EP1431670A2 - Housing for a cooking device - Google Patents

Abstract

The housing (2) has a housing wall with at least one air guide element (26,28) in an outer surface (30) of the housing wall for guiding air along the outer surface. The air guide element can be a web-like raised formation in the outer surface of the housing wall or a formation of the housing wall. The guide element forms the highest protrusion from the housing wall at least along most of its length. AN Independent claim is also included for the following: (a) a cooking device with an inventive housing.

Description

The invention is based on a housing for a cooking appliance according to the preamble of claim 1.

Inside a cooking appliance, such as a pyrolysis stove, temperatures can be of 500 ° C and more can be achieved. To a large heat transfer from cooking appliance to prevent adjacent kitchen furniture is known Cooling air to lead around an inner insulation of the cooking appliance. So in EP 0 176 223 A2 discloses a stove in which with the help of a fan cool air between an inner and an outer housing wall is blown. From DE 23 49 388 B2, a stove is known in which cooling air is sucked by a fan and this cooling air before reaching the fan on a side wall of the stove along flows. In these solutions, the cooling air sweeps very unevenly at the Area of the housing wall along, so that some areas well and some Areas less well cooled. In the areas with less good cooling There may be an undesirable heat transfer from the cooking appliance to an adjacent Kitchen furniture come.

The object of the invention is to develop a generic housing, in particular with regard to an effective, targeted and metered Steering of cooling air along the wall of the housing.

The object is achieved by the features of claim 1 solved, while advantageous embodiments and modifications of the invention can be taken from the dependent claims.

The invention is based on a housing for a cooking appliance with a housing wall.

It is proposed that the housing at least one in an outer surface of the Housing wall disposed air guide element for guiding air along the Having outer surface. Air flowing along the outer surface of the housing wall can be effectively steered and targeted by the shape of the air guide element be dosed. The air guide element influences the air during the flow along the outer surface with respect to its flow direction and flow intensity. As a housing wall is understood an outer wall of the housing, wherein the housing has no further wall outside this housing wall. The Housing wall may have a side wall of the housing, a rear wall and / or a Be the bottom plate of the housing. It is also possible that the housing wall through an upper cover of the cooking appliance is formed.

A cooking appliance, in particular a built-in cooker, is usually between kitchen furniture or integrated into a kitchen furniture, wherein the housing of the cooking appliance to its bottom from the floor, at the back of a wall or furniture panel and on its two lateral outer walls each of furniture panels is adjacent. Between the housing and the furniture panels or the floor or the wall is an air space, for the targeted circulation of cooling air around the walls of the housing can be used. By using this airspace For cooling the housing, a compact design of the cooking appliance or additional space for a particularly effective heat insulation achieved be due to an internal device cooling with a cooling air flow between two Housing walls can be omitted. That in an outer surface of a housing wall arranged air guide element guides the cooling air targeted to the outer surface the housing wall to those places where a cooling special is effective.

The housing wall is a cooking appliance or the housing to the outside final Wall, wherein the housing outside this housing wall no further Wall has. The housing wall may have a side wall of the housing, a Be the back wall and / or a bottom plate of the housing. It is also possible that the housing wall is formed by an upper cover of the cooking appliance.

In an advantageous embodiment of the invention, the air guide element forms a web-like elevation in the outer surface of the housing wall. This can be the outer surface of the housing wall along flowing air particularly effective over larger distances or surfaces are guided along the outer surface. The air guide element can be implemented as an ascending element through which the Air is guided at least partially in the vertical direction, for example obliquely from top to bottom or vice versa. It is also possible that the air guide element vertically aligned or curved.

A particularly simple and inexpensive design of the air guide element is achieved by the air guide element is a shape of the housing wall. The molding may be embossed in a metal sheet forming the housing wall, or be a thickening or by another contour shape of the housing wall come about. The air guide element and the housing wall are thus made in one piece. The production of the air guide element by a simple Shaping step in the manufacture of the housing wall is particularly simple. In addition, can be dispensed with an additional part, causing the assembly of the housing is easy to perform.

Advantageously, the air guide element forms over at least the largest part its length, the most outwardly projecting elevation of the housing wall. Such an air guide element lies in the installed state of the housing directly or with only a very small air gap at one of the Housing wall adjacent furniture panel. A stream of air around the outside Air guide element around is thus not possible or only to a small extent. It can be a complete or extensive separation of two between the Housing wall and a furniture panel located air areas can be achieved. Cooling air streams are thus specifically targeted steerable.

Conveniently, the housing wall is a side wall of the housing, and the Air guide element extends over at least three quarters of the vertical extent the side wall. A targeted airflow over the whole or essentially total vertical extent of the sidewall can be achieved.

In a further embodiment of the invention, the housing wall is a side wall of the housing, and the air guide element extends into a region up to 10 cm away from a lower edge of the sidewall. Around Air flowing around edge, for example, from a space below a bottom plate the cooling air flowing out of the housing can, after flowing around the edge and reaching the airspace adjacent to the side wall directly or very much quickly guided by the air guide element along the side wall. The air guide element thus extends almost to the lower edge the side wall, wherein for manufacturing reasons, a distance of up to 10 cm may be desirable.

Advantageously, the housing comprises a bottom plate and an upper portion which is provided for maintaining a negative pressure by means of a fan, wherein the air guide element for guiding air from a below the floor plate arranged space is provided in the upper area. This can be a particularly effective cooling of the upper area can be achieved. A good cooling efficiency is reached by cool air. Cool air is in the lower front Area around the housing available. This air can be essential without them doing so is heated, sucked into a space arranged under the bottom plate become. The cool air is conveniently from the front to the area below the Soil plate sucked in. By steering the air through the air guide element to the upper area is effectively cooling air in the upper area directed to cooling. The air guide element is expediently on formed a side wall or rear wall, where the air on its way from Space flows below the bottom plate in the upper area along.

Advantageously, the housing comprises a front side, a side wall and a bottom plate, wherein the air guide element in the outer surface of the bottom plate is arranged and for guiding air from the front to the side wall is provided. The bottom plate may include feet or other spacers, the floor plate at a desired distance from a standing surface like to hold a floor or furniture element. Under the bottom plate is thus a space between the stand and floor plate arranged. in this area Cool air can be absorbed. By the arrangement of the air guide element in the outer surface of the bottom plate, this air can be targeted to one or both Side walls and there specifically directed into desired areas.

The air guide element and the feet of the bottom plate or the spacer elements may be the same or substantially relative to an outer surface of the bottom plate have the same elevation. This is the air guide element directly or very close to the floor or one arranged below the bottom plate Furniture panel on. Air from the front area below the Bottom plate can thus not below the air guide element into a Flow space behind the air guide element. It can be a complete or im Substantially complete diversion of the air through the air guide element to Side wall can be achieved.

In an alternative embodiment of the invention, the bottom plate has a spacer element for spacing the bottom plate from a standing surface, wherein the air guide element forms a protrusion in the outer surface of the bottom plate, which at least partially protrudes less far outward than the Abstandselernent. A bottom plate usually has an at least in areas flat outer surface on. This outer surface is defined by the spacers, for example feet, kept at a desired distance to a standing surface. By protruding the air guide element at least partially less far over this outer surface To the outside as the spacer element, for example, air from the front of the housing under the bottom plate and from there between the air guide element and flow backwards through the base. The relationship from below the air guide element passing air and the air guide element Air directed to another area depends on the size and height of the air guide member relative to the outer surface of the bottom plate. This height can be targeted for the adjustment of cooling air flows around the housing be used.

A particularly good cooling of the back of the housing can be achieved at the back two back walls with an intermediate back space arranged to guide an airflow from a space below the bottom plate are provided upwards. The movement of the air is expediently carried out from bottom to top and can be through a fan or through thermals be effected.

Advantageously, the housing includes an upper portion for maintaining a negative pressure is provided by means of a fan, as well as openings, which connect the back room with the upper area. The upper area can be - except for vents - wholly or substantially completely closed Be a room in which by a fan, a negative pressure relative to the environment of the upper Area can be created and maintained. Through openings that the back space connect with the upper area, can specifically a cooling air flow from the Rear space to be set in the upper area.

Advantageously, the back space extends over more than half of the back out. As a result, a large-area cooling of the back of the housing can be achieved become.

In a further embodiment of the invention, the housing comprises an upper Area designed to maintain a negative pressure with the help of a fan is, as well as a front and one from the top to the front directed exhaust duct with an opening arranged in the front. heated Air can be blown from the upper area through the mouth targeted be, the air can also be applied to vapors. By the Sucking in the cooling air in the lower area, especially in the space below the bottom plate, and the blowing out of the hot air from the upper area can one Mixing of the hot air flow with the cold air flow and thus a heat short circuit be avoided.

The above object is also achieved according to the invention by the features of claim 13. In this alternative, the invention of a Housing for a cooking appliance with a housing inner wall and a housing outer wall out. It is suggested that the housing at least one as a molding the housing inner wall or the housing outer wall ausgestaltetes air guide element includes. Air flowing along an area of a housing wall can be effectively steered and targeted by the shape of the air guide element be dosed.

The above-described embodiments of the above invention can be understood apply the same advantages to this alternative of the invention.

Further advantages emerge from the following description of the drawing. In the Drawing is an embodiment of the invention shown. The drawing, the Description and claims contain numerous features in combination. The expert will expediently consider the features individually and to summarize meaningful further combinations.

Fig. 1:

eine isometrische Ansicht eines Gehäuses für einen Herd,

Fig. 2:

eine Seitenansicht auf das Gehäuse,

Fig. 3:

eine Draufsicht auf das Gehäuse ohne Geräteabdeckhaube,

Fig. 4:

einen Schnitt durch den vorderen Teil einer Seitenwand des Gehäuses gemäß der Linie IV-IV in Fig. 2.

Show it:

Fig. 1:

an isometric view of a housing for a stove,

Fig. 2:

a side view of the housing,

3:

a top view of the housing without Geräteabdeckhaube,

4:

a section through the front part of a side wall of the housing along the line IV-IV in Fig. 2nd

Fig. 1 shows a housing 2 of a cooker in a simplified isometric view. The housing 2 comprises a side wall 4, a bottom plate 6, a side wall 8 opposite the side wall 4, a first rear wall 10 and a second rear wall 12, a Geräteabdeckhaube 14 and a fan base plate 18. The device cover hood 14 surrounds together with the
Fan base plate 18 an upper portion 16 in which a fan 20 is arranged.

The bottom plate 6 has four embossed spacers 22, which as Deformations serve for the bottom plate 6 and the one outer surface 30th keep the bottom plate 6 from a furniture 24 (Figure 2) spaced. Furthermore the bottom plate 6 on an air guide element 26, which as an expression of the bottom plate 6 is designed to the outside. From the Side wall 4 is another air guide element 28 by an embossment worked out in the side wall 4. Both air guide elements 26, 28th project bar-like over the outer surface 30 of the bottom plate 6 and an outer surface 32 of the side wall 4 addition.

When installing the housing 2 in the furniture 24 (Figures 2 to 4) the air guide element 28 very close to the furniture 24 or the furniture 24 at. As a result, a side wall channel 34 is formed, which is adjacent to the front to the air guide element 28 and between the side wall 4 and the furniture 24 is arranged. The air guide element 28 extends over the most of the vertical extent of the side wall 4 and ends after down about 3 cm above a lower edge 38 of the side wall 4. The sidewall channel 34 extends over the entire vertical length the side wall 4 of a space 36 below the bottom plate 6 to the upper area 16 (Figure 2). During operation of the cooking appliance, the Fan 20 are put into operation. It generates within the device cover hood 14 in the upper region 16 of the housing 2 a negative pressure relative to the environment of the device cover hood 14. By the negative pressure Air is through various recesses in the Geräteabdeckhaube 14th sucked into the upper region 16, whereby more the housing. 2 circulating air flows are caused.

The air streams suck a cooling air flow m at the front of the housing 2 between the bottom plate 6 and the furniture 24 in the space 36 below the bottom plate 6 at. This space 36 is bounded at the top by the bottom plate 6 and down through the furniture 24. The cooling air flow m bounces on the transverse web-like air guide element 26 in the lower outer surface 30 of the bottom plate 6 and is guided by the air guide element 26 partially to the right and left to the side walls 4, 8. A first cooling air flow m ₁ is directed in this way along the air guide element 26 and the outer surface 30 of the bottom plate 6 to the lower edge 38 of the side wall 4 and the lower edge of the side wall 8. The side walls 4 and 8 are made the same, with only the side 4 being drawn in detail in FIG. 1 for the sake of clarity.

The first cooling air flow m ₁ flows around the edge 38 and enters the side wall duct 34. The air guide element 28 is provided for guiding the first cooling air flow m ₁ from the space 36 arranged under the bottom plate 6 into the upper region 16. The first cooling air flow m ₁ flows through the side wall channel 34 and is sucked through openings 40 in the device cover hood 14 in the upper region 16 within the device cover hood 14. A second arm of the first cooling air flow m ₁ is passed through the air guide element 26 to the side wall 8 and flows there through a side wall channel, not shown, which is formed symmetrically to the side wall channel 34. By not shown openings in the device cover hood 14, this second arm of the first cooling air flow m ₁ also flows into the upper region 16. The two arms of the first cooling air flow m ₁ overflow switch front elements 42, which are cooled by the cooling air flow m ₁ . By this cooling of the switch front elements 42, electronic assemblies can be used in the switch front elements 42 with low temperature resistance, whereby the switch front elements 42 can be produced inexpensively. Subsequently, the first cooling air flow m _{1 is} sucked in by the fan 20. The fan 20 pushes the air flow through an exhaust duct 44 which is directed to the front of the housing 2 and below the switch surface 46 has an opening 48 out (Figure 2).

At the front edge of the side wall 4, a hearth side profile is arranged, which is referred to below as Lisene 50. The Lisene 50 limits the insertion of the housing 2 in the furniture 24 and is located with an edge at the top and bottom of the furniture 24 (Figure 2 and Figure 4). In the central region of the vertically oriented Lisene 50 the Lisene 50 is cut back a bit, so that between the furniture 24 and the Lisene 50 an opening 52 is formed. Through this opening 52, a second cooling air flow m ₂ directly from the area in front of the housing 2 over the entire length of the side wall channel 34 in the side wall channel 34 to flow (Figure 1 and 4). He joins there with the first cooling air flow m ₁ and is sucked to the fan 20. By the second cooling air flow m ₂ , the lateral end edges of the furniture 24 are kept cool.

A cross-section through the sidewall channel 34 is shown in FIG. figure 4 shows the side wall 4 with the air guide element 28, a wall of the Furniture 24, a door 54 with a front glass pane 56, an oven area 58 and an oven insulation 60. Between the furniture 24 and the Air guide element 28 is a small slot arranged in which an elastic Distance element 62 is arranged. Through another spacer element 64, the side wall 4 is deformed in the direction of Furniture 24 prevented. In addition, the spacers 64 hold the sidewall 4 at a predetermined distance to a housing inner wall 68. The spacer elements 62, 64 are made of a heat-insulating material manufactured.

A third cooling air flow m ₃ flows from the front into the space 36 below the bottom plate 6. It meets the air guide element 26, flows under this and enters the space 36 below the bottom plate 6 behind the air guide element 26. From there flows around the third cooling air flow m ₃ the lower edge 38 of the side wall 4 and flows on the outer surface 32 of the side wall 4 upwards. Through openings 66 in the Geräteabdeckhaube 14 of the cooling air flow m ₃ enters the upper region 16 and the fan 20. The third cooling air flow m _{3 flows} over the entire outer surface 32 of the side wall 4, which is behind the air guide element 28.

For cooking appliances that are designed to produce a particularly high temperature, such. As a pyrolysis stove, it may happen that the oven insulation 60 in conjunction with the third cooling air flow m _{3 is} not sufficient to the wall of the furniture 24, which is adjacent to the outer surface 32 of the side wall 4, sufficiently high temperatures protected. In this case, a housing inner wall 68 may be provided, which is arranged within the side wall 4 (Figures 1 and 3). Between the housing inner wall 68 and the outer side wall 4, an air space is arranged, can flow through the cooling air ascending or descending. For additional cooling of the sidewall 4, a fourth stream of cooling air can thus be provided m _4, the flow path extends just below the bottom plate 6, as the flow path of the third cooling air stream m _3. The fourth cooling air flow m _{4 also} flows around the edge 38 of the side wall 4 to then flow through openings 70 in the side wall 4 through the side wall 4 into the space between the side wall 4 and the housing inner wall 68. The fourth air flow m ₄ flows upwards between the side wall 4 and the housing inner wall 68 and through openings 72 in the fan base plate 18 into the upper area 16.

For cooling the rear wall of the housing 2, a fifth cooling air flow m _{5 is} provided which, like the cooling air flows m ₃ and m _{4, flows} below the air guide element 26 into the space 36 below the bottom plate 6 and behind the air guide element 26. From there, the fifth cooling air flow m ₅ flows around a lower edge of the first rear wall 10 (FIG. 2), flows through elongated holes, not shown, and enters the intermediate space between the first rear wall 10 and the second rear wall 12, which is referred to as rear space 74. By the two 5 mm to 10 mm spaced apart rear walls 10, 12 of the fifth cooling air flow m _{5 is passed} from the space 36 below the bottom plate 6 up to the upper portion 16. Through further openings 76, the cooling air flow m _{5 flows} into the upper region 16 to be sucked in by the fan 20 and blown out as exhaust air flow m _A together with the other cooling air streams m _1-4 through the exhaust duct 44 to the mouth 48. Due to the double-walled rear wall of the housing 2, a particularly good cooling is achieved in the region of the rear wall. In this cool rear region can aggregates 78, which are indicated only schematically in Figures 2 and 3, are arranged. Such aggregates 78 may be a circulating air motor, connection terminals, radiator connections, a rotisserie motor and / or other components which are arranged either completely in the back space 74 or slightly out of the rear space 74, as indicated in Figures 2 and 3.

reference numeral

2

casing

4

Side wall

6

baseplate

8th

Side wall

10

rear wall

12

rear wall

14

Geräteabdeckhaube

16

upper area

18

Fan base plate

20

Fan

22

spacer

24

Furniture

26

Air conduit

28

Air conduit

30

outer surface

32

outer surface

34

Sidewall channel

36

room

38

edge

40

opening

42

Switch front element

44

exhaust duct

46

switch surface

48

muzzle

50

Lisene

52

opening

54

door

56

Front glass

58

oven range

60

oven insulation

62

spacer

64

spacer

66

opening

68

Housing inner wall

70

opening

72

opening

74

backcourt

76

opening

78

aggregate

m

Cooling air flow

m ₁

Cooling air flow

m ₂

Cooling air flow

m ₃

Cooling air flow

m ₄

Cooling air flow

m ₅

Cooling air flow

m _A

exhaust air flow

Claims (14)

Housing (2) for a cooking appliance with a housing wall, characterized by at least one in an outer surface (30, 32) of the housing wall disposed air guide element (26, 28) for guiding air along the outer surface (30, 32). Housing (2) according to claim 1, characterized in that the air guide element (26, 28) forms a web-like elevation in the outer surface (30, 32) of the housing wall. Housing (2) according to claim 1 or 2, characterized in that the air guide element (26, 28) is a molding of the housing wall. Housing (2) according to one of the preceding claims, characterized in that the air guide element (28) over at least the largest part of its length forms the most outwardly projecting elevation of the housing wall. Housing (2) according to one of the preceding claims, characterized in that the housing wall is a side wall (4, 8) and the air guide element (28) up to a range of up to 10 cm away from a lower edge (38) of the side wall (4, 8). Housing (2) according to one of the preceding claims, characterized by a bottom plate (6) and an upper portion (16), which is provided to maintain a negative pressure by means of a fan (20), wherein the air guide element (28) for guiding air from a below the bottom plate (6) arranged space (36) in the upper region (16) is provided. Housing (2) according to one of the preceding claims, characterized by a front side, a side wall (4, 8) and a bottom plate (6), wherein the air guide element (26) in the outer surface of the bottom plate (6) is arranged and for guiding air from the front to the side wall (4, 8) is provided. Housing (2) according to claim 6 or 7, characterized in that the bottom plate (6) has a spacer element (22) for spacing the bottom plate (6) from a standing surface and the air guide element (26) has a projection in the outer surface (30) of Bottom plate (6) which projects at least partially less far outward than the spacer element (22). Housing (2) according to one of claims 6 to 8, characterized by a rear side, on which two rear walls (10, 12) with an intermediate rear space (74) are arranged, which for guiding an air flow from a space (36) below the bottom plate (6) are provided upwards. Housing (2) according to claim 9, characterized by an upper portion (16), which is provided for maintaining a negative pressure with the aid of a fan (20) and through openings (76) connecting the rear chamber (74) with the upper portion (16 ) connect. Housing (2) according to claim 9 or 10, characterized in that the rear space (74) extends over more than half of the rear side. Housing (2) according to one of the preceding claims, characterized by an upper area (16) which is provided to maintain a negative pressure by means of a fan (20), a front side and an exhaust duct (44) directed from the upper area to the front in the front side arranged mouth (48). Housing (2) for a cooking appliance with a housing inner wall (68) and a housing outer wall, characterized by at least one designed as a molding in one of the housing walls air guide element (26, 28). Cooking appliance with a housing (2) according to one of the preceding claims.

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