer or the like when the operation rate of the refrigerator is low.
[0041]
Further, the refrigerator of the present embodiment has a structure in which the user of the refrigerator can easily visually recognize the rotation state of the vegetable room fan 18. That is, if the vegetable room fan 18 has a structure that catches the user's eyes and is easy to monitor from the outside, it is easy to notice at the time of abnormality and it is safe, so in this embodiment, as described above, A transparent window member 19b is provided on the blower cover 19 located thereon, and the bottom plate 20 of the refrigerator compartment 2 located above the blower cover 19 is formed of a transparent material, whereby the door of the refrigerator compartment 2 is opened. Sometimes, as shown in FIG. 12, the user can directly check the operation status of the vegetable room fan 18 with the naked eye. In addition, since the vegetable room fan 18 is a propeller type fan and the vegetable room fan 18 is arranged to be inclined so as to lie down, the rotation state of the vegetable room fan 18 can be more easily confirmed. ing.
[0042]
In this way, if the state of the rotation of the vegetable room fan 18 can be seen from the outside, a sales clerk or the like can use a blower fan (a vegetable room fan) for sending negative ions when the refrigerator is exhibited and sold. ) Can be easily explained to the customer, and even if a failure should occur, it is easy to find the failure.
[0043]
As described above, according to the refrigerator of the present embodiment, an independent circulating blower (vegetable compartment fan) for circulating cool air in a closed vegetable storage container, which is an indirectly cooled storage compartment, is provided with a vegetable storage fan. Since it is provided on the storage compartment cover (vegetable compartment cover) that covers the upper part of the container, the convection of air in the vegetable storage container is improved, and the surface of food such as vegetables in the vegetable storage container has much cooled air. And the temperature of the food is quickly uniformed, and the freshness can be maintained for a long time.
[0044]
In addition, since the negative ion generator is installed on the discharge side (downwind) of the independent vegetable compartment fan, negative ions do not pass through the duct as in the past, so that the negative ions may be adsorbed to the duct etc. In addition, since a large amount of negative ions are sprayed into the vegetable storage container, the barrier effect of the negative ions suppresses moisture evaporation, and freshness of vegetables and the like can be maintained fresh.
[0045]
In addition, a suction port and a discharge port are provided in the vegetable compartment cover that covers the top of the vegetable storage container, and a negative ion generator is installed directly above the discharge port. It can be ejected. In addition, the return air circulated in the vegetable storage container is sucked back to the vegetable room fan directly from the suction port, so the amount of negative ions circulating is not reduced, and large amounts of negative ions are sprayed on vegetable foods In this respect, the effect of maintaining the freshness of the food is great.
[0046]
Also, in the space provided behind the horizontal partition plate member of the refrigerator, a negative ion generator and a vegetable room fan were arranged, and furthermore, the vegetable room fan was inclined so that the suction was installed in the upward direction. Even with a fan having a large diameter, the installation height can be reduced, and therefore, without reducing the volume that can store food in the refrigerator, it can be installed in a flat space provided at the back of the horizontal partition plate member. It can be arranged compactly with good space factor and can effectively use the internal volume.
[0047]
In addition, since the negative ion generator and the vegetable compartment fan are arranged on the vegetable compartment cover fixed below the horizontal partition plate member, the negative ion generator is attached to a drawable member as in the conventional case. As compared with the conventional structure, there is no risk of breakage of the cord, and the connection structure can be simplified.
[0048]
In addition, even if the accessory storage container is arranged in the vegetable storage container, since the accessory storage container has a slit, the negative ions pass through the slit, and the vegetables in the vegetable storage container are also negatively affected. It becomes possible to disperse ions. Furthermore, a gap is provided between the upper end of the front plate of the accessory storage container and the cover of the vegetable compartment so that air can sufficiently circulate, so that even if a lot of foods such as vegetables are contained, air convection is prevented. Thus, the air containing negative ions can be reliably circulated in the vegetable storage container.
[0049]
In addition, the wind blown out from the vegetable room fan tilts downwards, but a moisture absorbing (humidifying) / deodorizing sheet is placed below the vegetable room fan. The wind blows directly, absorbs moisture when the wind has a lot of moisture, and releases the moisture absorbed in the sheet when the wind is dry, so the humidity in the vegetable storage container is properly controlled. Therefore, the negative ions in the air can be circulated without decreasing, and the negative ions can be used effectively. Further, deodorization in the vegetable storage container can be performed at the same time.
[0050]
Also, the ceiling of a predetermined part of the blower cover attached to the upper part of the vegetable room cover is inclined toward the moisture-absorbing and deodorizing sheet side, so that the water droplets condensed on the inclined ceiling drop onto the moisture-absorbing and deodorizing sheet. Since water drops do not drip down from the vegetable compartment cover and the moisture absorbing and deodorizing sheet can be kept moist at all times, the inside of the vegetable storage container can be prevented from being extremely dried, and Due to the nature of the negative ions, the amount does not decrease as the humidity increases, so that it is possible to make it difficult to reduce the circulating amount of the negative ions.
[0051]
In addition, since a ring-shaped guard made of an insulating material is installed between the needle-shaped electrode and the ring-shaped electrode of the negative ion generator, it is possible to minimize the generation of harmful ozone. Become. Furthermore, the cathode side of the negative ion generator is a needle-like electrode, and the anode side is a ring-like electrode surrounding the needle-like electrode. Is not likely to be short-circuited.
[0052]
Further, the material of the grill-shaped protective member provided on the ion discharge side of the negative ion generator is made of, for example, a PBT material having a large volume resistivity, so that the amount of negative ions absorbed is greatly reduced, and the negative ions are efficiently removed. Can be sprayed.
[0053]
In addition, the operation time of the negative ion generator and the vegetable room fan should be controlled independently of the operation of the fan for cooling air, which is easily affected by the outside air temperature, or in winter when the operation rate of the refrigerator is low. (When the outside air temperature is low), start the operation in synchronization with the start of the operation of the cool air blower fan of the refrigerator, or perform the extended operation for a predetermined period of time after the cool air blower fan fan is stopped. Thus, even in winter or the like where the outside air temperature is low, a sufficient amount of negative ions can be dispersed in the vegetable storage container, and the degree of maintenance of food such as vegetables can be lengthened.
[0054]
In addition, since the rotation status of the vegetable room fan is configured to be easily visible to the user of the refrigerator, the user can be provided with a sense of security, and even if there is a failure, the failure can be easily found. Furthermore, even when a clerk explains a product to a customer at a storefront, a vegetable room fan can be seen, and convincing sales can be performed.
[0055]
【The invention's effect】
As described above, according to the present invention, an independent circulating blower dedicated to the indirect cooling storage room for circulating cool air in the indirect cooling storage room is provided on the upper surface of the storage room cover provided with the discharge port and the suction port. Therefore, the convection of the air in the indirect cooling storage room is improved, and a lot of cooled air circulates on the surface of the food in the indirect cooling storage room, so that the temperature of the food is quickly uniformed, and the freshness of the food is improved. Can be maintained for a long time.
[0056]
In addition, since the negative ion generator is installed downwind of the circulating blower, the negative ions do not pass through the duct as in the past and are not adsorbed on the duct, etc., and a large amount of negative ions are indirectly cooled and stored. Since it can be sprayed indoors, the barrier effect of negative ions suppresses the evaporation of water and the freshness of vegetables and the like can be maintained fresh.
[0057]
In addition, a suction port and a discharge port are provided in the storage room cover that covers the upper part of the indirect cooling storage room, and a negative ion generator is installed just above the discharge port. Discharge can be performed well. In addition, the return air circulated in the indirect cooling storage room is sucked back to the circulation blower directly from the suction port, so the amount of circulating negative ions does not decrease, and a large amount of negative ions are sprayed on food such as vegetables. In this respect, the effect of maintaining the freshness of the food is great.
[0058]
Also, in the space provided in the back of the horizontal partition plate member of the refrigerator, the negative ion generator and the circulating blower are arranged, and furthermore, the circulating blower is inclined so as to be installed so that the suction is directed upward, so that it is large. Even with a circulating blower having a diameter, the installation height can be reduced, and therefore, without reducing the volume that can store food in the refrigerator, in a flat space provided behind the horizontal partition plate member, It can be arranged compactly with good space factor, and can effectively use the internal volume.
[0059]
Further, since the negative ion generator and the circulating blower are arranged above the storage compartment cover fixed below the horizontal partition plate member, the negative ion generator is attached to a member that can be pulled out as in the related art. Compared with the structure, there is no risk of disconnection of the cord, and the connection structure can be simplified.
[0060]
Further, even if the accessory storage container is arranged above the storage container of the indirect cooling storage room and below the blowout portion of the negative ion, the slit is formed in the accessory storage container. Can pass through the slit, and the negative ions can be sprayed on the vegetables in the storage containers other than the accessory storage container. Furthermore, a gap is provided between the upper end of the front plate of the accessory storage container and the storage room cover so that air can sufficiently circulate, so that even if a lot of food such as vegetables is contained, air convection is prevented. Without this, air can be reliably circulated in the indirect cooling storage room.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a refrigerator according to one embodiment of the present invention.
FIG. 2 is a longitudinal sectional view of a main part of the refrigerator according to the embodiment of the present invention.
FIG. 3 is an enlarged view of a main part in FIG. 2;
FIG. 4 is a perspective view showing a storage container constituting a main body of the vegetable compartment of the refrigerator according to the embodiment of the present invention and a small item storage container placed thereon.
FIG. 5 is an explanatory view showing air recirculation in the vegetable compartment of the refrigerator according to one embodiment of the present invention.
FIG. 6 is an explanatory diagram showing a test result for examining a longitudinal section of a main part of a negative ion generator used in a refrigerator according to an embodiment of the present invention and aptitude of a guard height in the negative ion generator. is there.
FIG. 7 is a perspective view of a main part of a negative ion generator used in the refrigerator according to one embodiment of the present invention.
FIG. 8 is a cross-sectional view of a main part showing a negative ion generator used in a refrigerator according to an embodiment of the present invention and a grill-like protection member attached thereto.
FIG. 9 is an explanatory diagram showing experimental results for examining the suitability of a material for a grill-like protection member attached to a negative ion generator used in a refrigerator according to an embodiment of the present invention.
FIG. 10 is an explanatory diagram showing physical property values for each material for examining the suitability of the material of the grill-like protection member attached to the negative ion generator used in the refrigerator according to one embodiment of the present invention.
FIG. 11 is a time chart of the operation control of the negative ion generator and the vegetable room fan used in the vegetable room of the refrigerator according to the embodiment of the present invention.
FIG. 12 is a perspective view of a main part showing a state of a bottom surface of a refrigerating compartment located at an upper stage in the refrigerator according to the embodiment of the present invention.
FIG. 13 is a longitudinal sectional view of a conventional refrigerator.
[Explanation of symbols]
1 refrigerator
2 Cold storage room (refrigerated storage room)
3) Vegetable room (refrigerated storage room for vegetables)
4, 5 freezer compartment
6 compressor
7 Fan for refrigerator room 2 and vegetable room 3
8 Cooler for refrigeration room 2 and vegetable room 3
9 Fan for freezer compartment 4 and freezer compartment 5
10 Freezer 4 and cooler for freezer 5
11, 12 horizontal divider
13 vegetable room door
14 vegetable storage container
15 vegetable room cover
15a Suction port
15b outlet
16cm small container
16a slit
17 negative ion generator
18 vegetable room fan
19mm blower cover
19a @ ceiling
19b @ Transparent window material
20mm bottom plate
21 Moisture absorbing / deodorizing sheet
31 ° needle electrode
32mm ring electrode
33 guard
34 ° grill-like protection member

Claims (11)

A refrigerator provided with a direct cooling storage room for introducing and cooling forced draft cooling air, a storage container in the storage room, and an indirect cooling storage room for disposing the storage container cover of the storage container and indirectly cooling the inside of the storage container. And
A refrigerator in which a discharge port and a suction port are formed in the storage container cover, and a circulating blower for circulating cool air in the storage container is provided on an upper surface of the storage container cover. In claim 1,
A refrigerator in which a negative ion generator is installed right above the discharge port provided in the storage container cover. A refrigerator provided with a direct cooling storage room for introducing and cooling forced draft cooling air, a storage container in the storage room, and an indirect cooling storage room for disposing the storage container cover of the storage container and indirectly cooling the inside of the storage container. And
A refrigerator in which a discharge port and a suction port are formed in the storage container cover, and a circulating blower for circulating cool air in the storage container and a negative ion generator are provided on an upper surface of the storage container cover. In claim 3,
A refrigerator in which a negative ion generator is installed right above the discharge port provided in the storage container cover. In any one of claims 2 to 4,
The refrigerator, wherein the storage container cover is fixed to a horizontal partition plate member of the refrigerator, and the circulating blower and the negative ion generator are arranged in a space provided at the back of the horizontal partition plate member. In claim 5,
The refrigerator, wherein the indirect cooling storage room is a vegetable room for storing vegetables, and the storage container constituting the main body of the indirect cooling storage room is a drawer type container. In any one of claims 2 to 5,
The circulating blower and the negative ion generator arranged on the upper surface of the storage container cover are covered with a blower cover attached to the storage container cover, and the storage container cover and the blower cover form the storage container. A refrigerator with a closed top. The storage device according to any one of claims 1 to 5, wherein the indirect cooling storage room is a vegetable room for storing vegetables, and a small item storage container is disposed above the storage container. A refrigerator in which a slit is formed in at least a part of a ridge portion which is a joint between surfaces of a container. In claim 8,
A refrigerator in which a slit is formed in a ridge portion which is a joint between a bottom surface and a side surface of the accessory storage container. In any one of claims 1 to 5 or claim 7,
The indirect cooling storage room is a vegetable room for storing vegetables, a small storage container is disposed at the top of the storage container, and a gap is provided between the upper end of the front plate of the small storage container and the storage container cover. Refrigerator provided. In any one of claims 1 to 10,
A refrigerator in which the circulating blower is tilted and installed such that suction is upward.

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