CN105806003A - Air-cooled refrigerator - Google Patents

Abstract

The invention provides an air-cooled refrigerator. The air-cooled refrigerator comprises a refrigerating chamber and further comprises a drying chamber provided with an independent closed space and arranged in the refrigerating chamber. The drying chamber is provided with an air inlet allowing air cooled by a cold source to flow in and an air return opening allowing displaced air to flow out, and a waterproof gas-permeable membrane is arranged at the air return opening. The waterproof gas-permeable membrane is arranged at the air return opening of the drying chamber, and the waterproof gas-permeable membrane is used for achieving airflow circulation so as to ensure that fed low-temperature air can replace damp air in the drying chamber, and external high-humidity moisture is prevented from entering the drying chamber after air replacing is completed. The drying chamber of the air-cooled refrigerator is simpler in design and better in performance, and the manufacturing cost is reduced.

Description

Wind cooling refrigerator

Technical field

The present invention relates to refrigerator art, particularly relate to a kind of wind cooling refrigerator.

Background technology

With consumer for the expectation of healthy Lifestyle more, dried food and nuts food materials proportion in dietary structure such as Fructus Lycii, Folium Camelliae sinensis, Lentinus Edodes, Arillus Longan, Cordyceps gradually rises.But these dried food and nuts food materials not easily store very much, preserve if being placed in room temperature, when drawing badly, the easy variable color of holding time length, rotten, cause nutrient loss；If placed at the preservation of refrigerator cold-storage indoor, it is easy to the impact being subject to cold room other foods interior causes making moist, cause mouldy, rotten.The how long term storage dried food and nuts food materials problem that to be letter to be solved.

For solving this problem, prior art occurs in that on refrigeration for refrigerator function basis, increases room between adjusting humidity, for instance in the cold room of refrigerator, form the space of autonomous closure as hothouse.Its drying principles is generally: to hothouse transporting low temperature gas, by the rise to the displacement of dry room air and temperature, reduces the relative humidity of dry room air, reaches the purpose dried.Utilizing this principle, hothouse needs when cold gas carry, maintains the circulation of air unimpeded, and when after temperature recovery, in order to maintain case inner drying degree, needs again a good sealing effectiveness, does not allow extraneous recirculation of wet air.

In existing hothouse, a class is to arrange inlet air door and return air air door simultaneously, utilizes the control of the unlatching to inlet air door and return air air door and closedown, it is achieved the dry place in hothouse.The aridity of this hothouse is better, but complex structural designs, high expensive；Another kind of is that hothouse does not carry out encapsulation process, but by controlling the frequency of delivery of low temperature dry air, reduces the aridity in case, but this design is bad owing to sealing, and can cause the recirculation of wet air of outside, and the fluctuation of case inner drying degree is bigger, it is difficult to control.

Summary of the invention

It is an object of the present invention to overcome at least one defect of prior art, it is provided that a kind of wind cooling refrigerator with hothouse, provide for dried food and nuts food materials and be suitable for the long-term environment preserved.

The present invention one realizes the smooth and easy of hothouse when further objective is that reduction cost and changes wind.

The present invention one further objective is that that improves hothouse changes wind effect, to ensure its dry stable Conservation environment.

Especially, the invention provides a kind of wind cooling refrigerator, including cold room, also include:

There is the hothouse in autonomous closure space, be arranged in described cold room；

Described hothouse has the air inlet supplying the air through low-temperature receiver cooling to flow into and the return air inlet of the air outflow Gong displacing, and wherein said return air inlet place is provided with the ventilated membrane that blocks water.

Alternatively, described in the ventilated membrane that blocks water be made up of expanded politef microporous molecular material, it has microcellular structure, the diameter of the described micropore diameter more than gas molecule and the diameter less than hydrone.

Alternatively, described hothouse is sealed container by drawer type and constitutes, including:

Drawer body, its top end opening, it is used for holding article to be deposited；With

Cover plate, is arranged at above described drawer body, for being sealed by the top end opening of described drawer body.

Alternatively, described return air inlet is arranged on described cover plate or described drawer body the position of contiguous described cold room inner bag rear wall.

Alternatively, described cover plate or the discharge opening place of the contiguous described cold room inner bag rear wall in position of described return air inlet arranged on described drawer body, so that the relative humidity of described return air inlet outside environment reaches 90%RH.

Alternatively, described cold room inner bag rear wall place is provided with evaporator air inlet；

The air inlet of described hothouse is arranged on the rear wall of described drawer body, and described air inlet controllably connects with described evaporator air inlet, flow in described hothouse through described evaporator air inlet, air inlet successively through the air of the evaporator cools of described wind cooling refrigerator.

Alternatively, when described drawer body is pushed into described cold room inner side, the air inlet of described hothouse is directed at described evaporator air inlet.

Alternatively, the periphery of described air inlet is provided with elastic seal ring, and when described drawer body is pushed into described cold room inner side, the air inlet of described hothouse and described evaporator air inlet are tightly connected.

Alternatively, described evaporator air inlet place arranges MOD.

Alternatively, described wind cooling refrigerator also includes:

Temperature sensor, is arranged in described hothouse, for sensing the temperature in described hothouse；With

Humidity sensor, is arranged in described hothouse, for sensing the humidity in described hothouse,

Described MOD is configured to: what the temperature sensed according to described temperature sensor and/or described humidity sensor sensed is turned on and off humidity-controlledly.

The present invention arranges the ventilated membrane that blocks water at the return air inlet place of hothouse, the utilization ventilated membrane that blocks water realizes airflow, to ensure that the Cryogenic air sent into can replace the humid air in hothouse, and stop outside high humidity steam to enter in hothouse after wind terminates changing, maintain the aridity in hothouse.

The design of hothouse of the present invention is more simple, and performance is more good, and reduces manufacturing cost.

According to below in conjunction with the accompanying drawing detailed description to the specific embodiment of the invention, those skilled in the art will understand the above-mentioned of the present invention and other purposes, advantage and feature more.

Accompanying drawing explanation

Some specific embodiments of the present invention are hereinafter described in detail with reference to the accompanying drawings by way of example, and not by way of limitation.Accompanying drawing labelling identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that what these accompanying drawings were not necessarily drawn to scale.In accompanying drawing:

Fig. 1 is the perspective schematic view of wind cooling refrigerator according to an embodiment of the invention；

Fig. 2 is the schematic side elevation of hothouse according to an embodiment of the invention；

Fig. 3 is the schematic explosive view that hothouse is taken out according to an embodiment of the invention；

Fig. 4 is the schematic diagram of hothouse according to an embodiment of the invention.

Detailed description of the invention

Fig. 1 is the perspective schematic view of wind cooling refrigerator 100 according to an embodiment of the invention.Referring to Fig. 1, wind cooling refrigerator 100 can include cold room 110.Refrigerating-chamber door (not shown) may be provided at open front place of cold room 110, in order to open or close cold room 110.

As will be understood by the skilled person in the art, the wind cooling refrigerator 100 of the embodiment of the present invention may also include cooling cycle system (not shown) and air channel 130 (referring to Fig. 2).Cooling cycle system such as can include compressor, condenser, restricting element and vaporizer (can include refrigerating evaporator and/or refrigeration evaporator).Wind cooling refrigerator 100 may also include the blower fan being positioned at air channel 130, for the air-flow after vaporizer cool-down dehumidification is blowed to cold room 110.Except cold room, the wind cooling refrigerator 100 of the embodiment of the present invention may also comprise refrigerating chamber and/or fresh-keeping chamber.

Especially, wind cooling refrigerator 100 may also include the hothouse 120 with autonomous closure space, and it is arranged in cold room 110.

Fig. 2 is the schematic side elevation of hothouse according to an embodiment of the invention, and in figure, the direction of arrow represents the flow direction of air-flow.Referring to Fig. 2, in the embodiment of the present invention, hothouse 120 can have the air inlet 128 flowed into for the air (hereinafter referred to as cold air) through low-temperature receiver cooling, the cold air of low temperature is flowed into after in hothouse 120 by air inlet 128 and air heat-exchange or displace air in hothouse 120 in hothouse 120, thus reducing the temperature of hothouse 120.Hothouse 120 also has the air for displacement and flows out the return air inlet 129 of hothouse 120.

In the hothouse 120 of prior art, generally automatically controlled air door is set at air inlet 128 and return air inlet 129 place, with at needs to when passing into cold air in hothouse 120, the automatically controlled air door controlling air inlet 128 and return air inlet 129 place is opened, cold air flows in hothouse 120 from air inlet 128, and flow out hothouse 120 by return air inlet 129, it is achieved and air displacement in hothouse 120, so that temperature reduces in hothouse 120；It is then shut off air inlet 128 and the automatically controlled air door at return air inlet 129 place, makes hothouse 120 opposing seal, along with hothouse 120 heats up gradually, it is achieved its relative humidity declines.

In such prior art, for the automatically controlled air door of air inlet 128 and return air inlet 129 place, usually require that its opening and closing simultaneously of control, to realize ventilation and to seal.For such hothouse 120, no matter it is cost of material or automatically controlled cost, all of a relatively high.

In order to overcome this defect, in the present invention, it is not provided with automatically controlled air door at return air inlet 129 place, but the ventilated membrane 127 that blocks water is set.The embodiment of the present invention utilizes ventilated membrane 127 material that blocks water to have microcellular structure and its micro-pore diameter more than gas molecule diameter and less than the principle of hydrone diameter.Under pressure, gas molecule can pass through micropore thus reaching internal and external equilibrium or ventilative, and the simple gas of ratio of gas mixture containing water or other materials is easily detected by this micropore.Particularly, in air, relative humidity is more big, and its contained hydrone is closer to liquid water, and micropore more stops it to pass through from micropore；In air, relative humidity is more little, gas more dry easy from air relative humidity more pass through.

In embodiments of the present invention, on the one hand, when the air door at air inlet 128 place is opened, low temperature dry air flows into hothouse 120 by air inlet 128, and flow out hothouse 120 by the ventilated membrane 127 that blocks water at return air inlet 129 place, it is achieved air displacement in hothouse 120；On the other hand, when the air door at air inlet 128 place is closed, the ventilated membrane 127 that blocks water can stop the highly humid air in cold room 110 to enter in hothouse 120, thus maintaining the aridity of hothouse 120 within a certain period of time.Utilization blocks water this physical characteristic of ventilated membrane 127, it is possible to achieve the storing environment of hothouse in the present embodiment.Arrange the hothouse of automatically controlled air door in compared to existing technology at return air inlet 129 place, so that the structure of hothouse 120 according to embodiments of the present invention is more simple, performance is better.

In the embodiment of the present invention, the ventilated membrane 127 that blocks water preferably is made up of expanded politef microporous molecular material.Politef microporous molecular material has microcellular structure, the diameter of its micropore diameter more than gas molecule and the diameter less than hydrone.

Inventors herein have recognized that, for the embodiment of the present invention adopt the ventilated membrane 127 that blocks water, its microcellular structure can make relative humidity steam below 85% easily by, relative humidity steam more than 90% not easily passs through.Therefore, in the embodiment of the present invention, preferably return air inlet 129 is arranged on and makes its outside environment be in cold room 110 relative humidity to reach the region of 90%RH, so that the ventilated membrane 127 that blocks water being arranged on return air inlet 129 place fully plays the effect preventing the highly humid air of outside environment from entering hothouse 120.

In certain embodiments, return air inlet 129 can be close to the setting of humidity higher cold room 110 inner bag rear wall.Owing to distance refrigeration evaporator is nearest herein, ambient air humidity is significantly high, characteristic in conjunction with the ventilated membrane 127 that blocks water, high-temperature water steam outside hothouse 120 cannot be introduced in hothouse 120, and the low temperature dry air in hothouse 120 can pass through the ventilated membrane 127 that blocks water and flow to outside environment, complete the air displacement in hothouse 120.

In cold room 110, the region that generally its relative humidity is maximum is positioned near the discharge opening of cold room 110 inner bag rear wall, and the relative humidity of this place's air is even up to 100%RH.Here discharge opening is also commonly called discharge outlet.Therefore in further embodiment of the present invention, it is preferable that return air inlet 129 is positioned adjacent to the corresponding position of hothouse of cold room 110 inner bag rear wall discharge opening.

Fig. 3 and Fig. 4 is schematic explosive view and the schematic diagram of hothouse according to an embodiment of the invention respectively.Referring to Fig. 3 and Fig. 4, in certain embodiments, hothouse 120 can be sealed container by drawer type and constitutes.Hothouse 120 can include drawer body 122 and cover plate 121.The top end opening of drawer body 122, for holding article to be deposited.Drawer body 122 can include diapire, and in respective bottom and the antetheca that diapire combines, rear wall and two relative lateral sidewalls, to form the cavity of top end opening.Cover plate 121 is arranged at above drawer body 122, for being sealed by the top end opening of drawer body 122.

In certain embodiments, cover plate 121 and drawer body 122 are separately positioned, and cover plate 121 is pivotably mounted on cold room 110 inner bag rear wall.When cover plate 121 is pivoted up, the top end opening of drawer body 122 can be opened, when cover plate 121 is pivoted up, the top end opening of drawer body 122 can be sealed.

In some alternate embodiment, cover plate 121 can be fixedly installed in cold room 110 inner bag, and drawer body 122 is slidably mounted on cover plate 121.

In these embodiments, the rear wall of drawer body 122 and two relative lateral sidewalls are facing with the rear wall of cold room 110 inner bag, two corresponding regions of relative lateral sidewalls respectively.Cover plate 121 and drawer body 122 material can be common plastics, design without Additional insulation.Under the environment that cold room 110 temperature is 5 degrees centigrade, after hothouse 120 ventilation cooling, its temperature quickly can rise, thus the relative humidity reduced in hothouse 120.

In certain embodiments, return air inlet 129 may be provided at the position of contiguous cold room 110 inner bag rear wall on cover plate 121.In the application, technical term " vicinity " refers to there is spacing between return air inlet 129 and cold room 110 inner bag rear wall, and this spacing can be such as 50mm, 30mm, 10mm, 5mm etc..

The installation form of ventilated membrane 127 of blocking water can be directly at return air inlet 129 place's paster or utilize the modes such as nut fastening to be fixed on cover plate 121.

In an alternative embodiment, return air inlet 129 may also be arranged on the position of contiguous cold room 110 inner bag rear wall on drawer body 122.Such as may be provided at the position of contiguous cold room 110 inner bag rear wall on the horizontal side plate that the two of drawer body 122 are relative or be arranged on the rear wall place of drawer body 122.

In a further embodiment, cover plate 121 or the discharge opening (not shown) place of the contiguous cold room 110 inner bag rear wall in position of return air inlet 129 arranged on drawer body 122, so that the relative humidity of return air inlet 129 outside environment reaches 90%RH.

In certain embodiments, cold room 110 inner bag rear wall place is provided with evaporator air inlet 131；The air inlet 128 of hothouse 120 is arranged on the rear wall of drawer body 122, and air inlet 128 controllably connects with evaporator air inlet 131, flow in hothouse 120 through evaporator air inlet 131, air inlet successively through the air of the evaporator cools of wind cooling refrigerator 100.In certain embodiments, when there is refrigerating evaporator and refrigeration evaporator when wind cooling refrigerator 100, it is preferable that the air of chilled evaporator cools is introduced in hothouse 120.

In certain embodiments, when drawer body 122 is pushed into cold room 110 inner side, when drawer body 122 is sealed by cover plate 121 in cold room 110 in other words, the air inlet 128 of hothouse 120 is directed at evaporator air inlet 131.So that from the cold wind major part entrance hothouse 120 that evaporator air inlet 131 is sent here.

In order to make the cold wind sent here from evaporator air inlet 131 all enter hothouse 120, without flowing to other regions of cold room 110, in a further embodiment, the periphery of air inlet 128 can be provided with elastic seal ring 125, when drawer body 122 is pushed into cold room 110 inner side, air inlet 128 and the evaporator air inlet 131 of hothouse 120 are tightly connected.Certainly, elastic seal ring 125 may also be arranged on the periphery of evaporator air inlet 131.

In certain embodiments, air-supply air door 132 can be set at evaporator air inlet 131 place.Air-supply air door 132 can be MOD.Closing and the airdoor control opened in the module of available former air channel of air-supply air door 132.

When hothouse 120 need not be blown, air-supply air door 132 is closed, and cold wind does not flow to hothouse 120.When hothouse 120 needs to blow, air-supply air door 132 is opened, and cold wind flows in hothouse 120 through air inlet 128.The aperture size of air-supply air door 132 also adjustable expander air inlet 131.Specifically, when hothouse 120 air requirement is big, air-supply air door 132 tunes up evaporator air inlet 131 aperture, and when hothouse 120 air requirement is little, evaporator air inlet 131 aperture turned down by air-supply air door 132.

In an alternative embodiment, air inlet 128 and evaporator air inlet 131 place can be respectively provided with inlet air door and air-supply air door, to ensure the sealing of hothouse respectively and to prevent evaporator air inlet 131 always to air-supply in hothouse 120.

In certain embodiments, it is possible to utilize the temperature in hothouse 120 and/or humid control to be arranged on air-supply being turned on and off of air door 132 at evaporator air inlet 131 place.Correspondingly, wind cooling refrigerator 100 may also include temperature sensor and humidity sensor (not shown).Temperature sensor and humidity sensor are separately positioned in hothouse 120, to sense the temperature and humidity in hothouse 120 respectively.Air-supply air door 132 can be configured such that the temperature according to temperature sensor sensing and/or humidity-controlled being turned on and off of humidity sensor sensing.In certain embodiments, when the rh value in hothouse 120 is higher than opening air-supply air door 132 when presetting humidity value, with supply cooling air-flow in hothouse 120.In certain embodiments, air-supply air door 132 is opened when the temperature in hothouse 120 is higher than preset temperature value with supply cooling air-flow in hothouse 120.In certain embodiments, air-supply air door 132 is closed when the rh value in hothouse 120 is lower than default humidity value, or close air-supply air door 132 after opening the scheduled time, or close air-supply air door 132 when the temperature value in hothouse 120 is lower than preset temperature value.

In other alternate embodiment, cover plate 121 can be replaced with female seat casing.Female seat casing can have backboard, at respective rear end and the top board that backboard combines, base plate and two relative horizontal side plates, to form the cavity that can hold drawer body 122 pull.The front opening of female seat casing, drawer body 122 can be drawn out along the fore-and-aft direction of cold room 110 and house.In certain embodiments, drawer body 122 can being arranged to the drawer door of pull drawer body 122, the edge of drawer door is provided with sealing strip.So, when drawer body 122 and female seat casing Guan Bi, the front opening of female seat casing can be sealed in other words by the sealing strip on drawer door with the forward end seal cooperation of the top board of female seat casing, base plate, two relative horizontal side plates, so that hothouse 120 is substantially sealed off.In these embodiments, slideway can be set on two sidewalls of drawer body 122 transverse direction, slide rail is correspondingly installed on the inner surface of the relative horizontal side plate of female seat casing two, so that drawer body 122 is slidably mounted on female seat casing.Correspondingly, return air inlet 129 can be arranged on the position being close to cold room 110 inner bag rear wall on the backboard of female seat casing, top board, base plate or horizontal side plate, and the ventilated membrane 127 that blocks water is set at return air inlet 129 place.

In other alternate embodiment, cooling air-flow can be introduced from refrigerating chamber, enter in hothouse 120 through air inlet 128.Correspondingly, air inlet 128 may be provided on the female seat casing top board adjacent with refrigerating chamber, base plate or horizontal side plate, controllably to connect with refrigerating chamber.

In the embodiment of the present invention, the ventilated membrane 127 that blocks water is set at return air inlet 129 place of hothouse 120, the utilization ventilated membrane 127 that blocks water realizes airflow, to ensure that the Cryogenic air sent into can replace the humid air in hothouse 120, and stop outside high humidity steam to enter in hothouse 120 after wind terminates changing, maintain the aridity in hothouse.The design of hothouse of the present invention is more simple, and performance is more good, and reduces manufacturing cost.

So far, those skilled in the art will recognize that, although the detailed multiple exemplary embodiments illustrate and describing the present invention herein, but, without departing from the spirit and scope of the present invention, still can directly determine according to present disclosure or derive other variations or modifications many meeting the principle of the invention.Therefore, the scope of the present invention is it is understood that cover all these other variations or modifications with regarding as.

Claims (10)

1. a wind cooling refrigerator, including cold room, it is characterised in that also include:

There is the hothouse in autonomous closure space, be arranged in described cold room；

Described hothouse has the air inlet supplying the air through low-temperature receiver cooling to flow into and the return air inlet of the air outflow Gong displacing, and wherein said return air inlet place is provided with the ventilated membrane that blocks water.

2. wind cooling refrigerator according to claim 1, it is characterised in that

The described ventilated membrane that blocks water is made up of expanded politef microporous molecular material, and it has microcellular structure, the diameter of the described micropore diameter more than gas molecule and the diameter less than hydrone.

3. wind cooling refrigerator according to claim 1, it is characterised in that

Described hothouse is sealed container by drawer type and constitutes, including:

Drawer body, its top end opening, it is used for holding article to be deposited；With

Cover plate, is arranged at above described drawer body, for being sealed by the top end opening of described drawer body.

4. wind cooling refrigerator according to claim 3, it is characterised in that

Described return air inlet is arranged on described cover plate or described drawer body the position of contiguous described cold room inner bag rear wall.

5. wind cooling refrigerator according to claim 4, it is characterised in that

The discharge opening place of the contiguous described cold room inner bag rear wall in the position of the described return air inlet arranged on described cover plate or described drawer body, so that the relative humidity of described return air inlet outside environment reaches 90%RH.

6. wind cooling refrigerator according to claim 3, it is characterised in that

Described cold room inner bag rear wall place is provided with evaporator air inlet；

The air inlet of described hothouse is arranged on the rear wall of described drawer body, and described air inlet controllably connects with described evaporator air inlet, flow in described hothouse through described evaporator air inlet, air inlet successively through the air of the evaporator cools of described wind cooling refrigerator.

7. wind cooling refrigerator according to claim 6, it is characterised in that

When described drawer body is pushed into described cold room inner side, the air inlet of described hothouse is directed at described evaporator air inlet.

8. wind cooling refrigerator according to claim 7, it is characterised in that

The periphery of described air inlet is provided with elastic seal ring, and when described drawer body is pushed into described cold room inner side, the air inlet of described hothouse and described evaporator air inlet are tightly connected.

9. wind cooling refrigerator according to claim 8, it is characterised in that

Described evaporator air inlet place arranges MOD.

10. wind cooling refrigerator according to claim 9, it is characterised in that also include:

Temperature sensor, is arranged in described hothouse, for sensing the temperature in described hothouse；With

Humidity sensor, is arranged in described hothouse, for sensing the humidity in described hothouse,

Described MOD is configured to: what the temperature sensed according to described temperature sensor and/or described humidity sensor sensed is turned on and off humidity-controlledly.