CN103649657A

CN103649657A - Refrigeration appliance having an evaporation shell

Info

Publication number: CN103649657A
Application number: CN201280018372.6A
Authority: CN
Inventors: O·德拉罗萨; F·奇弗罗代利; N·林加德; S·拉乌
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2011-04-14
Filing date: 2012-04-04
Publication date: 2014-03-19
Anticipated expiration: 2032-04-04
Also published as: EP2697578A1; DE102011007412A1; WO2012139952A1; CN103649657B; EP2697578B1; RU2013146224A

Abstract

A machine compartment (2) of a refrigeration appliance, in particular of a household refrigeration appliance, comprises at least one compressor (4), an evaporation shell (11) mounted on the compressor (4), and a fan (7) for driving a cooling air stream on a cooling air path running through the machine compartment (2). The cooling air path comprises an evaporation section (13) which extends above the evaporation shell (11) and through which at least one part of the cooling air stream is guided.

Description

The refrigeration plant with evaporating pan

Technical field

The present invention relates to a kind of refrigeration plant, domestic refrigerating appts especially, it has machine chamber and in machine chamber, is arranged on the evaporating pan on compressor.

Background technology

Refrigeration plant is especially interpreted as domestic refrigerating appts, for the household management of family or may be also for example, for diet field and be particularly useful for storing the food of family's usual amounts and/or the refrigeration plant of beverage, refrigerator, reach in freezer or refrigerating combination, reach in freezer or storage wine cabinet at definite temperature.

In running, storeroom is being carried out on cooling evaporimeter condensation from the moisture in the storeroom of this refrigeration plant.When evaporimeter is heated on 0 ℃ between two operation phase, condensate liquid flows out from evaporimeter; It is collected in subsequently in the groove extending evaporimeter below and derives from refrigeration plant.In order to remove derived condensed water, conventionally in the machine chamber at dorsal part place that is arranged on refrigeration plant, evaporating pan is arranged on compressor, make the waste heat condensed water of compressor and promote its evaporation.

Because only marginally produce used heat in efficient refrigerating equipment of modern times and freezing equipment, carry out evaporation condensed water so be more and more difficult to the speed of its generation.The surface that evaporating pan can have is at most subject to the size restrictions of machine chamber, makes only to be increased and can limitedly be improved evaporation efficiency by panel surface.By being set on varying level, a plurality of dishes increase the also only limitedly success of trial of evaporating surface, because a plurality of large-area planar disk in machine chamber hinders air circulation.But when full dampish air only can leave machine chamber lentamente, this has slowed down again evaporation.In addition,, because additional dish for example can utilize in machine chamber, at the most in miscellaneous part---those spaces that reserve between compressor, condenser etc. of this installation, so need the dish of large amount of complex moulding, this improves manufacturing cost.The pipeline of also having advised the cold-producing medium of, temperature compressed by having is guided through evaporating pan from compressor and improves evaporation efficiency.But described scheme obviously makes the structure complicated of refrigerating machine and therefore causes high manufacturing cost.

Also the following refrigeration plant of cicada: air blast is driven into cooling-air stream above the condenser being arranged in machine chamber in described refrigeration plant, and near the evaporating pan being arranged on the inswept bottom of heated air, condenser place below compressor.At this, the used heat of compressor can not be effectively for promoting evaporation.

Summary of the invention

Therefore, task of the present invention is to provide a kind of refrigeration plant, can guarantee the high-efficiency evaporating of condensed water in described refrigeration plant, and does not need expensive optional feature or make the structure complicated of refrigeration plant.

Described task solves in the following way: refrigeration plant has machine chamber, described machine chamber comprises at least one compressor, one and is arranged on evaporating pan on described compressor and one for extending through the air blast that drives cooling-air stream on the cooling-air path of machine chamber, described cooling-air path comprises evaporating region, described evaporating region extends above evaporating pan, and at least a portion of the cooling-air being driven by air blast stream is through described evaporating region.Therefore, air blast is also responsible for space above evaporating pan with the abundant air exchange between the surrounding environment of refrigeration plant and is therefore realized water vapour derivation fast from machine chamber under narrow mounting condition.Like this, although the steric requirements in compact machine chamber of installing is narrow, also can guarantee efficient evaporation.

Air blast can be arranged on the upstream of evaporating region on cooling-air path; In described situation, air blast is preferably arranged to drive the air stream of the lid of aiming at machine chamber.

As an alternative, air blast also can be arranged on the downstream of evaporating region, to drive the air stream of the lid that deviates from machine chamber.

In two kinds of situations, it is the axial blower with the rotor axis of vertical setting that air blast can conform with destination.

Condenser is preferably arranged on the upstream of evaporating region on cooling-air path, thereby it heats at condenser place on its path before cooling-air arrives evaporating region.Two most important thermals source that make full use of refrigeration plant by described mode promote evaporation.

Preferably, air blast is arranged on condenser.

In order to realize air blast and condenser simple installation and the while in machine chamber, can make the height of machine chamber keep as far as possible littlely, what conform with object is, air blast and condenser form a construction unit, and described construction unit can join in machine chamber in installment state.

Preferably on the downside of condenser, be formed for the pump orifice of cooling-air.

The outlet of air blast is preferably placed on the height of evaporating pan, thereby also inswept above the water surface of evaporating pan even if the cooling-air path between air blast and evaporating pan is not the major part of the air that bloated by air blast during around closure.

For air is guided through to whole evaporating pan equably, conform with object, wall is towards the dorsal part gauge evaporating region of refrigeration plant.This wall especially can integrally be constructed with evaporating pan.

Accompanying drawing explanation

Other features and advantages of the present invention are described by the embodiment referring to accompanying drawing and are become obvious.From description and accompanying drawing, obtain the feature of embodiment, these features are not mentioned in the claims yet.Such feature also can occur with the form different from concrete disclosed combination here.The fact of a plurality of such feature of therefore, mutually mentioning with identical sentence or with the word relation of other types does not represent that it only can occur with specific disclosed combination; Alternatively can consider in principle: from a plurality of such features, also can omit or revise single feature, as long as this does not damage of the present invention functional.Accompanying drawing illustrates:

Fig. 1: according to the schematic partial view of the rear side of the housing of domestic refrigerating appts of the present invention;

Fig. 2: the partial cross section figure in the housing of the refrigeration plant plane parallel with dorsal part;

Fig. 3: the partial cross section figure of housing in the perpendicular perpendicular to dorsal part;

Fig. 4: according to the second configuration of the present invention with the similar view of Fig. 2;

Fig. 5: according to the 3rd configuration of the present invention with the similar view of Fig. 1.

The specific embodiment

Fig. 1 illustrates according to the top view of the dorsal part of the body 1 of domestic refrigerating appts of the present invention.In the conventional mode in Shang Yi this area, sightless front side of body 1, be hinged with at this unshowned door, described door gauge together with body 1 is used for refrigerating the storeroom of thing.On the dorsal part of body 1, near bottom, in same known mode own, reserve machine chamber 2, compressor 4 and assembly 5 are installed in described machine chamber near the horizontal supporting rail extending bottom.As appreciable in Fig. 2, assembly 5 tubulose, in top and the housing 8 in lower open, comprise condenser 6 and air blast 7.Condenser 6 and air blast 7 install to housing 8 from bottom or from top, and shift onto in machine chamber 2 by the unlimited dorsal part of machine chamber by the assembly of described mode pre-installation.Air blast 7 is provided with vertical axis, to drive the air stream of the lid of aiming at machine chamber by housing 8.The outlet 9 of the upper end of housing 8 can be towards the dorsal part of body 1 by cover plate shown in broken lines in Fig. 1 10 shieldings, so as to make the cooling-air that aspirated by condenser 6 by air blast 7 in side direction towards evaporating pan 11 deflections.

Evaporating pan 11 is arranged on described compressor 4 contiguously with the direct heat conduction of compressor 4.The top edge 12 of evaporating pan 11 lays respectively on the height of outlet 9 roughly in a side of the orientating component 5 of evaporating pan 11 and in its opposed side, to do not hinder cooling-air stream to enter evaporating region 13 from outlet 9, described evaporating region is downwards by the liquid level gauge of the water 14 in evaporating pan 11 and upwards by lid 15 gauges of machine chamber 2.As especially appreciable in Fig. 3, the sidewall 16 that the back wall with body 1 of evaporating pan 11 is adjacent extends until near lid 15 belows, to guide air stream 13 in evaporating region 13 losslessly.

Shown at Fig. 2 and Fig. 3, lid 15 can have downward jut 17 above evaporating pan 11, to improve the flowing velocity of the air above the water surface and so improve evaporation efficiency.

The cross section of Fig. 3 illustrate refrigeration plant storeroom 18 a part and be arranged on the part of evaporimeter 19 at the back wall place of described storeroom 18.The hot well 20 being shaped at the place, bottom of evaporimeter is connected with evaporating pan 11 by effuser 21.

Cooling-air flow through evaporating region 13 and in the diagram of Fig. 1 and Fig. 2, arrived the left hand edge of machine chamber 2 after, the unlimited dorsal part of cooling-air by machine chamber leave machine chamber and the back wall of storeroom 18 and and the opposed building walls 22(of storeroom referring to Fig. 3) between raise, to be distributed in the surrounding environment of refrigeration plant.

In the structure shown in Fig. 1 and Fig. 2, compressor 4 is directly not cooling by the cooling-air being driven by air blast 7.Only have indirectly cooling effect, its mode is that therefore the air stream of air blast can absorb more heat from compressor by the cooling and described water of water 14.In the side-walls of compressor 4, through the air of heating, can be elevated to if desired back wall with in gap 23 between building walls 22 and wash away together with the air stream that is cooled there.In flexible program shown in Figure 4, between the housing 8 of assembly 5 and evaporating pan 11, remain with gap 24, a part for the air of discharging from air blast 7 can be walked around evaporating region 13 by described gap and alternatively stream the sidewall of compressor 4.Can by its freely the height etc. at the edge 12 towards air blast 7 of cross section, evaporating pan 11 according to compressor 4 pairs of direct cooling requirements determine the air-distribution between gap 24 and evaporating region 13.

Fig. 5 is to illustrate the 3rd configuration according to refrigeration plant of the present invention with the similar view of Fig. 1.Machine chamber 2 is sealed completely by vertical plate backward in described configuration, but described plate does not illustrate, can manifest the parts of machine chamber 2 inside.The air blast 7 of assembly 5 by below apotheca, extend to body 1 front side passage 25 suction cooling-airs and described cooling-air is driven by evaporating region 13 until machine chamber 2 with the opposed side of assembly 5.There, cooling-air deflect down and at it to extend to the sidewall that streams compressor 4 on the path of second channel 26 of front side of body 1 below storeroom 18.Because the air in condenser 6 places heating is cooling by absorb water in evaporating region 13, so described air also can cooling compressor 4.Because compressor 4 is in operation and is similar to condenser 6 and heats like that, so the condensed water in considering compression machine 4 places or passage 26 does not form.

Claims

1. a refrigeration plant, especially domestic refrigerating appts, it has machine chamber (2), described machine chamber comprises at least one compressor (4), evaporating pan (11) and an air blast (7) being arranged on described compressor (4), described air blast for driving cooling-air stream on the cooling-air path that extends through described machine chamber (2), it is characterized in that, described cooling-air path comprises evaporating region (13), described evaporating region extends in described evaporating pan (11) top, and at least a portion of described cooling-air stream is through described evaporating region.

2. refrigeration plant according to claim 1, is characterized in that, described air blast (7) is arranged on the upstream of described evaporating region (13), to drive the air stream of the lid (15) of aiming at described machine chamber (2).

3. refrigeration plant according to claim 1, is characterized in that, described air blast is arranged on the downstream of described evaporating region, to drive the air stream of the lid that deviates from described machine chamber.

4. according to the refrigeration plant one of the claims Suo Shu, it is characterized in that, described air blast (7) is the axial blower with the pivot center of vertical setting.

5. according to the refrigeration plant one of the claims Suo Shu, it is characterized in that, the provided upstream at described evaporating region (13) on described cooling-air path is equipped with condenser (6).

6. according to the refrigeration plant one of the claims Suo Shu, it is characterized in that, described air blast (7) is arranged on condenser (6).

7. refrigeration plant according to claim 5, is characterized in that, described air blast (7) and described condenser (6) form the construction unit (5) that can join in described machine chamber (2) in installment state.

8. according to the refrigeration plant one of the claims Suo Shu, it is characterized in that, on the downside of described condenser (6), be formed for the pump orifice of described cooling-air.

9. according to the refrigeration plant one of the claims Suo Shu, it is characterized in that, on the height of described evaporating pan (11), be provided with the outlet (9) of described air blast (7).

10. according to the refrigeration plant one of the claims Suo Shu, it is characterized in that, a wall (16) is towards evaporating region (13) described in the dorsal part gauge of described refrigeration plant.

11. refrigeration plants according to claim 10, is characterized in that, described wall (16) is integrally constructed with described evaporating pan (11).