CN1950653B

CN1950653B - Refrigerating appliance comprising an evaporation body

Info

Publication number: CN1950653B
Application number: CN2005800142162A
Authority: CN
Inventors: 罗兰·本尼奇; 西格弗里德·格拉希; 沃尔夫冈·努伊丁
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2004-05-04
Filing date: 2005-04-29
Publication date: 2010-05-12
Anticipated expiration: 2025-04-29
Also published as: CN1950653A; WO2005108887A1; DE202004007069U1; EP1745250A1

Abstract

The invention relates to a refrigerating appliance comprising a housing surrounding a heat-insulated inner chamber, a condenser (17) applied to an outer side of the housing, an absorbent, hydrophilic evaporation body (12) arranged on the condenser (17), and means for supplying condensation water created in the refrigerating appliance to the evaporation body (12). Said evaporation body (12) is fixed between the condenser (17) and the outer side of the housing, in a gap of at least one clamping body (9) that is supported on the outer side of the housing and on the condenser (17).

Description

Refrigerating plant with evaporation body

Technical field

The present invention relates to a kind of refrigerating plant, as refrigerator, refrigeration-freezing composite set or similar device, have one and surround by the housing of heat insulation inner room, one and be placed in the condenser of the cold-producing medium that being used on the outside of housing circulate at refrigerating plant, the device that a condensed water that is arranged on the adsorbable hydrophilic evaporation body on the condenser and is used for producing at refrigerating plant flows to evaporation body.This refrigerating plant is by FR 1416501 and open by WO01/31267A1.

Background technology

In disclosed refrigerating plant by FR1416501, the container that is used for the water of drawing from refrigerating plant is placed in the side that deviates from refrigeration device housing of condenser, and evaporation body is the fabric made from the material of foam forms, this fabric is suspended on the condenser like this, make its lower limb be suspended in the container, perhaps the sagging edge of crossing container of this fabric.This container is high and narrow, so the water surface of its exposure is compared very little with volume.Therefore, the evaporation rate of container is also little, and evaporates basically based on the contribution of evaporation body, and this evaporation body is adsorbed with fully from the water of container and this water and evaporates from the zone that container is stretched at it.

WO 01/31267A1 discloses a kind of refrigerating plant, and wherein, an evaporating pan is arranged on a compressor top, can utilize the loss heat of compressor to evaporate the water that converges in the described dish thus.On the condenser on the rear wall that is placed in refrigerating plant above the dish, by means of the fixing evaporation body of non-woven material form of clip, the lower limb of this evaporation body is suspended in the dish, thus, when the water level in the dish reached the following seamed edge of evaporation body, this evaporation body adsorbed and evaporation water under the situation of utilizing the heat that is discharged by condenser fully.

The solution of describing in this document has been proved and has been suitable for well replenishing the equipment refrigerating plant with this, and these refrigerating plants increase the condensed water that ground produces owing to its service condition in hygrothermal environment has.But because settle evaporation body to expend man-hour, so this arrangement is unsuitable for equipping refrigerating plant with this in batches.Because development along with technology, the heat insulation better and better and compressor of refrigerating plant is more and more effective, so that the thermal power that period the component in the total run time of refrigerating plant of compressor when being in running status is more and more littler and discharge owing to the operation of compressor is more and more littler, so, foreseeable is to occur such application feature more and more continually: be assemblied in evaporating pan on the compressor in a conventional manner and be not enough to solve generation from the condensed water of refrigerating plant.

Summary of the invention

Therefore, task of the present invention is, proposes a kind of refrigerating plant, assembles evaporation body in the mode that can realize effective batch process under the very low situation of cost in this refrigerating plant.

This task solves like this: a kind of refrigerating plant is provided, it has one and surrounds by the housing of heat insulation inner room, condenser on outside that is placed in this housing, a condensed water that is arranged on the adsorbable hydrophilic evaporation body on this condenser and is used for producing at this refrigerating plant flows to the device of this evaporation body, wherein, be provided with and make this evaporation body remain on mechanism in the intermediate space between the described outside of this condenser and this housing, it is characterized in that: describedly be used to carry the device of condensed water to comprise an evaporating pan, this evaporation body extend in this evaporating pan, this evaporating pan is divided into a plurality of storage cisterns by some partition walls, these storage cisterns are connected by the overflow mechanism on the last seamed edge that is configured in these partition walls, so that pour in order by the condensed water that is transported in first storage cistern in these storage cisterns; This evaporation body extend into and is in this order in that last storage cistern.

By being set like this, evaporation body shows:, produced good drying effect for evaporation body by the convection current of in intermediate space, carrying out with hot-air compressor condenser.Owing to directly evaporation body is loaded the additional favourable influence that obtains the drying effect generation with hot-air by condenser.Keep lug just to reach the simple especially and cost-effective maintenance measure that is used for evaporation body by one.With at least one determine the setting element of the position of evaporation body in intermediate space combined second keep lug to improve positional stability and position stability.Protected evaporation body to avoid for example mechanical influence at least to a great extent simultaneously.

As long as also unassembled condenser, the clamping body that is fixed on the hull outside just keeps evaporation body alone.Can make the clamping force that only applies select very for a short time and just be enough to keep evaporation body at this by clamping body.Additionally also be supported on this evaporimeter in case assembled evaporimeter and clamping body, this just helps to improve clamping force and gives evaporation body on the refrigerating plant that assembles with enough lasting fixing positions.

Can use a single clamping body, this clamping body clamps the top edge of evaporation body.

Two clamping bodies of preferred use, these clamping bodies clamp the vertical edge opposite each other of evaporation body respectively.Make evaporation body in clamped condition, can vertically move in the clamping on the vertical edge, also will describe the meaning of this feature below in more detail.

Being used to make the described outside of evaporation body and housing to separate and remaining on the condenser next door apart from keeper on the described outside that is placed in housing between these two clamping bodies makes evaporation body be heated effectively by the used heat of this condenser thus.

Preferably each clamping body all is bonded on the outside of housing.In order to make clamping body location fast and cosily, preferably on the described outside of housing for each clamping body all construct one with this clamping body shaped recess portion complementally, this clamping body is placed in this depressed part.

Although only the evaporation body condensed water that just is enough to solve refrigerating plant produces under the enough situation of size, the device that is used for condensed water is flowed to evaporation body preferably includes an evaporating pan, and evaporation body extend in this evaporating pan.Such evaporating pan itself can solve condensed water alone at least in part and produce.

On evaporating pan, some clips can be set, so that evaporation body is fixed on the evaporating pan by these clips.

In order to make evaporation body from evaporating pan, by mistake deviate to become difficult at least, can on the end of evaporating pan, construct a ditch portion, evaporation body stretches in this ditch portion.

Be to meet purpose especially to be in evaporating pan, this evaporating pan is divided into a plurality of storage cisterns by partition wall, and these storage cisterns connect by the overflow mechanism on the last seamed edge that is configured in partition wall.The effect of these overflow mechanisms is, when the storage cistern that is in the front in order completely arrived overflow, each different storage cistern was transported to condensed water in first storage cistern in these storage cisterns according to being poured by the predetermined order of the configuration of evaporating pan.In this order, be in the last storage cistern if extend into, have only then that this evaporation body just works when evaporating pan in fact no longer can solve condensed water alone and produces at evaporation body described in this evaporating pan.

If refrigerating plant has an evaporating pan, then the above-mentioned vertically mobility of evaporation body has been simplified the assembling of evaporation body, and its mode is, can at first assemble evaporation body, assembles condenser then, and evaporating pan then is installed, and interferes and do not produce with evaporation body.When only moving to evaporation body in the described dish downwards after the assembling of finishing evaporating pan, this evaporation body just works.

Description of drawings

From the explanation of with reference to the accompanying drawings embodiment being carried out, obtain other features and advantages of the present invention.Accompanying drawing is represented:

The partial view of Fig. 1 back side of shell of refrigerating plant between the erecting stage before settling condenser, compressor and evaporating pan;

Fig. 2 back side of shell and clamping body and the evaporation body settled thereon;

Fig. 3 has the refrigerating plant of the evaporating pan that assembles;

The part sectioned view of Fig. 4 evaporating pan;

Fig. 5 has the refrigerating plant of the condenser that assembles;

The schematic horizontal cross sections figure in the zone of the behind of Fig. 6 refrigerating plant;

Fig. 7 is according to the stereogram of the evaporating pan of second configuration of the present invention.

The specific embodiment

Fig. 1 has illustrated refrigeration device housing in the three-dimensional partial view of seeing from behind, this refrigeration device housing has rear wall 1 and

sidewall

2,3, and this rear wall and these sidewalls surround one by heat insulation inner room with the end, Gai Hemen (invisible in the accompanying drawing).In the lower part of frame zone, between

sidewall

2,3, constitute an alcove 4, this alcove is set the compressor of the refrigeration machine of refrigerating plant is placed in wherein.

Wall

1,2,3 is made of fixing exterior skin and inside panel and a layer that is contained between exterior skin and the inside panel made from heat-barrier material respectively around inner room.The exterior skin that can see in the figure of rear wall 1 is supported on the lateral bearing spare 5, and this lateral bearing spare is suspended between the

sidewall

2,3 and limits the border that alcove 4 makes progress.The exterior skin of

sidewall

2,3 generally is made of the painted metals thin plate, and the exterior skin of rear wall 1 also can for example be made of the plate of plastics, cardboard or hard fibre material forming the material that can bear less load.

This squab panel has the portion 6 that arches upward in the zone in the central, forms three

shallow grooves

7,8,7 on the lower limb of this portion that arches upward.

Fig. 2 shows second state of assembling refrigerating plant.In this state, be bonded in the groove 7,8 (can not see), 7 with clamping body 9 with apart from keeper 10 (referring to Fig. 6).The bottom surface of these grooves and clamping body or be complementary apart from the bottom surface of keeper, make clamping body thus or need not to take measures just to be positioned on the rear wall 1 apart from keeper.Be placed in clamping body 9 in the groove 7 in two outsides and on their sidewall that faces with each other 11, respectively have that extend in vertical direction, a parallel slot with rear wall 1.In these two slots, respectively clamp vertical seamed edge opposite each other of body 12 a rectangle sheet, that make with hydrophilic non-woven material.Even the thickness of this body 12 is a bit larger tham in order to guarantee that body 12 also keeps its shape and for example itself loosely do not soften required thickness in the state that is adsorbed with water fully.The clamping force that is applied to by clamping body 9 on vertical seamed edge of body 12 needn't be greater than 12 sliding required clamping force from slot in order to get rid of continuing the erecting stage mesosome.

Fig. 3 shows another step of assembling refrigerating plant.In the upper area of alcove 4, be equipped with evaporating pan 13, condensed water can flow out in this evaporating pan in known manner by drain hole not shown in this Figure, and this condensed water collects on the evaporimeter that is placed in refrigerating plant inside at the refrigerating plant run duration.In order to guarantee the evaporating surface of big exposure, evaporating pan 13 extends on most of depth of alcove 4.As especially can be seeing in the part sectioned view of Fig. 4, this evaporating pan comprises two zones, that is: zone 14, and the end of evaporating pan 13, is high relatively in this zone; A ditch portion 15, this ditch portion extends substantially alignedly along rear wall 1 and with this rear wall, and this this ditch portion had than 14 ends that obviously are in than low level of zone.The end in zone 14, tilt towards ditch portion 15, and thus, the condensed water in the dish 13 at first collects in the ditch portion 15.

Some flexible clips 16 are inserted on the outer wall of ditch portion 15, these clip stainless steels, the plastics of rigidity or the material of other humidity are made. and non-woven material body 12 is from its segment distance of leaving behind in the position shown in Fig. 2, descending seamed edge to be inserted in the clip 16 and by these clips with it remains in the ditch portion 15. thus, later on collect in condensed water in the ditch portion 15 and can penetrate in the non-woven material body 12 and can rise therein making good refrigerating plant run duration. thus, for evaporation condensed water, not only the water surface of the exposure in the evaporating pan 13 is available, and the front surface of non-woven material body 12 and rear surface are also available.

For compressor is not shown for simplicity, this compressor directly is assemblied in below the evaporating pan 13 when refrigerating plant has been made in Fig. 3, so that make this evaporating pan heating.But generally at first assembling compressor in practice, assemble evaporating pan 13 then, is not that last assembling is because the outstanding downwards ditch portion 15 of evaporating pan 13 makes the end that nestles up evaporating pan 13 insert the compressor variable difficulty.

As Fig. 5 appreciable, as next procedure, on rear wall 1, be assemblied in this condenser that is the threaded pipe type condenser form 17.Two respectively are provided with a groove 19 (referring to Fig. 1) from lateral bearing spare 5 rearwardly projecting arms 18 on their upside, described groove is set is used for holding the lower tube of condenser 17 and supports condenser 17 thus.

In the non-woven material body 12 present intermediate spaces 20 between condenser 17 and rear wall 1.Fig. 6 shows this bit-type more accurately with the form of schematic horizontal cross sections figure.The clamping body that offers slot 9 that is bonded in the groove 7 in two outsides of rear wall 1 is pressed between rear wall 1 and the condenser 17, has strengthened the clamping of non-woven material body 12 thus.Be used for apart from keeper 10: prevent to contact between non-woven material body 12 and the rear wall 1 or impel this non-woven material body and condenser 17 at a distance of such distance, feasible one side is crossed over the gap that exists between this condenser and this non-woven material body can make the 12 effective heating of non-woven material body, make intermediate space 20 keep enough width but then, can form convection current in this intermediate space thus, this convection current is responsible for taking away the steam that is discharged by non-woven material body 12.

Clamping body 9 and to meet the destination apart from the expanded material of keeper 10 should be closed pore extend into rear wall 1 or condenser 17 from non-woven material body 12 by clamping body to prevent water.Scheme also can propose as an alternative, the slot of clamping body 9 is respectively by the layer plastic sheeting for example coated with the impermeable moisture, perhaps make non-woven material body 12 be inserted in the fringe region in the slot and/or contact is soaked in apart from the zone of keeper 10 such material is arranged at it, for example wax or synthetic resin, the micropore of described material sealing non-woven material also prevents that thus moisture from going beyond the clamping body from non-woven material.

Fig. 7 illustrates a replaceable configuration of evaporating pan 13.The shape at the end of this evaporating pan is accompanyed or follow the configuration of the upside of compressor, and this evaporating pan answers close thermal to be assemblied in contiguously on this compressor.This evaporating pan is divided into a plurality of storage cisterns 21,22,23, the condensed water that storage cistern 21 that is wherein the most shallow, highest order receives from inner room.Storage cistern 21 receives the highest heating power of compressor with regard to its bottom surface, so this storage cistern reaches higher relatively water temperature and evaporation rate.

These storage cisterns are spaced apart by some partition walls 24 each other, are configured with overflow mechanism 25 on seamed edge on these partition walls, and these overflow mechanisms can make water from the full storage cistern of a high position is gone beyond storage cistern than low level.Therefore when the evaporation rate of storage cistern 21 is not enough, plays the surperficial of evaporation and widen with the area of other storage cistern automatically.The storage cistern 23 of lowest order has a ditch portion 15, and as shown in Figure 4, an evaporation body 12 can be assemblied in this ditch portion.When the not enough so that condensate evaporation that produced in the surface of dish 13 exposure, this evaporation body is just supported evaporation.

Claims

1. refrigerating plant, having one surrounds by the housing of heat insulation inner room, condenser (17) on outside that is placed in this housing, a condensed water that is arranged on the adsorbable hydrophilic evaporation body (12) on this condenser (17) and is used for producing at this refrigerating plant flows to the device of this evaporation body (12), wherein, be provided with and make this evaporation body (12) remain on mechanism in the intermediate space (20) between the described outside of this condenser (17) and this housing, it is characterized in that: describedly be used to carry the device of condensed water to comprise an evaporating pan (13), this evaporation body (12) extend in this evaporating pan, this evaporating pan (13) is divided into a plurality of storage cisterns by some partition walls, these storage cisterns are connected by the overflow mechanism on the last seamed edge that is configured in these partition walls, so that pour in order by the condensed water that is transported in first storage cistern in these storage cisterns; This evaporation body (12) extend into and is in this order in that last storage cistern.

2. refrigerating plant according to claim 1 is characterized in that: these mechanisms keep lug to constitute by at least one.

3. refrigerating plant according to claim 1 is characterized in that: these mechanisms comprise at least one clamping body (9), and described clamping body has a clamping gap that is used to hold this evaporation body (12).

4. according to described refrigerating plant in the claim 1 to 3, it is characterized in that: these mechanisms are arranged on the described outside of this housing.

5. refrigerating plant according to claim 1 and 2, it is characterized in that: be provided with two and keep lug, these keep at least one the maintenance lug in the lug to have setting element, by described setting element this evaporation body (12) are remained between the described outside of this condenser (17) and this housing.

6. refrigerating plant according to claim 3 is characterized in that: described clamping body (9) is supported on the described outside of this housing on the one hand, is supported on the other hand on this condenser (17).

7. refrigerating plant according to claim 3 is characterized in that: two clamping bodies (9) clamp the vertical edge opposite each other of this evaporation body (12).

8. refrigerating plant according to claim 7 is characterized in that: one is being arranged on apart from keeper (10) on the described outside of this housing between these two clamping bodies (9).

9. refrigerating plant according to claim 8 is characterized in that: each clamping body (9) and/or be bonded in apart from keeper (10) on the described outside of this housing.

10. according to Claim 8 or 9 described refrigerating plants, it is characterized in that: each clamping body (9) and/or be placed in depressed part (7 apart from keeper (10), 8) in, this depressed part (7,8) be shaped with the described outside of this housing on each clamping body (9) and/or apart from keeper (10) complementation.

11. refrigerating plant according to claim 1 is characterized in that: be provided with and be used for this evaporation body (12) is fixed on clip (16) on this evaporating pan (13).

12. refrigerating plant according to claim 1 is characterized in that: be configured with a ditch portion (15) on the end of this evaporating pan (13), this evaporation body (12) extend in this ditch portion.

13. refrigerating plant according to claim 3 is characterized in that: this evaporation body (12) can vertically move in the state that is clamped by described at least one clamping body (9,10).