CN109387017A - Refrigerating appliance with evaporating pan - Google Patents

Abstract

The present invention relates to a kind of refrigerating appliance, including evaporating pan (6) and liquefier (9), liquefier is arranged in above evaporating pan (6) and is flowed from top to bottom by cold air.

Description

Refrigerating appliance with evaporating pan

Technical field

The present invention relates to a kind of refrigerating appliances, especially Domestic refrigerator, have evaporating pan (Verdunstungsscha Le), the condensed water in refrigerating appliance inside is fallen on an evaporator during refrigerating appliance operation to remove.

Background technique

This evaporating pan is generally mounted on the rear side of the ontology of refrigerating appliance in machine space, to utilize same peace The waste heat for setting the liquefier at this carrys out evaporation condensed water.

Frequently, this evaporating pan is assemblied on the shell of compressor, is directly contacted and giving up compressor with will pass through Heat is efficiently guided into evaporating pan and in the water being included in.In order to ensure required thus with compressor housing The close contact of large area, evaporating pan must accurately manufacture and accurately adapt to the shape of compressor housing, this makes this The manufacture of discharge plate becomes consuming and Gao Chengben.

The compressor of modern high energy efficiency often no longer provides enough waste heat condensed water so rapidly can disappear Remove, as this condensed water (especially through hold-open door, or in warm apply refrigerating appliance the case where Under) such from evaporator afterflow.

The means for improving evaporation efficiency are using blower (Ventilator), which will be formed in the horizontal plane of evaporating pan The steam of top blows away at once and is replaced by dry air.The convective flow being directed to from evaporating pan in outdoor(on these surfaces, steam no longer condenses at once) is formed first along the surface of warm, And it is just not the case in the case where the air stream driven by blower.Therefore, the application of blower may be easy to cause: The humidified air contacted with the water in evaporating pan skims over such surface, these surfaces are cooler than evaporating pan, and steam is at these It is condensed again on surface.

A kind of refrigerating appliance as known to 2,012 139 956 A1 of document WO, wherein thus this risk of condensation again is able to Limitation: that is, being conducted through liquefier after making air absorb water vapour above the water surface of evaporating pan.By occurring herein Heating, reduce relative air humidity, and air can reach condensation (when and then air skims over cold surface) It is preceding to release more heat.

Thus the evaporation efficiency of this known refrigerating appliance is limited: that is, air above the horizontal plane of evaporating pan from Disk outer edge is until centre gangway (wind turbine layout is in the channels) paths traversed wants short compared to disk seamed edge length.This Outside, air stream must propagate (hinwegstreichen) by disk outer edge and disk inward flange, and disk necessarily is in above horizontal plane Enough eminences, to prevent the excessive of disk, but disk is in higher above water surface, then the air flowing above water surface is then It is slower.

Summary of the invention

The task of the present invention is to provide a kind of refrigerating appliances, and with liquefier and evaporating pan, which can The waste heat for efficiently using liquefier promotes to evaporate, and avoids the danger condensed again on the cold surface of refrigerating appliance.

Thus the task solves, mode is, with the liquefier to be flowed by cold air and with the system of evaporating pan In cooler tool, liquefier is arranged in above evaporating pan and is flowed from top to bottom by cold air, thus cold air in liquefier From above on the water surface reached in evaporating pan after being heated.By this heating, suction of the air for vapor is improved Receipts ability, it is this to can be realized high flow rate of the air directly on water surface from the conveying of top and then the steaming at this is formed in Vapour guides at once.Because air is no longer needed for other purposes after soaking on water surface, air can be from refrigeration Utensil is guided immediately with short path；Thus also reduce on cold surface what (such as on pumping surfaces of compressor) condensed again It is dangerous.

If evaporating pan and compressor are mounted in identical machine space, can prevent from condensing again on compressor Danger, mode is arrangement blower, to drive the cold air stream from compressor to liquefier.

In order to which the liquefier to flow vertically is mounted in Domestic refrigerator (typically in a space-saving manner In the posterior angle of apparatus body in machine space), the size range (Ausdehnung) of the liquefier in the flowing direction is answered It is as small as possible.Therefore, preferred MPE liquefier herein.

In order to actuate cold air downwards by liquefier, blower should be equipped with.

In order to make the air heated on liquefier reach the horizontal plane in disk and deflect herein, blower should be such Arrangement, so that the axis of the blower and the bottom of disk intersect.

Blower and liquefier can be surrounded by common pipe, so that the air stream driven by blower to be directed entirely through Liquefier.

In order to ensure smoothly flowing through the entire water surface in disk, housing (Haube) can be equipped with, the housing in liquefier and Evaporating pan is extended past below blower, and the housing has such channel (Durchgang): the channel by cold air from Passed through on liquefier and blower to such path of evaporating pan.

Channel is preferably centrally arranged in housing, so as to air stream disk center flow out and can from the center along All directions are propagated through water surface.

Flowing velocity is caused to reduce in order to react on the gap increased between channel, housing can be from channel It is inclined to its outer seamed edge.

From in the top view from top, it is preferable that housing does not cover the seamed edge of evaporating pan, will pass through by air stream It is pushed through the raising that the water at this reacts on edge horizontal plane.

Housing can have the pipe fitting for limiting the channel.Plug connection is carried out by the pipe fitting and pipe, so that housing, Pipe, liquefier and blower pre-assembled can be subsequently mounted in refrigerating appliance outside refrigerating appliance at component, the component.

Because conveying basically by cold air stream from top for heat required for evaporating, disk can be in machine sky Between in most low land assembled in the mode rested on bottom.Here, the disk with big seamed edge length also can be relatively simply Installation, because other units that must be positioned in machine space can be arranged with being stretched over the mode above the disk.

Detailed description of the invention

The other feature and advantage of the present invention are generated by being described below for each embodiment referring to attached drawing.Attached drawing is shown:

Fig. 1: partial view is illustrated by the rear portion of the shell of Domestic refrigerator according to the invention；

Fig. 2: blower-liquefier-component section of refrigerating appliance；And

Fig. 3: alternative blower-liquefier-component section.

Specific embodiment

Fig. 1 shows the rear side of the ontology 1 of Domestic refrigerator according to the invention (such as refrigerator, refrigerator or the like) Top view.Be hinged with door not shown here in a manner known in the art on the sightless front side of ontology 1, the door together with 1 bound of ontology is used for the storeroom of chilled goods.On the rear side of ontology 1, close to stabilizer blade bottom with same known to itself Mode reserves machine space 2.The lower interface of machine space 2 is formed by bearing rail 3, and the bearing rail 3 is in a horizontal manner in ontology 1 Side wall 4 between extend.Compressor 5 and evaporating pan 6 are equipped in bearing rail 3.

Condensate line 7 from it is unshowned, above machine space 2 to refrigerating chamber carry out cooling evaporator come out and It is passed into evaporating pan 6.

The component 8 of evaporating pan 6 and assembly on it is shown in the viewgraph of cross-section of Fig. 2.Component 8 includes liquefier 9, wind Machine 10, pipe 11 and flat housing 12, the pipe 11 is around liquefier 9 and blower 10.

Liquefier 9 and compressor 5 and evaporator connect into coolant circuit in a known way, in the coolant circuit In, coolant that is being compressed by compressor and being heated herein reaches liquefier 9 via pressure piping 13, will at this Its heat is exported to the cold air of percolation, is reached evaporator via throttle point in the coolant that this is condensed and is steamed at this Hair, and coolant vapours are back to compressor 5 via suction pipeline 14.

Liquefier 9 is configured to MPE liquefier herein, that is: the liquefier 9 includes MPE flowed by coolant, multicell (multiport squash type) profile, the profile be parallel to each other (perpendicular to sectional plane in Fig. 2) extend profile section 15 with Itself known mode is connected each other by (being parallel to sectional plane extension) thin slice.

In order to enable the air heated on liquefier 9 can be to flowing down, then blower 10 and liquefier 9 are adjacent to cloth It sets.In the configuration scheme of Fig. 2, blower 10 is arranged in 9 lower section of liquefier, and air is aspirated through liquefier 9 from this； Equally it is contemplated that blower 10 is arranged in 9 top of liquefier, in this case, air extrusion is passed through liquefier 9 by blower 10.

Liquefier 9 and blower 10 are contained in pipe 11.The two (liquefier 9 and blower 10) is complete in section 16 or 17 It is filled with the cross section of pipe 11.In order to which the different outer dimensions to liquefier 9 and blower 10 compensate, pipe 11 is in these sections 16, there is between 17 transition zone, in the transition zone, cross section consecutive variations.Although these sections 16 of pipe 11,17, 18 have different cross sections, however pipe 11 extends as the crow flies, also that is, all section 16,17,18 of the pipe 11 all have it is common Longitudinal axis 19, the longitudinal axis 19 simultaneously be blower 10 rotation axis.

By air stream that blower 10 is driven along axis 19, across housing 12 channel, reach water vertically from above Surface 20, and radially deflected from this.The pressure of air pushes downwards surface 20 around axis 19.

The channel of housing 12 is formed by pipe fitting 21, and the pipe fitting 21 is hermetically around the lower curtate 17 of pipe 11. The enclosing portion 22 further extended from rotation axis 10 is attached on the lower edge of pipe fitting 21.Enclosing portion 22 prevents hot sky Gas increases again at once, but forces these hot-airs along water surface 20 towards side turn-out track, thus, in entire water surface 20 On, heat can be from air to water and steam is shifted to air.

In the water (in the case where by being supported in the air stream being radially orientated after deflection) that this is pushed in diameter The turn-out track on direction, thus, when blower 10 at runtime, horizontal plane 20 is higher than center at the wall 23 of evaporating pan 6.

Enclosing portion 22 can horizontally extend in its entire surface, especially such case: only the four of rectangle evaporating pan 6 Reserved at two seamed edges 25 in a seamed edge 25 discharge gap 24, at the discharge gap 24, air may exit off evaporating pan 6 with Gap between enclosing portion 22.In design scheme shown in figure 2, enclosing portion 21 to its outer seamed edge 26 is inclined.This is special Be not when be discharged gap 24 circlewise extends around enclosing portion 21 when be it is suitable, to maintain from channel up to discharge gap 24 Entire path on air generally remain constant flowing velocity.

In order to ensure: the horizontal plane 20 as caused by air stream will not result in overflowing for evaporating pan 6 along the rising of wall 23 (or water droplet is dished out from evaporating pan 6) out, it is advantageous to which allow lateral air flowing near wall 23 slows down or make air stream It upward deflects.For this purpose, in the configuration scheme of Fig. 2, at least upper seamed edge 25 of wall 23 extends in a lateral direction The outer seamed edge 26 in enclosing portion 21.It is contemplated that acetyl wall 23 additionally differently extends upwards more than outer seamed edge with the view of Fig. 2 26。

Evaporating pan 6 can have multiple lateral columns 27 stretched out from its bottom 26 as shown in Figure 2, these lateral columns 27 support Housing 12.In particular, if evaporating pan 6 by injection-moulding plastic, these lateral columns 27 can with evaporating pan 6 one-piece at Type.These lateral columns 27 can be it is hollow, thus, by means of the spiral shell being extend into from above through the hole of housing 12 in hollow lateral column Bolt is able to achieve the fixation of housing 12.In the view of Fig. 2, these lateral columns 27 carry resiliently deflectable lock at its tip Determine hook 28, housing 12 can be bridged on these lock hooks 28 from top, thus, these lock hooks 28 pass through the hole of housing 12 29, mode is that these lock hooks 28 mutually push away (auseinanderr ü cken) after passing through hole 29, and housing 12 is fixed On evaporating pan 6.

Evaporating pan 6 can be assemblied in machine space 2 before liquefier 9 and blower 10 during the assembling of refrigerating appliance In, so as to and then be used as holder, be pre-assembled in it is outside machine space 2, by 12 liquefier 9, blower 10 and housing groups At component 8 be locked on the holder.Alternatively, evaporating pan 6 itself can be together with liquefier 9, blower 10 and housing 12 A part of component 8 that is preassembled in the outside of machine space 2 and being introduced into as unit.

Fig. 3 shows the section similar with Fig. 2 of component 8, the component 8 multiple mutually indepedent achievable characteristic aspects not It is same as the component of Fig. 2.

Fisrt feature in these features is that liquefier 9 and blower 10 are arranged in pipe 11, and this arrangement is opposite It is exchanged for Fig. 2.This exchange only has small influence to the transition of heat and steam；The arrangement of Fig. 3 The advantages of can be, in the arrangement of Fig. 3, pressure pulse passes through the liquefaction that is arranged between blower 10 and water surface 20 Device 9 buffers, and this pressure pulse passes through the blade of blower 10 closely skimmed over thereon on water surface 20 in the case of figure 2 Caused by 30 and it may result in the impact of the wave in evaporating pan 6.

Second distinguishing characteristics is that housing 12 is supported on evaporating pan 6.This be supported in Fig. 3 is by extending over outer rib Side 26, enclosing portion 21 finger-shaped material 31,32 realizes that these finger-shaped materials 31,32 are supported on the upper seamed edge 25 of evaporating pan 6, and And these finger-shaped materials 31,32 alternately inwardly or outwardly grasp (umgriffen).In order to ensure with the guarantor of shape locking mode It holds, seamed edge 25 can be thickened with swell and clampingly be grasped by finger-shaped material 31,32 on these.

It is distributed by these finger-shaped materials 31,32 along upper seamed edge 25, thus these finger-shaped materials 31,32 are drawn gap 24 is discharged It is divided into multiple sections.The length of these sections so adapts to the spirit of the cable laid in machine space 2 in 8 outside of component Activity, so that cable rigidly prevents itself: these cables may be squeezed into forward to sufficient degree discharge gap 24 In and contacted with the horizontal plane of evaporating pan 6 20.

In order to prevent the air soaked at the channel between the housing 12 and horizontal plane 20 of evaporating pan 6 again by blower 10 Sucking is appropriately equipped with partition wall 33 as illustrated in fig. 1 in machine space 2, which divides machine space 2 There is the subspace 35 of evaporating pan 6 at the subspace 34 for having compressor 5 and reception is received, and has and worn by pipe 11 is fully filled Open up mouth.The rear wall (for the reason that can be shown inside machine space 2) for the machine space 2 saved in Fig. 1 can be each at it The entrance for fresh air to be drawn into subspace 34 is equipped with from the end adjacent with side wall 4 and is used for humidified air The outlet blown out from subspace 35.

Partition wall 33 can be made up of break-through opening two-piece type, especially if break-through opening is arranged to the two of pipe 11 The height of the greater in a usually section 16,17 with rectangular cross section, and this section 16 extends past machine space 2 Entire depth.

Especially in the case where the piece configuration of partition wall 33, the width of break-through opening is variable.However, in order to The sealed connection between the edge that break-through is open 36 and pipe 11 is established, the gap between pipe 11 and the edge of partition wall 33 can To be bridged by flexible sealing lip 37 (referring to fig. 2).It is also contemplated that realizing the labyrinth between these subspaces 34,35 Formula seals (Labyrinthdichtung), and mode is, for example, that the edge 36 of break-through opening extend into the (especially attached of component 8 Profile on to pipe 11) in groove 38 (referring to Fig. 3).

Reference signs list:

1 ontology

2 machine spaces

3 bearing rails

4 side walls

5 compressors

6 evaporating pans

7 condensate lines

8 components

9 liquefiers

10 blowers

11 pipes

12 housings

13 pressure pipings

14 suction pipelines

15 profile sections

16 (pipe 11) sections

17 (pipe 11) sections

18 (pipe 11) sections

19 longitudinal axis

20 surfaces

21 pipe fittings

22 enclosing portions (Sch ü rze)

23 walls

24 discharge gaps

Seamed edge on 25

26 outer seamed edges

27 lateral columns (Pfosten)

28 lock hooks

29 holes

30 blades

31 finger-shaped materials

32 finger-shaped materials

33 partition walls

34 subspaces

35 subspaces

36 edges

37 sealing lips

38 grooves

Claims (12)

1. a kind of refrigerating appliance, especially Domestic refrigerator, the refrigerating appliance includes the liquefier (9) to be flowed by cold air And including evaporating pan (6),

It is characterized in that,

The liquefier (9) is arranged in above the evaporating pan (6) and is flowed from top to bottom by cold air.

2. refrigerating appliance according to claim 1,

It is characterized in that,

The liquefier (9) is MPE liquefier.

3. refrigerating appliance according to claim 1 or 2,

It is characterized in that,

Equipped with the blower (10) for driving cold air.

4. refrigerating appliance according to claim 3,

It is characterized in that,

The axis (19) of the blower (10) and the bottom of the evaporating pan (6) intersect.

5. refrigerating appliance according to claim 3 or 4,

It is characterized in that,

The blower (10) and the liquefier (9) are surrounded by common pipe (11).

6. refrigerating appliance according to one of claims 3 to 5,

It is characterized in that,

Equipped with housing (12), the housing extends past the evaporating pan (6) below liquefier (9) and blower (10), and The housing has the channel passed through on the path from liquefier (9) and blower (10) to the evaporating pan (6) by cold air.

7. refrigerating appliance according to claim 6,

It is characterized in that,

The channel is centrally disposed in the housing (12).

8. refrigerating appliance according to claim 6 or 7,

It is characterized in that,

Outer seamed edge (26) inclination of the housing (12) from the channel to the housing.

9. the refrigerating appliance according to one of claim 6 to 8,

It is characterized in that,

Viewed from above, the housing (12) does not cover the seamed edge (25) of the evaporating pan (6).

10. the refrigerating appliance according to one of claim 6 to 9 of reference claim 5,

It is characterized in that,

The housing (12) has the pipe fitting (21) for limiting the channel, the pipe fitting and the pipe (11) plug connection.

11. refrigerating appliance according to one of the above claims,

It is characterized in that,

The liquefier (9) is mounted in the machine space (2) of the refrigerating appliance, and the evaporating pan (6) setting ground dress On the bottom for fitting over the machine space (2).

12. refrigerating appliance according to claim 11,

It is characterized in that,

The machine space (2) includes compressor (5), and the blower (10) is arranged for driving from the compressor (5) cold air stream of the liquefier (9) is arrived.