CN103620326B - Combination refrigerating appliance - Google Patents

Abstract

Refrigerating appliance, especially Domestic refrigerator, has two and is designed for the storage chamber of different running temperatures and is arranged on the evaporimeter in the partition wall between described storage chamber. The side of giving vent to anger of described evaporimeter is connected with colder storage chamber and the air inlet side of evaporimeter is connected with hotter storage chamber. Described air inlet side and described colder storage chamber are separated, and the edge gauge of described partition wall connects the gap of two storage chambers.

Description

Combination refrigerating appliance

The present invention relates to a kind of refrigerating appliance, especially Domestic refrigerator, there is top with bottomStorage chamber and be arranged in the partition wall between storage chamber, make two evaporimeters that storage chamber is cooling.

In this class refrigerating appliance known by DE1501260A, be arranged on the evaporation in partition wallThe air inlet of device chamber is formed on the leading edge of evaporator room, and gas outlet is formed in edge behindOn. Such refrigerating appliance easily forms strong thermal stratification, especially in the storage chamber on top,Because be blown to cold air the storage chamber on top and easily rest on the lower region of storage chamber from evaporator roomIn territory, thereby cold air is inhaled into again immediately.

By the known a kind of refrigerating appliance of US5787725A. At this, via the air circulation of evaporimeterDrive by the ventilator being arranged in the rear upper angle of freezer, this ventilator by air from freezerExtract out and be arranged in the evaporimeter in the partition wall below freezer by force feed process. Pass through partition wallLeading edge on outflow opening, cooling air turns back in freezer. In order to make to be arranged in pointThe refrigeration lattice of below, next door are cooling, be additionally provided with and lead to refrigeration lattice energy in the back wall of freezerEnough passages of being renovated sealing. Open if renovated, the air of being extracted out from freezer by ventilatorA part flow in refrigeration lattice by this passage, on the contrary, enters into point from the air of refrigeration latticeThe sky being drawn out of in this passageway and from freezer in the passageway in next door and before by evaporimeterGas mixes. For the air in complete exchange refrigeration lattice, because this mixed ventilation device must tumble ratioBe equivalent to refrigerate the much bigger air capacity of volume of lattice, thus the stronger ventilator of required power. Due toAir from refrigeration lattice and freezer thoroughly mixes in the air inlet side of evaporimeter, on evaporator inletEven temperature when air be also low through refrigeration lattice circulation time, and the temperature of cold-producing medium is in refrigerationIt is correspondingly low when evaporimeter is left in agent. The not only system on necessary high power but also the evaporimeter of ventilatorThe low outflow temperature of cryogen is all damaged the efficiency of utensil.

Task of the present invention is to improve the efficiency of refrigerating appliance.

This task is solved, and its mode is that described air inlet side and described colder storage chamber are separatedAnd connect the gap of two storage chambers in the edge of described partition wall upper control limit. By evaporator room byThis only can and release air into colder chamber from hotter chamber admission of air, guarantees evaporimeterOn strong thermograde, thereby the cold-producing medium in evaporimeter can reach relatively high temperature. CauseFor the air circulating can not get around hotter chamber, by few air mass flow sufficient to guarantee of evaporimeterAlso make hotter storage chamber fully cooling.

Temperature in chamber hotter in the time that hotter chamber is arranged in the top of colder chamber is dividedLayer, the air inlet side of evaporimeter should be connected with suction channel, and this suction channel is upper hotter storage chamberPortion has air inlet in region.

In order to use as far as possible equably evaporimeter, suction channel on the whole cross-sectional area of evaporimeterAt least should in the region of bottom, there is the width identical with evaporimeter.

Radial ventilation device can be saved the side of giving vent to anger that is arranged in spatially evaporimeter on the height of partition wallAnd described refrigerating appliance and the opposed outer wall of this side of giving vent to anger between. By ventilator being arranged on pointOn the height in next door, the available depth of not losing or losing on a small scale storage chamber at most.

The axis of radial ventilation device preferably with outer wall vertical so that aspirate from midfeather in the axial directionAir and the distribution that air is parallel to outer wall blows to, for example extends along the wall of colder chamber are logicalIn road.

Preferably, described distribution passage and described suction channel are arranged in the identical of described refrigerating applianceOn outer wall. Hair clip shape air path preferably extends in described partition wall, wherein, and air pathBe engaged on upstream branch on suction channel from the edge in the face of described outer wall of partition wall to opposedEdge extends and the branch in downstream extends to distribution passage in the opposite direction. Described air pathPreferably at least substantially on the width of described partition wall, extend.

Partition wall with the opposed edge of said outer wall also can be in joint space-efficient mode as gaugeThe edge in described gap.

Preferably, between the branch in described downstream and the branch of described upstream, be provided with one heat insulation inPartition, this midfeather have be arranged on described partition wall in the face of in the side in described gap, for connectingThe blow vent of Jie Liangge branch.

In order to improve the bearing capacity of midfeather, the branch that does not comprise evaporimeter in Liang Ge branch is passableReinforce by muscle. These muscle preferably extend in the vertical, not damage the air circulation in this branch.

Evaporimeter is preferably mounted in the branch of bottom. To this reason can be, when stopping in ventilatorIn situation only, there is no air circulation time in partition wall, the upstream branch of air path makes evaporimeter phaseFor the hotter storage chamber isolation in top.

Preferably between the branch in downstream and colder chamber, heat insulation partition wall is set.

In addition, especially in the time that evaporimeter is arranged in the branch of bottom, can save space-efficient is to make bagBranch containing evaporimeter is downward-sloping towards outer wall, thereby the dew flowing down from evaporimeter can be drawn towardsOuter wall and discharging by this outer wall.

If the branch that comprises evaporimeter is downward-sloping as described, can be at the back of the body of evaporimeterSave and arrange spatially the photograph for the bottom storage chamber of two storage chambers from the below in the region of outer wallBright device.

If ventilator is arranged on the height of described partition wall, also meet object, described branchIn one go to disperse on vertical curve towards outer wall, with realize flow advantageously to ventilator transition.

Evaporimeter can extend substantially on the entire depth of partition wall, but should have little structureHighly, to optionally do not limit the volume of storage chamber. Therefore, the refrigerant tubing of evaporimeter is excellentThe guiding of menu layer ground.

Preferably deposit for two in the arranged beneath in the region that deviates from outer wall (7) of evaporimeter (16)The lighting device (42) of the bottom storage chamber (5) in chamber.

Described storage chamber preferably has common internal container, and described partition wall is inserted into this internal containerIn. This makes the assembling of described utensil easy, is arranged between storage chamber because evaporimeter can exposeBe separated subsequently that wall covers or can be in advance and partition wall be bonded into and be installed to subsequently between storage chamberAssembly, and needn't be inserted in the close clearance between storage chamber.

Other features and advantages of the present invention are learnt with reference to drawings clear according to the following description of embodiment.These features also can occur with the form different with disclosed especially combination here. Therefore, multiple thisThe fact that the feature of sample is mentioned in identical sentence or with other context correlation does not drawSuch conclusion: these features only can occur with disclosed especially combination; Replace, in principleThink, functionally do not have problems as long as of the present invention, in multiple such features, also can goFall or slightly change indivedual features. Accompanying drawing illustrates:

Fig. 1 is according to the schematic sectional elevation figure of combination refrigerating appliance of the present invention;

The horizontal sectional drawing along the planar I I-II in Fig. 1 of Fig. 2 refrigerating appliance;

The three-dimensional view that Fig. 3 cuts open with part illustrates radial ventilation device;

Fig. 4 cuts open according to the part of a part for the body of refrigerating appliance according to the present invention of the first configurationThree-dimensional view; With

Fig. 5 according to the second configuration of the present invention, with the similar view of Fig. 4.

Fig. 1 illustrates vertically the cuing open on depth direction according to the housing of combination refrigerating appliance of the present inventionFace figure. This housing comprises rectangular body 1 substantially and is connected to the door 2 on the front side of body 1,This body and this thresholding circle Yi Nei chamber, this interior chamber is divided into two storage chambers by the partition wall 3 of level,The common refrigeration lattice 4 of partition wall 3 tops and the freezing compartment 5 of partition wall 3 belows. Body 1 is withThe mode of knowing comprise by the internal container of plastics deep-draw, can be combined into by the plate of different materials firmShell and fill up internal container and shell between the insulation material layer at interval. Partition wall 3 is propped upSupport is on the ladder 6 of the sidewall of internal container.

It is logical that the wallboard 8 extending abreast with the back wall 7 of body 1 is separated out suction from common refrigeration lattice 4Road 9, this suction channel extends until the height of partition wall 3 near the air inlet 10 top 11 of body 1On degree and on the whole width of back wall, cover back wall 7. Be connected to and send out at the lower end of suction channel 9 uplinkTo extend past to folder shape the first branch 12 of the air path of partition wall 3. This first branch 12 upwards byBase plate 13 gauges that can load have refrigeration thing of common refrigeration lattice 4. Base plate 13 for example can be by permittingPermitted to see glass in branch 12, by opaque plastics or be made of metal. The first branch 12Extend until near the vicinity of the leading edge 14 of partition wall 3 and be transitioned at this place horizontal forwardlyIn the second slightly downward-sloping branch 15 of back wall 7. The front area that the height of branch 15 is constant is completeEntirely filled up by plate evaporator 16.

Being engaged in the section 17 on plate evaporator 16 of branch 15, along with the closer to being arranged onThe suction opening of the radial ventilation device 18 in back wall 7, the height of this section increases continuously, to makeAir can thin layer formula ground, loss flow to ventilator 18 from evaporimeter 16 less.

The rotor 19 of radial ventilation device 18 is shown to half in the three-dimensional view of Fig. 3, to can showGo out to cover after the hat base plate 20 of rotor 19, be fixed on the motor 21 in back wall 7. In footpathThe air vane 22 upwards and being in the axial direction orientated is fixed in the fringe region of base plate 20. Air leafThe edge that deviates from base plate 20 of wheel 22 can interconnect by the ring parallel with base plate 20. Air leafThe edge of the inner radial of the wheel 22 in other words opening of (in situation shown here) ring forms suctionOpening, in the time that rotor 19 moves, ventilator is extracted air out by this suction opening from section 17And be parallel in the radial direction back wall 7 ground discharges again. The diameter of suction opening is corresponding to section 17Maximum height, this section reaches this maximum height on its end behind. The overall diameter 19 of rotorBe slightly less than the thickness in the back edge of this rotor of partition wall 3, thereby rotor is positioned at partition wall 3 HesBetween back wall 7, and be embedded in the branch 12 on top and suction channel 9 or far away downwards not obviouslyThe downside that exceedes partition wall 3 stretches out.

Fig. 2 illustrate body 1 and partition wall 3 along extend past bottom branch 15, in Fig. 1The profile of the cutting plane identifying with II-II. Wallboard 29 is all connected radially in both sides in side surface directionOn the suction opening 24 of ventilator 18, with the air that prevents from being discharged by radial ventilation device 18 again bySuck. Can know the refrigerant tubing 25 that musical form ground individual layer extends that returns of seeing evaporimeter 16. Evaporimeter16 are fixed between two sides that fill up with heat insulation foamed plastics 26 of partition wall 3, wherein, and systemThe bend pipe of cryogen pipeline 25 is embedded into respectively in the groove of two sides 26. Cold-producing medium is in pipeline 25Circulate inversely with respect to air stream, that is, inject position 27 in refrigerant tubing 25 towards the back of the bodyThe end of wall 7, and suction joint 28 is on leading edge 14. Here, the width of section 17On depth direction, until wallboard 29 is constant, radial ventilation device 18 is after this wallboard. SoAnd as indicated by dashed line, side 26 also can be towards radial ventilation on the height of section 17The opening 24 of device 18 is restrained.

Wallboard 29 and back wall 7 gauge ventilator chambers 30, this ventilator chamber is transitioned into downwards in back wall 7In the distribution passage 31 (seeing Fig. 1) extending. Multiple pass through openings 32 are from distributing passage 31 logicalEnter in freezing compartment 5. These pass through openings 32 meet destination and are arranged in freezing compartmentBetween two pull-out casees 33 of 5, to be created in the air stream pointing to towards door 2 between pull-out case 33.On the inner side of door 2, air rises and via between between the leading edge 14 of partition wall 3 and door 2Gap 34 arrives common refrigeration lattice 4. Like this, if sense cooling requirement also in freezing compartment 5And evaporimeter 16 and ventilator 18 be therefore in service, both made that freezing compartment 5 is cooling also to be madeSince common refrigeration lattice 4 the self cooling cold air that freezes compartment 5 under fill gradually. Only make freezing depositingLattice 5 are cooling is impossible, but can be by correspondingly determining common refrigeration lattice 4 and freezing compartment 5Degree of thermal insulation guarantee, more cooling than still less occurring in common refrigeration lattice 4 in freezing compartment 5Demand and therefore do not produce the sub-cooled of common refrigeration lattice 4. If common refrigeration lattice 4 have coolingDemand and freezing compartment 5 does not have cooling requirement, connects ventilator 18 not enough so that deposit from freezingPut the cold air transfer of lattice 5 in common refrigeration lattice 4.

Fig. 4 illustrates the three-dimensional view that the part of a part for body 1 and partition wall 3 is cut open. Partition wall 3Base plate 13 in this view, be removed, to can separation be shown on the depth direction of body 1Muscle 35 in the first branch 12 of the air path of wall 3, support base 13, that direction is determined.The end of the second branch 15, is downward-sloping until directly in wallboard 29 condensate draining 36 places before. ColdSolidifying water is gathered in this groove 36 and passes through in back wall 7, unshowned in the time that evaporimeter 16 defrostsPassage arrives a rapid steamer place, and this rapid steamer and a compressor heat are arranged on the leg of back wall 7 contiguouslyOn machine chamber alcove 37 in.

The downside of partition wall 3 also dips down tiltedly, and extend can be for, by for freezing compartment 5Lighting device 42 and the leading edge 14 of illumination are adjacent to be installed on this downside, and therefore significantly do not limitThe available space of system pull-out case 33.

In this configuration, not only air path 12,15 Hes in suction channel 9 but also partition wall 3Distribute passage 31 all on the whole width of lattice 4,5, to extend, to both guaranteed that evaporimeter 16 was whole at itOn individual width, also guaranteed by flowing through equably that the cold air in lattice 5 distributes equably on this width.

Fig. 5 illustrates the alternate configuration of refrigerating appliance, this configuration with illustrate referring to figs. 1 to 4The part of partial response with identical reference marker mark and again do not set forth. According to this structureType, suction channel 9 is limited in a part for back wall 7, and, there are multiple differences that are arranged inThe distribution passage 38 of the pass through openings 39 on height fill up back wall 7 not to be sucked passage 9 sharedAccording to part. In ventilator chamber 30, be adjacent to (sightless in the drawings) ventilator 18Distribute the below of passage 38 to be provided with one and be similar to turning over of the fork that can swing around the axis of level 40Lid 41. Fig. 5 illustrates and renovates 41 on a position, renovates clogging freezing the depositing of leading in this positionPut passageway and therefore at least one by the air being blown out by ventilator 18 of the distribution passage 31 of lattice 5Part flows to distributes passage 38, to make it possible to directly cooling common refrigeration lattice 4. Renovating 41In the position swinging clockwise around axis 40, therefore the top edge of renovating abuts on wallboard 29 andBlocking-up enters and distributes passage 38. In this position of renovating 41, that is discharged by ventilator 18 is wholeAir enters into the distribution passage 31 of freezing compartment 5.

In order also to guarantee that in this configuration leaked-in air is evenly distributed in the whole wide of evaporimeter 16On degree, muscle 35 fans are arranged in the top set 12 of air path of partition wall 3, and branch12 widen from back to front.

Claims (19)

1. refrigerating appliance, this refrigerating appliance has two storage chambers that are designed for different running temperatures(4,5) and be arranged on the evaporimeter (16) in the partition wall (3) between described storage chamber (4,5),Wherein, the side of giving vent to anger of described evaporimeter (16) is connected and described evaporation with colder storage chamber (5)The air inlet side of device (16) is connected with hotter storage chamber (4), it is characterized in that, described air inlet side withDescribed colder storage chamber (5) is separated and edge (14) gauge of described partition wall (3) connectsConnect the gap (34) of two storage chambers (4,5).

2. according to the refrigerating appliance of claim 1, it is characterized in that described hotter storage chamber (4)Be arranged in the top of colder storage chamber (5) and the described air inlet side of described evaporimeter (16) and take outInhale passage (9) and connect, this suction channel is tool in the upper area of described hotter storage chamber (4)There is air inlet (10).

3. according to the refrigerating appliance of claim 2, it is characterized in that, described suction channel (9) at leastIn lower area, there is identical width with described evaporimeter (16).

4. according to the refrigerating appliance of claim 1,2 or 3, it is characterized in that radial ventilation device (18)On the height of described partition wall (3), be arranged in give vent to anger side and the described refrigeration of described evaporimeter (16)Utensil and the opposed outer wall of this side of giving vent to anger (7) between.

5. according to the refrigerating appliance of claim 4, it is characterized in that, described radial ventilation device (18)Axis is vertical with described outer wall (7).

6. according to the refrigerating appliance of claim 2 or 3, it is characterized in that, with described evaporimeter (16)Described in give vent to anger distribution passage (31) that side connects along the outer wall (7) of described colder storage chamber (5)Extend.

7. according to the refrigerating appliance of claim 6, it is characterized in that described suction channel (9) and instituteState and distribute passage (31) to be arranged on the identical outer wall (7) of described refrigerating appliance.

8. according to the refrigerating appliance of claim 4, it is characterized in that the sky in described partition wall (3)To be configured with to gas circuit footpath hair clip shape from the edge in the face of described outer wall (7) to opposed edge (14)Branch that extend, upstream and that extend, downstream in the opposite direction branch.

9. refrigerating appliance according to Claim 8, is characterized in that, described air path at least substantiallyOn the width of described partition wall, extend.

10. according to Claim 8 or 9 refrigerating appliance, is characterized in that, in the branch of described upstreamAnd between the branch in described downstream, being provided with a heat insulation midfeather, this midfeather has described partition wall(3) and on the opposed end of described outer wall (7), for being connected the blow vent of described branch.

11. according to Claim 8 or 9 refrigerating appliance, is characterized in that, in the branch in described downstreamAnd a heat insulation partition wall is set between described colder storage chamber (5).

12. according to Claim 8 or 9 refrigerating appliance, is characterized in that, with described outer wall (7) phaseOpposed edge (14) gauge connects the described gap (34) of two storage chambers (4,5).

13. according to Claim 8 or 9 refrigerating appliance, is characterized in that, in described branch, does not compriseThe branch of described evaporimeter (16) reinforces by the muscle (35) extending in the vertical.

14. according to Claim 8 or 9 refrigerating appliance, is characterized in that, described evaporimeter (16)Be arranged in the branch in downstream.

15. according to Claim 8 or 9 refrigerating appliance, is characterized in that, comprises described evaporimeter (16)Branch downward-sloping towards described outer wall (7).

16. according to Claim 8 or 9 refrigerating appliance, is characterized in that, the court of branch in described downstreamDescribed outer wall (7) extends ground and disperses on vertical curve.

17. according to the refrigerating appliance of any one in claim 1-3,5,7-9, it is characterized in that instituteThe refrigerant tubing (25) of stating evaporimeter (16) is individual layer guiding.

18. according to the refrigerating appliance of any one in claim 1-3,5,7-9, it is characterized in that instituteState in the common internal container that partition wall (3) is inserted into two storage chambers (4,5).

19. according to the refrigerating appliance of any one in claim 1-3,5,7-9, it is characterized in that instituteStating refrigerating appliance is Domestic refrigerator.