CN110017642A - Refrigerator - Google Patents
Refrigerator Download PDFInfo
- Publication number
- CN110017642A CN110017642A CN201811597956.9A CN201811597956A CN110017642A CN 110017642 A CN110017642 A CN 110017642A CN 201811597956 A CN201811597956 A CN 201811597956A CN 110017642 A CN110017642 A CN 110017642A
- Authority
- CN
- China
- Prior art keywords
- refrigerator
- protrusion
- repertory
- quench
- quench box
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D11/00—Self-contained movable devices, e.g. domestic refrigerators
- F25D11/02—Self-contained movable devices, e.g. domestic refrigerators with cooling compartments at different temperatures
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/02—Doors; Covers
- F25D23/04—Doors; Covers with special compartments, e.g. butter conditioners
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D25/00—Charging, supporting, and discharging the articles to be cooled
- F25D25/005—Charging, supporting, and discharging the articles to be cooled using containers
Abstract
The present invention can prevent from condensing the refrigerator directly contacted with the repertory in storing containers as project using the repertory in cold air cooled and stored container and the inner bottom surface of storing containers generates moisture condensation from the inner bottom surface side in storing containers to provide.Refrigerator (1) has as the Quench box (10) as storing containers in storeroom Leng KURA room (4) and setting Leng KURA room (4).Being arranged with upper end (21) in the parking space bottom side (V) of Quench box (10) is nonplanar protrusion (20).
Description
Technical field
Embodiments of the present invention are related to refrigerator.
Background technique
Refrigerator generally has the storing containers of Quench boxes (チ Le De ケ ー ス) of repertorys such as storage food etc in cold KURA room.
The inner bottom surface of the storing containers is made of flat face, and repertory is placed on the flat inner bottom surface in the state of face contact
Upper (referring to patent document 1).
[patent document 1] Japanese Unexamined Patent Publication 2007-46848
But in previous such storing containers, usually in most cases repertory be placed on the state of face contact it is flat
It is in this case very close to each other between inner bottom surface and the lower surface of repertory on inner bottom surface.
Therefore, because cold air does not flow below repertory, therefore it cannot be fully cooled repertory, as a result, the cooling of repertory
It slows.Also, if storing containers in generate moisture condensation, condense directly with the following table face contact of repertory.
Summary of the invention
The present invention is completed in view of above situation, cold air can be utilized cold from the inner bottom surface side of storing containers to provide
But the repertory in storing containers and even if the inner bottom surface of storing containers generate moisture condensation can prevent moisture condensation directly with storage
The refrigerator of repertory contact in container is project.
The refrigerator of embodiment of the present invention has storeroom and setting in the indoor storing containers of storage, holds in the storage
It is nonplanar protrusion that the parking space bottom surface side of device, which is arranged with upper end,.
Thereby, it is possible to obtain can from the inner bottom surface side in storing containers using in cold air cooled and stored container repertory,
And it can prevent moisture condensation from directly contacting with the repertory in storing containers the inner bottom surface of storing containers generates moisture condensation
Refrigerator.
Detailed description of the invention
Fig. 1 is the schematic front partial sectional view for indicating the internal structure example of refrigerator in embodiment;
Fig. 2 is to indicate Quench (the チ Le De) room of refrigerator and its partial cross-sectional side view of neighbouring structure example in embodiment;
Fig. 3 is to indicate the shock chamber of refrigerator and its perspective view of neighbouring structure example in embodiment;
Fig. 4 is the perspective view for indicating the shape example of the Quench box of refrigerator in embodiment;
Fig. 5 is the perspective view for indicating the shape example of the protrusion of refrigerator in embodiment;
Fig. 6 (A) is the side sectional view of the P-P line of Quench box shown in Fig. 4, and (B) is the part for illustrating the major part of (A)
Enlarged drawing;
Perspective view of Fig. 7 (A)~(C) all to indicate the other shapes example of the protrusion of refrigerator in embodiment;
The perspective view of Fig. 8 (A), (B) all to indicate the other shapes example of the protrusion of refrigerator in embodiment;
Fig. 9 is the perspective view for indicating the other shapes example of the protrusion of refrigerator in embodiment;
Figure 10 is the perspective view for indicating the other shapes example of the protrusion of refrigerator in embodiment;
Figure 11 is the perspective view for indicating the Quench box of refrigerator in comparative example;
Figure 12 (A) is the side sectional view of the Q-Q line of Quench box shown in Figure 11, and (B) is the office for illustrating the major part of (A)
Portion's enlarged drawing.
In figure, 1- refrigerator;2- main body;3- freezing chamber (storeroom);4- Leng KURA room (storeroom);4F- side plate;4R- side plate;5-
Door;6-;The shock chamber 7-;7D- Quench pipeline (pipeline);7T- Quench illuminates (illumination portion);8- shelf;9- vegetable compartment;10- swashs
Cold box (storing containers);11- bottom surface sections;12- side surface part;13- side surface part;12S- reinforcing section;13S- reinforcing section;14- back
Face;15- recess portion;18- knob;19- inner bottom surface;20- protrusion;20A- protrusion;The upper end 21-;The upper end 21A-;70-
Aluminium sheet;100- Quench box;111- bottom surface sections;118- knob;119- inner bottom surface;170- aluminium sheet;The bottom surface B-;CW- cold air;M- storage
Object;The gap SP-;TS- temperature sensor;The bottom side of V- parking space;In front of W-
Specific embodiment
Implement form of the invention (hereinafter referred to as " embodiment ") underneath with Detailed description of the invention.Fig. 1 is to indicate embodiment party
The front portion cross-sectional view of the signal of the internal structure example of formula.
(overall structure of refrigerator 1)
Refrigerator 1 shown in FIG. 1 has main body 2.The main body 2 has the chamber with thermal insulation.Also, in the inside shape of main body 2
At there is multiple storerooms.The top of main body 2 is provided with the freezing chamber 3 as storeroom, is provided in the lower part of the freezing chamber 3
As storeroom Leng KURA room 4.In addition, X-direction is the entire width direction of refrigerator 1 on drawing, Y-direction is the vertical of refrigerator 1
Deep direction, Z-direction are the up and down direction (longitudinal direction) of refrigerator 1.
The side before main body 2 is provided with the door 6 of the 5 He Leng KURA room of door of freezing chamber.Door 5 is through not shown hinge
Installation on the body 2, is opened and closed the opening portion of side before freezing chamber 3.Door 6 is installed on the body 2 through not shown hinge,
It is opened and closed the opening portion of side before Leng KURA room 4.Such as muti-piece shelf is configured in freezing chamber 3.It is configured in Leng KURA room 4
Shock chamber 7, muti-piece shelf and vegetable compartment.In the structure example of refrigerator 1, shock chamber 7 configures the top in Leng KURA room 4, vegetable compartment
Configure the lower part in Leng KURA room 4.The door (not shown) as storing containers is provided on the medial surface of door 5 and/or door 6
Slot.
Freezing chamber 3 is the storeroom of cryogenic temperature range, is adjusted to such as -20 DEG C or so of temperature.4 Wei Leng KURA temperature of Leng KURA room
The storeroom for spending range, is adjusted to such as 3 DEG C~5 DEG C of temperature.At the back of the freezing chamber 3 of main body 2, configured with for cooling down
The freezing cooler of freezing chamber 3.Also, at the back of 2 Leng KURA room 4 of main body, configured with for 4 Leng KURA of Leng Que Leng KURA room
Use cooler.These freezing coolers and cold KURA cooler are with configuration in indoor compressor of machine of refrigerator etc. together structure
At the refrigerating cycle of refrigerator.
(composition of shock chamber 7)
Fig. 2 is the front portion cross-sectional view for indicating shock chamber 7 and its neighbouring structure example.Fig. 3 be indicate shock chamber 7 and its near
Structure example perspective view.Fig. 4 is the perspective view for indicating the shape example of Quench box 10 of the configuration in shock chamber 7.It shock chamber 7 will
Repertory is stored in such as -1 DEG C~+1 DEG C of low temperature range.
As shown in Figures 1 to 3, shock chamber 7 has Quench illumination 7T (illumination portion), Quench pipeline 7D, Quench box 10 and temperature sensing
Device TS (referring to Fig. 2).Quench illumination 7T is the illumination portion in the Quench box 10 for illuminate shock chamber 7.Quench, which illuminates 7T, to be had for example
LED (light emitting diode) lamp.Quench pipeline 7D utilizes the cold air access made of such as foamed polystyrene by Quench cold air
The cool-air feed pipe being transported in Quench box 10 is arranged 2.Temperature sensor TS detects the temperature in Leng KURA room 4, and temperature is believed
Number it is conveyed to control unit (not shown).
Fig. 3 and Quench box shown in Fig. 4 10 are the storage of the repertorys such as the food of storage and Quench ham, meat, Yoghourt etc
An example of container.In order to make to be stored in, internal repertory is easily visible, and Quench box 10 is by for example transparent or semitransparent plastics
The container of system is constituted.Quench box 10 has bottom surface sections 11, left and right sides face 12,13 and back part 14.The bottom surface sections of Quench box 10
11 configure along the horizontal plane (X/Y plane) of refrigerator 1.
The left and right sides face 12,13 of Quench box 10 is parallel with the inner surface of left side plate 4F, 4R (referring to Fig. 3) of cold KURA room 4.?
The front side of side surface part 12,13, is formed with reinforcing section 12S, 13S.By forming reinforcing section 12S, 13S, increase plastics side
The intensity of face 12,13.
The back part 14 of Quench box 10, which has, is introduced directly into the light from Quench illumination 7T and the cold air from Quench pipeline 7D
Recess portion 15 in Quench box.The recess portion 15 is formed along Quench box width direction, that is, X-direction.Quench illuminates 7T and Quench pipeline
7D is exposed to front W (referring to Fig. 4) side by recess portion 15.The light that Quench illumination 7T shown in Fig. 3 is issued as a result, will not be carried on the back
Face 14 blocks, and can illuminate in shock chamber 7 and Quench box 10.And 2 Quench pipeline 7D will not be blocked by back part 14, energy
It enough will be in the smooth feeding shock chamber 7 of Quench cold air.
In the front end side of 10 bottom surface sections 11 of Quench box, it is provided with user and is caught on hand Quench box 10 is pulled out to front W's
Knob 18.The knob 18 can both traverse entire width direction (X-direction) setting of 11 front end side of bottom surface sections, also can be set
In a part.
As shown in figure 3, the Quench box 10 is supported on the supporting part of side plate 4F, 4R inner surface side setting of main body 2.Quench box
10 can slide and enter and leave in the Y direction along the supporting part in shock chamber 7.
(the shape example of the protrusion 20 of Quench box 10)
Being arranged with upper end in the bottom side V (referring to Fig. 4) of the parking space of Quench box 10 is nonplanar protrusion 20.
In present embodiment, on the inner bottom surface 19 of the bottom surface sections 11 of Quench box 10 removably configured with it is lamellar, as length
The aluminium sheet 70 of the good metal plate of rectangular heat conductivity.Also, by arranging multiple protrusions 20 in the upper surface of aluminium sheet 70 side,
Bottom side V as the parking space in Quench box 10 is arranged the structure of multiple protrusions 20.
Multiple protrusions 20 are in the upper surface of aluminium sheet 70 side with almost running through entire surface close-packed arrays.That is, multiple protrusions 20 are along X
Direction and the Y-direction close-packed arrays orthogonal with the X-direction are at rectangular.The arrangement of multiple protrusions 20 is referred to as inner bottom surface
Concaveconvex shape or pit shape on 19.
As Fig. 5 is illustrated, each protrusion 20 has towards Z-direction upper end 21 outstanding.In Fig. 6, (A) is Fig. 4 institute
The cross-sectional view of the P-P line shown, (B) are the partial enlarged view of each major part.In order to keep cold air CW logical readily along inner bottom surface 19
It crosses, each protrusion 20 is that upper end 21 is nonplanar solid, and protrusion 20 is such as pyramid shape shape (or Pyramid).
As shown in fig. 6, becoming by each protrusion 20 at the interior bottom of the repertory M and Quench box 10 that are configured in Quench box 10
The construction for the gap SP that cold air CW passes through is formed between aluminium sheet 70 on face 19.Moreover, because the upper end 21 of each protrusion 20
To be for example sharp non-planar, therefore upper end 21 carries the bottom surface B of repertory M with point contact.
(effect and effect of embodiment)
Illustrate the effect and effect of embodiment below.The temperature that shock chamber 7 shown in Fig. 2 is adjusted to Bi Leng KURA room 4 is slightly low
Such as -1 DEG C~+1 DEG C of low temperature range.In example shown in Fig. 6, Quench box 10 is configured in shock chamber 7, of different sizes
Repertory M be stored in Quench box 10.The bottom surface B of each repertory M is placed in multiple protrusions of the aluminium sheet 70 on inner bottom surface 19
On 20.
As shown in Fig. 3~Fig. 6, the cold air CW being blown into from a plurality of Quench pipeline 7D enters Quench box by the recess portion 15 of back part 14
In 10.Along the portion the upper surface of repertory M and side surface part, W passes through the cold air CW of entrance forwards in Quench box 10.Moreover, cold air
CW passes through the gap SP between the aluminium sheet 70 on the bottom surface B of repertory M and the bottom surface sections 11 of Quench box 10.It is passed through by cold air CW
Aluminium sheet 70 in the upper surface of repertory M, side and bottom surface sections 11, repertory M are uniformly cooled.
In this way, bottom side V (the upper surface of aluminium sheet 70 side) the arrangement upper end of the parking space in Quench box 10 is nonplanar prominent
Play portion 20.Therefore, in Quench box 10, due to 21 phase of upper end of the bottom surface B and protrusion 20 of the repertory M in Quench box 10
It abuts and loads, therefore repertory M is in the state slightly to suspend relative to aluminium sheet 70, in the bottom surface B and aluminium sheet 70 of repertory M
Between formed gap SP.
Therefore, cold air CW can be made to move smoothly through gap SP, also can from Quench box 10 19 side of inner bottom surface (i.e. from
70 side of aluminium sheet) each repertory M of cooling.Therefore, it can make the cooling velocity of each repertory M is compared with the past to greatly speed up, energy
It is enough equably to cool down each repertory M.Moreover, also can even if generating moisture condensation on the aluminium sheet 70 on the inner bottom surface 19 of Quench box 10
It is enough fully to prevent moisture condensation from directly contacting with repertory M.
Also, in Quench box 10, sometimes big repertory M is disposed close to the rearward position of back part 14, small repertory M
It is disposed close to the position of the front side of knob 18.Under this situation, cold air CW by the big repertory M of rear side and aluminium sheet 70 it
Between gap SP, pass through the gap SP between the small repertory M and aluminium sheet 70 of front side.Therefore, even if big repertory M exists
It, also can be with the small repertory M of the cooling front side of fast cooling velocity in rear side.
Also, Quench illumination 7T illuminates in the Quench box 10 of shock chamber 7.Form the bottom side V's of parking space by close-packed arrays
Each protrusion 20 (see, for example Fig. 4) of concaveconvex shape forms the appearance of the close structure arrangement of square quadrangular pyramid shape.Utilize this
Structure, due to each protrusion 20 on the aluminium sheet 70 on the inner bottom surface 19 of Quench box 10 diffusing reflection Quench illumination 7T light,
Entire Quench box 10 can be seen by light, it is all to be more clearly seen entire Quench box 10.
Especially in the case of the amount of the repertory M deposited in Quench box 10 is few, it can illuminate and see entire Quench box
Aluminium sheet 70 on 10 inner bottom surface 19.Therefore, even transparent or semitransparent Quench box 10, can also improve Quench box 10 can
Depending on property, the apparent aesthetics of Quench box 10 and shock chamber 7 is good.
(the other shapes example of protrusion 20)
Illustrate the other shapes example of protrusion 20 referring to Fig. 7 and Fig. 8.Protrusion 20 shown in Fig. 7 (A) is positive triangular pyramid
Shape (the crystal structure shape of diamond).Protrusion 20 shown in Fig. 7 (B) is pentagonal pyramid shape.Protrusion 20 shown in Fig. 7 (C)
Be positive six pyramid shape.Protrusion 20 is also possible to polygonal pyramid shape without being limited thereto.
Protrusion 20 shown in Fig. 8 (A) is cone shape.Protrusion 20 shown in Fig. 8 (B) is hemispherical.In addition, not limiting to
In hemispherical, as long as at least top protrusion that is curved protrusion shape.
Protrusion 20 shown in Fig. 5, Fig. 7 (A)~(C) and Fig. 8 (A), Fig. 8 (B) as Fig. 4 illustrate as be configured at it is sharp
Repertory M in cold box 10 and formation gap SP between the aluminium sheet 70 on the inner bottom surface 19 of Quench box 10.And each protrusion 20
Upper end 21 be point it is non-planar, become upper end 21 with point contact bearing repertory M bottom surface B structure.
In addition to the shape of each protrusion 20 shown in Fig. 5, Fig. 7 (A)~(C) and Fig. 8 (A), (B), the shape as protrusion is also
It can be for example other kinds of polygonal pyramid, elliptic cone (bottom surface is ellipse).Various protrusions 20 illustrate as Fig. 4 that
Sample traverse almost entire inner bottom surface 19, in X direction with Y-direction as rectangular close-packed arrays.Also, the various protrusions of diagram
Portion 20 can also be arranged in rectangular with two or more mixing.
Protrusion 20 shown in Fig. 9 is shorter rib-like protruding portion.In the case of the rib-like protrusion 20, protrusion
20 configuration direction is preferably parallel with the flow direction of cold air CW.Each protrusion 20 of the rib-like is along the flow direction of cold air CW
It configures separated from each otherly, cold air CW also flows in the gap formed and separating configuration.Due to the upper end of each protrusion 20
Portion 21 comes to a point non-planar for ridge shape, therefore upper end 21 contacts the lower surface of bearing repertory M with line.Cold air as a result,
The flowing of CW will not because protrusion 20 there are due to interfere, cold air CW can equably cool down the repertory in Quench box.
Protrusion 20A shown in Fig. 10 is the protruding portion of 2 long rib shapes.The protrusion 20A of the rib-like is along cold air
The flow direction of CW extends from back part 14, to side surface part 12,13 curvings and extends respectively halfway.Protrusion 20A exists
Gap is formed between aluminium sheet on the inner bottom surface of the repertory M being configured in Quench box and Quench box.Moreover, each protrusion 20A
Upper end 21A fine away into ridge shape, upper end 21A can contact the bottom surface of bearing repertory M with line.
In addition, the shape of protrusion 20A can suitably change according to the flow direction of cold air CW, flow.
(comparative example)
Figure 11 is the perspective view for indicating the Quench box 100 as comparative example.Figure 12 is the Q-Q line cross-sectional view of Figure 11.As Figure 11,
Shown in Figure 12, aluminium sheet 170 is provided on the inner bottom surface 119 of the bottom surface sections 111 of the Quench box 100 of comparative example.The aluminium sheet 170 is
Flat surface, absolutely not protrusion.
The bottom surface B of repertory M shown in Figure 12 with as 170 face contact of aluminium sheet on the inner bottom surface 119 of flat surface.That is, storage
Gap is not generated between the bottom surface B of object M and the aluminium sheet 170 of flat surface.Therefore, cold air CW along repertory M upper surface and side
Face passes through, but can not be by between the aluminium sheet 170 on the bottom surface B of repertory M and the inner bottom surface 119 of Quench box 100.Therefore,
Cold air CW can not uniformly and rapidly cool down repertory M.
Also, in the case of producing moisture condensation on aluminium sheet 170, the bottom surface B and Quench box 100 of the repertory M in Quench box 100
Gap is not provided between interior aluminium sheet 170.Therefore moisture condensation is directly contacted with repertory M, and repertory M, which is condensed, to be soaked.
Moreover, sometimes big repertory M is disposed close to the rearward position of back part 114, small storage in Quench box 100
Object M is disposed close to the forward position of knob 118.Under this situation, cold air CW cannot by the big repertory M of rear side with it is interior
It, can not be by between the aluminium sheet 170 on the small repertory M and inner bottom surface 19 of front side between aluminium sheet 170 on bottom surface 119.
Under this situation, in Yu Jileng box 100, cold air CW is easy convection current near big repertory M.Therefore, temperature sensor
Erroneous detection measures the temperature of the cold air CW of convection current sometimes.Accordingly, there exist the temperature that can not accurately measure Leng KURA room, shock chamber
Worry.
Foregoing illustrate embodiments, but embodiment is intended only as example proposition, and the range of non-limiting invention.New
Embodiment can be implemented in a variety of other ways, without departing from the spirit of the invention, be able to carry out various
Omission, substitution, and alteration.These embodiments and modifications thereof are included in the range of invention, in objective, are also contained in right and want
In the range for asking the invention and its equalization that range is recorded.
The construction of refrigerator 1 shown in FIG. 1 is an example after all, can be using arbitrary construction.Aluminium sheet can also be substituted in
The example of multiple protrusions 20 is formed on 70 and multiple protrusions 20 are directly formed in the bottom surface sections 11 of Quench box 10.This feelings
Under shape, multiple protrusions 20 can be formed while forming Quench box 10.Also, the arrangement of protrusion 20 is also not necessarily limited to Quench
Box 10 can be used for the space bottom side arrangement upper end of the gate slot as storing containers on the inner surface for being set to door 5,6
Portion is nonplanar protrusion etc..
Also, refrigerator 1 top configure freezing chamber, lower part configuration Leng KURA room can also be in refrigerator as other structure examples
Top configure Leng KURA room, in the middle part configuration shock chamber of refrigerator, vegetable compartment etc., configure freezing chamber in the lower part of refrigerator.
Claims (12)
1. a kind of refrigerator has storeroom and setting in the indoor storing containers of storage, in the storage of the storing containers
Space bottom side, being arranged with upper end is nonplanar protrusion.
2. refrigerator as described in claim 1, the protrusion is rectangular pyramid shape.
3. refrigerator as described in claim 1, the protrusion is triangular pyramid shape.
4. refrigerator as described in claim 1, the protrusion is polygonal pyramid shape.
5. refrigerator as described in claim 1, the protrusion is cone shape.
6. refrigerator as described in claim 1, the protrusion is rib shapes.
7. refrigerator as described in claim 1, at least top of the protrusion is bend relief shape.
8. refrigerator as described in claim 1, the storing containers are Quench box, are provided with and illuminate on rear side of the storeroom
Illumination portion in the Quench box.
9. refrigerator as claimed in claim 8 is provided on rear side of the storeroom and cold air is sent in the Quench box
Pipeline.
10. the back part of refrigerator as claimed in claim 9, the Quench box has the light from the illumination portion and comes from
The cold air of the pipeline is introduced directly into the recess portion in Quench box.
11. refrigerator as described in claim 1, the storing containers are gate slot.
12. the refrigerator as described in any one of claim 1~11 is configured with metal on the inner bottom surface of the storing containers
Plate is provided with the protrusion in the upper surface of metal plate side.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2018107661A JP2019211155A (en) | 2018-06-05 | 2018-06-05 | refrigerator |
JP2018-107661 | 2018-06-05 |
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CN110017642A true CN110017642A (en) | 2019-07-16 |
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CN201811597956.9A Pending CN110017642A (en) | 2018-06-05 | 2018-12-26 | Refrigerator |
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Also Published As
Publication number | Publication date |
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JP2019211155A (en) | 2019-12-12 |
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