CN102102930A - Refrigerator - Google Patents
Refrigerator Download PDFInfo
- Publication number
- CN102102930A CN102102930A CN2010101406067A CN201010140606A CN102102930A CN 102102930 A CN102102930 A CN 102102930A CN 2010101406067 A CN2010101406067 A CN 2010101406067A CN 201010140606 A CN201010140606 A CN 201010140606A CN 102102930 A CN102102930 A CN 102102930A
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- China
- Prior art keywords
- ice
- storage case
- refrigerator
- ice storage
- cube
- 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.)
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Classifications
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- 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
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- 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
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/02—Apparatus for disintegrating, removing or harvesting ice
- F25C5/04—Apparatus for disintegrating, removing or harvesting ice without the use of saws
- F25C5/046—Ice-crusher machines
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- 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
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/02—Apparatus for disintegrating, removing or harvesting ice
- F25C5/04—Apparatus for disintegrating, removing or harvesting ice without the use of saws
- F25C5/06—Apparatus for disintegrating, removing or harvesting ice without the use of saws by deforming bodies with which the ice is in contact, e.g. using inflatable members
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- 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
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/20—Distributing ice
- F25C5/22—Distributing ice particularly adapted for household refrigerators
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- 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
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/20—Distributing ice
- F25C5/24—Distributing ice for storing bins
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Mechanical Engineering (AREA)
- Thermal Sciences (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Devices That Are Associated With Refrigeration Equipment (AREA)
- Refrigerator Housings (AREA)
- Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
Abstract
Provided is a refrigerator including a slim refrigerator door. The refrigerator includes a storage compartment; a refrigerator door configured to open and close the storage compartment; an ice maker configured to generate ice cubes; an ice bin provided at the refrigerator door to receive the ice cubes generated in the ice maker and having a discharge opening through which the ice cubes are discharged; a motor provided at the refrigerator door; and at least one blade disposed within the ice bin, the at least one blade being operably connected to the motor, wherein at least one ice cube generated in the ice maker directly drop onto the at least one blade, and the at least one blade moves at least one ice cube stored in the ice bin to the discharge opening to discharge the at least one ice cube from the ice bin by an operation of the motor.
Description
Technical field
The disclosure relates to a kind of refrigerator.
Background technology
In general, refrigerator is to utilize Cryogenic air to store the equipment of food at low temperatures.
Refrigerator comprises casing that wherein is limited with storeroom and the refrigerator doors that opens and closes storeroom.Storeroom can comprise refrigerating chamber and refrigerating chamber.Refrigerator doors can comprise refrigerating-chamber door that opens and closes refrigerating chamber and the refrigerating chamber door that opens and closes refrigerating chamber.
In addition, refrigerator can comprise Icemaker assembly, the ice that this Icemaker assembly utilizes cold air to come ice making to make with storage.Icemaker assembly comprises ice machine and ice storage case, and ice machine produces ice, and stores the ice that separates from ice machine in the ice storage case.Ice machine can be arranged in refrigerating chamber inside or the refrigerating-chamber door.The ice storage case can be arranged in refrigerating chamber inside or the refrigerating-chamber door.For the convenience of the user, refrigerating-chamber door can also comprise the distributor that is used for distributing the ice that is stored in the ice storage case.
Summary of the invention
Embodiment provides a kind of refrigerator that comprises slim refrigerator doors.
Embodiment also provides a kind of refrigerator, and the thickness that wherein is provided with the refrigerator doors of ice storage case becomes slim.
In one embodiment, refrigerator comprises: storeroom; Open and close the refrigerator doors of storeroom; Be configured in order to produce the ice machine of ice cube; The ice storage case, it is arranged on the refrigerator doors place in order to be contained in the ice cube that produces in the ice machine and it has outlet, and ice cube is discharged by this outlet; Be arranged on the motor at refrigerator doors place; And at least one rotating blade that is positioned at the ice storage case, this at least one rotating blade operatively is connected in motor, wherein, at least one ice cube that produces in ice machine is directly fallen on this at least one rotating blade, and at least one ice cube that this at least one rotating blade will be stored in by the operation of motor in the ice storage case moves to outlet so that this at least one ice cube is discharged from the ice storage case.
Description of drawings
Accompanying drawing and below specification in set forth the details of one or more embodiments.From specification and accompanying drawing and accessory rights requirement, it is obvious that other feature will become.
Fig. 1 is the stereogram according to the refrigerator of first embodiment.
Fig. 2 is the stereogram according to the refrigerator of first embodiment, and wherein the part of refrigerating-chamber door is opened.
Fig. 3 is the stereogram according to the refrigerating-chamber door of first embodiment, and wherein the icehouse door is opened.
Fig. 4 is that wherein Icemaker assembly takes out from icehouse according to the stereogram of the refrigerating-chamber door of first embodiment.
Fig. 5 and Fig. 6 are the stereograms according to the Icemaker assembly of first embodiment.
Fig. 7 is the stereogram according to the ice storage case of first embodiment.
Fig. 8 is the exploded perspective view of ice storage case.
Fig. 9 is the exploded perspective view of row's ice member.
Figure 10 is the front view of the rotating blade of ice storage case.
Figure 11 is the front view that the row of ice storage case ices member, fixed blade and opening/closing member.
Figure 12 is the stereogram of the opening/closing member among Figure 11.
Figure 13 is the front view that illustrates the inside of ice storage case.
Figure 14 is the upward view of ice storage case.
Figure 15 is the vertical view of ice storage case.
Figure 16 is the longitudinal section of the refrigerating-chamber door of first embodiment.
Figure 17 is that the ice machine rotation among Figure 16 is so that ice from the view of the state of ice machine separation.
Figure 18 is the front view of trash ice from the state of ice storage case discharge.
Figure 19 is the front view of ice cube from the state of ice storage case discharge.
Figure 20 is the stereogram according to the refrigerator of second embodiment.
Figure 21 is the stereogram according to the refrigerator of the 3rd embodiment.
Figure 22 is the stereogram according to the refrigerator of the 4th embodiment.
The specific embodiment
Now will describe embodiment of the present disclosure in detail, its example illustrates in the accompanying drawings.
Fig. 1 is the stereogram according to the refrigerator of first embodiment.Fig. 2 is the stereogram according to the refrigerator of first embodiment, and wherein the part of refrigerating-chamber door is opened.
See figures.1.and.2, comprise according to the refrigerator 1 of this embodiment: limit the casing 10 of its outward appearance, and the refrigerator doors 11 and 14 that is connected in casing 10 in a movable manner.
The inside of casing 10 is limited with the storeroom that is used to store food.This storeroom comprises: refrigerating chamber 102, and the refrigerating chamber 104 that is arranged at refrigerating chamber 102 belows.
That is, in this embodiment, will describe refrigerating chamber and be arranged at following refrigeration-type refrigerator above the refrigerating chamber as example.
Refrigerating-chamber door 11 comprises a plurality of doors 12 and 13 that are arranged at left side and right side respectively.Described a plurality of door 12 and 13 second refrigerating-chamber doors 13 that comprise first refrigerating-chamber door 12 and be arranged at first refrigerating-chamber door, 12 right sides.First refrigerating-chamber door 12 can move independently with respect to second refrigerating-chamber door 13.
Refrigerating chamber door 14 comprises a plurality of doors 15 and 16 of vertical setting.Described a plurality of door 15 and 16 second refrigerating chamber doors 16 that comprise first refrigerating chamber door 15 and be arranged at first refrigerating chamber door, 15 belows.First refrigerating-chamber door 12 and second refrigerating-chamber door 13 can rotatably move, and first refrigerating chamber door 15 and second refrigerating chamber door 16 can slidably move.
Alternately, can provide a refrigerating chamber door to open and close refrigerating chamber 104.
Be provided with the distributor 17 that is used for dispensing water or ice in first refrigerating-chamber door 12 and second refrigerating-chamber door 13 one of them.For example, in Fig. 1, distributor 17 is arranged in first refrigerating-chamber door 12.In addition, be provided with the Icemaker assembly (will be described below) that is used to produce with stored ice in one of them in first refrigerating-chamber door 12 and second refrigerating-chamber door 13.
In this embodiment, distributor 17 and Icemaker assembly can be arranged in first refrigerating-chamber door 12 and second refrigerating-chamber door 13.Therefore, will describe below distributor 17 and Icemaker assembly will be arranged in the refrigerating-chamber door 11.Herein, first refrigerating-chamber door 12 and second refrigerating-chamber door 13 are referred to as refrigerating-chamber door 11.
Fig. 3 is the stereogram according to the refrigerating-chamber door of first embodiment, and wherein the icehouse door is opened.Fig. 4 is that wherein Icemaker assembly takes out from icehouse according to the stereogram of the refrigerating-chamber door of first embodiment.
Referring to figs. 1 through Fig. 4, refrigerating-chamber door 11 comprises shell 111 and is coupled to the door courage 112 of shell 111.Door courage 112 limits the back side of refrigerating-chamber door 11.
In door courage 112, be limited with the handle couplings 128 of a part that is coupled to handle 140.Handle couplings 128 is held this part of handle 140.
Refrigerating-chamber door 11 comprises: be used for the cold air of main body supply pipe 106 is supplied to the door supply pipe 122 of icehouse, and the door recurrent canal 124 that is used for the cold air of icehouse 120 is recovered to main body recurrent canal 108.
When refrigerating-chamber door 11 closing cold rooms 102, door supply pipe 122 is aimed at main body supply pipe 106 and is communicated with, and door recurrent canal 124 is aimed at main body recurrent canal 108 and is communicated with.
Icehouse 120 comprises cold air pipe 290, and its guiding cool air that will flow in door supply pipe 122 is to Icemaker assembly 200.Cold air pipe 290 comprises the passage that cold air flows through, and the cold air that flows in cold air pipe 290 finally is fed into Icemaker assembly 200.Because cold air can focus on Icemaker assembly 200 by cold air pipe 290, so can promptly produce ice cube.
Refrigerating-chamber door 11 comprises first connector 125, and it is used for providing power supply to Icemaker assembly 200.First connector 125 is exposed to icehouse 120.Refrigerating-chamber door 11 comprises the water supply line 126 that is used to supply water to Icemaker assembly 200.
Downside at the inwall 114 of the door courage 112 that constitutes icehouse 120 is provided with the ice mouth 127 that is used to discharge ice cube.The downside of icehouse 120 be provided be connected with ice mouth 127 go out ice pipe 150.
Hereinafter, the structure of Icemaker assembly will be described in detail.
Fig. 5 and Fig. 6 are the stereograms according to the Icemaker assembly of first embodiment.
With reference to Fig. 3 to Fig. 6, Icemaker assembly 200 limits the space that produces ice cube, and comprises: ice machine 210, the ice that its supporting produces; Drive source 220, it is provided for automatically rotating the power of ice machine 210 so that ice cube is taken out from ice machine 210; Transmission case 224, its transmission of power with drive source 220 arrives ice machine 210; Lid 230, it covers ice machine 210 in order to prevent overflowing of when supplying water to ice machine 210 water; And water guide 240, it will be directed to ice machine 210 from the water that water supply line 126 is supplied with.
The electric wire that is connected in electric machine assembly 280 is connected in second connector 282 with the electric wire that is connected in drive source 220, and this second connector 282 is coupled to first connector 125 in removable mode.
Particularly, drive source 220 can comprise motor.
When ice storage case 300 placed on first support 252, electric machine assembly 280 was connected in ice storage case 300.In this embodiment, ice storage case 300 places state on first support 252 to refer to the state of icehouse 120 ccontaining ice storage casees 300.
To describe ice storage case 300 in detail below.
Fig. 7 is the stereogram according to the ice storage case of first embodiment.
With reference to Fig. 7, be limited with opening 310 at the upside of ice storage case 300.Ice storage case 300 has antetheca 311, rear wall 312 and sidewall 313.
Be provided with angular guide surfaces in ice storage case 300 inside, the ice cube that ice cube that stores in order to supporting and guiding store make ice cube because of its deadweight to lower slider.
Limit ice storage space 315 by antetheca 311, rear wall 312, sidewall 313 and angular guide surfaces 320, ice cube is stored in the ice storage space 315.
Angular guide surfaces 320 comprises first angular guide surfaces 321 and second angular guide surfaces 322.The wall of first angular guide surfaces 321 from sidewall 313 is downward-sloping towards middle body.Second angular guide surfaces 322 another wall from sidewall 313 is downward-sloping towards middle body.
The row of being provided with ice member 400 between first angular guide surfaces 321 and second angular guide surfaces 322 is discharged to the outside of ice storage case 300 in order to will be contained in ice cube in the ice storage case 300.That is, the left side and the right side of first angular guide surfaces 321 and second angular guide surfaces, 322 rows of being arranged at ice member 400.
Hereinafter, the row who description is comprised a plurality of rotating blades 410 ices member 400 as example.
The ice cube that is positioned on first angular guide surfaces 321 and second angular guide surfaces 322 moves towards row's ice member 400 because of its deadweight.Then, by the operation of row's ice member 400 ice cube is discharged to the outside.
Row's ice member 400 rotatably is arranged between first angular guide surfaces 321 and second angular guide surfaces 322.In addition, be provided with the discharge portion 500 with outlet 510 between first angular guide surfaces 321 and second angular guide surfaces 322, ice cube is finally discharged in this outlet 510.
Lower side--promptly in discharge portion 500 sides--at row's ice member 400 is provided with and rotating blade 410 interactional at least one fixed blade 480, ice cube is crushed when first party rotates up with box lunch row ice member 400.
For the ice cube of easily crushing, in ice storage case 300, can be provided with a plurality of fixed blades 480.Hereinafter, description is comprised the ice storage case 300 of a plurality of fixed blades 480 is as example.
A plurality of fixed blades 480 are spaced apart from each other, and rotating blade 410 passes the space between described a plurality of fixed blade 480.
Under the state that ice is stuck between fixed blade 480 and the rotating blade 410, when ice being extruded, thereby the ice crushing can be formed trash ice by the rotary manipulation of rotating blade 410.
Lower side--promptly in discharge portion 500 sides--at row's ice member 400 is provided with opening/closing member 600, when arranging ice member 400 when the second party opposite with first direction rotates up, this opening/closing member 600 optionally is connected with outlet 510 and ice storage space 315 to discharge ice cube.
Be provided with performance constraint portion 650 below opening/closing member 600, the opereating specification in order to restriction opening/closing member 600 prevents to discharge too much ice cube thus.
Fig. 8 is the exploded perspective view of ice storage case.
With reference to Fig. 7 and Fig. 8, a plurality of rotating blades 410 are fixed to rotating shaft 420.This rotating shaft 420 passes connecting plate 428, and connecting plate 428 is connected in support plate 425 and electric machine assembly (seeing the Reference numeral 280 of Fig. 6).This rotating shaft 420 flatly is arranged in the ice storage case 300.
A plurality of rotating blades 410 are provided with in the mode that is spaced apart from each other on the direction parallel with the bearing of trend of rotating shaft 420.
Here, the diameter of through hole 481 can make that fixed blade 480 is motionless when rotating shaft 420 rotations greater than the diameter of rotating shaft 420.
A plurality of rotating blades 410 can replace setting with a plurality of fixed blades 480 on the direction parallel with the bearing of trend of rotating shaft 420.
As mentioned above, the opposite side of each fixed blade in a plurality of fixed blades 480 is fixed in the downside of discharging guiding wall 520.Fixed component 485 is connected in the opposite side of each fixed blade 480 and is inserted in the groove 521 that limits in discharging guiding wall 520.
One or more opening/closing members 600 can be set.Opening/closing member 600 is arranged on the side of a plurality of fixed blades 480.
Opening/closing member 600 rotatably is arranged on the discharge portion 500.Opening/closing member 600 can be formed or be supported by the elastic component 640 such as spring by elastomeric material.
This be for, under the state that the pressure effect that causes because of ice cube in the end of opening/closing member 600 moves down, when pressure effect is removed, make opening/closing member 600 return its initial position.
To arrange ice member 400, fixed blade 480 and opening/closing member 600 and be arranged in the ice storage case 300, the header board 311a of the antetheca 311 that constitutes ice storage case 300 will be set then.
Bottom in the front of header board 311a can be provided with covering member 318, is exposed to the outside in order to prevent opening/closing member 600 or fixed blade 480.
Fig. 9 is the exploded perspective view of row's ice member.
With reference to Fig. 7 to Fig. 9, between support plate 425 and connecting plate 428, be provided with and have spiral-shaped elastic component 429, in order to support connecting plate 428 flexibly.
Be coupled under the state of rotating shaft 420 at rotating blade 410, support plate 425, connecting plate 428 and elastic component 429, will insert the leading section that member 421 is inserted into rotating shaft 420.
Electric machine assembly (seeing the Reference numeral 280 among Fig. 6) comprises the connecting elements 281 that optionally is connected in connecting plate 428.Be provided with protuberance 430 on connecting plate 428, connecting elements 281 is hooked on this protuberance 430.
Under the user was received into ice storage case 300 state in the icehouse 120, when two ends of connecting elements 281 and protuberance 430 were aligned with each other, connecting elements 281 was not hooked on the protuberance 430.In this case, guided plate 428 moves towards support plate 425 by elastic component 429.
After this, between two ends of having removed connecting elements 281 by the continued operation of electric machine assembly (seeing the Reference numeral 280 among Fig. 6) and protuberance 430 on time, connecting plate 428 moves backward by elastic component 429, and therefore makes two end hook of connecting elements 281 on protuberance 430.
Figure 10 is the front view of the rotating blade of ice storage case.
With reference to Figure 10, each rotating blade 410 comprises central portion 412 and extension 413, and rotating shaft 420 passes central portion 412, and extension 413 radially extends from central portion 412.
Be limited with through hole 415 in central portion 412, rotating shaft 420 passes this through hole 415.This through hole can have non-circular shape or long hole shape, is delivered to central portion 412 reposefully in order to the revolving force with rotating shaft 420.
A plurality of extensions 413 can be spaced apart from each other.Limit space 411 between two extensions adjacent one another are 413, ice cube is arranged in this space 411.
The width of each extension 413 increases toward the outer side gradually from central portion 412.Be provided with hook portion 416 in the end of extension 413, excessive in order to the ice cube that prevents to be arranged in space 411.
Thus, under ice cube was accommodated in state in the space 411, when rotating blade 410 rotations, the ice cube that is positioned at the place, end of extension 413 was hooked and is moved on the direction of rotation of rotating blade 410 together with rotating blade 410.
Side at extension 413 is provided with the crushing portion with zigzag fashion, so that by icing crushing with the interaction of fixed blade 480.
Opposite side at extension 413 is provided with smooth surface, so that ice cube is moved to a side relative with crushing portion 418, simultaneously ice cube is remained on the ice cube state.Therefore, in a space 411, the crushing portion 418 of an extension 413 is positioned at a side relative with the smooth surface of another extension 413.
Figure 11 is the front view that the row of ice storage case ices member, fixed blade and opening/closing member.
With reference to Figure 11, when rotating blade 410 was connected in rotating shaft 420, a plurality of rotating blades 410 were also not exclusively overlapping, but were arranged to the state that reverses slightly towards rear side from the front side.
That is, when from forward observation, a plurality of rotating blades 410 are not overlapping fully each other, but are arranged at the state of the rotating blade 410 rotation predetermined angulars at rear.
At a plurality of rotating blades 410 with under the situation that fully overlapping relation is provided with on the fore-and-aft direction, when a plurality of rotating blades 410 of the ice cube that is used to crush when first party rotates up, the pressure that is applied on the ice cube is disperseed.Therefore, be difficult to the ice cube of crushing.
But, as mentioned above, under the state that makes a plurality of rotating blades rotation predetermined angulars, setting gradually under the situation of a plurality of rotating blades, ice cube contacts the crushing portion 418 of first rotating blade 410 and therefore crushed.After this, the ice cube of crushing contacts the crushing portion 418 of the crushing portion 418 of second rotating blade 410 and the 3rd rotating blade 410 subsequently at interval successively with preset time.
Therefore, the revolving force of row's ice member 400 can focus on each crushing portion 418, in order to improve trash ice efficient significantly.
In addition, the crushing portion 488 with zigzag fashion can be arranged on the fixed blade 480, in order to the crushing ice cube.
Opening/closing member 600 is provided with on the side direction of fixed blade 480.Opening/closing member 600 comprises the rotating part 605 that rotatably is arranged in the ice storage case 300.Rotating part 605 is flexibly supported by the elastic component 640 with torsionspring shape.Ice storage case 300 is fixed in an end of this elastic component 640, and the other end is installed on the surface of opening/closing member 600, in order to flexibly to support opening/closing member 600.
Figure 12 is the stereogram of the opening/closing member among Figure 11.
With reference to Fig. 6 and Figure 12, a plurality of opening/closing members 600 can be set.A plurality of opening/closing members 600 are motion independently relative to each other.
If single opening/closing member 600 is set in ice storage case 300, then when ice cube was not discharged from but only rests on the part of first guide surface 610 of opening/closing member 600, other ice cube can be discharged from by the gap that does not have ice.
Yet, if a plurality of opening/closing members 600 are set in ice storage case 300, thereby even then ice cube is hooked on the opening/closing member 600 this opening/closing member 600 is remained on open mode, other opening/closing member 600 that does not hook ice cube on it also can remain on closed condition in order to prevent the unnecessary discharge of ice cube.
At this moment, on each the opening/closing member in a plurality of opening/closing members 600 elastic component 640 can be set.Each opening/closing member 600 comprises hook-type jaw (hook jaw) 615, when each opening/closing member 600 is in closed condition in order to prevent that the ice cube that is stuck between opening/closing member 600 and a plurality of rotating blade 410 is discharged to the outside.
Hook-type jaw 615 can be arranged on the end of end face of first guide surface 610.
Figure 13 is the front view that illustrates ice storage case inside, and Figure 14 is the upward view of ice storage case.
With reference to Fig. 6 to Figure 14, first angular guide surfaces 321 is arranged to contiguous a plurality of fixed blades 480.Second angular guide surfaces 322 is arranged to contiguous opening/closing member 600.
Side in discharge portion 500 is provided with the discharge guiding wall 520 that is connected in first angular guide surfaces 321.Second angular guide surfaces is divided into two parts.This is in order to regulate the movement velocity of the ice cube that moves towards row ice member 400 along second angular guide surfaces 322, to go out in order to prevent ice cube.
Second angular guide surfaces 322 comprises: be connected in the outer incline guide surface 322b of the sidewall 313 of ice storage case 300, and be connected in outer incline guide surface 322b and be arranged to the interior angular guide surfaces 322a that adjacent row is iced member 400.
Interior angular guide surfaces 322a tilts to compare less angle with the angle of outer incline guide surface 322b.Therefore, the ice cube that moves down along outer incline guide surface 322b is decelerated at interior angular guide surfaces 322a place.Place, the end of angular guide surfaces 322a in second guide surface 612 of opening/closing member 600 is arranged on is so that constitute continuous surface with interior angular guide surfaces 322a.
When opening/closing member 600 was closed outlet 510, second guide surface 612 and interior angular guide surfaces 322a formed continuous surface in order to reduce the movement velocity of ice cube.
When opening/closing member 600 was opened outlet 510, second guide surface 612 moved down in order to ice cube is guided into outlet 510.The inclination terminal point 321a of first angular guide surfaces 321 is arranged on the position of the rotating shaft 420 of arranging ice member 400 and compares higher position.This is to move up once more at the fragment of the ice cube of the crushing of the position that fixed blade 480 is positioned in order to prevent.
For the fragment of the ice cube that prevents to crush stops, the curvature of discharging guiding wall 520 can be corresponding to the curvature of the rotational trajectory of rotating blade 410.
In addition, for ice cube being remained on the ice cube state, second angular guide surfaces 322 can tilt to compare less angle with the angle of first angular guide surfaces 321.
The interior angular guide surfaces 322a of second angular guide surfaces 322 can be to tilt with the roughly the same angle of the angle of second guide surface 612 of opening/closing member 600, so that form continuous surface.
The rotating part 605 of opening/closing member 600 is arranged on the low position of comparing with the position of rotating shaft 420 of arranging ice member 400, makes second angular guide surfaces 322 tilt to compare less angle with the angle of first angular guide surfaces 321.
The performance constraint portion 650 that is used to limit the open angle of opening/closing member 600 is arranged on the below of opening/closing member 600.
Opening/closing member 600 stops by touching contact site 653.
As mentioned above, a plurality of opening/closing members 600 can be set.In addition, opening/closing member 600 can have the maximum open angle that differs from one another respectively.
Figure 15 is the vertical view of ice storage case.
With reference to Figure 15, anti-sticking ice portion 330 is arranged on the inboard of the antetheca 311 of ice storage case 300.Anti-sticking ice portion 330 is outstanding or extend internally from the antetheca 311 of ice storage case 300.
Figure 16 is the longitudinal section of the refrigerating-chamber door of first embodiment, and Figure 17 is that the ice machine rotation among Figure 16 is so that ice from the view of the state of ice machine separation.
With reference to Figure 16 and Figure 17, under the state in Icemaker assembly 200 is arranged on icehouse 120, ice storage case 300 roughly is arranged on the below of ice machine 210 vertically.
Particularly, the inlet 301a of the opening 310 of ice storage case 300 is arranged on the low position of comparing with the position of ice machine 210.Thus, when icehouse door 130 was closed icehouse 120, ice storage case 300 was not arranged in the first area A between icehouse door 130 and the ice machine 210.That is, ice storage case 300 can be arranged in the second area except the first area between icehouse door 130 and ice machine 210 in the whole zone of icehouse 120.
This is because ice cube I separates from ice machine 210 because of its deadweight because ice machine 210 overturns by its rotary manipulation, thereby falls in the ice storage case 300, so ice storage case 300 need not to be arranged among the A of first area.That is, because from the ice cube I of ice machine 210 separation and without first area A, so the ice storage case need not to be arranged among the A of this first area.
Therefore, owing to ice storage case 300 is not arranged among the A of first area, so icehouse door 130 can be arranged to more contiguous ice machine 210.Can reduce the gross thickness of refrigerating-chamber door 11 thus.That is, refrigerating-chamber door 11 can be very slim.
The swingle 212 of ice machine 210 intersects with the rotating shaft 420 that is positioned at ice storage case 300 inside.This is because when the swingle 212 of ice machine 210 is parallel to the rotating shaft 420 that is positioned at ice storage case 300 inside and is provided with, the volume increase of icehouse 120.
A plurality of rotating blades 410 can be arranged on the direction parallel with the bearing of trend of rotating shaft 420 and be spaced apart from each other.A plurality of rotating blades 410 can be arranged in the scope of front and back width W of ice machine 210.
Therefore, when ice machine 210 rotation so that ice cube I when ice machine 210 separates, the part of the ice cube that separates from ice machine 210 is directly fallen at least one rotating blade a plurality of rotating blades 410.That is, the ice cube I that separates from ice machine 210 falls because of its deadweight, and among the ice cube I that falls at least one directs contact to few rotating blade 410.
At this moment, the falling direction of the ice cube I that separates from ice machine 210 intersects with the bearing of trend of rotating shaft 420.On the other hand, the falling direction of the ice cube I that separates from ice machine 210 is roughly parallel to the virtual surface that is limited when a plurality of rotating blades 410 rotate.
The horizontal range of 210 swingle 212 is greater than 510 the shortest horizontal range from icehouse door 130 to outlet from icehouse door 130 to ice machine.
Hereinafter, the motion process of the ice cube of Icemaker assembly place generation will be described in.
Figure 18 is the front view of trash ice from the state of ice storage case discharge, and Figure 19 is the front view of ice cube from the state of ice storage case discharge.
Describe the ice cube that to produce with reference to Figure 16 to Figure 18 and be discharged to process external.
For ice cube is separated from ice machine 210, when operation signal being input in the drive source 220, drive source 220 operations.The power of drive source 220 is delivered to ice machine 210 by transmission case 224, in order to integrally to rotate ice machine 210.
In this embodiment, the twist operation by ice machine 210 is separated ice cube.When ice machine 210 was carried out twist operation, an end and the other end of ice machine 210 reversed by their relative motion.Therefore, ice cube separates from ice machine 210.Because the principle of the twist operation of ice machine 210 is known, so omit its detailed description.
The ice cube that separates from ice machine 210 is fallen the ice storage case 300 by the inlet 301a of the opening 310 of ice storage case 300.
As mentioned above, may fall on a plurality of rotating blades 410 from a part of ice cube that ice machine 210 separates, and another part ice cube may be fallen on first angular guide surfaces 321, and a part of ice cube may be fallen on second angular guide surfaces 322.
In order to distribute the trash ice of crushing, when going up rotation, the crushing portion 418 of a plurality of rotating blades 410 is the crushing portion 488 of close fixed blade 480 gradually at first direction (counter clockwise direction when observing in Figure 18) when arranging ice member 400.
Therefore, the rotation of ice cube by rotating blade 410 that is arranged in the space 411 of a plurality of rotating blades 410 is positioned on the fixed blade 480.In this embodiment, the ice cube that is arranged in space 411 can be the ice cube of directly falling the ice cube on a plurality of rotating blades 410 or sliding along first angular guide surfaces 321.
In this state, when a plurality of rotating blades 410 rotated on first direction continuously, the ice cube that is stuck between the crushing portion 488 of the crushing portion 418 of rotating blade 410 and fixed blade 480 was crushed.The trash ice of crushing falls and is discharged to the outside to the direction of outlet 510.
In the process of discharging trash ice,, be discharged from so can prevent the ice cube that is positioned on second angular guide surfaces 322 because opening/closing member 600 remains on closed condition.
In the process of discharging ice cube, when row ice member 400 in second direction (clockwise direction when in Figure 18, observing) when going up rotation, the direction to opening/closing member 600 moves by the rotation of rotating blade 410 to be arranged in the ice cube in space 411 of a plurality of rotating blades 410.
The ice cube that is arranged in the space 411 of a plurality of rotating blades 410 can be the ice cube of directly falling the ice cube on a plurality of rotating blades 410 or sliding along second angular guide surfaces 322.
When a plurality of rotating blades 410 rotated on second direction continuously, the extension 413 of each rotating blade 410 promoted to be positioned at the ice cube on the opening/closing member 600.Thus, the pressure of rotating blade 410 is applied to opening/closing member 600 by ice cube.
Therefore, opening/closing member 600 is rotated down (counter clockwise direction when observing) by the pressure of ice cube and rotating blade 410 in Figure 19.Thus, restriceted envelope between the end of the end of the extension 413 of each rotating blade 410 and opening/closing member 600.Ice cube moves in this space then, and final ice cube is discharged to the outside.
When the rotation of row's ice member 400 stops, being removed owing to be applied to the pressure of opening/closing member 600, so make opening/closing member 600 return its initial position by the elastic force of elastic component 640.
The motion overview of the ice cube in the ice storage case 300 is as follows.When a plurality of rotating blades 410 rotated, the ice cube of falling on a plurality of rotating blades 410 moved down.
When a plurality of rotating blades 410 when first party rotates up, the ice cube of falling on first angular guide surfaces 321 moves in the space 411 because of its deadweight.When a plurality of rotating blades 410 rotated, the ice cubes in the space 411 moved down.
In addition, when a plurality of rotating blades 410 were in the second direction rotation, the ice cube of falling on second angular guide surfaces 322 moved in the space 411 because of its deadweight.When a plurality of rotating blades 410 rotated, the ice cubes in the space 411 moved down.
Basically, under the state that the operation of a plurality of rotating blades 410 stops, the ice cube that is positioned on each inclined- plane 321 and 322 does not move.
Thus, according to this embodiment, the ice cube of storage can be discharged to the outside by the rotary manipulation of a plurality of rotating blades 410, and does not need the extra delivery unit in the ice storage case 300.
In addition, the mutual motion between ice cube, the ice cube in the ice storage case 300 only moves to the bottom from top, and promptly the inlet 301a from ice storage case 300 moves to outlet 510.
When the opening of the ice mouth 253 of the outlet 510 of the inlet 301a of ice storage case 300 and ice storage case 300, first support 252, door courage 112, go out to ice the inlet 152 of pipe and export 154 when overlapping each other, form overlapping common region.Therefore, the motion path of ice cube is minimized.
Technical meaning according to this embodiment of above-mentioned structure will be described below.
As mentioned above, because the ice cube in the ice storage case moves to the bottom and moves it and fall by a plurality of rotating blades from top, so can reduce the thickness of ice storage case.
In this embodiment, the thickness of ice storage case means the thickness of ice storage case on the bearing of trend of rotating shaft.
According to the method that the ice storage case is separated with ice machine, can by ice storage case thickness reduce and icehouse in the position of ice storage case reduce the thickness of refrigerating-chamber door.
When the thickness of refrigerating-chamber door reduces, in refrigerating-chamber door, can be provided for additionally holding the basket of food.
In addition, when the thickness of refrigerating-chamber door reduces, because the volume of the part (that is, being inserted into the part in the refrigerating chamber) of refrigerating-chamber door reduces, so can increase the saturation of refrigerating chamber.
Figure 20 is the stereogram according to the refrigerator of second embodiment.
Except the position of the type of refrigerator and Icemaker assembly, this embodiment is identical with first embodiment.Therefore, the special part of this embodiment will only be described now.
With reference to Figure 20, the refrigerator 70 of this embodiment can be a side by side combination refrigerator, and wherein refrigerating chamber 712 and refrigerating chamber 714 are separately positioned on left side and right side.
Refrigerating chamber 712 opens and closes by refrigerating chamber door 720, and refrigerating chamber 714 opens and closes by refrigerating-chamber door 730.
In this embodiment, except the position of ice machine and ice storage case, Icemaker assembly has the structure identical with the Icemaker assembly of first embodiment.
According to this embodiment, because the improved structure of ice storage case, so can reduce the thickness of refrigerating chamber door.
Figure 21 is the stereogram according to the refrigerator of the 3rd embodiment.
Except the position of Icemaker assembly, this embodiment is identical with second embodiment.Therefore, the special part of this embodiment will only be described now.
With reference to Figure 21, the refrigerating chamber door 770 of this embodiment comprises a courage 772, and it limits icehouse 774.This icehouse 774 comprises Icemaker assembly 780.In this embodiment, Icemaker assembly 780 has the structure identical with the Icemaker assembly of first embodiment.According to this embodiment, because in the operation of the described ice machine of first embodiment and the improved structure of ice storage case, so can reduce the thickness of refrigerating chamber door.
Figure 22 is the stereogram according to the refrigerator of the 4th embodiment.
Except the position of Icemaker assembly, this embodiment is identical with first embodiment.Therefore, the special part of this embodiment will only be described now.
With reference to Figure 22, the refrigeration-type refrigerator will be described down as example.In one of them of refrigerating- chamber door 820 and 830, be provided with ice storage case 860.Other parts except ice storage case 860 (for example, ice machine 850) of Icemaker assembly are arranged in the refrigerating chamber 812.
Be provided with first and isolate shell 870 in refrigerating chamber 812, it is used for the space and the refrigerating chamber 812 that produce ice cube are isolated.Ice machine 850 is arranged on first isolates in the shell 870.First bottom surface that isolates shell 870 can be opened, and therefore makes the ice cube that produces in ice machine 850 to fall.
In addition, in refrigerating-chamber door, be provided with the second isolation shell 880 that is used to hold ice storage case 860.Second end face of isolating shell 880 can be opened in order to receive ice cube.When the refrigerating-chamber door closing cold room, second isolates the below that shell is positioned at the first isolation shell.
At this moment, isolate shell 870 and second one of them of isolating shell 880 can be provided with the sealing (not shown), in order to the space between the end face that is sealed in first bottom surface that isolates shell 870 and the second isolation shell 880 first.
According to this embodiment, because the improved structure of ice storage case, so can reduce the thickness of refrigerator doors.
According to the embodiment that is proposed, because the ice cube in the ice storage case moves to the bottom and move it and fall by a plurality of rotating blades from top, so can reduce the thickness of ice storage case.
In addition, according to the method that the ice storage case is separated with ice machine, thickness that can be by the ice storage case reduce and icehouse in the position of ice storage case reduce the thickness of refrigerating-chamber door.
When refrigerator doors becomes slim, in refrigerator doors, can be provided for additionally holding the basket of food.
In addition, when refrigerator doors becomes slim, because the volume of the part (that is, being inserted into the part in the storeroom) of refrigerator doors reduces, so can increase the saturation of storeroom.
Though described embodiment, should be appreciated that those skilled in the art can expect falling into interior multiple other remodeling and the embodiment of scope of spirit of the present disclosure and principle in conjunction with a plurality of illustrated embodiment.More specifically, parts in the scope of specification, accompanying drawing and claim and/or object can be made multiple variant and remodeling in conjunction with the various layouts of arranging.Except the variant and remodeling of parts and/or layout, substituting application also is conspicuous for those skilled in the art.
Claims (13)
1. refrigerator, it comprises:
Storeroom;
Open and close the refrigerator doors of described storeroom;
Be configured in order to produce the ice machine of ice cube;
Be arranged on the ice storage case at described refrigerator doors place, the below that described ice storage case is arranged on described ice machine has outlet in order to be contained in the ice cube and the described ice storage case that produce in the described ice machine, and described ice cube is discharged by described outlet;
Be arranged on the motor at described refrigerator doors place; And
Be positioned at least one rotating blade of described ice storage case, described at least one rotating blade operatively is connected in described motor,
Wherein, at least one ice cube that produces in described ice machine is directly fallen on described at least one rotating blade, and
At least one ice cube that described at least one rotating blade will be stored in by the operation of described motor in the described ice storage case moves to described outlet so that described at least one ice cube is discharged from described ice storage case.
2. refrigerator as claimed in claim 1 also comprises the drive source that makes described ice machine rotation,
Wherein, described ice cube separates from described ice machine by the rotary manipulation of described ice machine.
3. refrigerator as claimed in claim 1, wherein, when described at least one rotating blade was operated, at least one ice cube that is stored in the described ice storage case moved towards described at least one rotating blade downwards.
4. refrigerator as claimed in claim 1 also comprises the rotating shaft that is connected in described at least one rotating blade,
Wherein, when described at least one rotating blade was operated, the ice cube that is stored in the described ice storage case moved towards described at least one rotating blade on the direction that the bearing of trend with described rotating shaft intersects.
5. refrigerator as claimed in claim 1 also comprises the rotating shaft that is connected in described at least one rotating blade, and described rotating shaft is arranged in the described ice storage case in the horizontal direction,
Wherein, described at least one rotating blade is arranged on the top of described outlet.
6. refrigerator as claimed in claim 1, wherein, described ice storage case comprises:
Two sidewalls that face with each other; And
First angular guide surfaces and second angular guide surfaces, described first angular guide surfaces and second angular guide surfaces tilt towards described at least one rotating blade downwards from described two sidewalls respectively,
Wherein, described first angular guide surfaces and described second angular guide surfaces tilt with the angle that differs from one another.
7. refrigerator as claimed in claim 1 wherein, comprises in the described ice storage case that at least one has the fixed blade of fixed position, and
When described at least one rotating blade during in one direction towards described at least one fixed blade rotation, at least one ice cube is crushed, and when described at least one rotating blade on the other direction during towards described at least one fixed blade rotation, described ice cube is not crushed.
8. refrigerator as claimed in claim 1, wherein, the inlet of the opening of described ice storage case and described outlet have overlapping common region.
9. refrigerator as claimed in claim 1, wherein, the inlet of described ice storage case is lower than the bottom surface of described ice machine, and the ice cube that separates from described ice machine at first is introduced to the inlet of described ice storage case.
10. refrigerator as claimed in claim 1 also comprises:
Make the swingle of described ice machine rotation; And
Be connected in the rotating shaft of described at least one rotating blade,
Wherein, the bearing of trend of described swingle intersects with the bearing of trend of described rotating shaft.
11. refrigerator as claimed in claim 1, wherein, described refrigerator doors comprises:
Limit the door courage of icehouse; And
Open and close the icehouse door of described icehouse,
Wherein, described ice storage case and described ice machine are arranged in the described icehouse.
12. refrigerator as claimed in claim 11, wherein, described ice machine comprises swingle, and
Horizontal range from described icehouse door to described swingle is greater than the shortest horizontal range from described icehouse door to described outlet.
13. refrigerator as claimed in claim 11, wherein, when described icehouse door was closed described icehouse, described ice storage case was arranged in the second area except the first area between described icehouse door and described ice machine.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR10-2009-0129256 | 2009-12-22 | ||
KR1020090129256A KR101631322B1 (en) | 2009-12-22 | 2009-12-22 | Refrigerator |
Publications (2)
Publication Number | Publication Date |
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CN102102930A true CN102102930A (en) | 2011-06-22 |
CN102102930B CN102102930B (en) | 2014-05-28 |
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Application Number | Title | Priority Date | Filing Date |
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CN201010140606.7A Active CN102102930B (en) | 2009-12-22 | 2010-03-23 | Refrigerator |
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Country | Link |
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EP (8) | EP3293473B1 (en) |
KR (1) | KR101631322B1 (en) |
CN (1) | CN102102930B (en) |
DE (1) | DE202010018205U1 (en) |
ES (1) | ES2881507T3 (en) |
HU (1) | HUE054974T2 (en) |
PL (1) | PL3293474T3 (en) |
PT (1) | PT3293474T (en) |
SI (1) | SI3293474T1 (en) |
TR (1) | TR201903481T4 (en) |
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CN108759217A (en) * | 2018-05-21 | 2018-11-06 | 青岛海尔股份有限公司 | Deicing and refrigerator |
CN108759217B (en) * | 2018-05-21 | 2021-04-23 | 海尔智家股份有限公司 | Ice crushing device and refrigerator |
US11448446B2 (en) | 2018-05-21 | 2022-09-20 | Qingdao Haier Co., Ltd. | Ice crushing device and refrigerator |
US11448444B2 (en) | 2018-05-21 | 2022-09-20 | Qingdao Haier Co., Ltd. | Ice crushing device and refrigerator |
US11448442B2 (en) | 2018-05-21 | 2022-09-20 | Qingdao Haier Co., Ltd. | Ice crushing device and refrigerator |
US11448445B2 (en) | 2018-05-21 | 2022-09-20 | Qingdao Haier Co., Ltd. | Ice crushing device and refrigerator |
US11448443B2 (en) | 2018-05-21 | 2022-09-20 | Qingdao Haier Co., Ltd. | Ice crushing device and refrigerator |
CN108662821A (en) * | 2018-05-21 | 2018-10-16 | 青岛海尔股份有限公司 | Deicing and refrigerator |
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EP4177548A1 (en) | 2023-05-10 |
PL3293474T3 (en) | 2021-11-15 |
EP2339273A2 (en) | 2011-06-29 |
CN102102930B (en) | 2014-05-28 |
ES2881507T3 (en) | 2021-11-29 |
EP2339273A3 (en) | 2013-12-18 |
SI3293474T1 (en) | 2021-09-30 |
EP2339273B1 (en) | 2019-01-16 |
EP3296671A1 (en) | 2018-03-21 |
HUE054974T2 (en) | 2021-10-28 |
TR201903481T4 (en) | 2019-04-22 |
EP3293474B1 (en) | 2021-05-26 |
EP3293473A1 (en) | 2018-03-14 |
EP3296671B1 (en) | 2019-03-06 |
DE202010018205U1 (en) | 2014-09-12 |
EP2792975A1 (en) | 2014-10-22 |
EP3913304A1 (en) | 2021-11-24 |
KR20110072367A (en) | 2011-06-29 |
PT3293474T (en) | 2021-07-14 |
EP2792975B1 (en) | 2015-12-09 |
EP3293473B1 (en) | 2021-05-19 |
EP4043815A1 (en) | 2022-08-17 |
KR101631322B1 (en) | 2016-06-24 |
EP3293474A1 (en) | 2018-03-14 |
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