CN108700370B - Domestic refrigeration appliance comprising a door stop lever for two doors connected to a partition wall by at least one connecting structure - Google Patents

Abstract

The invention relates to a domestic refrigeration device (1) comprising a housing (2) which accommodates a receiving space (3) for food, comprising a first door (11) and a separate second door (12) which are arranged pivotably on the housing (2), wherein the two doors (11, 12) close a receiving opening (4) of the receiving space (3), and further comprising a door stop lever (16) outside the doors, which is arranged vertically in the receiving opening (4), which is connected on an upper end (18) to an upper partition wall (6) which delimits the receiving opening (4) and on a lower end (17) to a lower partition wall (5) which delimits the receiving opening (4), wherein the doors (11, 12) rest on the door stop lever (16) in the closed state, and the upper end (18) of the door stop lever (16) is connected by means of a first connecting structure (27) comprising a cutout (26) Is connected to the upper partition wall (6) or the lower end (17) of the door stop lever (16) is connected to the lower partition wall (5) by means of a second connection structure comprising a cut-out.

Description

Domestic refrigeration appliance comprising a door stop lever for two doors connected to a partition wall by at least one connecting structure

Technical Field

The invention relates to a domestic refrigeration appliance comprising a housing which accommodates a receiving space for food. The domestic refrigeration appliance further comprises a first door and a separate second door. The two doors are pivotably arranged on the housing. The two doors close the receiving opening of the receiving space. The domestic refrigeration appliance further comprises a door stop lever arranged outside the doors, thus outside the two doors. The door stop rod extends vertically in the receiving opening and is connected on an upper end to an upper partition wall defining the receiving opening. The door stop lever is connected on a lower end to a lower partition wall defining a receiving opening. The two doors are arranged to rest against the door stop lever in the closed state.

Background

A corresponding domestic refrigeration appliance is disclosed in WO 2008/066542 a 1. Here, the vertical door stopper rod located outside the door is screw-connected to the partition wall at its upper and lower ends by a plurality of separate screws, respectively. In this case, the screws are screwed in the vertical direction into the upper and lower partition walls, whereby their screw rods are parallel to the dimension of the door stop rod. Such an embodiment is very complex in terms of installation technology. Furthermore, a completely vertical orientation of the door stop lever can only be achieved with difficulty. The closing behavior of the door is therefore limited in the case of a door stop lever which is inclined forwards in the depth direction of the domestic refrigeration appliance at the upper or lower end and/or which is rotated outwards about its longitudinal axis and/or in the case of a door stop lever which is inclined laterally in the width direction of the domestic refrigeration appliance at the upper or lower end in a vertical position. In particular, it can prevent one or both doors from being completely closed and thus from being supported in a sealed manner on the door stop lever. Thus, heat may be undesirably transferred to the receiving space via the interface. This also results in disadvantageous operation with respect to energy consumption.

Disclosure of Invention

It is an object of the present invention to provide a domestic refrigeration appliance in which such a vertical door stop lever located outside the door is attached in a more positionally accurate and easily mountable manner.

This object is achieved by a domestic refrigeration appliance according to the invention.

The domestic cooling device according to the invention comprises a housing which accommodates a receiving space for food. The domestic refrigeration appliance further comprises a first door and a separate second door. The two doors are pivotably arranged on the housing. The door closes the receiving opening of the receiving space on the front surface in the closed state. The domestic refrigeration appliance further comprises a door stop lever arranged outside the door. The door stop lever is arranged vertically in the receiving opening and is connected on the upper end to the upper partition wall and/or to a respective delimiting edge delimiting the receiving opening. Furthermore, the door stop lever is connected on a lower end to the lower partition wall and/or to a defining edge which defines the receiving opening. In the closed state of the door, the door rests on the front face and thus on the side of the door stop lever remote from the receiving space.

A basic idea of the invention is that the upper end of the door stop lever is connected to the upper partition wall by means of a first connecting structure comprising a cut-out. Alternatively or additionally, according to the invention, it is also possible for the lower end of the door stop lever to be connected to the lower partition wall by means of a second connecting structure comprising a cutout. A very simple and quick installation can be achieved by at least one such specific connection between one end of the door stop lever and the partition wall of the receiving opening. Furthermore, by means of this embodiment in which the connecting structure also comprises a cut-out, the door stop lever can be positioned in a very positionally accurate manner. Thereby avoiding undesirable deviations from the vertical orientation of the door stopper rod.

It is preferred for the door stop lever to comprise a first lever part on which an upwardly projecting projection is configured on the upper end, which projection engages, preferably engages, in a cutout in the upper partition wall. In this embodiment, therefore, the mechanical connection between the door stop lever and the upper partition wall is realized by interlocking parts, which are correspondingly also mechanically loaded. Thus, the protrusion extends in the direction of the longitudinal axis of the door stop lever and thus extends the hollow portion upwards. By means of this orientation and engagement, the projection can also be simply inserted into the cutout, so that the installation can also be carried out very easily and quickly.

It is also possible to configure a downwardly projecting projection on the lower end of the first lever portion, which projection engages, preferably is embedded in a cutout in the lower partition wall. The aforementioned advantages are also achieved thereby.

In particular, due to the at least one connection structure, the need for additional separate fastening elements, in particular screws, required in the prior art can also be avoided. Furthermore, the at least one connection structure may be a non-destructively releasable connection structure.

It is preferable for the door stop lever to comprise a first lever portion on which a cutout is configured on the upper end portion, into which a projection projecting downward from the upper partition wall engages, or a cutout is configured on the lower end portion of the first lever portion, into which a projection projecting upward from the lower partition wall engages. This embodiment thus represents an alternative to the advantageous embodiment already described above. The advantages mentioned above can be achieved accordingly here.

In an advantageous embodiment, the cut-out is configured as a blind hole. The projection can thus project into the cutout in a very simple manner, and the cutout is therefore also configured with only one opening, via which the projection extends into the cutout. Thereby preventing dust or other contaminants from passing through the cutout. Furthermore, with this embodiment, the cutout itself is also configured to be very mechanically stable and can also absorb the corresponding mechanical forces of the connecting structure accordingly when the projection engages, in particular when, for example, the door is closed with increased thrust and the door in turn impacts the door stop lever on the front surface.

It is preferred that the upper partition wall comprises a receptacle which is separate and spaced apart from the connecting structure, in which the door stop lever is embedded. The receiving part comprises a side receiving wall on which the door stop lever is supported in the mounting end position, and the position of the door stop lever is fixed by the side receiving wall in the width direction of the household refrigeration appliance. In addition or alternatively, the receptacle preferably comprises a rear receiving wall, on which the door locking lever is supported in the installation end position, the position of the door locking lever being fixed and/or defined in the depth direction of the domestic refrigeration appliance in the rear direction by the rear receiving wall. By these additional advantageous embodiments, the positional accuracy of the door stop lever is further improved. In particular, a completely vertical orientation of the door stop lever is thereby facilitated and can also be maintained for a long time.

It is preferred that the lower partition wall comprises a receptacle which is separate from and spaced apart from the connecting structure and in which the door stop lever is embedded, wherein the receptacle comprises a side receptacle wall on which the door stop lever is supported in the installation-end position, the position of the door stop lever being fixed in the width direction of the domestic refrigeration appliance by the side receptacle wall. In this case as well, the receiving portion additionally or alternatively comprises a rear receiving wall on which the door stop lever is supported in the installation end position, the position of the door stop lever being fixed in the depth direction of the domestic refrigeration appliance by the rear receiving wall. The advantages already stated above with regard to the alternative embodiments are therefore also applicable in this embodiment.

In a preferred embodiment, the receiving portion is configured to open to the front, and thus on the front surface. This improves the insertion and accessibility of the door stop lever.

In an advantageous embodiment, the stop lever is of multi-part design and is in turn formed from a plurality of individual lever parts. Thus, the mounting of the various parts can be improved. In particular, however, the door stop lever can also be designed to be multifunctional, since it can be assembled as required for receiving and respectively attaching the required further components.

It is preferred for the door stop lever to comprise a first lever portion, which is the rear part of the door stop lever terminating towards the receiving space, and thus the rearmost part of the door stop lever when the arrangement of the domestic refrigeration appliance is viewed in the depth direction. The first rod part is constructed in a trough-like manner. The slot region of the first lever part is arranged such that the slot opening of the slot region is remote from the receiving space and is arranged facing the door in the closed state of the door. This is an advantageous embodiment, since the first rod part is constructed in particular in one piece, whereby no parts or other materials or dirt and/or dust can enter the receiving space backwards through the first rod part. However, it is also possible by means of this specific geometric design of the first rod part to receive the desired material or other components in the region of the groove.

This groove region of the first rod part is advantageously at least partially filled with an insulating material, in particular an insulating foam. The heat insulation effect of the vertically oriented door stop rod is thus also improved. As a result, the door stop lever no longer acts as an undesired thermal bridge, via which heat is transferred into the receiving space and/or via which cold escapes from the receiving space into the surroundings. Furthermore, by means of this embodiment, the door stop lever is also stable in its structure, so that the first lever portion is very torsionally stiff and dimensionally stable.

In an advantageous embodiment, the door stop lever comprises a second lever portion, which is separate with respect to the first lever portion, which is arranged on the first lever portion and covers the groove area of the first lever portion on the front surface. The second pole section can thus be used as a cover for the groove region, so that material, in particular insulation material, located in the groove region cannot escape from the groove region of the first pole section, in particular cannot escape in the forward direction.

It is preferred to let the second lever part comprise a slot area in which a heating unit is arranged for heating at least the door stop lever. Thus, the functional component, i.e. the heating unit, can be positioned at a local specific point in a very space-saving manner. The door stop lever is therefore also the carrier for this additional functional component. The door stop rod can thus be heated, if necessary, by means of the heating unit, in particular in a very locally concentrated manner. As a result, undesired condensation or moisture can be dried or, in particular, even frost can be thawed, so that the seal of the door, which is supported on the door stop lever on the front surface in the closed state of the door, is not damaged.

It is preferred that the slot region of the second lever part is covered on the front surface by a separate cover, in particular a metal plate. Furthermore, the further functional component, i.e. the heating unit, is thereby arranged to be protected from damage or any other negative influence. Furthermore, by means of the lid providing a stable component, the impact forces of the door when closed can also be absorbed thereby, thereby also protecting the other rod portions.

In particular, a blind hole, in particular only one blind hole, is formed in the upper partition wall. The bore axis of the blind bore is oriented in particular in the depth direction of the domestic refrigeration appliance. A gasket is arranged in this blind hole on the upper partition wall, into which a screw can be screwed for fixing the door stop rod to the upper partition wall.

In an alternative or advantageous manner, only one such blind hole, in particular a blind hole having a hole axis in the depth direction of the domestic refrigeration appliance, is formed on the lower partition wall, wherein the gasket is arranged as a separate component in the blind hole, into which a screw can be screwed for fixing the door stop lever to the lower partition wall.

By means of this design, it is achieved in an advantageous embodiment that a screw connection is required only at the upper or lower end of the door stop lever, and in this respect that this screw connection is realized by only one screw. The screw is thereby oriented with its screw shaft in a specific direction, i.e. in the depth direction of the domestic refrigeration appliance. This ensures easy accessibility and a simple screw connection.

In an advantageous embodiment, only one projection projecting vertically upwards is formed on the upper end of the door locking lever, in particular of the first lever part, said projection passing through the undercut in the upper partition wall and thereby forming the connection. The threaded passage for the screw is formed at the lower end of the door stop lever, and the single blind hole is formed only in the lower partition wall for the insertion of the gasket.

Thus, in an advantageous embodiment in relation thereto, the connection is constructed at the lower end only by means of a single screw at a specific point and with a specific direction, and the upper end of the door stop lever is secured without screws to the upper partition wall only by means of another unique connection of simple geometry. This is the minimum fixing concept of the door stop lever, which in particular in combination with the additional separate receiving part described above advantageously provides a very simple and quick mounting and a positionally accurate vertical arrangement of the door stop lever.

The expressions "upper", "lower", "front", "rear", "horizontal", "vertical", "depth direction", "width direction", "vertical direction" and the like denote positions and directions provided when the device is used as intended and when the device is arranged as intended with an observer standing in front of and looking into the direction of the appliance.

Other features of the invention are disclosed in the claims, drawings and description of the drawings. The features and feature combinations described above in the description and also features and feature combinations described below in the description of the figures and/or shown in the figures alone can be used not only in the respectively provided combinations but also in other combinations without departing from the scope of the invention. Thus, embodiments of the invention which are not explicitly shown and described in the drawings but are disclosed and can be produced by individual combinations of features from the described embodiments are also to be considered as comprised and disclosed. Accordingly, embodiments and combinations of features not having all of the features of the initially claimed independent claims are also to be considered disclosed. Furthermore, it is contemplated that embodiments and combinations of features beyond or outside the combinations of features recited in the claims back-citations may be disclosed specifically with respect to the above-described embodiments.

Drawings

Exemplary embodiments of the invention are described in more detail below with reference to schematic drawings, in which:

fig. 1 shows a perspective view of an exemplary embodiment of a domestic refrigeration appliance according to the present invention;

fig. 2 shows a perspective view of the inner container of the domestic refrigerator according to fig. 1 with a vertical door stop lever outside the door;

FIG. 3 shows a perspective cut-away view of the embodiment of FIG. 2;

FIG. 4 shows an enlarged view of a first part of the detail of FIG. 3; and

fig. 5 shows an enlarged perspective view of a second partial detail of fig. 3.

Detailed Description

In the drawings, elements that are the same or functionally the same have the same reference numeral.

In fig. 1, a domestic refrigeration appliance 1 with a housing 2 is shown in a perspective view. A first receiving space 3 is configured in the housing 2, said receiving space being configured for receiving food. The receiving space 3 is a continuous receiving space and thus has a corresponding volume. The first receiving space 3 is delimited by the walls of the inner container. The receiving opening 4 is formed on the front surface, lies in the x-y plane, in turn in a plane spanned by the width direction and the vertical direction of the domestic refrigeration appliance 1, and is a continuous receiving opening 4 and/or a loading opening uninterrupted in terms of surface area. The receiving opening 4 on the front surface is defined by a first delimiting edge and/or a first lower partition wall 5, an opposite second upper partition wall 6 and/or a delimiting edge and adjoining and opposite vertical delimiting edges and/or partition walls 7 and 8, respectively. The receiving opening 4 is thus delimited on the outer circumferential side by a delimiting edge and is square and/or rectangular in surface area.

The receiving space 3 is preferably a refrigerating compartment in which food can be stored, in particular at a temperature above the freezing point, in particular between +4 ℃ and +10 ℃.

The exemplary domestic refrigeration appliance 1 according to fig. 1 further comprises a second receiving space 9 which is configured separately from the receiving space 3 and is configured to be located below the first receiving space 3 in the vertical direction, and thus in the vertical direction of the domestic refrigeration appliance 1.

This further receiving space 9 can be closed by a single door 10, said door 10 being shown in fig. 1 in a fully closed state. The door 10 is disposed on the housing 2 and is rotatable about a rotation axis extending in the vertical direction.

However, the door 10 is preferably part of a drawer which is displaceable in a linear manner in the depth direction.

The domestic refrigeration appliance 1 further comprises a first door 11 and a separate second door 12, which are also pivotably arranged on the housing 2. Two doors 11 and 12 are arranged for closing the receiving space. The door is shown in an open state in fig. 1. Illustratively, door shelves are constructed on the interior surfaces 13 and 14 of the doors 11 and 12, only one of which has the reference numeral 15.

Furthermore, a slat-type, and thus also linear door lever 16 is arranged outside the doors 11 and 12. The door lever 16 is fixedly arranged on the housing 2. For this purpose, the door lever 16 is connected to the first partition wall 5 on a first lower end 17 and to the upper partition wall 6 on a second upper end 18. The door lever 16 is an integral component and extends in the vertical direction, i.e. vertically, on a scale corresponding to the clear distance between the partition walls 5 and 6. The door lever divides the receiving opening 4 into two surface areas, in particular two surface areas of the same size.

Also shown is a liner 19, which liner 19 defines with its inner wall a receiving space 3 and has on the front surface a loading opening formed by the receiving opening 4.

In fig. 1, it can also be seen in the drawing that the vertical door stop lever 16 divides the receiving opening 4 in the width direction, i.e. in the x direction, which means that the door stop lever 16 is arranged in particular centrally in the width direction.

In particular, the lower 5 and upper 6 partition walls are integrated in the internal bladder 19 and thus define the portion of the top and/or bottom wall located on the front surface that defines the receiving space 3. The inner container 19 also has further vertical side walls and a rear wall, which also define the receiving space 3, which are not further shown for the sake of clarity.

In fig. 2, the inner container 19 is shown in a perspective view, and the vertical door stop lever 16 located outside the door is shown in a fixed state.

In fig. 3, the component arrangement according to fig. 2 is shown in a perspective sectional view along the cutting line III-III. As shown in the enlarged view of the region I in fig. 3 in fig. 4, the door stop lever 16 is designed as a multipart component and consists of a plurality of individual lever parts.

As shown in the view in fig. 4, the door stop lever 16 is configured with a first lever portion 20 which is designed in one piece from plastic. The first lever part 20 has a slotted region 21, said slotted region 21 being remote from the receiving space 3 and thus open towards the front and/or on the front surface and thus having a slotted opening 22. In the installed state, a heat-insulating material, in particular a heat-insulating foam 23, is accommodated in this groove region 21.

The first lever portion 20 has a raised upwardly projecting projection 25 on an upper top wall 24, said projection 25 being oriented vertically upwardly therefrom. This projection 25 engages in a cutout 26, which cutout 26 is designed as a blind hole and is integrally formed in the upper partition wall 6. Thus, a connecting structure 27 is constructed between the door stop lever 16, in particular the first lever portion 20, and the upper partition wall 6.

Furthermore, the upper partition wall 6 has a receptacle 28, which receptacle 28 is separate from the connecting structure 27 and is spaced apart from the connecting structure 27. The door stop lever 16 is also inserted and arranged in this receptacle 28, so that the upper end 18 of the door stop lever is inserted into the receptacle 28.

The receiving portion 28 is delimited at the rear by a rear receiving wall 29. The receiving portion is delimited above by an upper receiving wall 30. In the width direction, i.e., in the x direction, the receiving portion is defined by side receiving walls 31.

By means of this receptacle 28, a position adjustment is also provided, so that the door locking lever 16 is limited in the width direction, i.e. in the x direction, in a positionally accurate manner and correspondingly in the depth direction at the rear and does not protrude too far. Thus, the vertical position accuracy is improved, in particular also in the case of an operative connection with the connecting structure 27.

As can also be seen in fig. 4, the door stop lever 16 includes a separate second lever portion 32. The second lever portion 32 is connected to the first lever portion 20 and is disposed on the first lever portion 20 on the front surface. The second pole portion 32 preferably extends the entire height of the first pole portion 20. The second lever portion 32 also includes a slotted region 33, the slotted region 33 completely covering the slotted region 21 of the first lever portion 20 on the front surface.

Further functional components of the domestic refrigeration appliance 1 are arranged in the groove region 33 of the second lever portion 32. In particular, the heating unit 34 is arranged in this groove region 33.

Furthermore, the door stop lever 16 comprises a cover plate 42 shown in fig. 4 and 5 (which is transparent for illustration purposes), said cover plate 42 representing a third separate component of the door stop lever 16. By means of this cover plate 42, in particular a metal plate, the groove region 33 is covered on the front surface. As shown in fig. 4, the cover plate 42 is preferably flush with the laterally adjacent wall of the second bar portion 32 on the front surface.

It is possible to form only the one projection 25 and only the one cutout 26 according to the view in fig. 4.

Further, in fig. 4, the stopper on the front surface is integrally configured in the top wall 24. The stop is S-shaped and is configured in particular as a flange 43. The stop can be used to mount the door stop lever 16: the door stop lever 16 is thus tiltably positioned with respect to the plane surrounding the receiving opening 4 of the liner 19, with the stop resting against the rear receiving wall 29 and then pivoted into this plane. During this pivoting, the projection 25 engages in the bottom 26. After the pivoting process, the door stop lever 16 may be threaded at its lower end.

In the view according to fig. 5, an enlarged view of detail II from fig. 3 is shown. Here, it can also be seen that a receptacle 35 which is open to the front is formed in the lower partition wall 5, said receptacle comprising a lower receptacle wall 36, a rear receptacle wall 37 and side receptacle walls 38. As in the case of the receptacle 28 which opens forward in the upper region, further corresponding side receptacle walls are also arranged on the opposite side in the width direction with respect to the side receptacle walls 38, so that positional accuracy and position limitation in the width direction are provided on both sides in the x direction.

Also according to the view in fig. 5, the door stop lever 16 in the lower region is arranged recessed and/or embedded in the further receptacle 35. In particular, the second lever portion 32 is arranged not to project forward beyond the receiving portion 28 and the receiving portion 35.

It can also be seen that the receiving portion 35 has an integrally formed blind bore 39. In particular, the gasket 40 can be embedded in said blind hole 39. The first and second rod portions 20 and 33 have through holes 41, respectively, through which screws can be inserted and screwed to the pads. In this case, the bore axis is oriented in the depth direction, i.e. in the z-direction, so that the screw is oriented in this depth direction when it is fixed. It is also provided here that only one screw is provided. The entire door stop lever 16 is thereby fixed and aligned by means of a connecting structure 27 in the upper region and a threaded connecting structure in the lower region, and in particular additionally positioned and positionally fixed by means of the receptacles 28 and 35.

It is also possible to configure the connection 27 in the lower region and the screw connection in the upper region. This would be an inverted embodiment with respect to the description of fig. 4 and 5.

List of reference numerals

1 domestic refrigeration appliance

2 casing

3 receiving space

4 receiving opening

5 lower partition wall

6 upper partition wall

7 partition wall

8 partition wall

9 receiving space

10 door

11 door

12 door

13 inner surface

14 inner surface

15 door shelf

16 door stop lever

17 lower end part

18 upper end portion

19 inner container

20 bar part

21 groove area

22 slot opening

23 insulating foam

24 upper top wall

25 projection

26 cuts

27 connection structure

28 receiving part

29 rear receiving wall

30 upper receiving wall

31 side receiving wall

32 bar section

33 groove area

34 heating unit

35 receiving part

36 lower receiving wall

37 rear receiving wall

38 side receiving wall

39 blind hole

40 liner

41 through hole

42 cover

43 Flange

Claims (17)

1. A domestic cooling device (1) comprising a housing (2), which housing (2) accommodates a receiving space (3) for food, comprising a first door (11) and a separate second door (12), which first door (11) and second door (12) are pivotably arranged on the housing (2), wherein the two doors (11, 12) close a receiving opening (4) of the receiving space (3), further comprising a door stop lever (16) outside the doors, which is arranged vertically in the receiving opening (4), which door stop lever is connected on an upper end (18) to an upper partition wall (6) defining the receiving opening (4) and on a lower end (17) to a lower partition wall (5) defining the receiving opening (4), wherein the lower partition wall (5) and the upper partition wall (6) are integrated in an inner container (19) of the domestic cooling device (1) and proceed to define a top wall and/or a bottom wall located forward of the top wall and/or bottom wall -a portion on the surface defining a receiving space (3), wherein the door (11, 12) rests on the door stop lever (16) in the closed state, characterized in that an upper end (18) of the door stop lever (16) is connected to the upper partition wall (6) by means of a first connecting structure comprising a cutout (26), or that a lower end (17) of the door stop lever (16) is connected to the lower partition wall (5) by means of a second connecting structure comprising a cutout, wherein the cutout (26) is configured as a blind hole which is integrally configured in the lower partition wall (5) or the upper partition wall (6), wherein the door stop lever (16) has an S-shaped stop which is arranged at the same longitudinal end of the door stop lever (16) and spaced apart from the respective first or second connecting structure, the stop being configured for abutment on the upper partition wall (6) or the lower partition wall (5) in a position corresponding to the respective first or second connecting structure, the stop is arranged in front of the cutout (26) in the front-rear direction of the domestic refrigeration appliance (1).

2. A domestic cooling device (1) according to claim 1, wherein the door stop lever (16) comprises a first lever portion (20),

an upwardly projecting projection (25) is formed on the first shaft part at the upper end (18), said upwardly projecting projection engaging in a cutout (26) in the upper partition wall (6), or

A downwardly projecting projection is configured on the lower end (17) of the first lever portion (20), said downwardly projecting projection engaging in a cutout in the lower partition wall (5).

3. A domestic cooling device (1) according to claim 2, wherein the upwardly projecting protrusion is embedded in a cut-out (26) in the upper partition wall (6).

4. A domestic cooling device (1) according to claim 2, wherein the downwardly protruding protrusion is embedded in a cut-out (26) in the upper partition wall (6).

5. A domestic cooling device (1) according to claim 1, wherein the door stop lever (16) comprises a first lever portion (20),

a cutout is formed on the first shaft part at the upper end (18), in which cutout a projection projecting downward from the upper partition wall (6) engages, or

A cutout is formed in the lower end (17) of the first lever part (20), in which cutout a projection projecting upwards from the lower partition wall (5) engages.

6. A domestic cooling device (1) according to claim 1, wherein the upper partition wall (6) comprises a receiving portion (28), the receiving portion (28) being separate from the first connecting structure and spaced apart from the first connecting structure, the door stop lever (16) being embedded in the receiving portion (28), wherein the receiving portion (28) comprises a side receiving wall (31) on which the door stop lever (16) is supported in the installation end position, the position of the door stop lever (16) being fixed in the width direction of the domestic cooling device (1) by the side receiving wall, and/or the receiving portion (28) comprises a rear receiving wall (29) on which the door stop lever (16) is supported in the installation end position, the position of the door stop lever (16) being fixed in the rear direction of the depth of the domestic cooling device (1) by the rear receiving wall.

7. A domestic cooling device (1) according to claim 1, wherein the lower partition wall (5) comprises a receptacle (35), the receptacle (35) being separate from and spaced apart from the second connection, the door stop lever (16) being embedded in the receptacle (35), wherein the receptacle (35) comprises a side receptacle wall (31) on which the door stop lever (16) is supported in the installation end position, the position of the door stop lever (16) being fixed in the width direction of the domestic cooling device (1) by the side receptacle wall, and/or wherein the receptacle (35) comprises a rear receptacle wall (37) on which the door stop lever (16) is supported in the installation end position, the position of the door stop lever (16) being fixed in the rear direction in the depth direction of the domestic cooling device (1) by the rear receptacle wall.

8. A domestic cooling device (1) according to claim 6 or 7, wherein the receiving portion (28, 35) is configured to open in the forward direction.

9. A domestic cooling device (1) according to any of claims 1 to 7, wherein the door stop lever (16) has a multi-part configuration.

10. A domestic cooling device (1) according to claim 9, wherein the door stop lever (16) comprises a first lever portion (20), said first lever portion (20) being a rear portion terminating the door stop lever (16) towards the receiving space (3), the first lever portion (20) being configured in a trough-like manner, wherein the trough area is arranged with its trough opening (22) away from the receiving space (3).

11. A domestic cooling device (1) according to claim 10, wherein the door stop lever (16) comprises a second lever portion (32), said second lever portion (32) being separate with respect to the first lever portion (20), the second lever portion (32) being arranged on the first lever portion (20) and covering the groove area of the first lever portion (20).

12. A domestic cooling device (1) according to claim 11, wherein the second lever portion (32) comprises a groove area, and the heating unit (34) is arranged in the groove area of the second lever portion for heating at least the door stop lever (16).

13. A domestic cooling device (1) according to claim 12, wherein the groove area of the second lever portion (32) is covered (42) on the front surface by a separate cover.

14. A domestic cooling device (1) according to claim 13, wherein the separate cover (42) is a metal plate.

15. A domestic cooling device (1) according to any of claims 10 to 14, wherein the groove area of the first pole section (20) is at least partially filled with a heat insulating material.

16. A domestic cooling device (1) according to claim 15, wherein said insulating material is an insulating foam.

17. A domestic cooling device (1) according to any of claims 1-7, 10-14, 16, wherein only one blind hole with a hole axis in the depth direction of the domestic cooling device (1) is configured on the upper partition wall (6), in which blind hole a gasket is arranged, into which blind hole a screw can be screwed for fixing the door stop lever (16) to the upper partition wall (6), or only one blind hole with a hole axis in the depth direction of the domestic cooling device (1) is configured on the lower partition wall (5), in which blind hole a gasket (40) is arranged, into which a screw can be screwed for fixing the door stop lever (16) to the lower partition wall (5).

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