CN204612301U - Refrigerating device - Google Patents

Abstract

The utility model provides a kind of refrigerating device, comprising: casing, limits and be formed with refrigerator room in it; Refrigeration system, is configured as refrigerator room and provides cold; First storage tank, is configured to the defrosting water produced when controllably receiving the defrost of refrigerating device; Second storage tank, configuration controllably receives defrosting water from described first storage tank; And humidifying element, be arranged in the second storage tank, be configured to controllably start, to carry out humidification to refrigerator room.The utility model utilizes the first storage tank to store defrosting water as much as possible when the defrost of refrigerating device, to make humidification water sufficient as far as possible; Can ensure that the water level in the second storage tank remains on the best humidification water level of humidifying element substantially simultaneously.

Description

Refrigerating device

Technical field

The utility model relates to technical field of refrigeration equipment, particularly relates to a kind of refrigerating device.

Background technology

Extend preserving fruit and vegetable utilizing, except this key factor of temperature, humidity is also very huge on its impact, study according to relevant food research institution, general fruits and vegetables are under the environment of high humility (>90%RH), and the fresh-keeping cycle of fruits and vegetables is longer, and quality is better.In order to maintain the high humidity environment of fruits and vegetables indoor, the general modes such as sealing control, initiatively humidification that adopts now, but sealing control mode accurately cannot control humidity of fruit-vegetable chamber; Initiatively humidification method control is improper can produce serious leak, can accelerate the corruption of fruits and vegetables on the contrary.Meanwhile, existing active humidification module needs continuous artificial storage, complicated operation; And water resting period in storage box long after, new bacterial reproduction can be produced, easily cause secondary pollution.

Utility model content

An object of the present utility model is at least one defect that will overcome prior art existence, a kind of refrigerating device is provided, defrosting water can either be stored as much as possible using as humidification water when evaporimeter defrost, its humidifying element can also be made substantially to remain operating in its optimum level of water, there is higher humidification efficiency.

The utility model further object to make the moistening effect of refrigerating device good.

Another further object of the utility model is the service life of the humidifying element that will extend in refrigerating device.

To achieve these goals, the utility model provides a kind of refrigerating device, comprising:

Casing, limits in it and is formed for the refrigerator room of the first preset temperature stored article;

Refrigeration system, is configured as described refrigerator room and provides cold;

First storage tank, is configured to the defrosting water produced when controllably receiving described refrigerating device defrost;

Second storage tank, controllably receives defrosting water from described first storage tank; And

Humidifying element, is arranged in described second storage tank, is configured to controllably start, and with by water in described second storage tank or atomization, thus carries out humidification to described refrigerator room.

Alternatively, bottom described first storage tank and be provided with the moisturizing passage of controlled conducting between described second storage tank, when described moisturizing channel conductive, the water in described first storage tank can flow in described second storage tank via described moisturizing passage under gravity; And

Described second storage tank is provided with and allows to be gasified or be atomized the damp exit that the rear steam formed flows into described refrigerator room by described humidifying element.

Alternatively, described refrigerating device also comprises:

Switch, is arranged in described second storage tank, is configured to be turned on or off described moisturizing passage according to the water level in described second storage tank.

Alternatively, described refrigerating device also comprises:

Tapping pipe, is configured to the evaporating pan defrosting water produced during described refrigerating device defrost controllably being imported described first storage tank or described refrigerating device.

Alternatively, described refrigerating device also comprises:

First liquid level sensor, is arranged in described first storage tank, for detecting the water level in described first storage tank.

Alternatively, described refrigerating device also comprises:

Filter, is arranged on the stream between described tapping pipe and described first storage tank, to filter described defrosting water; With

Sterilization module, is arranged in described first storage tank, to carry out sterilization to the water in described first storage tank.

Alternatively, described refrigerating device also comprises:

Humidity sensor, is arranged on described refrigerator indoor, to detect the humidity of described refrigerator room; With

Second liquid level sensor, is arranged in described second storage tank, for detecting the water level in described second storage tank.

Alternatively, be also limited with for the freezing compartment of the second preset temperature stored article in described casing, it is arranged on the top of described refrigerator room, arranges heat insulation partition wall between described freezing compartment and described refrigerator room.

Alternatively, described humidity sensor is arranged on the top chamber wall of described refrigerator room.

Alternatively, described humidifying element is ultrasonic atomizatio sheet, in order to the electronics higher-order of oscillation by the water atomization in described second storage tank.

The utility model utilizes the defrosting water of refrigerating device as humidification water, can when refrigerating device carries out defrost automatic makeup to humidification water, without the need to manual operation.Further, by arranging the first storage tank and the second storage tank, the first storage tank can be utilized to store defrosting water as much as possible when the defrost of refrigerating device, to make humidification water sufficient as far as possible; And can ensure that the water level in the second storage tank remains on the best humidification water level of humidifying element substantially, to keep higher humidification efficiency.Because humidifying element long-term work is at its best humidification water level, thus the service life of humidifying element can be extended on the one hand, the humidification efficiency that humidifying element keeps higher can be made on the other hand, thus make refrigerator room have good moistening effect.

The utility model, by arranging switch in the second storage tank, can automatically from the first storage tank to the second storage tank moisturizing, and can make the water level in the second storage tank substantially remain unchanged.

The utility model, by filtering and sterilization the water in inflow first storage tank, avoids contaminated water to be vaporized or to be atomized the food of after stain refrigerator indoor.In addition, owing to utilizing the defrosting water of refrigerating device, therefore humidifying effect can be reached without the need to additionally adding water.The utility model also can control whether start humidifying element according to the SEA LEVEL VARIATION in the humidity change of refrigerator room and the second storage tank and carry out humidification, the humidity of refrigerator room can be made at lower limit humidity value and float between humidity value up and down, moistening effect is good and can save energy consumption.

According to hereafter by reference to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present utility model more.

Accompanying drawing explanation

Hereinafter describe specific embodiments more of the present utility model with reference to the accompanying drawings by way of example, and not by way of limitation in detail.Reference numeral identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not be drawn in proportion.In accompanying drawing:

Fig. 1 is the perspective schematic view of the refrigerating device according to the utility model embodiment;

Fig. 2 is the first storage tank of the device of refrigerating shown in Fig. 1 and the enlarged diagram of the second storage tank.

Detailed description of the invention

Fig. 1 is the perspective schematic view of the refrigerating device 100 according to the utility model embodiment.Refrigerating device 100 comprises cognitive refrigerator, wine cabinet etc. usually and has the equipment of refrigeration hold function.See Fig. 1, refrigerating device 100 can comprise casing 90, limits and be formed for the refrigerator room 10 of the first preset temperature stored article in casing 90.

Refrigerating device 100 also can comprise refrigeration system, is configured as refrigerator room 10 and provides cold.Refrigeration system can comprise compressor 50, condenser (not shown), capillary (or expansion valve, not shown) and evaporimeter 30.Compressor 50 compressed refrigerant at high temperature under high pressure, and by the cold-producing medium of compression supply condenser.Then, the cold-producing medium of compression is converted to the liquid state of HTHP by condenser by the heat of refrigerant release.When being converted into the gas-liquid mixed state of low-temp low-pressure through the liquid refrigerant of this HTHP during capillary thereupon.The gas-liquid mixed state cold-producing medium of this low-temp low-pressure is then imported in evaporimeter 30 and evaporates, thus can be refrigerator room 10 and provide cold, reduces the temperature of refrigerator room 10.The first preset temperature in refrigerator room 10 roughly can within the scope of 0 DEG C ~ 10 DEG C, to ensure good cold storage effect.

In certain embodiments, refrigerator room 10 such as can be temperature the fruits and vegetables room of 0 DEG C ~ 10 DEG C.This fruits and vegetables room can have the structure of drawer type.In certain embodiments, this fruits and vegetables room can be closed and independent to arrange in the casing 90 of refrigerating device 100, and now, fruits and vegetables room has and is arranged on drawer front and the drawer door body with insulation effect.In further embodiments, fruits and vegetables room is spaced apart room between other of 0 DEG C ~ 10 DEG C by dividing plate (dividing plate does not have insulation effect substantially) and temperature, fruits and vegetables room and between other room share the door body that a fan has insulation effect, this body is arranged on casing 90 usually pivotly.

In certain embodiments, also can be limited with for the freezing compartment 20 of the second preset temperature stored article in the casing 90 of refrigerating device 100.Between freezing compartment 20 and refrigerator room 10, heat insulation partition wall is set, to prevent from exchange heat occurring therebetween.Refrigeration system also can be configured to as freezing compartment 20 provides cold.The second preset temperature in freezing compartment 20 roughly can within the scope of ﹣ 18 DEG C ~ ﹣ 12 DEG C, to ensure good refrigerating effect.

Especially, in order to carry out humidification to refrigerator room 10, refrigerating device 100 also can comprise the first storage tank 16, second storage tank 17 and humidifying element 19.Wherein the first storage tank 16 is configured to controllably receive the defrosting water produced when hiding refrigerating plant defrost.Second storage tank 17 configures and controllably receives defrosting water from the first storage tank 16.The utility model embodiment, by arranging the first storage tank 16 and the second storage tank 17, utilizes the first storage tank 16 to store defrosting water as much as possible when 100 defrost of refrigerating device, to make humidification water sufficient as far as possible.

Second storage tank 17 also can be configured to, when water level in it is lower than setting humidification water level, is communicated with the stream between itself and the first storage tank 16, flows in the second storage tank 17 to allow the water in the first storage tank 16; When the water level in it meets or exceeds setting humidification water level, block the stream between itself and the first storage tank 16.

The utility model embodiment, by arranging the first storage tank 16 and the second storage tank 17, utilizes the first storage tank 16 to store defrosting water as much as possible when 100 defrost of refrigerating device, to make humidification water sufficient as far as possible; And can ensure that the water level in the second storage tank 17 remains on the best humidification water level of humidifying element 19 substantially, to keep higher humidification efficiency.In addition, not needing when carrying out humidification to refrigerator room 10 to add water from the external world, the structure of the refrigerator according to the utility model embodiment can be simplified like this.

In certain embodiments, humidifying element 19 can be ultrasonic atomizatio sheet, in order to the electronics higher-order of oscillation by the water atomization in the second storage tank 17.Ultrasonic atomizatio sheet can be arranged in the bottom of the second storage tank 17, by the high-frequency resonant of ultrasonic atomizatio sheet, the water smoke in the second storage tank 17 is changed into micromolecular steam fog.Second liquid level sensor 171 can be set in the second storage tank 17 to detect the water level in the second storage tank 17.For preventing the pulse current of circuit start from can burn out ultrasonic atomizatio sheet under the surperficial state not having water of ultrasonic atomizatio sheet, when the water level in the second storage tank 17 is lower than setting lowest water level, ultrasonic atomizatio sheet does not work.In further embodiments, humidifying element 19 also utilizes heating element heater to heat to make it vaporize to humidification water; Or also can select other humidifying elements that this area is conventional.

Fig. 2 is the first storage tank 16 of the device of refrigerating shown in Fig. 1 100 and the enlarged diagram of the second storage tank 17.See Fig. 2, the moisturizing passage 167 of a controlled conducting can be set between the first storage tank 16 and the second storage tank 17.Moisturizing passage 167 is preferably communicated with the first storage tank 16 in the bottom of the first storage tank 16.When 167 conducting of moisturizing passage, the water in the first storage tank 16 can flow in the second storage tank 17 via moisturizing passage 167 under gravity.This means top that the first storage tank 16 is in the setting humidification water level of the second storage tank 17 substantially in other words the first storage tank 16 be substantially in the top of the water space of the second storage tank 17.Second storage tank 17 is provided with and allows to be gasified or be atomized the damp exit that the rear steam formed flows into refrigerator room 10 by humidifying element 19.When humidifying element 19 starts, the water flowed in the second storage tank 17 is vaporized or is atomized formation steam, flows to refrigerator room 10 from damp exit.In certain embodiments, fan can be set in the second storage tank 17, be configured to the steam after impelling the second storage tank 17 atomization and discharge from damp exit.

In certain embodiments, the first storage tank 16 and the second storage tank 17 all can be arranged in refrigerator room 10.In further embodiments, the first storage tank 16 and the second storage tank 17 can all not be arranged in refrigerator room 10, and hide outside the locular wall being arranged on refrigerator room 10 in other words, the second storage tank 17 is communicated with refrigerator room 10 by its damp exit.The structure in refrigerator room 10 can be made so more succinct.Certainly, also the second storage tank 17 can be arranged in refrigerator room 10, and setting hidden by the first storage tank 16.

In certain embodiments, refrigerating device 100 also can comprise switch 18, is arranged in the second storage tank 17, is configured to be turned on or off moisturizing passage 167 according to the water level in the second storage tank 17.The float of switch 18 is arranged in the second storage tank 17, and it can move up and down with the SEA LEVEL VARIATION in the second storage tank 17, and drives the blockage corresponding sports of switch 18 simultaneously.The blockage of switch 18, when moving up and down with float, can block moisturizing passage 167 near a certain position, thus realizes switch 18 and to be turned on or off moisturizing passage 167 according to the water level in the second storage tank 17.Switch 18 can be configured to, when the water level in the second storage tank 17 is lower than conducting moisturizing passage 167 during setting humidification water level, flow in the second storage tank 17 to make the water in the first storage tank 16 by moisturizing passage 167 further; Moisturizing passage 167 is disconnected when the water level in the second storage tank 17 meets or exceeds setting humidification water level.The utility model by arranging switch 18 in the second storage tank 17, when the water level in the second storage tank 17 reduces, switch 18 can conducting moisturizing passage 167 automatically, thus the water in the first storage tank 16 is flowed under the influence of gravity in the second storage tank 17 carry out moisturizing to it; Along with the water in the first storage tank 16 flows in the second storage tank 17, the water level in the second storage tank 17 rises gradually.When the water level in the second storage tank 17 reaches best humidification water level, switch 18 can automatically shut down moisturizing passage 167, stops diversion from the first storage tank 16.By said process, the water level in the second storage tank 17 can be made substantially to remain near best humidification water level.

The concrete structure that can realize the switch 18 of above-mentioned functions is well-known to those skilled in the art, does not repeat them here.Those skilled in the art will appreciate that, switch 18 also can be replaced and is arranged on the second storage tank 17 and is arranged on the electrically-controlled valve at moisturizing passage 167 place or other can realize the switch of above-mentioned functions.This switchgear distribution becomes when the water level in the second storage tank 17 is opened thus conducting moisturizing passage 167 lower than during setting humidification water level.

In certain embodiments, refrigerating device 100 also can comprise humidity sensor 12, is arranged in refrigerator room 10, to detect the humidity of refrigerator room 10.Humidifying element 19 also can be configured to: start when the humidity of refrigerator room 10 is less than the first setting humidity and water level in the second storage tank 17 meets or exceeds setting lowest water level; The water level met or exceeded in the second setting humidity or the second storage tank 17 when the humidity of refrigerator room 10 is closed down lower than during described setting lowest water level; Wherein said second setting humidity is greater than described first setting humidity.

The utility model embodiment is by arranging the entry condition of humidifying element 19, can control whether start humidifying element 19 according to the humidity change of refrigerator room 10 and carry out humidification, the humidity of refrigerator room 10 can be made at lower limit humidity value and float between humidity value up and down, moistening effect is good and can save energy consumption; Meanwhile, by setting the lowest working water level of humidifying element 19, when the water level in the second storage tank 17 is lower than setting lowest water level, does not start humidifying element 19 or humidifying element 19 is closed down, causing damaging due to dry combustion method to prevent it.

When refrigerator room 10 is fruits and vegetables room, for fruits and vegetables room, its top chamber wall is the position that its humidity is the highest, the most easily condense.Humidity sensor 12 can be arranged on the top chamber wall of fruits and vegetables room, the humidity value that such humidity sensor 12 detects is the indoor maximum humidity of fruits and vegetables, be convenient to accurately control the time point that humidifying element 19 starts humidification and stopping humidification, to make the indoor maintenance high humidity of fruits and vegetables and not condensation, thus extend the holding time of fruits and vegetables further.In these embodiments, the first setting humidity can be set to 90%RH, and the second setting humidity can be set to 95%RH.

For refrigerating device 100, as known to those skilled in the art, its refrigeration mode is broadly divided into air-cooled (cold in other words) and direct-cooled.Adopt in the embodiment of air-cooled refrigeration mode at refrigerating device 100, evaporimeter 30 is arranged in the air channel 40 of refrigerating device 100 usually.When refrigeration system is freezed, contain steam from the return air of refrigerator room 10, can frosting on evaporimeter 30.When utilizing the defrosting heater of refrigerating device 100 to heat evaporimeter 30, the frost on evaporimeter 30 can absorb heat thawing.It will be understood by those skilled in the art that in these embodiments, the defrosting water that the first storage tank 16 receives is that the water formed is melted in the frost heat absorption on evaporimeter 30.It should be noted that, in such embodiments, first storage tank 16 and the second storage tank 17 air inlet not near refrigerator room 10 arranges at regular intervals with its air inlet in other words, in order to avoid due to the cold wind temperature blowed too low, and make the water freezing in the first storage tank 16 and the second storage tank 17.

Adopt air-cooled refrigeration mode and refrigerating device 100 has in some embodiments of freezing compartment 20 at refrigerating device 100, evaporimeter 30 is arranged in the air channel 40 on rear side of freezing compartment 20 usually.For the ease of receiving the water after evaporimeter 30 defrost, freezing compartment 20 can be arranged on the top of refrigerator room 10.In certain embodiments, below refrigerator room 10, also other rooms can be set, above freezing compartment 20, also other rooms can be set.In an alternative embodiment, freezing compartment 20 also can setting concordant with refrigerator room 10.

In the embodiment of the application, see Fig. 1, can water receiving tank 32 and tapping pipe 34 be set below evaporimeter 30.Tapping pipe 34 is configured to the defrosting water in water receiving tank 32 controllably to import the first storage tank 16 using as humidification water, or controllably import in the evaporating pan 36 (or evaporating dish) be arranged on above compressor 50, outside to be evaporated to refrigerating device 100.

The bottom surface of water receiving tank 32 can be the inclined plane being tilted to lower setting towards tapping pipe 34, is beneficial to the defrosting water be dropped in water receiving tank 32 and flows rapidly in tapping pipe 34.The bottom surface of water receiving tank 32 preferably has concave structure further, such as, be the V-shaped groove of opening upwards, or is funnel-form, can be more prone to flow into tapping pipe 34 to make the defrosting water in it.The upper end of tapping pipe 34 is communicated with water receiving tank 32, and its lower end connects the first pipeline and the second pipeline simultaneously, defrosting water is imported the first storage tank 16 and evaporating pan 36 respectively by the first pipeline and the second pipeline.Can arrange electrically-controlled valve 11 at tapping pipe 34 and the first pipeline and the second line connection, it is controllably by a pipeline conducting in tapping pipe 34 and the first pipeline and the second pipeline.

Tapping pipe 34 is arranged on the top of evaporating pan 36.First storage tank 16 is arranged on the below of water receiving tank 32, or is arranged on the below of tapping pipe 34 further, thus the defrosting water in water receiving tank 32 can be flowed in the first storage tank 16 or evaporating pan 36 by tapping pipe 34 under the effect of himself gravity.

The first liquid level sensor 161 is provided with, for detecting the water level in the first storage tank 16 in the first storage tank 16.Tapping pipe 34 is also configured to: when the water level in the first storage tank 16 is lower than setting peak level, defrosting water is imported the first storage tank 16; When the water level in the first storage tank 16 meets or exceeds setting peak level, defrosting water is imported evaporating pan 36.In this embodiment, the defrosting water that refrigerating device 100 is formed in defrost process preferentially supplements to the first storage tank 16.When the water in the first storage tank 16 adds to its setting peak level, remaining defrosting water then can flow to evaporating pan 36; So both ensure that humidification water is sufficient, avoid again humidification water too many and be spilled over to refrigerator room 10 from the first storage tank 16.When the amount of the defrosting water that refrigerating device 100 is formed in a defrost process is not a lot, defrosting water all flow in the first storage tank 16, to ensure that humidification water is sufficient as far as possible.

In certain embodiments, hide refrigerating plant and also can comprise filter 13, be arranged on the first pipeline, to filter the defrosting water in inflow first storage tank 16.The foreign material in defrosting water so not only can be avoided to affect humidifying element 19 work, shorten the service life of humidifying element 19, and taint of odour between each room can be avoided.Particularly, filter 13 can include active carbon, or the filter for being undertaken filtering by filter screen or filter membrane etc.

After water deposits overlong time in the first storage tank 16, new bacterial reproduction can be produced, therefore, in first storage tank 16, also sterilization module 15 can be set, to carry out sterilization to the water in the first storage tank 16, thus prevent from the moisture of Carried bacteria from entering in refrigerator room 10 causing secondary pollution to the fruits and vegetables wherein stored.This sterilization module 15 can be ultraviolet-sterilization module, or ozone sterilization module.In a preferred embodiment, sterilization module 15 is ultraviolet LED, and it can be arranged on the perisporium of the first storage tank 16.The quantity of ultraviolet LED depends on the size of the first storage tank 16.In order to ensure bactericidal effect, ultraviolet LED can be opened once at set intervals, such as, opened 10 minutes every 1 hour.

Adopt in the embodiment of direct-cooled refrigeration mode at refrigerating device 100, evaporimeter 30 is arranged on outside the rear portion locular wall of refrigerator room 10 usually.When refrigeration system is freezed, meeting frosting on inside the rear portion locular wall of refrigerator room 10, when the temperature in refrigerator room 10 raises when compressor 50 does not work for a long time (the such as door of refrigerator room 10 open or), the frost on inside the locular wall of rear portion can absorb heat to melt and form defrosting water.It will be understood by those skilled in the art that in these embodiments, first storage tank 16 receive defrosting water be inside the locular wall of rear portion, refrigerator room 10 on frost heat absorption melt formed water.

In order to be collected in the defrosting water inside the locular wall of rear portion, refrigerator room 10, water receiving tank 32 can be set in the rear portion locular wall lower inside of refrigerator room 10, to collect the defrosting water inside the locular wall of rear portion, and tapping pipe 34 is utilized controllably to be introduced by defrosting water in the first storage tank 16 or evaporating pan 36.

So far, those skilled in the art will recognize that, although multiple exemplary embodiment of the present utility model is illustrate and described herein detailed, but, when not departing from the utility model spirit and scope, still can directly determine or derive other modification many or amendment of meeting the utility model principle according to content disclosed in the utility model.Therefore, scope of the present utility model should be understood and regard as and cover all these other modification or amendments.

Claims (10)

1. a refrigerating device, is characterized in that, comprising:

Casing, limits in it and is formed for the refrigerator room of the first preset temperature stored article;

Refrigeration system, is configured as described refrigerator room and provides cold;

First storage tank, is configured to the defrosting water produced when controllably receiving described refrigerating device defrost;

Second storage tank, configuration controllably receives defrosting water from described first storage tank; And

Humidifying element, is arranged in described second storage tank, is configured to controllably start, and with by water in described second storage tank or atomization, thus carries out humidification to described refrigerator room.

2. refrigerating device according to claim 1, is characterized in that,

Bottom described first storage tank and be provided with the moisturizing passage of controlled conducting between described second storage tank, when described moisturizing channel conductive, the water in described first storage tank can flow in described second storage tank via described moisturizing passage under gravity; And

Described second storage tank is provided with and allows to be gasified or be atomized the damp exit that the rear steam formed flows into described refrigerator room by described humidifying element.

3. refrigerating device according to claim 2, is characterized in that, also comprise:

Switch, is arranged in described second storage tank, is configured to be turned on or off described moisturizing passage according to the water level in described second storage tank.

4. refrigerating device according to claim 1, is characterized in that, also comprise:

Tapping pipe, is configured to the evaporating pan defrosting water produced during described refrigerating device defrost controllably being imported described first storage tank or described refrigerating device.

5. refrigerating device according to claim 4, is characterized in that, also comprise:

First liquid level sensor, is arranged in described first storage tank, for detecting the water level in described first storage tank.

6. refrigerating device according to claim 4, is characterized in that, also comprise:

Filter, is arranged on the stream between described tapping pipe and described first storage tank, to filter described defrosting water; With

Sterilization module, is arranged in described first storage tank, to carry out sterilization to the water in described first storage tank.

7. refrigerating device according to claim 1, is characterized in that, also comprise:

Humidity sensor, is arranged on described refrigerator indoor, to detect the humidity of described refrigerator room; With

Second liquid level sensor, is arranged in described second storage tank, for detecting the water level in described second storage tank.

8. refrigerating device according to claim 7, is characterized in that,

Also be limited with for the freezing compartment of the second preset temperature stored article in described casing, it is arranged on the top of described refrigerator room, arranges heat insulation partition wall between described freezing compartment and described refrigerator room.

9. refrigerating device according to claim 7, is characterized in that,

Described refrigerator room is fruits and vegetables room, and described humidity sensor is arranged on the top chamber wall of described refrigerator room.

10. refrigerating device according to claim 1, is characterized in that,

Described humidifying element is ultrasonic atomizatio sheet, in order to the electronics higher-order of oscillation by the water atomization in described second storage tank.