CN105157311A - Refrigerator - Google Patents

Abstract

The invention provides a refrigerator. The refrigerator comprises a refrigerator body, wherein a storage room can be defined in the refrigerator body; particularly, a plurality of mutually independent air supply ducts are also defined in the refrigerator body; the air supply ducts are configured to respectively convey airflows to a plurality of heights of the storage room; the plurality of air supply ducts comprise at least a first air supply duct and at least a bridging duct; each first air supply duct is configured to convey the airflow in the first air supply duct to one horizontal side of one height of the storage room; and each bridging duct is communicated to one first air supply duct and is configured to convey the airflow in the first air supply duct to the other horizontal side of the height, to which the first air supply duct conveys the airflow in the first air supply duct, of the storage room. The refrigerator has the beneficial effect that the cool air is uniformly distributed in each storage space or each height of the single storage room as far as possible via the bridging ducts in the refrigerator.

Description

Refrigerator

Technical field

The present invention relates to fridge-freezer, particularly relate to a kind of refrigerator.

Background technology

In recent years, along with the raising of people's living standard and the enhancing of environmental consciousness, the requirement of refrigerator be displaced from meeting the fresh keeping property of cryogenic refrigeration to food.So wind cooling refrigerator is progressively subject to the favor of people.For wind cooling refrigerator, the fresh keeping property of food depends on the temperature difference in wind cooling refrigerator storeroom in airflow circulating and case between various piece to a large extent.In case, airflow circulating is reasonable, and the temperature difference is less, then the fresh keeping property of refrigerator is better.Existing wind cooling refrigerator is by being arranged at a duct space at rear portion, room between refrigerator storing, and the multiple air outlets on duct space, cold airflow is transported to each position of room between storing, and cold air indoor between storing are evenly distributed as far as possible.But, between single storing, room generally can be divided into the storage space of multiple refinement by the shelving unit such as rack or drawer, according to the number of storing articles, cold required for each storage space is also different, therefore, cold wind does not add and controls ground and directly directly enter between storing indoor from multiple positions of room between storing, part storage space can be caused excessively cold, the problem of part storage space cold deficiency.

Summary of the invention

One object of the present invention is intended at least one defect overcoming existing wind cooling refrigerator, a kind of refrigerator of novelty is provided, it can make indoor multiple storage space or multiple At The Height between single storing receive cold airflow independently, receives corresponding cold airflow according to actual needs to make indoor multiple storage space or multiple At The Height between single storing.

A further object of the present invention to make the both lateral sides of indoor multiple storage space or multiple At The Height between single storing all can receive cold airflow, and each storage space of cold air room between single storing or each At The Height are evenly distributed as far as possible.

Another further object of the present invention to unify to regulate to the stream of cold wind and flow easily.

Another further object of the present invention is the compact conformation that will make dual system refrigerator.

In order to realize at least one object above-mentioned, the invention provides a kind of refrigerator, it comprises casing, can be limited with room between storing in casing.Especially, be also limited with in this casing:

Multiple separate supply air duct, be configured to respectively by multiple At The Heights of room between pneumatic convey to storing, and multiple supply air duct comprises at least one first supply air duct, each first supply air duct is configured to the horizontal side of an At The Height of room between pneumatic convey in it to storing; With

At least one bridge joint air channel, each bridge joint air channel is communicated to first supply air duct, and be configured to by room between the pneumatic convey in this first supply air duct to storing, the horizontal opposite side of At The Height that pneumatic convey in it arrives by this first supply air duct.

Alternatively, multiple supply air duct is in the perpendicular that between with storing, the rear surface of room is parallel.

Alternatively, multiple supply air duct also comprises the second supply air duct, is configured to the both lateral sides of an At The Height of room between the pneumatic convey in it to storing.

Alternatively, the second supply air duct by pneumatic convey in it to At The Height above the At The Height that the pneumatic convey in it arrives by each first supply air duct; And

First supply air duct is multiple, and part first supply air duct is positioned at the side of the second supply air duct, and all the other the first supply air ducts are positioned at the opposite side of the second supply air duct.

Alternatively, in casing, be also limited with total air channel, be configured to receive cold airflow and carry in multiple supply air duct.

Alternatively, this refrigerator also comprises: air-supply arrangement along separate routes, is configured to controllably regulate the air quantity in described multiple supply air duct.

Alternatively, air-supply arrangement comprises along separate routes: housing, and it has the air inlet be communicated with total air channel and the multiple air outlets be communicated with multiple supply air duct respectively; And regulating part, be configured to controllably cover completely each air outlet, partly cover or expose completely, to adjust multiple air outlet air-out area separately, thus regulate the air quantity in each supply air duct.

Alternatively, along separate routes air-supply arrangement also comprises: air supply device, is configured to impel air-flow to flow into housing and via the one or more outflow housings multiple air outlet from air inlet.

Alternatively, air supply device is centrifugal impeller, is arranged in housing.

Alternatively, housing comprises: pedestal, and its circumferential edge is made up of the first edge section and the second edge section, and the first edge section is circular arc; Perisporium, it has the first perisporium section and the second perisporium section of extending from the first edge section and the second edge section place to the side of pedestal respectively, and the first perisporium section is formed with multiple air outlet; And dispenser cap, be covered on one end away from pedestal of perisporium, it is formed with air inlet; And pedestal or dispenser cap are formed with air inlet;

Regulating part is rotatably installed on housing around the axis of the first perisporium section, and there is the spaced occlusion part of one or more circumferential direction along pedestal, to turn to different rotational position, one or more occlusion part is controllably being covered completely to each air outlet, is partly covering or expose completely.

Alternatively, this refrigerator also comprises cooler, is arranged in total air channel, to carry out heat exchange with the air-flow flowing through it.

Alternatively, room between another storing and the cold wind air channel to indoor air-supply between another storing is also limited with in casing; And refrigerator also comprises another cooler, be arranged in cold wind air channel, to make refrigerator for dual system refrigerator.

Alternatively, casing comprises: inner bag, limits room between storing in it; Ducting assembly, is installed on the rear wall of inner bag, is limited with the part in total air channel, multiple supply air duct, each bridge joint air channel, and is arranged at the distribution cavity between total air channel and multiple supply air duct in it; With

At least one bridge joint airduct, is installed in ducting assembly, and the inner passage of each bridge joint airduct is the remainder in a bridge joint air channel.

Because be limited with multiple supply air duct in casing in refrigerator of the present invention, air-flow can be transported to respectively the differing heights place of room between storing, to make indoor multiple storage space or multiple At The Height between single storing receive cold airflow independently, thus indoor multiple storage space or multiple position between single storing is made to receive corresponding cold airflow as required.

Further, owing to being also limited with bridge joint air channel in the casing of refrigerator of the present invention, the both lateral sides of indoor multiple storage space or multiple At The Height between single storing can be made all can to receive cold airflow, each storage space of cold air room between single storing or each At The Height are evenly distributed as far as possible.

Further, owing to having air-supply arrangement along separate routes in refrigerator of the present invention, air quantity in adjustable multiple supply air duct, thus can according to the refrigeration requirement of different storage space indoor between single storing or the refrigeration requirement at differing heights place, cold wind is reasonably distributed, strengthens fresh keeping property and the operational efficiency of refrigerator.

Further, because shunt air-supply arrangement has air supply device in refrigerator of the present invention, in total air channel, there is cooler, dual system refrigerator can be made to make full use of the air supply device of air-supply arrangement along separate routes, make the compact conformation of refrigerator.

According to hereafter by reference to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present invention more.

Accompanying drawing explanation

Hereinafter describe specific embodiments more of the present invention with reference to the accompanying drawings by way of example, and not by way of limitation in detail.Reference numeral identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not be drawn in proportion.In accompanying drawing:

Fig. 1 is the schematic diagram of refrigerator according to an embodiment of the invention;

Fig. 2 is the schematic, exploded of refrigerator according to an embodiment of the invention;

Fig. 3 is the schematic diagram of air-supply arrangement along separate routes in refrigerator according to an embodiment of the invention;

Fig. 4 is the schematic, exploded of air-supply arrangement along separate routes shown in Fig. 3;

Fig. 5 to Figure 12 illustrates that in the air-supply arrangement of shunt shown in Fig. 3, regulating part is in the schematic local structural graph of different rotational position respectively;

Figure 13 is the schematic local structural graph of air-supply arrangement along separate routes according to an embodiment of the invention;

Figure 14 is the schematic diagram of air-supply arrangement along separate routes in refrigerator according to an embodiment of the invention;

Figure 15 is the schematic local structural graph of refrigerator according to an embodiment of the invention;

Figure 16 is the schematic, exploded of the partial structurtes of refrigerator shown in Figure 15.

Detailed description of the invention

Fig. 1 is the schematic diagram of refrigerator according to an embodiment of the invention, and Fig. 2 is the schematic, exploded of refrigerator according to an embodiment of the invention.As depicted in figs. 1 and 2, embodiments provide a kind of refrigerator, it can comprise casing 500 and door body.Can be limited with room 510 between the storing for storing articles in casing 500, room 510 between this storing is opened or closed in the front side that door body can be used for room 510 between storing.Between this storing, room 510 also can be separated into multiple storage space by board putting things/rack 520.In embodiments of the present invention, multiple separate supply air duct 530 is also limited with in casing 500, multiple supply air duct 530 can be configured to respectively by multiple At The Heights of room 510 between pneumatic convey to storing, with multiple storage space in room 510 between this storing or multiple At The Height transporting cold-air stream.Further, when the cold of certain storage space or a certain At The Height is not enough in room 510 when between this storing, only can open the supply air duct 530 being sent to this At The Height, with to this At The Height transporting cold-air stream.

In embodiments of the present invention, at least part of supply air duct 530 can only to the horizontal side delivery air of a certain At The Height in room 510 between this storing, the reason producing this phenomenon is, if this supply air duct 530 can simultaneously to the both lateral sides delivery air of a certain At The Height in room 510 between storing time, this supply air duct 530 may intersect with other supply air duct 530 and be communicated with, make between multiple supply air duct 530 not separate, such as, in the perpendicular that multiple supply air duct 530 rear surface of being in room 510 between with storing is parallel.Therefore, in the present embodiment, inventor can only be called the first supply air duct 531 to the supply air duct 530 of horizontal side, room between storing 510 delivery air, that is, multiple supply air duct 530 comprises at least one first supply air duct 531, and each first supply air duct 531 is configured to the horizontal side of an At The Height of room 510 between pneumatic convey in it to storing.Because each first supply air duct 531 can only, by the horizontal side at the corresponding height place of room 510 between pneumatic convey to this storing, make the both sides of this At The Height of room 510 between storing catch a cold even not.In order to solve this kind of problem, inventors herein propose following technical scheme.

The refrigerator of the embodiment of the present invention also can comprise at least one bridge joint air channel 540, each bridge joint air channel 540 is communicated to first supply air duct 531, and be configured to by room 510 between the pneumatic convey in this first supply air duct 531 to storing, the horizontal opposite side of At The Height that pneumatic convey in it arrives by this first supply air duct 531.This refrigerator makes the air-flow of the first supply air duct 531 enter room 510 between this storing from the both lateral sides of room 510 between storing by bridge joint air channel 540 simultaneously, even as much as possible to make the both sides at corresponding height place, room 510 between storing catch a cold.

In addition, catch a cold as far as possible evenly to make the both sides at differing heights place, room 510 between storing, the quantity that inventor proposes towards the first supply air duct 531 of each At The Height is the technical scheme of two, be communicated to the both lateral sides of this At The Height respectively, but this kind is arranged relative to the scheme with bridge joint air channel 540, complex structure, and need to control two the first supply air ducts 531 towards this At The Height, control more complicated. simultaneouslyTherefore, bridge joint air channel 540 the makes both sides at differing heights place in room 510 between storing catch a cold as far as possible uniform scheme that what the present invention proposed utilize, the compact conformation of refrigerator can be made, control simple.

In some embodiments of the invention, also existing in multiple supply air duct 530 can simultaneously to the supply air duct 530 of the both lateral sides delivery air of refrigerator, be referred to as the second supply air duct 532, be configured to the both lateral sides of an At The Height of room 510 between the pneumatic convey in it to storing.Such as, as shown in Figure 1, the air inlet 21 of each supply air duct 530 is all lower than its air outlet 22.Second supply air duct 532 by pneumatic convey in it to At The Height above the At The Height that the pneumatic convey in it arrives by each first supply air duct 531, and the first supply air duct 531 is multiple, part first supply air duct 531 is positioned at the side of the second supply air duct 532, and all the other the first supply air ducts 531 are positioned at the opposite side of the second supply air duct 532.Such setting, when can make the second supply air duct 532 to the both lateral sides delivery air of room 510 between storing, all with other not there is the possibility of intersecting in arbitrary supply air duct 530 (i.e. each first supply air duct 531), like this, bridge joint air channel 540 can not be adopted directly to the both lateral sides delivery air of refrigerator, that is, the second supply air duct 532 can be configured to the both lateral sides of an At The Height of room 510 between the pneumatic convey in it to storing.

Further, in some embodiments, between the storing limited in casing 500, room 510 is refrigerating chamber.Between this storing, room 510 also can be separated into multiple storage space by board putting things/rack 520, and e.g., room 510 between this storing is divided into four storage spaces vertically arranged by three board putting things/racks 520.The quantity of the first supply air duct 531 can be two, and a side being arranged on the second supply air duct 532, another is arranged on the opposite side of the second supply air duct 532.Second supply air duct 532 can to delivery air in uppermost storage space, the first supply air duct 531 being positioned at the second supply air duct 532 side can be top to centre storage space delivery air, be positioned at the second supply air duct 532 opposite side the first supply air duct 531 can to centre storage space delivery air on the lower.Nethermost storage space can utilize the cold air in three storage spaces above.In Fig. 1, arrow can represent the flow direction of air-flow, now, air-flow all can be had in three supply air ducts 530 to flow through.

In embodiments of the present invention, between storing, an At The Height of room 510 can refer to one highly in interval.Such as, the second supply air duct 532 can have four air outlets, is symmetrical arranged about the vertical central plane of room 510 between this storing.Each first supply air duct 531 has an air outlet, lay respectively at the horizontal side at the corresponding height place of room 510 between storing, the air outlet in each bridge joint air channel 540 is positioned at the horizontal opposite side of corresponding At The Height, and the air outlet in each first supply air duct 531 and corresponding bridge joint air channel 540 can be symmetrical arranged about the vertical central plane of room 510 between this storing.

In some embodiments of the invention, in casing 500, be also limited with total air channel 550, be configured to receive cold airflow and carry in multiple supply air duct 530.Such as, also can be limited with distribution cavity 560 in casing 500, total air channel 550 can be communicated with multiple supply air duct 530 via distribution cavity 560.

For the ease of controlling the air quantity/break-make of each supply air duct 530, refrigerator also can comprise air-supply arrangement 600 along separate routes further, can be installed in distribution cavity 560, be configured to controllably regulate the air quantity in multiple supply air duct 530.When making the air quantity in a certain supply air duct 530 be 0, can be regarded as this supply air duct and being in off-state.Such as, in certain embodiments of the present invention, air-supply arrangement 600 can comprise the by-pass valve control be arranged in each supply air duct 530, to control each supply air duct 530 respectively along separate routes.

Fig. 3 is the schematic diagram of air-supply arrangement along separate routes in refrigerator according to an embodiment of the invention, and Fig. 4 is the schematic, exploded of air-supply arrangement along separate routes shown in Fig. 3.As shown in Figure 3 and Figure 4, in some embodiments of the invention, air-supply arrangement 600 can comprise housing 20 and regulating part 30 along separate routes.Housing 20 can have the air inlet 21 be communicated with total air channel 550 and the multiple air outlets 22 be communicated with multiple supply air duct 530 respectively.Regulating part 30 is configured to controllably cover completely each air outlet 22, partly cover or expose completely, to adjust the respective air-out area of multiple air outlet 22.The cold wind flowed into from the air inlet 21 on housing 20 controllably can be dispensed to multiple air outlet 22 and can realize controlling the opening and closing of the supply air duct 530 be communicated with each air outlet 22 and/or regulate the air quantity in each supply air duct 530 by the regulating part 30 in the shunt air-supply arrangement 600 in the embodiment of the present invention, and then carry out the refrigeration requirement at differing heights place of room 510 between a satisfied storing, or the refrigeration requirement of storage spaces different in room 510 between a storing.In substituting embodiments more of the present invention, air-supply arrangement 600 can not comprise housing 20 along separate routes, make distribution cavity 560 as the housing 20 of shunt air-supply arrangement 600, regulating part 30 is directly installed in distribution cavity 560, and in different rotational position, directly the air inlet of each supply air duct 530 can be covered completely, partly cover or expose completely.

In some embodiments of the invention, distribution cavity 560 can be cylindrically.Housing 20 can comprise pedestal 23, perisporium 24 and dispenser cap 25.The circumferential edge of pedestal 23 is made up of the first edge section and the second edge section, and the first edge section and the second edge section can be the circular arc of logical radius with one heart.Perisporium 24 has in the first perisporium section 241 and the second perisporium section 242, first perisporium section 241 of extending from the first edge section and the second edge section place to the side of pedestal 23 respectively and is formed with multiple air outlet 22.Dispenser cap 25 can be covered on one end away from pedestal 23 of perisporium 24.Particularly, dispenser cap 25 is connected in multiple protruding 27 on perisporium 24 outer surface by multiple snap-arms 26.Total in some embodiments of the present invention, pedestal 23 or dispenser cap 25 are formed with air inlet 21.In substituting embodiments more of the present invention, air inlet 21 also can be arranged in the second perisporium section 242.In other substituting embodiments of the present invention, housing 20 can not comprise dispenser cap 25, the open-ended air inlet 21 that can be housing 20 of perisporium 24.

In certain embodiments of the present invention, the first perisporium section 241 can be a complete circular arc perisporium section, and it offers multiple air outlet 22, each air outlet 22 all can have a mouthful edge.In other embodiments, the first perisporium section 241 can comprise at least 3 circular arc perisporium section portions, and the interval between two circular arc perisporium section portions.Interval between every two circular arc perisporium section portions is exactly an air outlet 22.Adding man-hour, can only make each circular arc perisporium section portion extend to the side of pedestal 23 from multiple positions at the edge of pedestal 23.

In embodiments of the present invention, regulating part 30 is rotatably installed on housing 20 around the axis of the first perisporium section 241, and there is the spaced occlusion part 32 of one or more circumferential direction along pedestal 23, to turn to different rotational position, one or more occlusion part 32 is controllably being covered completely to each air outlet 22, is partly covering or expose completely.

Such as, each occlusion part 32 can be arc shutter, to cover each air outlet 22 or to expose.In some embodiments of the invention, when regulating part 30 rotates around the axis of the first perisporium section 241, the outer surface of arc shutter can be attached to the inner surface of the first perisporium section 241 by sealing paste all the time, and such arc shutter controllably can open or close one or more air outlet 22 in different rotational position.

In some further embodiments of the present invention, regulating part 30 also comprises at least one throughput 33, occlusion part 32 and throughput 33 set gradually along the circumferential direction of pedestal 23, and one or more occlusion part 32 surrounds a tubular structure with at least one throughput 33, and each throughput 33 offers one or more opening 333.Regulating part 30 is also configured to when it turns to different rotational position, and air-flow is entered by the air outlet 22 partly covered or expose completely via the opening 333 at least one throughput 33.

Particularly, in some embodiments, the quantity of air outlet 22 is three, and the circumferential direction along pedestal 23 is arranged at interval successively.These three air outlets 22 comprise the first air outlet 221, second air outlet 222 and the 3rd air outlet 223, along pedestal 23 circumferential direction and can in the counterclockwise direction successively interval arrange.The quantity of occlusion part 32 and throughput 33 is two.Two occlusion parts 32 comprise the first occlusion part 321 and the second occlusion part 322.Two throughput 33 comprise the first throughput 331 and the second throughput 332, along pedestal 23 circumferential direction and can in the counterclockwise direction successively interval arrange.First occlusion part 321 is configured to allow it to cover an air outlet 22 completely.Second occlusion part 322 is configured to allow it to cover two air outlets 22 at least completely, as the second occlusion part 322 can cover three air outlets 22 at least completely.First throughput 331 offers an opening 333, second throughput 332 offers circumferential direction spaced three openings 333 successively along pedestal 23, each opening 333 is configured to allow it to expose an air outlet 22 completely, and three openings 333 in the second throughput 332 are configured to allow it to expose three air outlets 22 completely.

Fig. 5 to Figure 12 illustrates that in the air-supply arrangement of shunt shown in Fig. 3, regulating part is in the schematic local structural graph of different rotational position respectively.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in Figure 5 position time, three openings 333 in the second throughput 332 can make the first air outlet 221, second air outlet 222 and the 3rd air outlet 223 all be in open mode.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in Figure 6 position time, the opening 333 that second occlusion part 322 can cover in the second air outlet 222 and the 3rd air outlet 223, second throughput 332 completely can make the first air outlet 221 be in complete exposed state.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in Figure 7 position time, first occlusion part 321 can cover the 3rd air outlet 223 completely, the opening 333 that second occlusion part 322 can cover in the first air outlet 221, first throughput 331 completely can make the second air outlet 222 be in complete exposed state.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in Figure 8 position time, the opening 333 that second occlusion part 322 covers in the first air outlet 221 and the second air outlet 222, first throughput 331 completely can make the 3rd air outlet 223 be in complete exposed state.

When the first occlusion part 321 and the second occlusion part 322 turn to as shown in Figure 9 position time, second occlusion part 322, two openings 333 that can cover completely in the 3rd air outlet 223, second throughput 332 can make the first air outlet 221 and the second air outlet 222 be in complete exposed state.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in Figure 10 position time, first occlusion part 321, two openings 333 that can only cover completely in the first air outlet 221, second throughput 332 can make the second air outlet 222 and the 3rd air outlet 223 be in complete exposed state.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in figure 11 position time, first occlusion part 321 can cover the second air outlet 222 completely, opening 333 in first throughput 331 can make to make the first air outlet 221 be in complete exposed state, and an opening 333 in the second throughput 332 can make the 3rd air outlet 223 be in complete exposed state.When the first occlusion part 321 and the second occlusion part 322 turn to as shown in figure 12 position time, the second occlusion part 322 can cover the first air outlet 221, second air outlet 222 and the 3rd air outlet 223 completely.Certainly, the first occlusion part 321 and the second occlusion part 322 also can be turned to other rotational position, to regulate wind path and air quantity.

In other embodiments of the present invention, regulating part 30 has occlusion part 32, does not have throughput 33.As shown in figure 13, when only having one occlusion part 32, the both sides of occlusion part 32 all allow air-flow to pass through.When regulating part 30 has multiple occlusion part 32, the interval between every two adjacent occlusion parts 32 all can allow air-flow to pass through.

Particularly, in some embodiments, the quantity of air outlet 22 is three, and the circumferential direction along pedestal 23 is arranged at interval successively.These three air outlets 22 comprise the first air outlet 221, second air outlet 222 and the 3rd air outlet 223, along pedestal 23 circumferential direction and can in the counterclockwise direction successively interval arrange.The quantity of occlusion part 32 is two.Two occlusion parts 32 are respectively the first occlusion part 321 and the second occlusion part 322, can along the circumferential direction of pedestal 23 and can in the counterclockwise direction successively interval arrange.First occlusion part 321 can be configured to allow it to cover an air outlet 22 completely.Second occlusion part 322 can be configured to allow it to cover two air outlets 22 completely.Interval between first occlusion part 321 and the second occlusion part 322 can be configured to allow it to expose an air outlet 22 completely.When the first occlusion part 321 and the second occlusion part 322 all do not cover air outlet 22, the first air outlet 221, second air outlet 222 and the 3rd air outlet 223 are all in open mode.When the second occlusion part 322 covers the second air outlet 222 and the 3rd air outlet 223 completely, the interval between two occlusion parts 32 can make the first air outlet 221 be in complete exposed state.When the first occlusion part 321 can cover the first air outlet 221 completely, the interval that the second occlusion part 322 can cover between the 3rd air outlet 223, two occlusion parts 32 completely can make the second air outlet 222 be in complete exposed state.When the second occlusion part 322 can cover the first air outlet 221 and the second air outlet 222 completely, the 3rd air outlet 223 can be made to be in complete exposed state.When the first occlusion part 321 can cover the 3rd air outlet 223 completely, the first air outlet 221 and the second air outlet 222 are in complete exposed state.When the second occlusion part 322 only can cover the first air outlet 221 completely, the second air outlet 222 and the 3rd air outlet 223 are in complete exposed state.When the first occlusion part 321 can cover the second air outlet 222 completely, the first air outlet 221 is in complete exposed state, and the interval between two occlusion parts 32 can make the 3rd air outlet 223 be in complete exposed state.

In some embodiments of the invention, for the ease of the rotation of regulating part 30, solve greatly by making the distance between each occlusion part 32 and the first perisporium section 241 become slightly, but the distance between occlusion part 32 and the first perisporium section 241 is when increasing, air quantity can be made to leak out, thus fully effective covering can not be played, air-flow flows to another air outlet 22 by the gap between the first perisporium section 241 and occlusion part 32 from an air outlet 22.Therefore, the shunt air-supply arrangement 600 in the embodiment of the present invention also can comprise sealing device, and it is configured to hinder air-flow to flow to each air outlet 22 through the gap between the outer surface and the inner surface of the first perisporium section 241 of each occlusion part 32 at least in part.Particularly, sealing device can comprise at least two sealing gaskets 34, and each sealing gasket 34 extends along the direction of the rotation being parallel to regulating part 30.The two ends along its rotation direction of the arc-shaped outer surface of each occlusion part 32 all have a sealing gasket 34.When regulating part 30 comprises occlusion part 32 and throughput 33, sealing device also can comprise remaining sealing gasket 34, can be arranged between every two the adjacent openings 333 in each throughput 33.

In some embodiments of the invention, regulating part 30 also can comprise the coaxial rotating disk portion 31 arranged with the first perisporium section 241, and each occlusion part 32 and throughput 33 are extended from a surface in rotating disk portion 31.Rotating disk portion 31 can discoid or loop shaped, and full circular structure can make the motion of regulating part 30 more steady.Further, air-supply arrangement 600 also can comprise motor 40 and transmission mechanism 50 along separate routes.Motor 40 can be arranged on the radial outside in rotating disk portion 31.Transmission mechanism 50 is preferably gear drive, can comprise gear 51 and the gear ring 52 with gears meshing.Gear 51 can be installed on the output shaft of motor 40.Gear ring 52 can be one-body molded or self-existent and be fixed on rotating disk portion 31 with rotating disk portion 31.Further, in some embodiments, the inner surface of pedestal 23 is formed with annular recess 231, and gear ring is installed in annular recess, can make regulating part 30 stable movement.Preferably, rotating disk portion 31 can be loop shaped; And annular recess can be step groove, also for holding rotating disk portion 31, the robust motion of regulating part 30 can be ensured further.In other embodiments, as shown in figure 14, rotating disk portion 31, in loop shaped, can be installed on one end away from pedestal 23 of perisporium 24.In order to protect motor, housing 20 also comprises motor accommodation section 29, comprises body 291 and cap 292, is arranged at the outer surface of the first perisporium section 241 and/or the second perisporium section 242, is limited with the container cavity being installed in gear 51 and motor in it.

In some embodiments of the invention, along separate routes air-supply arrangement 600 also can comprise air supply device 60, is configured to impel air-flow to flow into housing 20 and via the one or more outflow housings 20 multiple air outlet 22, to improve the efficiency of air-supply from air inlet 21.Further, in some embodiments, air supply device 60 can be centrifugal impeller, is arranged in housing 20; In some substituting embodiments, air supply device 60 also can be axial flow blower, axial flow air duct or centrifugal blower, is arranged on air inlet 21 place of housing 20.Obviously, air supply device 60 is centrifugal impeller, and is positioned at housing 20, and the compact conformation of air-supply arrangement 600 along separate routes, volume can be made little.In this embodiment, the air inlet 21 of housing 20 can be arranged on dispenser cap 25, as shown in Figure 3; Also can be arranged on pedestal 23, as shown in Figure 2.

As shown in Figure 3 and Figure 4, the centrifugation blade of air-supply arrangement 600 can be installed on pedestal 23 along separate routes, and the inner surface of pedestal 23 can offer mounting groove 28, and centrifugation blade is installed in mounting groove 28.In some embodiments of the invention, as shown in figure 14, the pedestal 23 of shunt air-supply arrangement 600 offers through hole, all there is opening to make the axial two ends of housing 20, one can be used as air inlet 21, another after centrifugation blade is installed on casing 500, can be set in centrifugation blade, stretches in housing 20 to make centrifugation blade.

This air supply device 60 also can make shunt air-supply arrangement 600 independent air intake in refrigerator of the present invention, makes this shunt air-supply arrangement 600 be specially adapted to double system or multi-system refrigerator.Particularly, as shown in Figure 2, the refrigerator in this embodiment also can comprise cooler 700, is arranged in total air channel 550, to carry out heat exchange with the air-flow flowing through it.Further, in certain embodiments, room between another storing and the cold wind air channel to air-supply in room 510 between another storing is also limited with in casing 500.And refrigerator also comprises another cooler, be arranged in cold wind air channel, to make refrigerator for dual system refrigerator.Between storing, between room 510 and another storing, refrigerating chamber and refrigerating chamber can be distinguished in room.

In some embodiments of the invention, the casing 500 of refrigerator can comprise inner bag, ducting assembly 800 and at least one bridge joint airduct 900.Room 510 between storing can be limited in inner bag.Ducting assembly 800 can be installed on the rear wall of inner bag, is limited with the part in total air channel 550, multiple supply air duct 530, each bridge joint air channel 540, and is arranged at the distribution cavity 560 between total air channel 550 and multiple supply air duct 530 in it.Each bridge joint airduct 900 is installed in ducting assembly 800, and the inner passage of each bridge joint airduct 900 is the remainder in a bridge joint air channel 540.

Figure 15 is the schematic local structural graph of refrigerator according to an embodiment of the invention, and Figure 16 is the schematic, exploded of the partial structurtes of refrigerator shown in Figure 15.As shown in Figure 15 and Figure 16, this ducting assembly 800 can comprise air channel base plate 810, air channel base plate 810 can be formed with air intake duct 811, distributing trough 814 and multiple separate air-supply groove, and bridge joint air channel groove 815, with individually or be combined the part forming total air channel 550, distribution cavity 560, multiple supply air duct 530 and each bridge joint air channel 540 with other parts.Multiple air-supply groove stretches out from distributing trough 814, and extend to air channel base plate 810 respectively, in multiple sections of arranging along the length direction of air channel base plate 810, with multiple At The Height delivery airs of room 510 between storing.When offering multiple separate air-supply groove on air channel base plate 810, obviously, at least part of air-supply groove can only side delivery air to air channel base plate 810 along its width, can only the supply air duct 530 that formed of the air-supply groove of side delivery air to air channel base plate 810 along its width be the first supply air duct 531, this air-supply groove be called as the first air-supply groove 812.Also existing in multiple air-supply groove can the air-supply groove of both sides delivery air simultaneously to air channel base plate 810 along its width, and the supply air duct 530 that this air-supply groove is formed is the second supply air duct 532, and this air-supply groove is called as the second air-supply groove 813.

Further, each first air-supply groove 812 penetrate air channel base plate 810, along the length direction of air channel base plate 810 extends and near the end face of this first air-supply groove 812, to make air-flow in this first air-supply groove 812 from this end face outflow air channel base plate 810.Also can be understood as, the end of each first air-supply groove 812 can be positioned on this end face of air channel base plate 810.Further, the opposite side along air channel base plate 810 width of end place section of each first air-supply groove 812 offers bridge joint air channel groove 815, each bridge joint air channel groove 815 penetrate air channel base plate 810, along the length direction of air channel base plate 810 extends and the end face of this bridge joint air channel groove 815 close.Each first air-supply groove 812 is communicated with the bridge joint air channel groove 815 on its end place section via a bridge joint airduct 900.Preferably, the central divisional plane that the end section of each first air-supply groove 812 can extend with at least part of length direction along air channel base plate 810 about air channel base plate 810 of this first bridge joint air channel groove 815 of blowing on the end place section of groove 812 is symmetrical arranged.In alternate embodiment more of the present invention, also can offer at the end of each first air-supply groove 812 air outlet hole running through air channel base plate 810, flow out air channel base plate 810 to make air-flow from air outlet hole.Accordingly, air channel base plate 810 also offers the air outlet hole (also can be regarded as bridge joint air channel groove 815) flowing out air channel base plate 810 for the air-flow in bridge joint airduct 900.

In embodiments of the present invention, each bridge joint airduct 900 is installed on the surface offering distributing trough 814 and multiple air-supply groove of air channel base plate 810.In some embodiments, this of air channel base plate 810 can be provided with the mounting groove that the width along air channel base plate 810 extends on the surface, bridge joint airduct 900 can be installed in mounting groove, and the degree of depth of mounting groove can be 1/3 of the degree of depth of air-supply groove, blocks the second air-supply groove 813 etc. to prevent bridge joint airduct 900.Further, the ducting assembly 800 in the embodiment of the present invention also comprises air duct cover board 820, is installed on the surface offering distributing trough 814 and multiple air-supply groove of air channel base plate 810, with the multiple air-supply groove of capping.In embodiments of the present invention, air-supply arrangement 600 can be installed in distributing trough 814 along separate routes.The centrifugation blade of air-supply arrangement 600 can be installed in the groove bottom wall of distributing trough 814 along separate routes, the pedestal 23 of shunt air-supply arrangement 600 offers through hole, all there is opening to make the axial two ends of housing 20, one can be used as air inlet 21, another can after centrifugation blade be installed on distributing trough 814, be set in centrifugation blade, stretch in housing 20 to make centrifugation blade.

So far, those skilled in the art will recognize that, although multiple exemplary embodiment of the present invention is illustrate and described herein detailed, but, without departing from the spirit and scope of the present invention, still can directly determine or derive other modification many or amendment of meeting the principle of the invention according to content disclosed by the invention.Therefore, scope of the present invention should be understood and regard as and cover all these other modification or amendments.

Claims (13)

1. a refrigerator, comprises casing, is limited with room between storing, it is characterized in that in it, is also limited with in described casing:

Multiple separate supply air duct, be configured to respectively by multiple At The Heights of room between pneumatic convey to described storing, and described multiple supply air duct comprises at least one first supply air duct, each described first supply air duct is configured to the horizontal side of an At The Height of room between pneumatic convey in it to described storing; With

At least one bridge joint air channel, each described bridge joint air channel is communicated to described first supply air duct, and be configured to by room between the pneumatic convey in this first supply air duct to described storing, the horizontal opposite side of At The Height that pneumatic convey in it arrives by this first supply air duct.

2. refrigerator according to claim 1, is characterized in that,

In the perpendicular that the rear surface that multiple described supply air duct is in room between with described storing is parallel.

3. refrigerator according to claim 1, is characterized in that,

Described multiple supply air duct also comprises the second supply air duct, is configured to the both lateral sides of an At The Height of room between the pneumatic convey in it to described storing.

4. refrigerator according to claim 3, is characterized in that,

Described second supply air duct by pneumatic convey in it to At The Height above the At The Height that the pneumatic convey in it arrives by each described first supply air duct; And

Described first supply air duct is multiple, and described first supply air duct of part is positioned at the side of described second supply air duct, and the first supply air duct described in all the other is positioned at the opposite side of described second supply air duct.

5. refrigerator according to claim 1, is characterized in that,

Also be limited with total air channel in described casing, be configured to receive cold airflow and carry in multiple described supply air duct.

6. refrigerator according to claim 5, is characterized in that, also comprises:

Air-supply arrangement, is configured to controllably regulate the air quantity in described multiple supply air duct along separate routes.

7. refrigerator according to claim 6, is characterized in that, described shunt air-supply arrangement comprises:

Housing, it has the air inlet be communicated with described total air channel and the multiple air outlets be communicated with multiple described supply air duct respectively; With

Regulating part, is configured to controllably cover completely each described air outlet, partly cover or expose completely, to adjust described multiple air outlet air-out area separately.

8. refrigerator according to claim 7, is characterized in that, described shunt air-supply arrangement also comprises:

Air supply device, is configured to impel air-flow to flow into described housing and via the described housing of one or more outflows described multiple air outlet from described air inlet.

9. refrigerator according to claim 8, is characterized in that,

Described air supply device is centrifugal impeller, is arranged in described housing.

10. refrigerator according to claim 7, is characterized in that,

Described housing comprises:

Pedestal, its circumferential edge is made up of the first edge section and the second edge section, and described first edge section is circular arc;

Perisporium, it has the first perisporium section and the second perisporium section of extending from described first edge section and described second edge section place to the side of described pedestal respectively, and described first perisporium section is formed with described multiple air outlet; With

Dispenser cap, is covered on one end away from described pedestal of described perisporium; And

Described pedestal or described dispenser cap are formed with described air inlet;

Described regulating part is rotatably installed on described housing around the axis of described first perisporium section, and there is the spaced occlusion part of one or more circumferential direction along described pedestal, to turn to different rotational position, described one or more occlusion part is controllably being covered completely to each described air outlet, is partly covering or expose completely.

11. refrigerators according to claim 5, is characterized in that, also comprise:

Cooler, is arranged in described total air channel, to carry out heat exchange with the air-flow flowing through it.

12. refrigerators according to claim 11, is characterized in that,

Room between another storing and the cold wind air channel to indoor air-supply between another storing described is also limited with in described casing; And

Described refrigerator also comprises another cooler, is arranged in described cold wind air channel.

13. refrigerators according to claim 5, is characterized in that, described casing comprises:

Inner bag, limits room between described storing in it;

Ducting assembly, is installed on the rear wall of described inner bag, is limited with the part in described total air channel, described multiple supply air duct, each described bridge joint air channel, and is arranged at the distribution cavity between described total air channel and described multiple supply air duct in it; With

At least one bridge joint airduct, is installed in described ducting assembly, and the inner passage of each described bridge joint airduct is the remainder in a described bridge joint air channel.