CN105180560B - Refrigerator - Google Patents
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- CN105180560B CN105180560B CN201510617851.5A CN201510617851A CN105180560B CN 105180560 B CN105180560 B CN 105180560B CN 201510617851 A CN201510617851 A CN 201510617851A CN 105180560 B CN105180560 B CN 105180560B
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Abstract
The present invention provides a kind of refrigerator, including:Liner is refrigerated, defines mutually independent refrigerating chamber and temperature-changing chamber in it;Evaporator, cools down the air for flowing through it;And cool-air feed air passage, for evaporator air after cooling to be delivered to refrigerating chamber and temperature-changing chamber.Cool-air feed air passage has the refrigeration wind outlet section of the refrigeration air inlet of the cold air air inlet flowed into for evaporator air after cooling, connection cold air air inlet and refrigerating chamber, and the alternating temperature wind outlet section of the alternating temperature air inlet of connection cold air air inlet and temperature-changing chamber.Refrigerator further includes air door, is pivotally disposed at cold air air inlet, is configured to that different rotational angles can be pivoted relative to plane residing for cold air air inlet, to disconnect or turn on cold air air inlet and refrigerate the flow path between wind outlet section and alternating temperature wind outlet section.By the present invention in that refrigeration wind outlet section and alternating temperature wind outlet section are connected with same cold air air inlet, only set an air door to be controlled to the air-supply of refrigerating chamber and temperature-changing chamber, reduce production cost.
Description
Technical field
The present invention relates to technical field of refrigeration equipment, more particularly to a kind of refrigerator.
Background technology
In refrigerator art, the appearance of temperature-changing chamber causes user to have one can be adjusted flexibly when using refrigerator
Compartment, so being just loved by consumers from its appearance.The design of current refrigerator is all usually to use independent door body structure
Temperature-changing chamber and other compartments are separated, due to there is provided independent alternating temperature door body, thus causing the cost of refrigerator higher.
For the problem, occurs refrigerator temperature-changing chamber being arranged in refrigerating chamber in the prior art, so that temperature-changing chamber
Same door body is shared with refrigerating chamber.In order to blow to temperature-changing chamber and refrigerating chamber, refrigerator is further typically provided with being used for alternating temperature
The alternating temperature air passage and refrigeration air passage that room and refrigerating chamber are blown respectively.But need in the prior art using two air doors with individually to becoming
The air-supply in greenhouse and refrigerating chamber is controlled, and the air channel structure blown to temperature-changing chamber and refrigerating chamber is complicated, cost compared with
It is high.
The content of the invention
It is an object of the invention in view of the defects existing in the prior art, there is provided one kind uses single airdoor control temperature-changing chamber
With the refrigerator of refrigerating chamber air-supply.
The present invention one is further objective is that will simplify the air passage blown to the temperature-changing chamber and refrigerating chamber knot of refrigerator
Structure.
The present invention another further objective is that to reduce the manufacture cost of refrigerator.
To achieve these goals, the present invention provides a kind of refrigerator, including:
Liner is refrigerated, defines mutually independent refrigerating chamber and temperature-changing chamber in it;
Evaporator, cools down the air for flowing through it;And
Cool-air feed air passage, for evaporator air after cooling to be delivered to the refrigerating chamber and the alternating temperature
Room,
Wherein described cool-air feed air passage has the cold air air inlet flowed into for evaporator air after cooling, connection
The refrigeration wind outlet section of the refrigeration air inlet of the cold air air inlet and the refrigerating chamber, and the connection cold air air inlet and institute
State the alternating temperature wind outlet section of the alternating temperature air inlet of temperature-changing chamber;
The refrigerator further includes air door, is pivotally disposed at the cold air air inlet, and being configured to can be relative to described
Plane residing for cold air air inlet pivots different rotational angles, to disconnect or turn on the cold air air inlet and the refrigeration wind outlet section
Flow path between the alternating temperature wind outlet section.
Alternatively, the air door is further configured to:
When be switched to be in plane residing for the cold air air inlet when, the cold air air inlet is closed, to simultaneously switch off
State the flow path between cold air air inlet and the refrigeration wind outlet section and the alternating temperature wind outlet section;
When pivoting the first rotational angle relative to plane residing for the cold air air inlet, the alternating temperature wind outlet section is closed
Alternating temperature air inlet, to turn on the flow path between the cold air air inlet and the refrigeration wind outlet section, and disconnects the cold air inlet air
Flow path between mouth and the alternating temperature wind outlet section;
When pivoting the second rotational angle relative to plane residing for the cold air air inlet, the cold air inlet air is simultaneously turned on
Flow path between mouth and the refrigeration wind outlet section and the alternating temperature wind outlet section,
Wherein, first rotational angle is less than second rotational angle.
Alternatively, first rotational angle is 45 degree of -70 degree, and second rotational angle is 80 degree of -95 degree.
Alternatively, the cool-air feed air passage is arranged in the refrigeration liner, and is located at the refrigerating chamber and the change
The rear side in greenhouse,
By air duct cover board and the wind is formed between the cool-air feed air passage and the refrigerating chamber and the temperature-changing chamber
Air passage foam on rear side of road cover board separates,
Formed with the refrigeration air inlet and the alternating temperature air inlet on the air duct cover board and air passage foam.
Alternatively, the temperature-changing chamber is arranged on the lower section of the refrigerating chamber;
The rear wall of the refrigeration liner is bottom-up extend to the temperature-changing chamber top after, protrusion forms refrigeration protrusion backward
Portion, the bottom wall of the refrigeration protrusion are equipped with opening to be used as the cold air air inlet.
Alternatively, the air passage foam of the alternating temperature air inlet upper limb is tilted to extend to form and inclined rearwardly towards the cold air air inlet
Inclined portion, is separated to form the refrigeration wind outlet section and the alternating temperature wind outlet section, wherein the refrigeration by the cool-air feed air passage
Wind outlet section is located at the rear side of the alternating temperature wind outlet section,
And the air door is pivotably mounted on front side of the cold air air inlet, when the air door relative to the cold air into
Residing for air port plane pivot first rotational angle when, is abutted with the rake, thus disconnect the cold air air inlet and
Flow path between the alternating temperature wind outlet section.
Alternatively, air passage foam, the wind of the cold air air inlet front and rear sides are also equipped with rear side of the cold air air inlet
The bottom of road foam is protruded out to the cold air air inlet to form installation table top;
The refrigerator further includes air door stent, it is arranged on the installation table top, and the air door is pivotably mounted on
The front side of the air door stent.
Alternatively, the temperature-changing chamber includes female seat compartment, the upper drawer being arranged on can pushing and pulling in the female seat compartment
With the lower lower part drawer being arranged on can pushing and pulling in the female seat compartment in the upper drawer;
The lower edge of the alternating temperature air inlet of the temperature-changing chamber is concordant with the top edge of the upper drawer.
Alternatively, the cold air air inlet in the cool-air feed air passage is arranged on the upper drawer rear portion.
Alternatively, the refrigerator further includes:
Ajutage is refrigerated, is arranged on the outside of the refrigeration liner, the upper end is connected to the cold air air inlet, and lower end
Connected with the evaporator room for accommodating the evaporator.
The present invention sets mutually independent refrigerating chamber and temperature-changing chamber at the same time in the inner space of refrigeration liner, by cold
The cold air air inlet in gas supply air passage, which sets one, to pivot different rotational angles relative to plane residing for cold air air inlet
Air door, realizes the flow path disconnected or between conducting cold air air inlet and refrigeration wind outlet section and alternating temperature wind outlet section.By the present invention in that
Refrigeration wind outlet section and alternating temperature wind outlet section are connected with same cold air air inlet, only set an air door can be to refrigerating chamber and alternating temperature
The air-supply of room is controlled, and reduces production cost.
Specifically, by controlling air door to pivot different rotational angles relative to plane residing for cold air air inlet, it can be achieved that envelope
Close cold air air inlet or only turn on cold air air inlet and refrigerate wind outlet section between flow path or simultaneously turn on cold air air inlet with
The flow path between the flow path and cold air air inlet and alternating temperature wind outlet section between wind outlet section is refrigerated, so as to fulfill refrigerating chamber and temperature-changing chamber
Temperature it is unaffected mutually.
Further, temperature-changing chamber of the invention is arranged on the lower section of refrigerating chamber, is steeped by the air passage above alternating temperature air inlet
Foam tilts the rake extended to form rearwardly towards cold air air inlet and cool-air feed air passage is separated to form refrigeration wind outlet section and alternating temperature
Wind outlet section, enormously simplify refrigerator air flue structure, both easy to produce, while also save cost.
According to the accompanying drawings will be brighter to the detailed description of the specific embodiment of the invention, those skilled in the art
Above-mentioned and other purposes, the advantages and features of the present invention.
Brief description of the drawings
Some specific embodiments of detailed description of the present invention by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter.
Identical reference numeral denotes same or similar component or part in attached drawing.It should be appreciated by those skilled in the art that these
What attached drawing was not necessarily drawn to scale.In attached drawing:
Fig. 1 is the schematic side elevation of refrigerator according to an embodiment of the invention;
Fig. 2 is the positive structure schematic of refrigerating chamber shown in Fig. 1 and temperature-changing chamber;
Fig. 3 is the close-up schematic view of a-quadrant shown in Fig. 1;
Fig. 4 is that the air door shown in Fig. 3 is in schematic cross sectional views residing for cold air air inlet during plane;
Fig. 5 is schematic when air door shown in Fig. 3 pivots the second rotational angle relative to plane residing for cold air air inlet
Sectional view.
Embodiment
Fig. 1 is the schematic side elevation of refrigerator 100 according to an embodiment of the invention, and Fig. 2 is refrigerating chamber 10 shown in Fig. 1
With the positive structure schematic of temperature-changing chamber 20, the lower part drawer 22 of temperature-changing chamber 20 is eliminated in figure.Arrow in figure represents air
Flow direction.As depicted in figs. 1 and 2, refrigeration liner 91 is included according to the refrigerator 100 of the present embodiment, defined in it mutually independent
Refrigerating chamber 10 and temperature-changing chamber 20.
As those skilled in the art will appreciate that, the refrigerator 100 of the embodiment of the present invention may be used also as existing refrigerator
Including evaporator 70, compressor (not shown), condenser (not shown), restricting element (expansion valve or capillary)
(not shown), evaporator 70 are connected via coolant piping with compressor, condenser, restricting element, are formed kind of refrigeration cycle and are returned
Road, cools down in compressor start, to be cooled down to the air for flowing through it.
In a preferred embodiment, refrigerated liner 92 can also be set by refrigerating the lower section of liner 91, be limited in refrigerated liner 92
There is refrigerating chamber 30, evaporator 70 is arranged in the evaporator room 71 of the rear side of refrigerating chamber 30.
Refrigerator 100 further includes cool-air feed air passage 50, for 70 air after cooling of evaporator to be delivered to refrigerating chamber 10
With temperature-changing chamber 20.Especially, cool-air feed air passage 50 have for 70 air after cooling of evaporator flow into cold air air inlet 58,
Connect the refrigeration wind outlet section 51 of the refrigeration air inlet 15 of cold air air inlet 58 and refrigerating chamber 10, and 58 He of connection cold air air inlet
The alternating temperature wind outlet section 52 of the alternating temperature air inlet 25 of temperature-changing chamber 20.Refrigerator 100 further includes air door 60, be pivotally disposed at cold air into
At air port 58, it is configured to that different rotational angles can be pivoted relative to plane residing for cold air air inlet 58, to disconnect or turn on cold air
Flow path between air inlet 58 and refrigeration wind outlet section 51 and alternating temperature wind outlet section 52.
That is, the air inlet of air inlet and the alternating temperature wind outlet section 52 of refrigeration wind outlet section 51 with 58 phase of cold air air inlet
Even, refrigeration wind outlet section 51 and/or alternating temperature wind outlet section 52 can be flow to via 58 leaked-in air of cold air air inlet.Alternatively, it can also manage
Solve and be arranged in parallel for refrigeration wind outlet section 51 with alternating temperature wind outlet section 52.By air door 60 relative to plane pivot residing for cold air air inlet 58
Turn different rotational angles, can disconnect or turn on wind inlet section and refrigerate the flow path between wind outlet section 51;Or disconnect or turn on wind inlet section
With the flow path between alternating temperature wind outlet section 52, so that by only setting an air door 60 to can control the temperature of two compartments, reduce
Production cost.
Air door 60 can be the automatically controlled air door to be opened/closed by drivings such as motors, it, which is controlled, is supplied to refrigerating chamber 10 and/or becomes
The cold air flow in greenhouse 20, so that the inside of refrigerating chamber 10 and temperature-changing chamber 20 is maintained at appropriate temperature.
Fig. 3 is the close-up schematic view of a-quadrant shown in Fig. 1;Fig. 4 is that the air door 60 shown in Fig. 3 is in cold air air inlet
Schematic cross sectional views residing for 58 during plane;Fig. 5 is that the air door 60 shown in Fig. 3 is pivoted relative to plane residing for cold air air inlet 58
Schematic cross sectional views during the second rotational angle.Fig. 3-Fig. 5 shows that air door 60 is relative to cold air inlet air in the embodiment of the present invention
Plane residing for mouth 58 pivots present position during different rotational angles.In a preferred embodiment, air door 60 is configured to:Work as pivot
During in plane residing for cold air air inlet 58 (pivoting 0 degree of rotational angle relative to plane residing for cold air air inlet 58), envelope
Cold air air inlet 58 is closed, to simultaneously switch off cold air air inlet 58 and refrigerate the flow path between wind outlet section 51 and alternating temperature wind outlet section 52,
Referring to Fig. 4.When air door 60 pivots the first rotational angle relative to plane residing for cold air air inlet 58, closing alternating temperature wind outlet section 52
Alternating temperature air inlet 25, to turn on cold air air inlet 58 and refrigerate the flow path between wind outlet section 51, and disconnect cold air air inlet 58
With the flow path between alternating temperature wind outlet section 52, referring to Fig. 3;When air door 60 pivots second turn relative to plane residing for cold air air inlet 58
During dynamic angle, simultaneously turn on cold air air inlet 58 and refrigerate the flow path between wind outlet section 51 and alternating temperature wind outlet section 52, wherein, first
Rotational angle is less than the second rotational angle, referring to Fig. 5.
That is, when air door 60 is switched in plane residing for cold air air inlet 58 (i.e. relative to cold air air inlet 58
Residing plane pivots 0 degree of rotational angle) when, do not provide cold air to refrigerating chamber 10 and temperature-changing chamber 20;When air door 60 is relative to cold air
When plane residing for air inlet 58 pivots the first rotational angle, only cold air is provided to refrigerating chamber 10;When air door 60 relative to cold air into
When plane residing for air port 58 pivots the second rotational angle, while cold air is provided to refrigerating chamber 10 and temperature-changing chamber 20.
The temperature of temperature-changing chamber 20 can be adjusted with independent control, according to setting the different of gear to carry out temperature control, generally may be used
3-4 gear is provided with, such as:Meat shelves (- 7 degree), fish (- 1 degree), fruit (3 degree), vegetables (5 degree).Can be by controlling air door 60
The size of two rotational angles, adjusts the air quantity entered inside temperature-changing chamber 20, to meet the refrigeration demand of 20 different stalls of temperature-changing chamber.
Needs in view of refrigerating chamber 10 and temperature-changing chamber 20 to cold size, in a preferred embodiment, the first angle of rotation
Spend for that can be chosen in the range of 45 degree of -70 degree, more preferably 60 degree or so;Second rotational angle can spend model at 80 degree -95
Interior selection is enclosed, more preferably 90 degree or so.
In certain embodiments, cool-air feed air passage 50 is arranged in refrigeration liner 91, and is located at refrigerating chamber 10 and alternating temperature
The rear side of room 20.By air duct cover board 14 and air duct cover board is formed between cool-air feed air passage 50 and refrigerating chamber 10 and temperature-changing chamber 20
The air passage foam 16 of 14 rear sides separates.Formed with refrigeration air inlet 15 and alternating temperature air inlet on air duct cover board 14 and air passage foam 16
25。
Air passage foam 16 primarily serves temperature insulating, prevents that the temperature of air duct cover board 14 is too low, influences thing in refrigerating chamber 10
The storage of product.
In a preferred embodiment, temperature-changing chamber 20 is arranged on the lower section of refrigerating chamber 10.In such embodiments, in refrigeration
The rear wall of courage 91 is bottom-up extend to 20 top of temperature-changing chamber after, protrusion forms refrigeration protrusion 911 backward, refrigerate protrusion
911 bottom wall is equipped with opening to be used as cold air air inlet 58.
Refrigerator 100 further includes refrigeration ajutage 59, is arranged on the outside of refrigeration liner 91, such as refrigerates protrusion 911
Lower section, the upper end is connected to cold air air inlet 58, and lower end is connected with evaporator room 71, for by evaporator room 71 via steaming
The air that hair device 70 cools down is delivered in cool-air feed air passage 50.
The air passage foam 16 of 25 upper limb of alternating temperature air inlet tilts rearwardly towards cold air air inlet 58 and extends to form rake 161,
Cool-air feed air passage 50 is separated to form refrigeration wind outlet section 51 and alternating temperature wind outlet section 52, wherein refrigeration wind outlet section 51 is located at alternating temperature
The rear side of wind outlet section 52.That is, the front side of rake 161 is alternating temperature wind outlet section 52, the rear side of rake 161 is to refrigerate out
The lower part of wind section 51, so as to be separated from cool-air feed air passage 50 alternating temperature wind outlet section 52 by rake 161, simplifies
The air channel structure of refrigerator 100, it is both easy to produce, while also save cost.Since cold air air inlet 58 is arranged on temperature-changing chamber 20
Top on rear side of, so as to shorten the length of rake 161, shorten the length of alternating temperature wind outlet section 52 in other words, so that further
Simplify the air channel structure of refrigerator 100.
Air door 60 is pivotably mounted on the front side of cold air air inlet 58, when air door 60 is put down relative to residing for cold air air inlet 58
When face pivots the first rotational angle, abutted with rake 161, so as to disconnect between cold air air inlet 58 and alternating temperature wind outlet section 52
Flow path.When air door 60 pivots the second rotational angle relative to plane residing for cold air air inlet 58, air door 60 is threaded to rake 161
Front side, so that the air inlet of alternating temperature wind outlet section 52 is connected with cold air air inlet 58.
In the illustrated embodiment, temperature-changing chamber 20 includes female seat compartment 24, is arranged in female seat compartment 24 with can pushing and pulling
Upper drawer 21 and the lower lower part drawer 22 being arranged on can pushing and pulling in female seat compartment 24 in upper drawer 21;Cool-air feed
The cold air air inlet 58 in air passage 50 is arranged on 21 rear portion of upper drawer.Female seat compartment 24 can be separated by partition plate 40 and refrigerating chamber 10
Open.Partition plate 40 is removably mounted on the side wall of refrigeration liner 91.
The lower edge of the alternating temperature air inlet 25 of temperature-changing chamber 20 is concordant with the top edge of upper drawer 21, alternating temperature air inlet 25 it is upper
Edge can be in the lower section of partition plate 40, i.e., entering via the cold air of alternating temperature wind outlet section 52 out can be along partition plate 40 and top after temperature-changing chamber 20
Gap flow forward between drawer 21, so as to make part cold air flow directly into inside upper drawer 21, part cold air is flow to
Behind the front portion of upper drawer 21 and then it flow in lower part drawer 22.
In certain embodiments, the rear side of cold air air inlet 58 is also equipped with air passage foam 53, two before and after cold air air inlet 58
The bottom of the air passage foam of side protrudes out to cold air air inlet 58 and installs table top 54 to be formed.Refrigerator 100 further includes air door stent 55,
It is arranged on installation table top 54, and air door 60 is pivotably mounted on the front side of air door stent 55.In such embodiments, it is cold
The passage hidden between the opening on the bottom wall of protrusion 911 and installation table top 54 can be regarded as cold air air inlet 58.
It will be understood by those skilled in the art that " refrigerator " alleged by the present invention be not limited in general sense have refrigeration
Room and refrigerating chamber and the refrigerator for storing food, can also be that other have the device of refrigeration and/or freezing function, such as ice
Cabinet, wine cabinet, cold-storage jar etc..
" on ", " under ", "front", "rear", " bottom " etc. it should also be understood by those skilled in the art that alleged in the embodiment of the present invention
Term for representing orientation or position relationship be on the basis of the real use state of refrigerator for, these terms be only for
Easy to description and understand technical scheme, rather than instruction or to imply that signified device or lose must have specific
Orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.
So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple showing for the present invention
Example property embodiment, still, without departing from the spirit and scope of the present invention, still can according to the present invention disclosure it is direct
Determine or derive many other variations or modifications for meeting the principle of the invention.Therefore, the scope of the present invention is understood that and recognizes
It is set to and covers other all these variations or modifications.
Claims (8)
1. a kind of refrigerator, including:
Liner is refrigerated, defines mutually independent refrigerating chamber and temperature-changing chamber in it;
Evaporator, cools down the air for flowing through it;And
Cool-air feed air passage, for evaporator air after cooling to be delivered to the refrigerating chamber and the temperature-changing chamber,
It is characterized in that, cold air air inlet of the cool-air feed air passage with the air inflow after cooling of the confession evaporator,
The air passage foam of the alternating temperature air inlet upper limb of the temperature-changing chamber tilts rearwardly towards the cold air air inlet and extends to form rake, with
The refrigeration that the cool-air feed air passage is separated to form to the refrigeration air inlet for connecting the cold air air inlet and the refrigerating chamber goes out
Wind section, and the alternating temperature wind outlet section of the cold air air inlet and the alternating temperature air inlet is connected, wherein the refrigeration outlet air section
In the rear side of the alternating temperature wind outlet section;
The refrigerator further includes air door, is pivotably mounted on front side of the cold air air inlet, is configured to:
When be switched to be in plane residing for the cold air air inlet when, close the cold air air inlet, it is described cold to simultaneously switch off
Flow path between gas air inlet and the refrigeration wind outlet section and the alternating temperature wind outlet section;
When pivoting the first rotational angle relative to plane residing for the cold air air inlet, abutted with the rake, close institute
The alternating temperature air inlet of alternating temperature wind outlet section is stated, to turn on the flow path between the cold air air inlet and the refrigeration wind outlet section, and it is disconnected
Open the flow path between the cold air air inlet and the alternating temperature wind outlet section;
When relative to residing for the cold air air inlet plane pivot the second rotational angle when, simultaneously turn on the cold air air inlet with
Flow path between the refrigeration wind outlet section and the alternating temperature wind outlet section,
Wherein, first rotational angle is less than second rotational angle.
2. refrigerator according to claim 1, it is characterised in that
First rotational angle is 45 degree of -70 degree, and second rotational angle is 80 degree of -95 degree.
3. refrigerator according to claim 1, it is characterised in that
The cool-air feed air passage is arranged in the refrigeration liner, and is located at the rear side of the refrigerating chamber and the temperature-changing chamber,
By air duct cover board and the air passage lid is formed between the cool-air feed air passage and the refrigerating chamber and the temperature-changing chamber
Air passage foam on rear side of plate separates,
Formed with the refrigeration air inlet and the alternating temperature air inlet on the air duct cover board and air passage foam.
4. refrigerator according to claim 3, it is characterised in that
The temperature-changing chamber is arranged on the lower section of the refrigerating chamber;
The rear wall of the refrigeration liner is bottom-up extend to the temperature-changing chamber top after, protrusion forms refrigeration protrusion backward,
The bottom wall of the refrigeration protrusion is equipped with opening to be used as the cold air air inlet.
5. refrigerator according to claim 1, it is characterised in that
Air passage foam, the bottom of the air passage foam of the cold air air inlet front and rear sides are also equipped with rear side of the cold air air inlet
Protruded out to the cold air air inlet to form installation table top;
The refrigerator further includes air door stent, it is arranged on the installation table top, and the air door is pivotably mounted on described
The front side of air door stent.
6. refrigerator according to claim 1, it is characterised in that
The temperature-changing chamber includes female seat compartment, the upper drawer being arranged on can pushing and pulling in the female seat compartment and on the top
The lower lower part drawer being arranged on can pushing and pulling in the female seat compartment of drawer;
The lower edge of the alternating temperature air inlet of the temperature-changing chamber is concordant with the top edge of the upper drawer.
7. refrigerator according to claim 6, it is characterised in that
The cold air air inlet in the cool-air feed air passage is arranged on the upper drawer rear portion.
8. refrigerator according to claim 1, it is characterised in that further include:
Ajutage is refrigerated, is arranged on the outside of the refrigeration liner, the upper end is connected to the cold air air inlet, and lower end and appearance
The evaporator room that receiving has the evaporator connects.
Priority Applications (1)
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CN201510617851.5A CN105180560B (en) | 2015-09-24 | 2015-09-24 | Refrigerator |
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CN201510617851.5A CN105180560B (en) | 2015-09-24 | 2015-09-24 | Refrigerator |
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CN105180560B true CN105180560B (en) | 2018-04-20 |
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CN105546916B (en) * | 2015-12-30 | 2018-04-20 | 青岛海尔股份有限公司 | Ducting system and the refrigerator with the ducting system |
CN105650978B (en) * | 2016-02-16 | 2018-06-15 | Tcl智能科技(合肥)有限公司 | The control method of damper assemblies, air cooler and air cooler |
CN105783383A (en) * | 2016-05-17 | 2016-07-20 | 合肥美菱股份有限公司 | Air path system of refrigerator and refrigerator |
CN106123443B (en) * | 2016-06-28 | 2018-10-12 | 青岛海尔股份有限公司 | Refrigerator |
CN106679265B (en) * | 2016-12-28 | 2019-05-31 | 青岛海尔股份有限公司 | A kind of refrigerator and its control method |
CN106679281B (en) * | 2016-12-28 | 2019-11-05 | 青岛海尔股份有限公司 | The refrigerator of multifunctional room with refrigerating power and energy |
CN107024062B (en) * | 2017-05-31 | 2020-07-28 | 青岛海尔股份有限公司 | Refrigerator and control method thereof |
CN110118461A (en) * | 2018-02-06 | 2019-08-13 | 日立空调·家用电器株式会社 | Refrigerator |
CN109838959B (en) * | 2019-01-17 | 2023-07-21 | 青岛海尔电冰箱有限公司 | Refrigerator with a refrigerator body |
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