DE102005021606A1 - The refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator (1) having at least one of a heat-insulating housing (4) surrounded interior (3), which is cooled by circulation of cooling air. Here, a serving for distribution of the cooling air cooling air passage (23) in a wall (27) of the heat-insulating housing (4) is arranged. The cooling air duct (23) is formed from a first, elongated duct part (25) and a plurality of identical, second duct parts (26), which are distributed along the first duct part (25) and a connection between the first duct part and air passage openings (37). in an interior container (8) surrounding the interior (3).

Description

The The present invention relates to a refrigerator with at least one of a heat-insulating casing surrounded interior, which is cooled by circulation of cooling air, being one for distribution the cooling air Serving cooling air duct in a wall of heat-insulating casing runs.

Such a refrigerator is out of the DE 39 32 459 C2 known. In this refrigeration device, a cooling air channel serving to distribute the cooling air over a plurality of refrigeration compartments is arranged in a rear wall of the heat-insulating housing of the refrigeration appliance. The in 1 and 2 with the reference number 27 designated cooling air duct 27 is arranged by a in the rear wall of the heat-insulating housing and in the 8th and 9 presented as a single part trough-shaped part 28 formed, which abuts with its open side from behind against the rear wall of the individual cold compartments enclosing inner container and there corresponds with corresponding outlet openings. The molding 28 has a very complex structure and is therefore expensive to manufacture.

Of the The present invention is therefore based on the object, a refrigeration device of the initially mentioned type with a built-in wall of the housing cooling air duct to create, which has a simple structure, so that the refrigeration device produced inexpensively can be.

The Task is solved with a refrigeration device according to claim 1. The dependent ones claims refer to preferred embodiments.

Therefore is a refrigeration device with at least one from a heat-insulating casing surrounded interior, which is cooled by circulation of cooling air, one for the distribution of the cooling air Serving cooling air duct in a wall of heat-insulating casing runs. According to the invention Cooling air duct from a first elongated channel part, for example one Pipe, and a plurality of identical, second channel parts formed, which are distributed along the first channel part and a Connection between the first channel part and air passage openings in manufacture an inner container surrounding the interior.

This makes it possible to create cooling air ducts for different models of refrigeration appliances by combining first channel parts, which have different lengths and positions and numbers of locations for assembling the second channel parts, with several second, mutually identical channel parts that can be used across models are. This manufacturing costs can be reduced. It is no longer necessary, for different refrigeration models, which differ for example in the number and arrangement of the air passage openings in the inner container, each completely different moldings to manufacture, which also, such as in the DE 39 32 459 C2 for the cooling air duct 27 shown to have a complex shape.

Preferably is the first channel part formed from a tube, which at a junction with one of the second channel parts in its pipe wall has a passage opening for the cooling air. Particularly preferably, the tube has a circular cross-section. This is inexpensive in production and allows a simple design of the connections of the first channel part with the second channel parts. However, it is also possible to use a pipe with square, for example square cross-section, provide.

at the refrigerator according to the invention are the second channel parts preferably formed of rigid foam. advantage of this is that it is a lightweight material that economical is in production. In addition, it has good heat insulating properties. Particularly preferred is expanded as a material for the second channel parts Polystyrene (Styrofoam) used. This material is most of the time for the foaming of the heat-insulating housing used polyurethane foams well wetted.

Preferably the second channel parts surround the first channel part over its entire circumference. This results in a high mechanical stability of the compounds between the first channel part and the second channel parts. This is particularly important if the second channel parts from a foamed Material made only relatively low mechanical strength are.

at the refrigeration device according to the invention comprises the cooling air duct Preferably, a third channel part, which is a connection between the first channel part and the inner container manufactures and on an open End of the first channel part is plugged. Thus, the third Channel part not just a connection between the first channel part and air vents in the inner container but can be used at the same time, the open end to seal the first channel part foam-tight.

Preferably, the third channel part has a recess for receiving the open end of first channel part, wherein by removing a bottom of the recess, the third channel part is convertible into the second channel part. That is, in the second channel part missing the bottom in the recess. Thus, the first channel part can be inserted with a free end into the recess of the second channel part and passed through it, so that a crossing arrangement of the first channel part and second channel part is possible, ie the second channel part can be threaded onto the first channel part, so to speak. Preferably, the bottom of the recess is limited by predetermined breaking points. Thus, during assembly of the cooling air duct, the bottom of the recess can be broken out in a simple manner, thus obtaining the second duct part. The advantage of this is that only one channel part has to be manufactured, which embodies both the third channel part and the second channel part in itself.

at has the refrigeration device according to the invention the inner container Foam side preferably on formations that the position of the second Channel parts and possibly the third channel part with respect to the inner container establish. With that you can while foaming of the housing of the refrigerator the second Channel parts or the third channel part in a simple manner in the desired Location to the inner container being held. Around the channel parts are circumferential projections particularly advantageous as these prevent during the foaming Insulating foam between the inner container and the second channel part could enter, which could enforce the air passage openings in the inner container.

Preferably each of the second channel parts feeds at least two air passage openings in the inner container, the transverse to the longitudinal direction of the first channel part are spaced from each other. This allows a Distribution of cooling air over the entire width of the interior of the refrigerator.

at the refrigerator according to the invention are the Air passage openings in the inner container preferably oriented in two different directions. Thus, can the cooling air blown out in different directions. This is the Possibility, even at a small distance of the transverse to the longitudinal direction of the first channel part arranged air passage openings the cooling air over the to distribute the entire width of the interior of the refrigerator. In different Oriented air passage openings can be created, for example be, by a wall portion of the inner container, the air passage openings comprises curved in the horizontal direction towards the interior or bent is designed.

Preferably each of the second channel parts has air passage openings on, the air vents in the inner container assigned and of a surface on the inner container adjacent wall of the second channel part are limited. This embodiment has over one embodiment, at the second or third channel part to the inner container open, a higher one Rigidity. The definition of the second channel parts or the third Channel part on the inner container for foaming of the housing of the refrigerator is thereby simplified.

at has the refrigeration device according to the invention the first channel part in its wall preferably predetermined breaking points for breaking out air passage openings. This makes possible, the first channel part for to use different types of refrigeration appliances and air passage openings from the first channel part as required break out.

at the refrigeration device according to the invention is it is preferably a refrigeration device in no-frost technology, preferably designed as a household refrigeration appliance is. This can be a cooling or freezer or a so-called refrigerator / freezer combination device.

Further Embodiments and advantages of the present invention are disclosed in Below with reference to various embodiments of the present Invention explained. Showing:

1 a vertical section through a first embodiment of a refrigerator according to the invention 1 with one in a housing wall 27 integrated cooling air duct 23 ;

2 a horizontal section through the in the housing wall 27 integrated cooling air duct 23 ;

3 a look at the housing wall 27 from the interior 3 of the refrigeration device 1 from 1 seen from;

4 a first channel part 25 in lateral view;

5 a third channel part 28 in plan view;

6 a section through the third channel part 28 out 5 according to a section line AA;

7 one of the 2 corresponding section in a refrigeration device 1 according to a second embodiment of the present invention;

8th a section along a section line BB from 7 ;

9 one of the 2 corresponding section in a refrigeration device 1 according to a third embodiment of the present invention;

10 one of the 2 corresponding section in a refrigeration device 1 according to a fourth embodiment of the present invention;

The vertical section of the 1 shows as an example of a refrigerator according to the invention 1 a household refrigeration appliance 1 in no-frost technique. The refrigeration device 1 includes two interiors 2 and 3 in a heat-insulating housing 4 arranged and two separate and also heat-insulating doors 5 and 6 are accessible. The above arranged room 2 is as a freezing room 2 and the room below 3 as a refrigerator 3 educated. The interiors 2 and 3 are from inner containers 7 and 8th formed, which are formed of plastic boards. Between a sheet metal outer container 9 and the inner container 7 and 8th is a heat-insulating foam 10 brought in.

The refrigeration device 1 is equipped in a known manner with a compressor-cooling unit, of whose individual components here for the sake of simplicity only in a machine room 60 in a lower, rear area of the refrigerator 1 the heat-insulating housing 4 arranged refrigerant compressor 61 and a refrigerant evaporator 16 are shown. The evaporator 16 is in a chamber 14 in one between the inner containers 6 and 7 located heat insulating intermediate floor 12 arranged.

For cooling the interiors 2 and 3 is via channels 17 and 18 Air from the interiors 2 and 3 sucked in and over in the chamber 14 located evaporator 16 where it is cooled and dried. The cooled and dried cooling air is on the one hand in an upwardly leading cooling air duct 20 ejected and passes from there through exhaust openings 21 in the inner container 7 in the interior 2 , On the other hand, that of the evaporator 16 cooled and dried cooling air in one to the interior 3 down leading cooling air duct 23 pushed out.

The control of the cooling air supply to the interiors 2 and 3 takes place in a known manner via thermostats and flaps, which are not shown here. A heater, also not shown, is in the false floor 12 for deicing the evaporator 16 available.

The to the interior 3 leading cooling air duct 23 is from a first, elongated channel part 25 , here a vertically arranged pipeline 25 , and a plurality of identical, second channel parts 26 formed along the first channel part 25 are arranged and cross this. With her lower, open end 29 is the pipeline 25 in a third channel part 28 plugged in. The second channel parts 26 and the third channel part 28 are horizontally aligned and connect the pipeline 25 with in the inner container 8th located air passage openings 37 that are here as exhaust openings 37 act for the cooling air. The exhaust openings 37 are located at different heights of the interior 3 so that the cooling air is even over the entire interior 3 can be distributed. This is particularly important if continuous support plates for refrigerated goods vertical air exchange in the interior 3 hinder. The pipeline 25 as well as the second channel parts 26 and the third channel part 28 are in the back wall 27 of the housing 4 in heat-insulating foam 10 embedded.

The pipeline 25 owns, like out 2 can be seen, a circular cross-section. However, it is also conceivable deviating from the illustrated embodiment, a pipeline 25 to provide with a rectangular, for example square cross-section. As material for the pipeline 25 For example, plastic can be used. This allows the pipeline 25 are manufactured inexpensively and also has a low weight.

The second channel parts 26 and the third channel part 28 are, as in 1 shown, designed in two parts. They each include a lower shell 30 and an upper shell 31 , each of hard foam, for example, expanded polystyrene, molded and foam-tight, for example, by gluing or sticking, are interconnected.

2 shows a horizontal section through one of the second channel parts 26 from 1 , To the second channel part 26 with the pipeline 25 to be able to connect, has the second channel part 26 a recess 33 , here in the form of a through hole 33 into which the pipeline 25 is inserted. This encompasses the second channel part 26 the pipeline 25 over its entire circumference, resulting in a high stability of the connection between the two parts. Notwithstanding the illustrated embodiment with a pipe 25 receiving through hole 33 , It is also possible, for example via latching or clamping means, the second channel part 26 on the pipeline 25 to fix.

At the height of every second channel part 26 owns the pipeline 25 in its wall air passage openings 34 in a room 35 of the second channel part 26 lead to the distribution of the cooling air to the exhaust openings 37 in the inner container 8th serves. The space 35 is transverse to the longitudinal direction the pipeline 25 , ie in its width, dimensioned so that the second channel part at least two air passage openings 37 in the inner container 8th feeds, transversely to the longitudinal direction of the pipeline 25 are arranged. Notwithstanding the illustrated embodiment, it is also possible, three or more air passage openings 37 with a second channel part 26 to dine.

As 2 further shows, lies the second channel part 26 with one the room 35 final wall 38 directly on a wall section 39 of the inner container 8th at. In the wall 38 of the second channel part 26 there are air vents 40 connected to the air vents 37 in the inner container 8th correspond. The wall 38 of the second channel part 26 and the wall section 39 of the inner container 8th are in horizontal direction to the interior 3 formed curved towards. Through to the interior 3 bent shape of the wall section 39 are the exhaust holes 37 in the inner container 8th oriented in two different directions so that the cooling air is blown out in different directions. Thus, there is the possibility of the cooling air even at a small horizontal distance of the exhaust openings 37 in the inner container 8th over the entire width of the interior 3 of the refrigeration device 1 to distribute.

At the edges of the wall section 39 of the inner container 8th there are moldings on the foam side 42 in the form of circumferential projections 42 for positioning and fixing the second channel part 26 on the inner container 8th during the foaming of the housing 4 with insulating foam 10 serve. In addition, prevent the circumferential projections 42 that when foaming the housing 4 foam 10 in the space between the inner containers 8th and the adjacent wall 38 of the second channel part 26 can reach the exhaust openings 37 and air vents 40 could close.

3 shows a view of the inner container 8th from the interior 3 seen in one opposite the 2 reduced view. To recognize here are the exhaust openings 37 in the inner container 8th , each in pairs at different heights of the inner container 8th are arranged. The broken lines show the circumferential projections 42 at the the foam 10 facing rear wall of the inner container 8th ,

The limits of the horizontal extent of the interior 3 bent wall section 39 of the inner container 8th are with the reference number 43 designated.

The inner container 8th can be made for example by deep drawing a plastic board, wherein the exhaust openings 37 be cut out by punching.

4 shows a side view of a pipeline 25 , among other things, for installation in a refrigeration device 1 according to the preceding 1 to 3 is determined. The pipeline 25 has in its wall a plurality of circular notches 44 . 44 ' on, which generate predetermined breaking points on the pipe wall. By breaking out of the notches 44 . 44 ' surrounded, circular wall sections 45 . 45 ' from the pipe wall, the in 2 shown air passage openings 34 in the pipeline 25 be created and thus one or more places, where in each case a second channel part 26 or the third channel part 28 foam-tight and can be mounted continuously for the cooling air. The set of notches 44 and the set of notches 44 ' are considered offset over the tube circumference. In 4 is the angle between both sets of notches 44 and 44 ' in about 90 °. In addition, the notches 44 in the longitudinal direction of the pipeline 25 , ie here in the vertical direction, with a greater distance in the pipeline 25 introduced as the notches 44 ' , This makes it possible, this type of piping 25 for several different models of refrigeration appliances, where the exhaust openings 37 are arranged in the vertical direction at different distances from each other.

For installation of the cooling air duct 23 in the refrigerator 1 according to the 1 to 3 will be out of the 4 illustrated pipeline 25 the circular wall sections 45 broken out to the in 1 and 2 shown air passage openings 34 to accomplish. If necessary, the pipeline is 25 to shorten in length.

Instead of a pipeline 25 with predetermined breaking points, as in 4 can also be shown a pipeline 25 be used in accordance with the vertical distance of the exhaust openings 37 in the inner container 8th Air passage openings 34 be punched out of the pipe wall.

In the 5 and 6 is the third channel part 28 shown in more detail. This is how 1 points to the lower, open end of the pipeline 25 attached. It shows the 5 the third channel part 28 in plan view and the 6 in a section along a section line AA of 5 , The third channel part 28 has the same structure as the one in 2 in a sectional view shown in detail second channel part 26 , Unlike the second channel part 26 includes the recess 33 of the third channel part 28 a floor 47 , the recess 33 closes foam-tight downwards. The recess 33 is thus as a circular blind hole 33 designed, in which the open end 29 the pipeline 25 turned is infected. Through notches 48 , the predetermined breaking points between the ground 47 and the remaining third channel part 28 can form the ground 47 be easily removed by breaking out. This allows the third channel part 28 in a simple way in the second channel part 26 be transferred. By removing the soil 47 creates a through hole 33 through which the pipeline 25 can be pushed through.

As 6 further shows the lower shell 30 and the upper shell 31 complementary formed formations 32 and 36 on, so the bowls 30 and 31 be easily connected by plugging together.

The installation of the cooling air duct 23 in the refrigerator 1 to 1 is done by first from the in 4 shown pipeline 25 the wall sections 45 be broken out to the in 1 and 2 illustrated air passage openings 34 to accomplish. Next, the second channel parts 26 on the pipeline 25 assembled. This is the pipeline 25 in the through holes 33 the second channel parts 26 pushed in and the second channel parts 26 then at the height of the air passage openings 34 arranged. The lower, open end of the pipeline 29 gets into the blind hole 33 of the third channel part 28 plugged in. Subsequently, the second channel parts 26 and the third channel part 28 by means of the projections 42 on the back wall of the inner container 8th positioned and the cavity between the inner container 8th and the outer container 9 of the refrigeration device 1 with heat insulating foam 10 filled. This is the pipeline 25 , the second channel parts 26 and the third channel part 28 in the foam 10 firmly embedded and determined in their position. Of course, there is also the option of initially the second channel parts 26 and the third channel part 28 on the back wall of the inner container 8th at the projections 42 to assemble and then the pipeline 25 through the through holes 33 the second channel parts 26 through and the open end 29 the pipeline 25 in the blind hole 33 of the third channel part 28 insert.

Notwithstanding the in 1 illustrated embodiment, in which in the pipeline 25 at the height of the third channel part 28 an air passage hole 34 is introduced, there is also the possibility of what is in 4 shown in broken line, the pipeline 25 at its lower end 29 obliquely separate to allow air to pass from the inside of the pipeline 25 to the third channel part 28 to accomplish.

Notwithstanding the in 1 illustrated embodiment, it is also possible, which is not shown, the cooling air passage 23 without the third channel part 28 to form, by only identical, second channel parts 26 along the pipeline 25 be arranged distributed, with the lower, open end 29 the pipeline 25 remains free. This can be closed foam-tight by a lid or plug, etc., so that when foaming the housing 4 no foam 10 into the pipeline 25 can penetrate.

The 7 and 8th show a second embodiment of the present invention. It shows the 7 one of the 2 corresponding sectional view, whereas 8th a section according to the in 7 indicated section line BB shows. In this second embodiment, the second channel parts comprise 26 and, if present, the third channel part 28 also like in the 2 shown, the first embodiment, a wall 38 , which is the back wall of the inner container 8th is facing. Unlike the in 2 illustrated, the first embodiment comprises the wall 38 but only one air passage opening 40 in the form of a long hole 40 , This is easier to manufacture and does not require as high a fit accuracy as two air vents 40 in their position and shape to the exhaust openings 37 in the inner container 8th need to be adjusted.

The 9 shows a third embodiment of the present invention. In this is the room 35 the second channel parts 26 or the third channel part 28 to the inner container 8th open, ie it is not the room 35 closing to the front and the inner container 8th adjoining wall 38 present, as in the first and second embodiments according to the 2 and 7 . 8th the case is. Thus, these channel parts are easier to manufacture and therefore less expensive.

10 shows one of the 2 . 7 and 9 corresponding sectional view of a fourth embodiment of the present invention. In this fourth embodiment, the first channel part 25 in the form of a gutter 25 formed with its open side on the rear wall of the inner container 8th is applied. In the illustrated embodiment has the channel 25 a semicircular cross section.

The second channel parts 26 and possibly the third channel part 28 are formed as cup-shaped moldings, which also like the gutter 25 with its open side on the rear wall of the inner container 8th issue. Again, foam-side moldings serve 42 or projections 42 on the inner container 8th for positioning and fixing the second channel parts 26 or the third channel part 28 on the inner container 8th ,

The gutter 25 has in its wall Öffnun gene 34 through, through the dried and cooled cooling air from the inside of the gutter 25 in one of the second channel part 26 or third channel part 28 enclosed space 35 arrives. From this, the cooling air through two air passage openings 37 in the inner container 8th in the interior 3 blown out. The air vents 37 or exhaust openings 37 are transverse to the longitudinal direction of the gutter 25 spaced apart.

The second channel parts 26 or the third channel part 28 each include a floor 50 and a not visible in the illustrated sectional view ceiling, in each of which recesses 33 with semicircular cross section for receiving the gutter 25 located with their open side to the inner container 8th are facing. In the possibly existing third channel part 28 is the lower recess 33 closed at the bottom by a foam-tight bottom. By breaking out of this soil, the third channel part 28 in the second channel part 26 be transformed.

In the embodiments described above, the first channel part 25 and a plurality of second channel parts 26 and possibly a third channel part 28 formed cooling air duct 23 It's used by the evaporator 16 dried and cooled cooling air into the interior 3 of the refrigeration device 1 respectively. However, it is also conceivable from the channel parts shown 25 . 26 and possibly 28 to form a channel, which serves, heated, moist air from the interior 3 of the refrigeration device 1 to the evaporator 16 respectively. Such a channel could, for example, in a side wall of the refrigerator 1 be integrated, as for example in the DE 39 32 459 C2 in which the heated air to the evaporator recirculating channel 26 the case is.

Claims (14)

Refrigeration appliance ( 1 ) with at least one of a heat-insulating housing ( 4 Surrounded interior ( 3 ), which is cooled by circulation of cooling air, wherein a cooling air channel for distributing the cooling air ( 23 ) in a wall ( 27 ) of the heat-insulating housing ( 4 ), characterized in that the cooling air duct ( 23 ) from a first elongate channel part ( 25 ) and a plurality of second channel parts ( 26 ) formed along the first channel part ( 25 ) and a connection between the first channel part ( 25 ) and air passage openings ( 37 ) in one the interior ( 3 ) surrounding inner container ( 8th ) produce. Refrigerating appliance according to claim 1, characterized in that the second channel parts ( 26 ) are formed at least substantially identical. Refrigeration appliance ( 1 ) according to claim 1 or 2, characterized in that the first channel part ( 25 ) from a pipe ( 25 ) formed at a junction with one of the second channel parts ( 26 ) in its tube wall a passage opening ( 34 ) for the cooling air. Refrigeration appliance ( 1 ) according to one of claims 1, 2 or 3, characterized in that the tube ( 25 ) has a circular cross-section. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that the second channel parts ( 26 ) are formed of rigid foam. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that the second channel parts ( 26 ) the first channel part ( 25 ) over the entire circumference of the first channel part ( 25 ) embrace. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that a third channel part ( 28 ), which establishes a connection between the first channel part ( 25 ) and the inner container ( 8th ), to an open end ( 29 ) of the first channel part ( 25 ) is attached. Refrigeration appliance ( 1 ) according to claim 7, characterized in that the third channel part ( 28 ) a recess ( 33 ) for receiving the open end ( 29 ) of the first channel part ( 25 ), and that the third channel part ( 28 ) by removing a soil ( 47 ) of the recess ( 33 ) into a second channel part ( 26 ) is deformable. Refrigeration appliance ( 1 ) according to claim 8, characterized in that the ground ( 47 ) is limited by predetermined breaking points. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that the inner container ( 8th ) foam-side moldings ( 42 ), the position of the second channel parts ( 26 ) with respect to the inner container ( 8th ) establish. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that each of the second channel parts ( 26 ) at least two air passage openings ( 37 ) in the inner container ( 8th ), which is transverse to the longitudinal direction of the first channel part ( 25 ) are spaced from each other. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that the air passage openings ( 37 ) in the inner container ( 8th ) are oriented in two different directions. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that each the second channel parts ( 26 ) Air passage openings ( 40 ), which the air passage openings ( 37 ) in the inner container ( 8th ) and from a surface on the inner container ( 8th ) adjacent wall ( 38 ) of the second channel part ( 26 ) are limited. Refrigeration appliance ( 1 ) according to one of the preceding claims, characterized in that the first channel part ( 25 ) in its wall predetermined breaking points for breaking out of air passage openings ( 34 ) having.