CN206449980U - Refrigerator and the container for storing component for refrigerator - Google Patents

Abstract

The utility model is related to a kind of refrigerator and the container for storing component for refrigerator.Wherein, container for storing component includes：Multiple oxygen-enriched membrane components, each oxygen-enriched membrane component is installed on cylinder and its surrounding space is connected with controlled atmosphere space；Air extractor, its entrance point is connected via multiple pipelines with the oxygen rich gas collecting chamber of each oxygen-enriched membrane component；And pipe controller, control the opening and closing of multiple pipelines.In addition, the utility model additionally provides a kind of refrigerator with the container for storing component.The utility model can enable the oxygen discharge ability in controlled atmosphere space adjust within the specific limits by the way that the oxygen in controlled atmosphere space is discharged so as to obtain rich nitrogen oxygen deprivation in the space in favor of the atmosphere of food fresh-keeping.

Description

Refrigerator and the container for storing component for refrigerator

Technical field

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

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.It is only true in the market in order to preferably store food Empty fresh-keeping one kind.Through frequently with vacuum freshness retaining mode for vacuum bag is fresh-keeping and vacuum storing compartment is fresh-keeping.

Fresh-keeping using vacuum bag, consumer stores food and is required for progress to vacuumize action every time, and troublesome poeration cannot Consumer's likes.

It is fresh-keeping using vacuum storing compartment, because casing etc. is rigid structure, vacuum state is kept, to pumped vacuum systems Requirement it is very high, very high is required to the sealing property of refrigerator, an article is often picked and placeed, the new air poured into is more, and energy is disappeared Consumption is larger.Moreover, under vacuum environment, food reception cold is relatively difficult, is particularly disadvantageous for the storage of food.Further, since being Vacuum environment, user opens refrigerator doors etc. every time to be needed to take very big strength, causes user inconvenient for use.Although some refrigerators can By pumped vacuum systems to indoor ventilation between vacuum storing, but user can be so caused to wait long period, poor in timeliness.Very It is longer between space-time, it will also result in the deformation such as refrigerator body seriously, i.e., the existing refrigerator with Vacuuming structure can not be well Vacuum freshness retaining is completed, it is necessary to which the intensity of casing etc. is very big, realization requires very high, and cost is very high.

In addition, utility model people has found：Air adjusting preservation equipment traditionally is general by discharging indoor oxygen between storing Or to be filled with a certain amount of nitrogen fresh-keeping to realize.However, oxygen discharge rate and nitrogen charge in the prior art does not have Especially set, if the oxygen discharge rate or nitrogen charge is less can cause fresh-keeping effect not when the storing of storing compartment is more It is good, if oxygen discharge rate or nitrogen charge cause equipment energy consumption to increase compared with conference when the storing of storing compartment is less, cause Energy waste.Therefore it is urgently a kind of can be according to storing amount flexible modulation oxygen discharge rate or nitrogen charge indoor between storing Air adjusting preservation equipment.

Utility model content

A purpose of the present utility model is intended to overcome at least one defect of current refrigerator, and there is provided a kind of container for storing group Part, it is creatively proposed discharges the space by the oxygen in air in a space, so that it is poor that rich nitrogen is obtained in the space Oxygen is in favor of the atmosphere of food fresh-keeping, and the atmosphere is by reducing the content of oxygen in fruits and vegetables shelf space, reduction fruit The intensity of vegetable aerobic respiration, while ensureing the respiration on basis, prevents fruits and vegetables from carrying out anaerobic respiration, so as to reach that fruits and vegetables are long-term Fresh-keeping purpose.

One of the present utility model further objective is that will arrange the oxygen in the controlled atmosphere space of container for storing component Output capacity can be adjusted within the specific limits.

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

Multiple oxygen-enriched membrane components, each oxygen-enriched membrane component is installed on the cylinder and its surrounding space and the controlled atmosphere Fresh-keeping space connection, each oxygen-enriched membrane component has at least one oxygen permeable membrane and an oxygen rich gas collecting chamber, is configured to make The oxygen obtained in the oxygen-enriched membrane component surrounding space air-flow more enters relative to nitrogen therein through the oxygen permeable membrane The oxygen rich gas collecting chamber；

Air extractor, its entrance point is via multiple pipelines and the oxygen rich gas collecting chamber of each oxygen-enriched membrane component Connection, and it is configured to promote the gas in the oxygen rich gas collecting chamber of multiple oxygen-enriched membrane components via multiple pipes Road flows to the air extractor；And

Pipe controller, is configured to control the opening and closing of multiple pipelines.

Alternatively, the pipe controller is magnetic valve；Multiple pipelines include multiple first pipelines and one the Two pipelines；The oxygen rich gas collecting chamber of one oxygen-enriched membrane component of inlet communication of each first pipeline, it is each described Magnetic valve described in the outlet of first pipeline；The outlet of the magnetic valve connects via second pipeline and the air extractor It is logical.

Alternatively, the air extractor is aspiration pump.

Alternatively, each oxygen-enriched membrane component is in plate, and horizontally be arranged at the roof of the cylinder；Multiple institutes State oxygen-enriched membrane component horizontal arranged.

Alternatively, each oxygen-enriched membrane component is posted by adjacent one or more oxygen-enriched membrane components；Multiple institutes The upper surface for stating oxygen-enriched membrane component is located at a horizontal plane, and the lower surface of multiple oxygen-enriched membrane components is located at another level Face.

Alternatively, the quantity of the oxygen-enriched membrane component is three, and the quantity of first pipeline is three.

Alternatively, container for storing component also includes：Detection means, is configured to detect one kind in the controlled atmosphere space Or the content or food reserves of multiple gases；And electric-controlled plate, it is configured to the one or more detected according to the detection means The content or food reserves of gas control the pipe controller, so that the oxygen permeable membrane connected with the air extractor The number of component is corresponding with the content or food reserves of one or more gases that the detection means is detected.

Alternatively, the detection means is oxygen sensor, is configured to detect containing for oxygen in the controlled atmosphere space Amount.

Alternatively, the accommodating chamber connected with the controlled atmosphere space is provided with the roof, with accommodating multiple described Oxygen-enriched membrane component；Each first pipeline is connected on the rear end face of an oxygen-enriched membrane component.

Especially, the utility model additionally provides a kind of refrigerator, including casing, defines storage space and press in it Storehouse, and the refrigerator also includes any of the above-described kind of container for storing component, and the cylinder is arranged in the storage space, it is described Air extractor is arranged in the press storehouse.

Container for storing component of the present utility model is because with the controlled atmosphere in oxygen-enriched membrane component, and its surrounding space and cylinder The connection of fresh-keeping space, the atmosphere that can make to form rich nitrogen oxygen deprivation in controlled atmosphere the space in and be beneficial to food fresh-keeping, the gas atmosphere Enclose by reducing the content of oxygen in fruits and vegetables shelf space, the intensity of reduction fruit/vegetable aerobic breathing, while ensureing the breathing on basis Effect, prevents 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 component includes air extractor, the oxygen rich gas of multiple oxygen-enriched membrane components can be promoted Gas in collecting chamber flows to air extractor via multiple pipelines.That is, air extractor can be via oxygen-enriched membrane component by gas The gas in fresh-keeping space is adjusted outwards to extract out, so that the air flow oxygen-enriched membrane component in controlled atmosphere space, and in oxygen permeable membrane The part or all of oxygen in controlled atmosphere space in air is set to enter oxygen rich gas collecting chamber in the presence of component, by by pipe Road and air extractor discharge controlled atmosphere space, so as to obtain rich nitrogen oxygen deprivation in controlled atmosphere space in favor of food fresh-keeping Atmosphere.

Further, because container for storing component includes pipe controller, the opening and closing of multiple pipelines is can control, passes through control The opening and closing for making one or more pipelines adjusts the quantity of the oxygen-enriched membrane component connected with air extractor, adjusts multiple oxygen-enriched membrane components To the absorption efficiency of the oxygen of its surrounding space.That is, adjusting the oxygen flow of multiple oxygen-enriched membrane components by electronic mode Area, and then adjust absorbability of multiple oxygen-enriched membrane components to the oxygen of its surrounding space.

Further, because container for storing component includes detection means and electric-controlled plate, can be detected according to detection means one Kind or multiple gases content or food reserves control piper control device, the oxygen-enriched membrane component for making to connect with air extractor Number is corresponding with the content or food reserves of one or more gases that detection means is detected.

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 component according to the utility model one embodiment；

Fig. 2 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 component according to the utility model one embodiment.As shown in figure 1, Embodiment of the present utility model provides a kind of container for storing component 100 for refrigerator, and it may include empty with controlled atmosphere Between cylinder 150.Especially, the container for storing component 100 may also include multiple oxygen-enriched membrane components 110, air extractor 120 and pipe Road control device 140.

Wherein, each oxygen-enriched membrane component 110 is mountable to cylinder 150 and its surrounding space is connected with controlled atmosphere space, Each oxygen-enriched membrane component 110 can have at least one oxygen rich gas collecting chamber of oxygen permeable membrane 111 and one, be arranged so that oxygen permeable membrane group Oxygen in the surrounding space air-flow of part 110 more enters oxygen rich gas through oxygen permeable membrane 111 relative to nitrogen therein and collected Chamber, can make to form rich nitrogen oxygen deprivation in controlled atmosphere space and beneficial to the atmosphere of food fresh-keeping, the atmosphere passes through reduction The content of oxygen in fruits and vegetables shelf space, the intensity of reduction fruit/vegetable aerobic breathing, while ensureing the respiration on basis, prevents fruit Vegetable carries out anaerobic respiration, so as to reach the purpose of fruits and vegetables long-period freshness preserving.

The entrance point of air extractor 120 can be collected via the oxygen rich gas of multiple pipelines 130 and each oxygen-enriched membrane component 110 Chamber is connected, and is configured to promote the gas in the oxygen rich gas collecting chamber of multiple oxygen-enriched membrane components 110 to be flowed via multiple pipelines 130 To air extractor 120.That is, air extractor 120 can via oxygen-enriched membrane component 110 by the gas in controlled atmosphere space to It is outer to extract out, so that the air flow oxygen-enriched membrane component 110 in controlled atmosphere space, and make in the presence of oxygen-enriched membrane component 110 Part or all of oxygen in controlled atmosphere space in air enters oxygen rich gas collecting chamber, is filled by by pipeline 130 and pumping 120 discharge controlled atmosphere spaces are put, so as to obtain rich nitrogen oxygen deprivation in controlled atmosphere space in favor of the gas atmosphere of food fresh-keeping Enclose.Preferably, air extractor 120 can be aspiration pump.

Pipe controller 140 can be configured to the opening and closing for controlling multiple pipelines 130, that is to say, that can by control one or The quantity for the oxygen-enriched membrane component 110 that the opening and closing regulation of multiple pipelines 130 is connected with air extractor 120, and then adjust multiple oxygen-enriched Absorption efficiency of the membrane module 110 to the oxygen of its surrounding space.Specifically, when an oxygen-enriched membrane component 110 and air extractor 120 After the pipeline 130 of connection is closed, because the effect without air extractor 120 can not make the oxygen rich air of the oxygen-enriched membrane component 110 The environment under low pressure relative to its surrounding space is in body collecting chamber, also can not just continue to make the surrounding of oxygen-enriched membrane component 110 empty Between oxygen enter oxygen rich gas collecting chamber.Therefore, the pipeline 130 of the oxygen-enriched membrane component 110 is closed equivalent to making the oxygen permeable membrane Component 110 is stopped.Further, it can make by using the switch of 140 pairs of each oxygen-enriched membrane components 110 of pipe controller Multiple oxygen-enriched membrane components 110 have certain limit to the oxygen absorbing function of its surrounding space, and then realize empty to controlled atmosphere Between oxygen expulsion efficiency regulation.That is, adjusting the oxygen flow face of multiple oxygen-enriched membrane components 110 by electronic mode Product, and then absorbability of multiple oxygen-enriched membrane components 110 to the oxygen of its surrounding space is adjusted, realization is automatically adjusted, facilitated User operates.

In some embodiments of the present utility model, pipe controller 140 can be magnetic valve, certainly can also be for some its His form valve, it is possible to achieve the opening and closing of multiple pipelines 130.Multiple pipelines 130 may include multiple first pipelines 131 and one Individual second pipeline 132, and the oxygen rich gas collecting chamber of one oxygen-enriched membrane component 110 of inlet communication of each first pipeline 131, often The outlet magnetic valve of individual first pipeline 131, the outlet of magnetic valve is connected via the second pipeline 132 with air extractor 120. That is, multiple oxygen-enriched membrane components 110 can be connected by multiple pipelines 130 with magnetic valve, and magnetic valve connects with air extractor 120 again It is logical, to pass through the connected state of the multiple oxygen-enriched membrane components 110 of an electromagnetism valve regulation and air extractor 120.It is alternative at some In embodiment, each oxygen-enriched membrane component 110 can individually be connected by a pipeline 130 with air extractor 120, the number of magnetic valve Amount can be multiple, on each pipeline 130.

In some embodiments of the present utility model, each oxygen-enriched membrane component 110 can be in plate, and can flatly set In the roof of cylinder 150, multiple oxygen-enriched membrane components 110 can be horizontal arranged.

Further, each oxygen-enriched membrane component 110 can be posted by adjacent one or more oxygen-enriched membrane components 110, multiple The upper surface of oxygen-enriched membrane component 110 can be located at a horizontal plane, and the lower surface of multiple oxygen-enriched membrane components 110 can be located at another water Plane, to improve the contact area of oxygen permeable membrane 111 and the gas of its surrounding space, lifting oxygen-enriched membrane component 110 is to empty around it Between oxygen absorption efficiency.Moreover, the arrangement can be easy to the installation of multiple oxygen-enriched membrane components 110, and improve outward appearance Planarization.

Further, the quantity of oxygen-enriched membrane component 110 can be three, correspondingly, and the quantity of the first pipeline 131 is also three It is individual, so, it can make multiple oxygen-enriched membrane components 110 that there are three gears to the absorbability of the oxygen of its surrounding space.Certainly, it is rich The quantity of oxygen membrane module 110 can be also four, five etc., can further expand multiple oxygen-enriched membrane components 110 to its surrounding space The scope of the absorbability of oxygen.

In some embodiments of the present utility model, container for storing component 100 may also include detection means and electric-controlled plate.Its In, detection means can be configured to the content or food reserves of one or more gases in detection controlled atmosphere space.Electric-controlled plate It can be configured to the content or food reserves control piper control device 140 of the one or more gases detected according to detection means, So that one or more gases that the number of the oxygen-enriched membrane component 110 connected with air extractor 120 is detected with detection means contain Amount or food reserves correspondence.That is, making the storing amount and required oxygen-enriched membrane component 110 in controlled atmosphere space as far as possible The oxygen absorbing function of its surrounding space is adapted, it is to avoid oxygen expulsion efficiency is relatively low when the storing in controlled atmosphere space is more Fresh-keeping effect can be caused bad, or controlled atmosphere space storing it is less when oxygen expulsion efficiency is higher causes equipment energy consumption to increase Greatly, energy waste is caused.In some embodiments, detection means can be oxygen sensor, be configured to detection controlled atmosphere empty The content of interior oxygen.In some alternative embodiments, detection means also can directly detect the storage in controlled atmosphere space Object amount, the mode such as by taking pictures obtains storing amount information.

In some embodiments of the present utility model, container for storing component 100 may also include oxygen content instruction device.It is oxygen-containing Amount instruction device can have the multiple scales or gear for being used for indicating oxygen content in controlled atmosphere space, and oxygen content instruction device Can be configured to makes its scale or oxygen content indicated by gear corresponding with the oxygen flow area of multiple components of oxygen-enriched membrane component 110, To provide the configured information for characterizing oxygen content in the storage space corresponding with the oxygen flow area of oxygen-enriched membrane component 110.Specifically Ground, oxygen content instruction device may include pointer, and the end of pointer extension may point to the scale or gear of oxygen permeating amount instruction device, and Oxygen content instruction device may also include the oxygen sensor of above-described embodiment, the controlled atmosphere space that can detect oxygen sensor Interior oxygen content is characterized to user by pointer.

Can be set in some embodiments of the present utility model, in roof has the accommodating chamber connected with controlled atmosphere space 151, to house multiple oxygen-enriched membrane components 110.Each first pipeline 131 can be connected on the rear end face of an oxygen-enriched membrane component 110. Specifically, can be set in roof has the accommodating chamber 151 connected with controlled atmosphere space, to house multiple oxygen-enriched membrane components 110.Tool Body, offers at least one and first leads in the wall between the accommodating chamber 151 of the roof of cylinder 150 and controlled atmosphere space Stomata and the second passage.At least one first passage is spaced apart with least one second passage, with respectively in different positions Put connection accommodating chamber 151 and controlled atmosphere space.First passage and the second passage are aperture, and quantity can be many It is individual.In some alternate embodiments, there is recessed groove on the inside of the roof of cylinder 150.Multiple oxygen-enriched membrane components 110 may be disposed at In the recessed groove of the roof of cylinder 150.

In some embodiments of the present utility model, container for storing component 100 may also include blower fan.Blower fan may be provided at top Wall, and the gas of controlled atmosphere intracavitary can be promoted to flow into accommodating chamber 151, it is then back to controlled atmosphere intracavitary.Specifically, blower fan can Promote the gas in controlled atmosphere space to enter accommodating chamber 151 via the first passage, and make gas in accommodating chamber 151 via the Two passages enter controlled atmosphere space.That is, blower fan can promote the gas in controlled atmosphere space successively via at least one Individual first passage, accommodating chamber 151 and at least one second passage return to controlled atmosphere space, realize in accommodating chamber 151 Gas is exchanged and circulation with the gas in controlled atmosphere space.

In some embodiments of the embodiment, blower fan is preferably centrifugal blower, is arranged at first in accommodating chamber 151 At passage.That is, centrifugal blower can be located at the top of at least one the first passage, and rotation axis is straight down, Air inlet is right against the first passage.The gas outlet of centrifugal blower can be towards multiple oxygen-enriched membrane components 110.Multiple oxygen-enriched membrane components 110 may be disposed at the top of at least one the second passage and cause each oxygen permeable membrane 111 of oxygen-enriched membrane component 110 parallel to cylinder The roof of body 150.At least one first passage may be disposed at roof front portion, and at least one second passage may be disposed at roof Rear portion.That is, centrifugal blower is arranged at the front portion of accommodating chamber 151, and multiple oxygen-enriched membrane components 110 are arranged at the rear portion of accommodating chamber 151. Further, the roof of cylinder 150 includes being formed with depressed part in main board portion and ceiling plate portion, a regional area of main board portion, covers Plate portion is removably covered on depressed part, to form accommodating chamber 151.For the ease of the making of cylinder 150, main board portion can be with cylinder Side wall, bottom wall, the rear wall of body 150 are integrally formed.

In some embodiments of the present utility model, each oxygen-enriched membrane component 110 may also include support frame.Oxygen permeable membrane 111 be preferably be two, be installed on the both sides of support frame so that two oxygen permeable membranes 111 and support frame surround jointly it is oxygen-enriched Gas collection chamber.Further, support frame 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 110 etc..That is, support frame With being formed with respectively extension on the first surface on the first surface and second surface, and support frame being parallel to each other, the Extend on two surfaces, and through support frame to connect multiple gas channels of first surface and second surface, multiple air-flows Passage is collectively forming oxygen rich gas collecting chamber；At least one oxygen permeable membrane 111 is two planar shaped oxygen permeable membranes 111, is laid on respectively On the first surface and second surface of support frame.

In some embodiments of the present utility model, support frame may include what is connected with least one foregoing gas channel Aspirating hole, is arranged on frame, to allow the oxygen in oxygen rich gas collecting chamber to be output.Aspirating hole can be connected with aspiration pump. Aspirating hole may be disposed on the long edge of frame, or be arranged in the short edge of frame, with the setting according to oxygen-enriched membrane component 110 Orientation or actual design demand are determined, for example, aspirating hole may be disposed on the long edge of frame.Oxygen permeable membrane 111 is first passed through Double faced adhesive tape is installed on frame, is then sealed by fluid sealant.

In some embodiments of the present utility model, for the ease of the flowing of air-flow, the inner surface of ceiling plate portion can be to downward Multiple wind-guiding floors are stretched out, to guide the air-flow from blower fan to flow through each oxygen permeable membrane of oxygen-enriched membrane component 110 in accommodating chamber 151 111 outer surface away from oxygen rich gas collecting chamber.Multiple wind-guiding floors are divided into two groups, including first group of wind-guiding floor with First group of wind-guiding floor is on the symmetrically arranged second group of wind-guiding floor of a plane.Every group of wind-guiding floor includes the first wind guide rib Plate, at least one second wind-guiding floor and at least one the 3rd wind-guiding floor.Air outlet of the first wind-guiding floor from centrifugal blower Place extends to the side of accommodating chamber 151, and extends to a lateral outer side of oxygen-enriched membrane component 110.Each second wind-guiding floor It is arranged between two the first wind-guiding floors, and between oxygen-enriched membrane component 110 and centrifugal blower.Each 3rd wind-guiding floor Positioned at a lateral outer side of oxygen-enriched membrane component 110, to guide air-flow air-flow is entered from the both lateral sides of oxygen-enriched membrane component 110 Gap between oxygen-enriched membrane component 110 and the basal surface or top surface of accommodating chamber 151.

In some embodiments of the present utility model, multiple micropores can be offered on cylinder 150, the storage space of refrigerator and Controlled atmosphere space is via multiple microporous connectivities.Micropore is also referred to as air equalizer opening, and each micropore can be millimetre-sized micro- Hole, such as a diameter of 0.1mm to 3mm of each micropore, preferably 1mm, 1.5mm etc..Multiple micropores are set to make controlled atmosphere Pressure in space is unlikely to too low, and the setting of multiple micropores will not also make the nitrogen in controlled atmosphere space empty to big storing Between flow, even if flowing be also that very little is even negligible, do not interfere with the preservation of food in controlled atmosphere space. In some alternative embodiments of the present utility model, micropore can be also not provided with cylinder 150, even if so, in controlled atmosphere space Also there is the gases such as substantial amounts of nitrogen to exist, user is true compared to existing without too sweat when pulling the drawer out body Empty material storage room, then can be significantly laborsaving.

In some embodiments of the present utility model, in order to ensure the sealing property of accommodating chamber 151, from ceiling plate portion to downward Two tubular coaming plates being coaxially disposed are stretched out, cross-sectional profiles can be that square or rectangle or square are circular.The tubular coaming plate limit of inner side Make the peripheral boundaries of accommodating chamber 151.An annular protruding rib, the ring of two tubular coaming plate formation of insertion are extended upward from lower board unit In shape groove, and sealing ring is set, to ensure sealing property.

Fig. 2 is the schematic diagram of the refrigerator according to the utility model one embodiment.As shown in Fig. 2 this practicality is new The embodiment of type additionally provides a kind of refrigerator 10, including casing 200, defines storage space and press storehouse 300 in it.And refrigerator 10 may also include the container for storing component 100 of any of the above-described embodiment, and cylinder 150 may be disposed in storage space, pumping dress 120 are put to may be disposed in press storehouse 300.The container for storing component 100 may also include drawer, cylinder 150 can have it is preceding to opening, Drawer is arranged in cylinder 150 and can extracted out from opening, that is to say, that the container for storing component 100 can be drawer appliance.Specifically Ground, air extractor 120 may be disposed at the one end in press storehouse 300.Compressor may be disposed at the other end in press storehouse 300, so as to take out The distance of the Range compress machine of device of air 120 is distant, reduces noise superposition and used heat superposition.Refrigerator 10 may also include refrigeration system System, it can be the cooling cycle system being made up of compressor, condenser, throttling arrangement and evaporator etc..Compressor is installed on pressure In cabin 300.Evaporator is configured to directly or indirectly provide cold into storage space.For example when the refrigerator 10 is household pressing During contracting formula direct cooling refrigerator 10, evaporator may be disposed on the outside of the rear surface of inner bag or inner side.When the refrigerator 10 is family expenses compression During wind cooling refrigerator, also there is evaporator room in casing 200, evaporator room is connected by air path system with storage space, and evaporation Evaporator is set, and exit is provided with blower fan, to carry out circularly cooling to storage space in device room.

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 component for refrigerator, including the cylinder with controlled atmosphere space, it is characterised in that also wrap Include：

Multiple oxygen-enriched membrane components, each oxygen-enriched membrane component is installed on the cylinder and its surrounding space and the controlled atmosphere Space is connected, and each oxygen-enriched membrane component has at least one oxygen permeable membrane and an oxygen rich gas collecting chamber, is arranged so that institute The oxygen stated in oxygen-enriched membrane component surrounding space air-flow more enters described relative to nitrogen therein through the oxygen permeable membrane Oxygen rich gas collecting chamber；

Air extractor, its entrance point connects via the oxygen rich gas collecting chamber of multiple pipelines and each oxygen-enriched membrane component It is logical, and it is configured to promote the gas in the oxygen rich gas collecting chamber of multiple oxygen-enriched membrane components via multiple pipelines Flow to the air extractor；And

Pipe controller, is configured to control the opening and closing of multiple pipelines.

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

The pipe controller is magnetic valve；

Multiple pipelines include multiple first pipelines and second pipeline；

The oxygen rich gas collecting chamber of one oxygen-enriched membrane component of inlet communication of each first pipeline, each described first Magnetic valve described in the outlet of pipeline；The outlet of the magnetic valve is connected via second pipeline with the air extractor.

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

The air extractor is aspiration pump.

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

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

Multiple oxygen-enriched membrane components are horizontal arranged.

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

Each oxygen-enriched membrane component is posted by adjacent one or more oxygen-enriched membrane components；

The upper surface of multiple oxygen-enriched membrane components is located at a horizontal plane, and the lower surface of multiple oxygen-enriched membrane components is located at separately One horizontal plane.

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

The quantity of the oxygen-enriched membrane component is three, and the quantity of first pipeline is three.

7. container for storing component according to claim 1, it is characterised in that also include：

Detection means, is configured to detect the content or food reserves of one or more gases in the controlled atmosphere space；With And

Electric-controlled plate, is configured to the content according to one or more gases of detection means detection or food reserves control institute Pipe controller is stated, so that the number of the oxygen-enriched membrane component connected with the air extractor is detected with the detection means One or more gases content or food reserves correspondence.

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

The detection means is oxygen sensor, is configured to detect the content of oxygen in the controlled atmosphere space.

9. container for storing component 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 multiple oxygen-enriched membrane components；

Each first pipeline is connected on the rear end face of an oxygen-enriched membrane component.

Storage space and press storehouse are defined 10. a kind of refrigerator, including casing, in it, and the refrigerator also includes：

Container for storing component any one of claim 1 to 9, and the cylinder is arranged in the storage space, institute Air extractor is stated to be arranged in the press storehouse.