CN103459952A

CN103459952A - Evaporator assembly for refrigeration appliance

Info

Publication number: CN103459952A
Application number: CN2012800164994A
Authority: CN
Inventors: M·马利希; R·普拉德尔; M·韦劳赫
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2011-04-06
Filing date: 2012-04-02
Publication date: 2013-12-18
Anticipated expiration: 2032-04-02
Also published as: DE102011006862A1; PL2694895T3; EP2694895A1; RU2552085C1; EP2694895B1; CN103459952B; WO2012136618A1; RU2013145294A

Abstract

An evaporator assembly for a refrigeration appliance, in particular a household refrigerator, comprises an evaporator (8) that includes a refrigerant pipe (9) and a plurality of fins (16) in thermal contact with the refrigerant pipe (9), and a tubular heater (1) for defrosting the evaporator (8), wherein the heater (1) is arranged in contact with the fins (16) at least in some sections (2).

Description

Evaporator assemblies for refrigerating appliance

Technical field

The present invention relates to a kind of evaporator assemblies for refrigerating appliance, especially Domestic refrigerator.

Background technology

In the refrigerating appliance of frostless version, evaporator assemblies is placed in the evaporator room separated with storage chamber on storage chamber, and storage chamber is cooling by the exchange of the control with evaporator room.At this, be condensed into frost and As time goes on evaporimeter, form ice sheet in evaporator room from the air humidity in storage chamber, ice sheet hinders heat exchange.If interrupt the air exchange between storage chamber and evaporator room, have following possibility: the ice sheet that thaws, and remarkable heating storage chamber when different.

Disclose a kind of no-frost refrigeration device by DE202005014373A1, wherein in evaporator room, settle on the one hand the evaporimeter of the sheet (Lamellen) with refrigerant pipe and a plurality of and refrigerant pipe maintenance heat exchange and settle on the other hand the heater for the evaporimeter that thaws.Heater is constructed to pipe type heating device and is assemblied on bearing part, and described bearing part forms the wall of evaporator room simultaneously.The downside of evaporimeter and bearing part between gap make the air that heats on heater become easy through the convection current in the space between adjacent sheet.

For the heating that makes storage chamber when thawing minimizes, be worth expectation, on the one hand, required time or following minimal time make to thaw: during evaporator room hotter than storage chamber, and heat can flow into storage chamber from evaporator room through wall.On the other hand, the thawing time of shortening makes the stronger thermograde needed between heater and evaporimeter, in order to the heat of heater enough is delivered to vaporization chamber rapidly.Yet high thermograde causes again increasing the ground heat release in storage chamber.

Summary of the invention

Task of the present invention is, realizes a kind of evaporator assemblies for refrigerating appliance, itself in the situation that between heater, refrigerant pipe and sheet little thermograde also can realize thawing fast.

Described task solves in the following manner: have comprise refrigerant pipe and a plurality of and refrigerant pipe keep heat exchange sheet evaporimeter and there is the evaporator assemblies for the tubular heating device of the defrosting of evaporimeter, at least range selector ground and sheet are arranged heater contiguously.

The section extended in the space between two adjacent sheets by heater, the especially effectively heat on can realizing from the heater to the sheet is transmitted.

The sheet in the space that preferably, two gauges of described section contact of heater are identical.Although this heater section can block the convection current between space to a great extent, by heater, with the direct efficient heat transmission contacted of sheet, offset described shortcoming.

For the assembling that makes on the one hand evaporator assemblies becomes easily and hinders as few as possible on the other hand the air circulation in space in the evaporator assemblies refrigerating operaton, preferably at least most of edge along space of the described section of heater extends.

The section of this contact chip of heater preferably extends on the direction of air stream, and the housing of described circulation of air pervaporation device assembly is from import to the outlet circulation.

In addition, what for the simplification of assembling, meet purpose is, be fixed on loading plate the heater range selector and the space between two adjacent sheets of heater in the section that extends removable on the surface of loading plate, in order to can mate the notch cuttype of sheet when engaging heater and sheet, arrange.

This movement for the section extended between sheet that can realize heater, meet purpose, and heater has arcuate segments, and described arcuate segments will be connected to each other and be fixed on loading plate at the section extended between sheet.

Fixing on loading plate of heater can be by realizing from the isolated finger of loading plate, and described finger is preferably held described arcuate segments.

The zone that described at least one section extended between two sheets of heater preferably has at least one projection, described zone out reaches the space between sheet from an edge.The zone of this projection contributes to, make between sheet the section of placing heater become easily, because the resistance of resistance ratios when whole section must be inserted into once between sheet on its whole length overcome possibly during insertion projection regional between two sheets is significantly less.

Preferably with sheet, arrange refrigerant pipe, so that spacing each other of stator and provide required structural stability for evaporimeter with intersecting.

When the zone of projection embeds between two area under control sections that extend side by side of refrigerant pipe, the zone of projection contribute to can reappear sheet vertically on place heater maybe can place the section extended of heater with reappearing between sheet on evaporator block.

If the area under control section that the zone of projection contact extend side by side, this heat transmission also supporting from heater to the area under control section.

Two area under control sections that extend side by side are preferably placed in the identical plane adjacent with the edge in space and by the 3rd area under control section and are connected in series, and described the 3rd area under control section is more farther far from the edge in space than described plane.Therefore, possible, although little curvature, allow deeply to embed in evaporimeter by the zone of projection and reliably fixedly heater with respect to the position of evaporimeter.

The top of raised areas can contact the 3rd area under control section, in order to also directly heat described the 3rd area under control section.

The accompanying drawing explanation

According to the description to embodiment below with reference to accompanying drawing, it is clear that other features and advantages of the present invention become.Also know the feature of not mentioning in the claims of these embodiment from described description and accompanying drawing.Such feature also can occur with the combination from different in this disclosed especially combination.Therefore, a plurality of such features are mentioned in identical sentence or in the context correlation of another form, do not represent that they only can occur with disclosed especially combination; Replace, think in principle, in a plurality of such features, also can remove or change indivedual features wherein, as long as this does not affect of the present invention functional.Accompanying drawing illustrates:

Fig. 1 is for the three-dimensional view of the pipe type heating device that uses at evaporator assemblies according to the present invention;

Fig. 2 is assemblied in the pipe type heating device in the Fig. 1 on carrying sheet material;

The pipe type heating device of Fig. 3 before engaging and the side view of evaporimeter;

Pipe type heating device and the evaporimeter of Fig. 4 after engaging;

The three-dimensional view of Fig. 5 evaporimeter and pipe type heating device;

The installation of Fig. 6 evaporator assemblies in refrigerating appliance.

The specific embodiment

Fig. 1 illustrates the three-dimensional view for the heater 1 of thaw (defrosting) of the evaporimeter of frostless Domestic refrigerator.Heater 1 comprises a continuous pipe, described pipe return form curvedly a plurality of than parallel to each other, area under control section 2 linearly and the bow-shaped section 3 that these area under control sections are coupled together basically, in order to basically fill equably a rectangular area.Described pipe can be hollow, in order to allow therein circulation heat transport fluid, but also can be used as the electrothermal conductor of sheath for the protection of section's extension within it.The major part of bow-shaped section 3 and all areas under control section 2 is arranged in identical plane.Form respectively the zone 4 of a projection at the middle part of each area under control section 2, the regions perpendicular of described projection protrudes upward in described plane earth.

Fig. 2 illustrates the heater in the Fig. 1 be assemblied on loading plate 5.Loading plate 5 is substantial rectangular, from the piece that cuts of plate cutting, the described piece that cuts is reinforced on two edges by the edge strip 6 folded.Be adjacent to isolate two row with another two edges and refer to that 7, two row refer to wrap respectively the bow-shaped section 3 of holding heater 1 from loading plate 5.Area under control section 2 on loading plate 5 basically freely, extend abreast with edge strip 6.Refer to 7 basically only on the direction vertical with loading plate 5 and area under control section 2 vertically on heater 1 is fixing.Vertically leave little freedom of motion abreast and with area under control section 2 with loading plate 6.

Fig. 3 illustrates the side view of loading plate 5 together with heater 1 and the evaporimeter 8 on loading plate to be assembled.Evaporimeter 8 comprises refrigerant pipe 9, described refrigerant pipe is from entering interface 10 out, at the distolateral evaporimeter 8 that enters towards the observer of evaporimeter, and that at first have with tight adjacent the first plane 11 of heater 1 in the area under control section 12 of the straight line that extends abreast with loading plate 5 with observer's direction of observation.On the side deviated from the observer of evaporimeter 8, the area under control section 14 of extending back the observer with plane 11 abreast, than described plane, in the plane 15 of heater, by bow-shaped section 13, be connected on the area under control section of described straight line.Pass the gap of the inclination of evaporimeter sheet 16, bow-shaped section 13 is visible.Gap makes possible, shifts sheet 16 onto bow-shaped section 13 by the side deviated from the observer from bow-shaped section with coming evaporimeter sheet 16 is assemblied on refrigerant pipe 9.Sheet 16 and other in the view of Fig. 3 by the sheet of described covering for example, with uniform interval, be fixed by welding on area under control section 12,14.By sheet 16, towards the observer outstanding bow-shaped section 17, area under control section 14 is connected with another area under control section 12 on plane 1.Therefore, along the refrigerant pipe in the layout of zigzag in side view, 11Zhong area under control, plane section 12 and 15Zhong area under control, plane section 14 are alternately.

In the example shown in this, exist another to plane 18,19, wherein the area under control section of other straight lines each other in succession, until the outlet link 20.The right quantity in plane can be also 1 or be greater than 2.

The zone 4 of the projection of heater 1 has the top 21 of rounding, and the top of described rounding embeds between Liang Ge area under control, nethermost plane section 12.The diameter of area under control section 2 corresponding on area under control section 12,14 with large quantity and with uniform interval the spacing between two evaporimeter sheets in fixing evaporimeter sheet 16, and the spacing between two area under control sections 2 is basically corresponding to the integral multiple of the spacing between described two evaporimeter sheets, thereby, when evaporator block 8 is placed on heater 1, all tops of heater 1 appear on two spaces between sheet.The spacing of the spacing of area under control section 2 and sheet 16 small deviation is each other carried out auto-compensation by the resilient movement of area under control section 2 when being placed on heater 1 by evaporator block 8.

Because the zone of projection 4 is at first only on little length between embedded chip 16, so be limited for required power between sheets 16 is inserted in zone 4.When inserting successfully, area under control section 2 is correctly located with respect to the space between sheet 16 respectively, thereby can evaporimeter 8 be pressed onto on heater 1 fully by the mode shown in Fig. 4.

In the configuration of Fig. 4, the lower limb backstop of evaporimeter sheet 16 is on loading plate 5, and may make an exception on the edge of area under control section 2(loading plate) all on its whole length, be clipped between sheet 16.The unlimited breach 22 in edge on the lower seamed edge of sheet only fraction is also shown in below the area under control of heater 1 section 2.The curved section 23 in the zone 4 of projection be close to the adjacent area under control section 12 on plane 11 and therefore area under control section 2 vertically on exactly fixedly evaporator block 8 with respect to the position of heater 1.

Fig. 5, again with the structure of three-dimensional view explanation evaporator assemblies, wherein only partly illustrates the major part of the sheet 16 of evaporimeter 8, so that the zone 4 of the projection of permission heater 1 is visible.In fact, all 16 as in Fig. 5 only for each as shown in distolateral sheet like that, on the whole width of evaporator block 8, extend.Space 31 between adjacent sheet 16 has respectively and the corresponding width of the diameter of area under control section 2, and between two spaces 31 of containing pipe section 2, one or more spaces 31 that do not comprise area under control section 2 is arranged.

The tectonic type on the plane based on evaporator assemblies, the evaporator assemblies of Fig. 5 is suitable for the use in no-frost refrigeration device well, the evaporator room that wherein holds evaporator assemblies for example be placed in a manner known way below the evaporator room top of apparatus body or two storage chambers between the horizontal interval wall in.

Fig. 6 illustrates evaporator assemblies at the storage chamber 25 of refrigerating appliance main body and the installation in pushing up the evaporator room 24 between 26 as schematic example.Ventilation blower 27 drives the inlet port of storage chamber 25 and the air circulation between outlet 28,29.The air stream of storage chamber inside with and with sheet 16 loading plates of heater 1, extend abreast, thereby although the space between the complete filler piece 16 of area under control section 2, they do not hinder air circulation.

Evaporator assemblies is assemblied in easily on downward-sloping rearwards direction, so that condensate water flows out and can be directed to known humidifier itself at that towards the rear wall 32 of body when thawing.According to the diagram of Fig. 6, can easily carry out, area under control section 2 is stopped up the space between sheet 16 downwards fully, and the zone 4 of described projection can stop the condensed water in the zone 30 in zone 4 of adjacent protrusions in space to flow out.Yet, this hinders the breach 22 on the lower limb of sheet 16, because through described breach, water commutates in the adjacent space of sheet 16 from zone 30, do not have area under control section 2 be arranged in described space and wherein water therefore can be freely on loading plate 5 lower limb towards loading plate flow out.

Claims

1. for the evaporator assemblies of refrigerating appliance, especially Domestic refrigerator, there is an evaporimeter (8) and defrosting, heater tubulose (1) for described evaporimeter (8), described evaporimeter comprises a refrigerant pipe (9) and a plurality of and described refrigerant pipe (9) sheet (16) in thermo-contact, it is characterized in that, described heater (1) arrange at least range selector ground (2) with described (16), contact.

2. evaporator assemblies according to claim 1, is characterized in that, in the space (31) of at least one section (2) of described heater (1) between two adjacent sheets (16), extends.

3. evaporator assemblies according to claim 2, is characterized in that, the described section (2) of described heater (1) contacts the sheet (16) in two described spaces of gauge (31).

4. according to the described evaporator assemblies of claim 2 or 3, it is characterized in that, described section (2) at least major part extends along the edge of described space (31).

5. according to the described evaporator assemblies of any one in claim 2 to 4, it is characterized in that, be fixed on a loading plate (5) upper, the described section (2) extended in the space (31) between two adjacent sheets (16) of described heater (1) is movably on described loading plate (5) described heater (1) range selector.

6. evaporator assemblies according to claim 5, it is characterized in that, described heater (1) has arcuate segments (3), and the described section (2) extended in the space (31) between two adjacent sheets (16) is interconnected described arcuate segments and described arcuate segments is fixed on described loading plate (5).

7. according to the described evaporator assemblies of claim 5 or 6, it is characterized in that, described heater (1) is by remaining on described loading plate (5) from the isolated finger of described loading plate (5) (7).

8. according to the described evaporator assemblies of any one in claim 2 to 7, it is characterized in that, described section (2) has the zone (4) of at least one projection, and described zone extend into described space (31) from edge.

9. according to the described evaporator assemblies of any one of the preceding claims, it is characterized in that, described refrigerant pipe (9) is arranged with described (16) with intersecting.

10. according to the evaporator assemblies claimed in claim 9 when quoting claim 8, it is characterized in that, the zone of described projection (4) are embedded between two area under control sections (12) that extend side by side of described refrigerant pipe (9).

11. evaporator assemblies according to claim 10, is characterized in that, the zone of described projection (4) contact the described area under control section (12) extend side by side.

12. according to the described evaporator assemblies of claim 10 or 11, it is characterized in that, described two area under control sections (12) that extend side by side are arranged in the same level (11) adjacent with the edge of described space (31) and are connected in series by the 3rd area under control section (14) each other, and described the 3rd area under control section is more farther from the described edge of described space (31) than described plane (11).

13. evaporator assemblies according to claim 12, is characterized in that, the top (21) of described raised areas (4) contacts described the 3rd area under control section (14).

14. according to the described evaporator assemblies of any one of the preceding claims, it is characterized in that, described evaporimeter (8) has inlet port and outlet (28 by one; 29) housing surrounds, and described inlet port and outlet are definite by the airflow direction of described evaporimeter (8), and the described section (2) of the contact described (16) of described heater (1) is orientated on described airflow direction.