CN206449996U - Refrigerator and the container for storing for refrigerator - Google Patents

Abstract

The utility model is related to a kind of refrigerator and the container for storing for refrigerator.Wherein, container for storing includes：Oxygen-enriched membrane component, it is installed on cylinder and its surrounding space is connected with controlled atmosphere space, oxygen-enriched membrane component has at least one oxygen permeable membrane and an oxygen rich gas collecting chamber, and the oxygen being arranged so that in oxygen-enriched membrane component surrounding space air-flow more enters oxygen rich gas collecting chamber relative to nitrogen therein through oxygen permeable membrane；And axial flow blower, it is configured to promote the air flow of the surrounding space of oxygen-enriched membrane component.In addition, the utility model additionally provides a kind of refrigerator with the container for storing.The utility model can make container for storing obtain rich nitrogen oxygen deprivation in favor of the atmosphere of food fresh-keeping, and can accelerate the flow perturbation in container for storing, improve the oxygen rate of discharge in storage space.

Description

Refrigerator and the container for storing for refrigerator

Technical field

The utility model is related to refrigerating storing field, and more particularly to a kind of refrigerator and the storing for refrigerator hold Device.

Background technology

Refrigerator is to maintain a kind of refrigeration plant of constant low temperature, is also that one kind makes food or other articles keep constant low temperature The product for civilian use of cold conditions.With the raising of quality of the life, consumer is to storing the fresh-keeping requirement of food also more and more higher, especially It is requirement to color and luster, the mouthfeel of food etc. also more and more higher.Therefore, the food of storage should also be as ensureing during storing, food Color and luster, mouthfeel, freshness of thing etc. keep constant as far as possible.

In the preservation technology of refrigerator, the oxidation of food, respiration are all closely related in oxygen and refrigerator.Food Breathing is slower, and the oxidation of food is lower, and fresh keeping time is also longer.The oxygen content in air is reduced, to food fresh keeping With obvious effect.

At present, in order to reduce the content of oxygen in refrigerator, vacuum freshness retaining or extra setting are generally utilized in the prior art It is fresh-keeping that device for deoxidizing carries out hypoxemia.However, the operation of vacuum freshness retaining is typically more cumbersome, using being inconvenient；And device for deoxidizing Deoxygenation generally is carried out using electrolyte etc., device is complex and deaerating effect is not obvious；Also, general device for deoxidizing is not Possesses blower fan, it is impossible to realize the quick circulation of food materials surrounding air and device for deoxidizing surrounding air, make deoxidation effectiveness low.Institute The freshness of food is improved with a kind of, it would be highly desirable to new Refrigerator technology keeping food fresh.

Utility model content

A purpose of the present utility model is intended to overcome at least one defect of current refrigerator there is provided a kind of container for storing, It is creatively proposed discharges the space by the oxygen in air in a space, thus obtained in the space rich nitrogen oxygen deprivation with Beneficial to the atmosphere of food fresh-keeping, the atmosphere has by reducing the content of oxygen in fruits and vegetables shelf space, reduction fruits and vegetables The intensity of oxygen breathing, while ensureing the respiration on basis, prevents fruits and vegetables from carrying out anaerobic respiration, so as to reach fruits and vegetables long-period freshness preserving Purpose.

One of the present utility model further objective is that will accelerate the flow perturbation in container for storing, and then improve storing Oxygen rate of discharge in space.

Especially, the utility model provides a kind of container for storing for refrigerator, including with controlled atmosphere space Cylinder, it is characterised in that also include：

Oxygen-enriched membrane component, is installed on the cylinder and its surrounding space is connected with the controlled atmosphere space, described oxygen-enriched Membrane module has at least one oxygen permeable membrane and an oxygen rich gas collecting chamber, is arranged so that the oxygen-enriched membrane component surrounding space gas Oxygen in stream more enters the oxygen rich gas collecting chamber relative to nitrogen therein through the oxygen permeable membrane；With

Axial flow blower, is configured to promote the air flow of the surrounding space of the oxygen-enriched membrane component.

Alternatively, the axial flow blower is arranged at the front of the oxygen-enriched membrane component, and is configured to suck the axle stream wind Air on the downside of machine, then makes the air be blown out towards the oxygen-enriched membrane component.

Alternatively, the rotation axis of the axial flow blower extends along horizontal cross.

Alternatively, the oxygen-enriched membrane component is in plate, and horizontally be arranged at the roof of the cylinder.

Alternatively, the upper surface of the axial flow blower is located at the upside of the upper surface of the oxygen-enriched membrane component, the axle stream The lower surface of blower fan is located at the downside of the lower surface of the oxygen-enriched membrane component.

Alternatively, the both lateral sides of the axial flow blower are located at the both sides of the oxygen-enriched membrane component.

Alternatively, the accommodating chamber connected with the controlled atmosphere space is provided with the roof, with accommodating described oxygen-enriched Membrane module.

Alternatively, offered at least in the wall between the accommodating chamber of the roof and the controlled atmosphere space One the first intercommunicating pore and at least one second intercommunicating pore being spaced apart with first intercommunicating pore, to connect respectively in diverse location Lead to the accommodating chamber and the controlled atmosphere space；The axial flow blower is arranged in the accommodating chamber, to promote the controlled atmosphere The gas in fresh-keeping space successively via at least one described first intercommunicating pore, the accommodating chamber with it is described at least one second connect Hole returns to the controlled atmosphere space.

Alternatively, the axial flow blower is arranged at the top of at least one first intercommunicating pore；The oxygen-enriched membrane component It is arranged at the top of at least one second intercommunicating pore.

Especially, the utility model additionally provides a kind of refrigerator, including casing, defines storage space, the ice in it Case also includes any of the above-described kind of container for storing, is arranged in the storage space.

Container for storing of the present utility model is because with the controlled atmosphere in oxygen-enriched membrane component, and its surrounding space and cylinder Space is connected, and can make to form rich nitrogen oxygen deprivation in controlled atmosphere space and beneficial to the atmosphere of food fresh-keeping, the atmosphere leads to The content of oxygen in reduction fruits and vegetables shelf space, the intensity of reduction fruit/vegetable aerobic breathing are crossed, while ensure the respiration on basis, Prevent fruits and vegetables from carrying out anaerobic respiration, so as to reach the purpose of fruits and vegetables long-period freshness preserving.

Further, because container for storing of the present utility model also includes axial flow blower, the week of oxygen-enriched membrane component can be promoted The air flow of confining space, improves absorption efficiency of the oxygen-enriched membrane component to oxygen in container for storing interior air-flow, and then improve storage The fresh keeping property of thing container.And due to the particularity of axial flow blower air-out mode, air-out can be made to be blown in the horizontal direction along straight line To oxygen-enriched membrane component, and then make air current flow around oxygen permeable membrane evenly, it is to avoid air turbulence and the flowing that causes is not smooth, carry Absorption efficiency of the oxygen permeable membrane to the oxygen of surrounding space is risen.

According to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will be more Plus understand of the present utility model above-mentioned and other purposes, advantages and features.

Brief description of the drawings

It is described in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter more of the present utility model specific real Apply example.Identical reference denotes same or similar part or part in accompanying drawing.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 schematic explosive view of the container for storing according to the utility model one embodiment；

Fig. 2 is the schematic plan of container for storing shown in Fig. 1；

Fig. 3 is the schematic side elevation of container for storing shown in Fig. 1；And

Fig. 4 is the schematic diagram of the refrigerator according to the utility model one embodiment.

Embodiment

Fig. 1 is the schematic explosive view of the container for storing according to the utility model one embodiment.As shown in figure 1, this reality A kind of container for storing 10 for refrigerator is provided with new embodiment, it may include the cylinder with controlled atmosphere space 100.Specifically, to opening before cylinder 100 can specifically have, the container for storing 10 may include to be arranged in cylinder 100 and can be from opening The drawer that mouth is extracted out.Especially, the container for storing 10 may also include oxygen-enriched membrane component 200 and axial flow blower 300.

Wherein, oxygen-enriched membrane component 200 is mountable to cylinder 100, and the surrounding space of oxygen-enriched membrane component 200 can be with cylinder Controlled atmosphere space connection in 100.Oxygen-enriched membrane component 200 can have at least one oxygen rich gas of oxygen permeable membrane 210 and one to collect Chamber 220 so that the oxygen in the surrounding space air-flow of oxygen-enriched membrane component 200 more passes through oxygen permeable membrane relative to nitrogen therein 210 enter oxygen rich gas collecting chamber 220.Specifically, the inner surface of each oxygen permeable membrane 210 is towards oxygen rich gas collecting chamber 220, In pressure of the pressure of oxygen rich gas collecting chamber 220 less than the surrounding space of oxygen-enriched membrane component 200, to make oxygen-enriched membrane component Oxygen in the air of 200 exterior space more enters relative to nitrogen therein through at least one oxygen permeable membrane 210 Oxygen rich gas collecting chamber 220, can make to form rich nitrogen oxygen deprivation in controlled atmosphere space and beneficial to the atmosphere of food fresh-keeping, the gas Body atmosphere is by reducing the content of oxygen in fruits and vegetables shelf space, the intensity of reduction fruit/vegetable aerobic breathing, while ensureing basis Respiration, prevents fruits and vegetables from carrying out anaerobic respiration, so as to reach the purpose of fruits and vegetables long-period freshness preserving.

With reference to shown in Fig. 1, Fig. 2, further, container for storing 10 may also include axial flow blower 300, can promote oxygen permeable membrane The air flow of the surrounding space of component 200, can improve absorption of the oxygen-enriched membrane component 200 to oxygen in the interior air-flow of container for storing 10 Efficiency, improves the fresh keeping property of container for storing 10.And due to the particularity of the air-out mode of axial flow blower 300, air-out can be made Oxygen-enriched membrane component 200 is blowed to along straight line in the horizontal direction, and then make air current flow around oxygen-enriched membrane component 200 evenly, keep away The flowing exempted from air turbulence and caused is not smooth, improves absorption efficiency of the oxygen-enriched membrane component 200 to the oxygen of surrounding space.It is described Axial flow blower 300 is arranged at the front of the oxygen-enriched membrane component 200, and is configured to suck the air of the downside of axial flow blower 300, so After the air is blown out towards oxygen-enriched membrane component 200.And due to the particularity of the air-out mode of axial flow blower 300, air-out can be made to exist Horizontal direction blows to oxygen-enriched membrane component 200 along straight line, and then makes air current flow around oxygen permeable membrane 210 evenly, it is to avoid air-flow Flowing that is disorderly and causing is not smooth, improves absorption efficiency of the oxygen permeable membrane 210 to the oxygen of surrounding space.Preferably, axle stream wind The rotation axis of machine 300 can extend along horizontal cross, that is to say, that axial flow blower 300 can blow to dead astern and be arranged at its rear Oxygen-enriched membrane component 200, further improve the airflow homogeneity of the surrounding space of oxygen-enriched membrane component 200.

With reference to shown in Fig. 2, Fig. 3, in some embodiments of the present utility model, oxygen-enriched membrane component 200 can be in plate, and The roof of cylinder 100 can be horizontally be arranged at.The oxygen-enriched membrane component 200 may also include support frame 240.Oxygen permeable membrane 210 can be Two, the both sides of support frame 240 are installed on, so that two oxygen permeable membranes 210 and support frame 240 surround oxygen rich gas receipts jointly Collect chamber 220.

Further, support frame 240 may include frame, the structure such as floor and/or flat board for being arranged in frame, floor Between, can be formed on gas channel, the surface of floor between floor and flat board etc., can open up fluted on the surface of flat board, To form gas channel.Floor and/or flat board can improve structural strength of oxygen-enriched membrane component 200 etc..That is, support frame 240 have the first surface and second surface that are oppositely arranged, and be internally formed connected with first surface and second surface to A few gas channel.Two oxygen permeable membranes 210 are separately positioned on the first surface and second surface of support frame 240, with At least one gas channel of support frame 240 limits and forms oxygen rich gas collecting chamber 220 jointly.

In some embodiments of the present utility model, support frame 240 includes connecting with least one foregoing gas channel Aspirating hole, be arranged on frame, to allow the oxygen in oxygen rich gas collecting chamber to be output.Aspirating hole is connected with aspiration pump. Oxygen permeable membrane 210 first passes through double faced adhesive tape and is installed on frame, is then sealed by fluid sealant.

In some embodiments of the present utility model, the upper surface of axial flow blower 300 can be located at the upper of oxygen-enriched membrane component 200 The upside on surface, the lower surface of axial flow blower 300 is located at the downside of the lower surface of oxygen-enriched membrane component 200, blows axial flow blower 300 The air gone out more swimmingly can flow along the upper and lower surface of oxygen-enriched membrane component 200, and will not be by oxygen-enriched membrane component 200 Front end face stop.The both lateral sides of axial flow blower 300 can be located at the both sides of oxygen-enriched membrane component 200, that is to say, that in horizontal side The both sides of upward oxygen-enriched membrane component 200 are located at the inner side of the both sides of axial flow blower 300, can effectively utilize the width of axial flow blower 300 Degree, makes its air-flow blown out cover oxygen-enriched membrane component 200 in the horizontal direction, and then lift the absorption efficiency of oxygen permeable membrane 210.

Can be set in some embodiments of the present utility model, in roof has the accommodating chamber connected with controlled atmosphere space 110, to house oxygen-enriched membrane component 200.For the ease of the manufacture of cylinder 100, roof may include lower board unit and ceiling plate portion, lower board unit Upper surface formed recessed groove, ceiling plate portion is covered on recessed groove, to form accommodating chamber 110.The lower board unit of roof can be with cylinder 100 Side wall, rear wall, bottom wall be integrally formed.In some embodiments, the downside of ceiling plate portion can be provided with fixed oxygen-enriched membrane component 200 Buckle, axial flow blower 300 can utilize mode connects for screw with ceiling plate portion.Certainly other fixed forms can be also used, for example, are riveted, are welded Connect, here is omitted.

As shown in figure 1, in some embodiments of the present utility model, in accommodating chamber 110 and the controlled atmosphere space of roof Between wall in can offer at least one first intercommunicating pore 120 and be spaced apart with the first intercommunicating pore 120 at least one Two intercommunicating pores 130, with respectively in diverse location connection accommodating chamber 110 and controlled atmosphere space.Axial flow blower 300 may be provided at appearance Receive in chamber 110, to promote the gas in controlled atmosphere space successively via at least one first intercommunicating pore 120, accommodating chamber 110 and extremely Few second intercommunicating pore 130 returns to controlled atmosphere space, realizes the gas in accommodating chamber 110 and the gas in controlled atmosphere space Exchange and circulation.

In some embodiments of the present utility model, axial flow blower 300 may be disposed at least one the first intercommunicating pore 120 Top, makes axial flow blower 300 just pair and close to the first intercommunicating pore 120, and then improve axial flow blower 300 to controlled atmosphere space Gas absorption dynamics.Also, oxygen-enriched membrane component 200 may be disposed at the top of at least one the second intercommunicating pore 130, with richness Oxygen in the gas of the surrounding space of oxygen membrane module 200 enters after oxygen rich gas collecting chamber 220, passes through the second intercommunicating pore as soon as possible 130 flow back to controlled atmosphere space, will not be detained in accommodating chamber 110.As shown in figure 3, arrow meaning is airflow direction.

In some embodiments of the present utility model, multiple micropores can be offered on cylinder 10, drawer space can be via more Individual micropore on the outside of drawer space with connecting.Micropore is also referred to as air equalizer opening.Each micropore can be millimetre-sized micropore, example Such as a diameter of 0.1mm to 3mm of each micropore, preferably 1mm, 1.5mm etc..Multiple micropores are set to make the pressure in drawer space Power is unlikely to too low, and the settings of multiple micropores will not also make to flow out outside the nitrogen in drawer space, though flowing be also very little very To being negligible, the preservation of food in drawer space is not interfered with.In some alternative embodiments of the present utility model, Also micropore can be not provided with cylinder 10, even if so, also there is the gases such as substantial amounts of nitrogen to exist in drawer space, user is drawing ,, then can be significantly laborsaving compared to existing vacuum storing room without too sweat when opening drawer 20.

Fig. 4 is the schematic diagram of the refrigerator according to the utility model one embodiment.As shown in figure 4, this practicality is new The embodiment of type additionally provides a kind of refrigerator, and it may include that storage space can be defined in casing, casing.The refrigerator may also include The container for storing 10 of any of the above-described embodiment, is arranged in storage space.Specifically, storage space and pressure can be defined in casing Contracting cabin.For example, casing may include to limit storage space in inner bag, inner bag.Main door body is pivotally mounted to casing, is configured to Open or close the storage space of casing restriction.Further, it is provided with storage space in container for storing 10, container for storing 10 With controlled atmosphere space.Controlled atmosphere space can be hermetic type space or approximate hermetic type space.Preferably, container for storing 10 For drawer appliance.Refrigerator may also include refrigeration system, and it can be to be made up of compressor, condenser, throttling arrangement and evaporator etc. Cooling cycle system.Compressor is installed in compressor bin.Evaporator is configured to directly or indirectly carry into storage space Semen donors.For example when the refrigerator is family expenses compression direct cooling refrigerator, evaporator may be disposed on the outside of the rear surface of inner bag or interior Side.When the refrigerator is family expenses compression wind cooling refrigerator, also there is evaporator room in casing, evaporator room by air path system with Storage space is connected, and evaporator is set in evaporator room, and exit is provided with blower fan, to carry out circulation system to storage space It is cold.

So far, although those skilled in the art will appreciate that herein it is detailed have shown and described it is of the present utility model many Individual exemplary embodiment, still, still can be public according to the utility model in the case where not departing from the utility model spirit and scope The content opened directly determines or derived many other variations or modifications for meeting the utility model principle.Therefore, this practicality is new The scope of type is understood that and regarded as to cover other all these variations or modifications.

Claims (10)

1. a kind of container for storing for refrigerator, including the cylinder with controlled atmosphere space, it is characterised in that also include：

Oxygen-enriched membrane component, is installed on the cylinder and its surrounding space is connected with the controlled atmosphere space, the oxygen permeable membrane group Part has at least one oxygen permeable membrane and an oxygen rich gas collecting chamber, is arranged so that in the oxygen-enriched membrane component surrounding space air-flow Oxygen relative to nitrogen therein more through the oxygen permeable membrane enter the oxygen rich gas collecting chamber；With

Axial flow blower, is configured to promote the air flow of the surrounding space of the oxygen-enriched membrane component.

2. container for storing according to claim 1, it is characterised in that

The axial flow blower is arranged at the front of the oxygen-enriched membrane component, and is configured to the sky that sucks on the downside of the axial flow blower Gas, then makes the air be blown out towards the oxygen-enriched membrane component.

3. container for storing according to claim 2, it is characterised in that

The rotation axis of the axial flow blower extends along horizontal cross.

4. container for storing according to claim 3, it is characterised in that

The oxygen-enriched membrane component is in plate, and horizontally be arranged at the roof of the cylinder.

5. container for storing according to claim 4, it is characterised in that

The upper surface of the axial flow blower is located at the upside of the upper surface of the oxygen-enriched membrane component, the lower surface of the axial flow blower Positioned at the downside of the lower surface of the oxygen-enriched membrane component.

6. container for storing according to claim 4, it is characterised in that

The both lateral sides of the axial flow blower are located at the both sides of the oxygen-enriched membrane component.

7. container for storing according to claim 4, it is characterised in that

The accommodating chamber connected with the controlled atmosphere space is provided with the roof, to house the oxygen-enriched membrane component.

8. container for storing according to claim 7, it is characterised in that

At least one first company is offered in wall between the accommodating chamber of the roof and the controlled atmosphere space Through hole and at least one second intercommunicating pore being spaced apart with first intercommunicating pore, with respectively in the diverse location connection receiving Chamber and the controlled atmosphere space；

The axial flow blower is arranged in the accommodating chamber, with promote the gas in the controlled atmosphere space successively via it is described extremely Few first intercommunicating pore, the accommodating chamber and at least one described second intercommunicating pore return to the controlled atmosphere space.

9. container for storing according to claim 8, it is characterised in that

The axial flow blower is arranged at the top of at least one first intercommunicating pore；

The oxygen-enriched membrane component is arranged at the top of at least one second intercommunicating pore.

10. storage space is defined a kind of refrigerator, including casing, in it, the refrigerator also includes：

Container for storing any one of claim 1 to 9, is arranged in the storage space.