CN111412719A - Domestic refrigeration appliance - Google Patents

Abstract

The invention relates to a domestic refrigeration device (1) comprising an inner container (7, 8) which delimits a receiving space (3, 4) at least in sections and has two opposite side walls (9, 10) on which retaining devices (12) for a grid (11) are respectively provided, and comprising a grid (11) which is arranged on the retaining devices (12), wherein each retaining device (12) has a bearing surface (14) and a pull-out limiting surface (23) which is arranged behind the bearing surface (14) in the depth direction (Y) and above the bearing surface (14) in the height direction (Z). According to the invention, an insertion surface (17) is provided which is arranged behind the bearing surface (14) in the depth direction (Y) and is designed so as to be inclined in the depth direction (Y).

Description

Domestic refrigeration appliance

Technical Field

The invention relates to a domestic refrigerator comprising an inner container which delimits a receiving space at least in sections and has two opposite side walls, on which retaining devices for panels are arranged in each case.

Background

Such a domestic refrigerator can be, for example, a refrigerator, freezer or refrigerator-freezer combination.

Disclosure of Invention

The object of the invention is to ensure an improved fastening of the panels.

This object is achieved by the features of the independent claims.

The domestic refrigeration device comprises an inner container which delimits the receiving space at least in sections and has two opposite side walls, on which retaining devices for the panels are respectively provided, and the domestic refrigeration device further comprises panels which are arranged on the retaining devices, wherein each retaining device has a bearing surface and an extraction limiting surface which is arranged behind the bearing surface in the depth direction and above the bearing surface in the height direction.

The positions and orientations given for the intended use and intended arrangement of the household refrigerator and for the observer situated in front of the household refrigerator and looking in the direction of the household refrigerator are explained by means of "upper", "lower", "front", "rear", "horizontal", "depth", "width", "height", and the like.

The holding devices are preferably arranged at the same height in the height direction of the domestic refrigeration appliance and face one another. The support surface is used for partially or completely receiving the weight of the grid and the refrigerated goods arranged on the grid. The bearing surface can be designed, for example, flat and/or horizontally. The extraction limiting surface prevents the user from undesirably or unintentionally extracting the grid.

In this case, the first aspect of the invention is characterized in that a lead-in surface is provided which is arranged behind the bearing surface in the depth direction and is configured to be inclined downward in the depth direction.

The introduction surface is configured as a slope surface which is arranged obliquely downward in the depth direction by configuring the introduction surface as declining in the depth direction. This enables introduction or removal of the grid without warping. In particular, the panel or parts of the panel (for example, slats arranged at the rear edge section of the panel) can slide over the insertion surface. It can be seen here that by improving the guidance of the panels during assembly or disassembly in this way, on the one hand the load on the inner container and on the other hand the load on the panels can be reduced decisively. In particular, damage to the inner container can be virtually prevented by preventing or at least minimizing sudden or sudden loads on the inner container. This applies in particular to inner containers made of plastic, for example by thermoforming. The same regions that come into contact with one another when the panel is introduced or removed can have a reduced wall thickness and thus increased vulnerability due to their geometry. By the arrangement and configuration of the insertion surface according to the invention, sudden or impact loads on the inner container are reduced in these regions. In addition, damage to the panels can also be avoided, since no sudden or impulsive loads act on the panels.

According to one embodiment, the method comprises the following steps: the insertion surface is designed to be continuously or continuously inclined. This makes the introduction or removal of the pane stable and tactilely perceptible to the user and thus controllable.

According to one embodiment, the method comprises the following steps: the insertion surface is designed to be free of edges, in particular in the depth direction. Thereby further preventing hooking or warping when introducing or removing the grid. The lead-in surface can comprise, for example, an arc, in particular a circular arc. Combinations of arcuate and planar sections are also contemplated.

According to one embodiment, the method comprises the following steps: the insertion surface directly adjoins the bearing surface in the depth direction. The panels, in particular the rear edge sections of the panels, can therefore be moved smoothly and without risk of warping from the bearing surface onto the insertion surface during insertion or removal, and vice versa. The engagement point between the bearing surface and the insertion surface is preferably designed without ribs.

In order to further improve the guidance of the grid during insertion or removal, it is provided according to one embodiment that the insertion surface extends at least 0.5cm, at least 1.0cm, at least 2.0cm or at least 3.0cm in the depth direction.

According to one embodiment, the method comprises the following steps: the extent of the lead-in surface in the depth direction corresponds to at least two times, at least three times or at least four times the extent of the lead-in surface in the height direction. It can be seen that a gentle and therefore low-load and smooth introduction or removal of the panels is facilitated by the introduction face being configured in this way (in particular at an acute angle to the horizontal).

According to one embodiment, the method comprises the following steps: the holding device has an insertion groove which is delimited by the insertion surface and a further insertion surface. The introduction surface and the further introduction surface can be opposed to each other. In particular, the further insertion surface can be arranged at least in sections, in particular completely, above the insertion surface. The additional insertion surface forms a channel-like insertion groove in connection with the insertion surface and thus further facilitates the insertion or removal of the pane. The insertion surface and the further insertion surface can be configured substantially parallel to one another, so that a stable and guided insertion or removal is facilitated. In particular, the angle between the insertion surface and the further insertion surface can be less than 30 degrees, less than 20 degrees or less than 10 degrees. In the case of a curved surface, this angle is determined by an imaginary plane which is generated by a starting position determined in the depth direction and an end position of the surface. It is conceivable that the further lead-in surface is plane. The introduction groove, in particular the further introduction face, can be configured to prevent the panel from being moved only horizontally.

According to one embodiment, the method comprises the following steps: two front contact surfaces are formed on the panel, said front contact surfaces being opposite the extraction limiting surfaces. In this context, "opposite" is to be understood in particular to mean that the surfaces are in each case separated from one another or are opposed by an air gap. The front contact surface can be formed on the rear edge section of the panel. The front contact surface can be formed on a strip, in particular a rigid strip, of the panel. For example, the slats can be made of a hard plastic, such as polypropylene or polystyrene. The two front contact surfaces and the extraction limiting surface can be configured to prevent only horizontal extraction of the grid.

It is conceivable for the pane to be constructed in two or more parts and to have, for example, a plate element and a strip arranged at the rear edge section. In this case, the front contact surface can be formed at least partially, but in particular also completely, by a strip. The slats can be extruded members. The strip can be fixed to the plate element by means of a retaining profile (for example, positively and/or non-positively). The strip can have a limiting profile which extends upward and/or rearward (e.g., obliquely) relative to the bearing surface (i.e., upper side) of the plate element in order to form a rear limit of the refrigerated goods. The front contact surface can be formed on the limiting contour. The limiting contour can have a recess in the region of the front contact surface in order to facilitate the lateral insertion of the front contact surface behind the extraction limiting surface. In particular, the height of the limiting contour can be reduced in the recess.

According to one embodiment, the method comprises the following steps: a gap is present between the extraction limiting surface and one of the front contact surfaces of the grid plate that is opposed to the extraction limiting surface. The front contact surface prevents horizontal extraction of the panel and thus prevents unintentional or undesired extraction. However, permanent contact between the pane and the extraction-limiting surface can be prevented by the gap, so that damage at the extraction-limiting surface (for example a projection constituting the extraction-limiting surface) and/or at the pane is avoided. In particular, it can be provided that, in the case of a panel which has been inserted but not pulled forward, there is no force transmission between the extraction limiting surface and the front contact surface. The gap is for example less than 3mm, less than 2mm or less than 1 mm.

According to one embodiment, the method comprises the following steps: the holding devices each have an upper stop face which is opposite the upper contact face of the grid. This prevents the panel from tipping over in the event of heavy loading in the front region of the panel (anti-tipping device). It is conceivable that, in the normal operating state, an air gap is present between the upper stop surface and the upper contact surface. In this case, the anti-tipping device is effective only in special operating states. Alternatively, it is also possible to envisage: the upper stop surface has contacted the upper contact surface in the normal operating state. In this case, the panels are permanently resistant to tipping forces, for example also to tipping forces which are generated solely by the weight of the panels themselves. In particular, such an embodiment can be envisaged in which the bearing surface supports only the substantially rear section of the grid in the depth direction.

According to one embodiment, the method comprises the following steps: the bearing surface is formed on a support rib integrally formed on the inner container, and the extraction limiting surface is formed on a fixing projection integrally arranged on the inner container. Furthermore, an end stop face and/or an upper stop face can be formed on the fastening projection. It is conceivable for the supporting ribs and the fixing lugs to be formed by two separate profiles of the inner container. However, in order to simplify the production, according to one embodiment: the supporting ribs and the fastening lugs are formed by a common shaping of the inner container. The end stop faces can be used to realize an end stop of the panels. For this purpose, a rear contact surface can be provided on the pane, said rear contact surface being opposite the end stop surface.

According to one embodiment, the method comprises the following steps: the lower edge of the extraction limiting surface is located above the support surface in the height direction.

According to one embodiment, the method comprises the following steps: the lead-in surface is configured to be substantially or completely perpendicular to the respective side wall.

If a support rib is provided, it can be provided that the support rib only forms the bearing surface and the insertion surface, or that the support rib ends in the depth direction with the end of the insertion surface. However, according to one embodiment: the support surface is joined to the lead-in surface in the depth direction. The support surface can be used to partially support the panel when it is installed. Preferably there is no contact between the grid and the support surface when the grid is installed. The support surface can be horizontally configured. If the holding device has an end stop surface, the support surface can directly adjoin the end stop surface in the depth direction, preferably in front of the end stop surface.

If support ribs are provided, it is possible to provide that the bearing surfaces extend opposite to the depth direction up to the front closing edge of the support ribs. In particular, the bearing surface can extend or form essentially the entire surface of the support rib.

According to one embodiment, the method comprises the following steps: the angle at which the grid is introduced or removed (introduction angle) is between 1.5 degrees and 7.5 degrees.

According to one embodiment, the method comprises the following steps: the distance between two adjacent supporting surfaces in the height direction is 30cm to 70cm, or 40cm to 60cm, or 45cm to 55 cm.

According to one embodiment, the method comprises the following steps: the support rib extension (height) measured in the height direction is between 1.0cm and 3.0cm, preferably between 1.8cm and 2.5 cm.

According to one embodiment, the method comprises the following steps: there is no contact between the grid and the lead-in surface in the situation where the grid is installed. If a support surface is present, it can be provided that: there is no contact between the grid and the support surface in the loaded condition of the grid.

According to one embodiment, the method comprises the following steps: the holding devices arranged on the opposite side walls are mirror-symmetrical with respect to a vertical plane.

According to one embodiment, the method comprises the following steps: two, three or more holding devices according to the invention are arranged on the side walls (in particular fixed or formed directly by the side walls) and are spaced apart from one another in the height direction. In this case, two, three or more holding devices on in each case one side wall can be arranged at the same depth and/or width in the depth direction and/or width direction.

According to one embodiment, the method comprises the following steps: the panels are held in the inner container only by means of the holding means.

A second aspect of the invention relates to a domestic refrigeration device comprising an inner container which delimits a receiving space at least in sections and has two opposite side walls, on which holding devices for panels are provided in each case, and comprising panels which are arranged on the holding devices, wherein each holding device has a bearing surface and a pull-out limiting surface which is arranged behind the bearing surface in the depth direction and above the bearing surface in the height direction, wherein in each case one insertion groove is provided on the holding device, which is dimensioned such that the partition can be inserted or removed without elastic deformation of the panel.

By correspondingly dimensioning the introduction slot, i.e. in particular by the slot width (in the case of a slot width varying along the length of the slot: the minimum slot width), a force transmission between the pane and the holding device can thus be avoided. The (minimum) groove width should in particular be greater than the (maximum) height of the rear edge section of the grid, which is to be introduced into the introduction groove. In particular, when the retaining device is configured on an inner container made of plastic, damage at the side wall section, which is usually thin-walled, in this region can thus be prevented.

A third aspect of the invention relates to a domestic refrigeration device comprising an inner container which delimits a receiving space at least in sections and has two opposite side walls, on which holding devices for panels are provided in each case, and comprising panels which are arranged on the holding devices, wherein each holding device has a bearing surface and an extraction limiting surface which is arranged behind the bearing surface in the depth direction and above the bearing surface in the height direction, wherein a rigid strip is arranged on a rear edge section of the panels, on which rigid strip a front contact surface is formed, which is opposite the extraction limiting surface.

The slats can, as in the first aspect described, in particular be made of hard plastic (for example polypropylene or polystyrene). Thereby achieving a secure fixation of the panels and preventing only horizontal extraction of the panels.

The solutions according to the second and third aspects of the invention can be combined with all the features already described with reference to the first aspect.

Drawings

Embodiments of the invention are elucidated with reference to the drawings. Shown here are:

fig. 1 is a schematic perspective view of a domestic refrigeration appliance according to the invention;

fig. 2 a portion of the domestic refrigeration appliance of fig. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a sub-perspective view of the inner container of FIG. 1;

FIG. 5 the loading or unloading of the grid; and

fig. 6 is a diagram of a second embodiment with reference to fig. 2.

In the figures, identical or functionally identical elements are provided with the same reference symbols.

Detailed Description

Fig. 1 shows a domestic refrigeration device 1, which is designed for storing and preserving food. In the present embodiment, the domestic refrigeration appliance 1 is a side-by-side appliance. The household appliance 1 has a cabinet 2 in which two separate receiving spaces 3, 4 are constructed for food (refrigerated goods) to be cooled or to be defined. Here, the receiving space 3 is arranged beside the receiving space 4 on the left side in the width direction X. The receiving spaces 3, 4 can be closed by doors 5, 6.

The receiving spaces 3, 4 are delimited on the one hand by the inner containers 7, 8 and on the other hand by the inner walls of the doors 5, 6. The inner containers 7, 8 are made of plastic and are produced by thermoforming. The inner containers 7, 8 each have two opposite side walls 9, 10.

In the receiving spaces 3, 4, grid plates 11 are arranged. Retaining means 12 are provided for fixing the panels 11 to the two inner walls 9, 10. The retaining device 12 is formed on the side walls 9, 10 in mirror-symmetrical fashion with respect to a vertical plane. The holding device 12 is formed in particular by a one-piece and one-piece molded part of the same material of the inner containers 7, 8.

Fig. 2 shows a detail of the domestic refrigerator of fig. 1 along the plane II-II shown in fig. 1. The side wall 9 of the left receiving space 3 is shown in a view toward the left, three retaining devices 12 being visible, which are arranged one above the other in the height direction Z.

Each retaining means 12 comprises a support rib 13 which is configured as a projection relative to the side wall 9 and projects therefrom in the width direction X into the receiving space 3. The support ribs 13 form a volume which is filled with insulating material (polyurethane foam) on the rear side of the side walls 9. The support ribs 13 each have an upper bearing surface 14. The bearing surface 14 is designed to be planar and horizontal and serves to receive the weight of the panel in such a way that the panel rests on the bearing surface 14. The bearing surface 14 extends almost completely over the support rib 13 in the depth direction Y.

Each retaining means 12 further comprises a fixing lug 15. The fixing projection 15 is arranged substantially completely behind the support rib 13 in the depth direction Y. As with the support ribs 13, the fixing projections 15 are formed by projections of the side walls 9 projecting into the receiving space 3. The fastening lug 15 is formed integrally and of the same material as the side wall 9 and together with the support rib 13 forms a common lug. The fixing projections 15 serve to fix the installed panels against undesired extraction. The upper retaining device 12 is designed at a distance from the lower retaining device 12, so that it is completely enclosed by the plane of the side wall 9. In contrast to this, the two lower holding devices 12 are configured such that the two support ribs 13 and the two fixing projections 15 are formed by a common projection. Each fixing protrusion 15 has an introduction groove 16, respectively. On the one hand, the introduction groove 16 is delimited by a planar wall section of the side wall 9, which is arranged substantially only vertically. Further, the introduction groove 16 is constituted by a boundary surface of the fixing protrusion 15 extending in the width direction X.

As can be seen in particular from the enlarged illustration according to fig. 3, the insertion surfaces 17 each engage directly in the depth direction Y on the bearing surfaces 14. The support surface 18 engages the insertion surface 17 in the depth direction. The insertion surface 17 is continuously inclined downward in the depth direction Y from its surface start 19 to its surface end 20. At its lowest point, i.e. the surface termination 20, the support surface 18 directly adjoins the lead-in surface 17. The support surface 18 is parallel to the bearing surface 14, i.e. is horizontally formed.

In this embodiment, each lead-in surface 17 is formed by two arcs adjoining each other in the depth direction Y. The transitions between the bearing surface 14 and the insertion surface 17 (at the surface start 19) and between the insertion surface 17 and the support surface 18 (at the surface end 20) are embodied without edges. The transition between the two circular arcs in the insertion surface 17 is likewise embodied without edges.

The introduction groove 16 is laterally delimited by an introduction surface 17 and a further introduction surface 45 facing the introduction surface.

At the end of the insertion groove 16 in the depth direction Y, there is an end stop face 21 which determines the end position of the inserted grid.

The fastening lug 15 also forms a support 22, on which a withdrawal limiting surface 23 is formed. Said extraction limiting surface 23 is constituted by a side surface of the fixing lug 15 and is therefore configured substantially perpendicular to the side wall 9. Looking in the direction of the side wall 9, it can be seen that the extraction limiting surface 23 extends obliquely. An undercut 24 is formed on the fixing projection 15 behind the extraction regulating surface 23 in the depth direction. The rear edge section of the inserted grid can be received in the undercut 24. The undercut 24 is configured with an upper stop surface 40 which prevents the shelf from tipping over.

Fig. 4 shows a partial perspective view of the inner container of fig. 1 in the region of the upper panel 11, wherein, for the purposes of illustration, only a part of the inner container 7 with the inserted panel 11 is shown.

In this embodiment, the panel 11 is embodied in three parts and comprises a panel element 25, the upper side or storage surface 26 of which is used for storing refrigerated goods. The shelf 11 is supported on the bearing surface 14 by means of the underside or support surface 27 via the side plate edge 35. The plate member 25 is made of glass. The panel 11 also comprises a strip 29 secured to its rear edge section 28. The strip 29 is made of hard plastic, i.e. polypropylene. The strip 29 is an extruded part. The strip 29 is fixed to the rear edge section 28 in a form-locking and force-locking manner by means of the retaining profile 30. The strip 29 furthermore has a limiting contour 31 for fixing the refrigerated goods on the storage surface 26 in the depth direction Y.

The strip 29 has a punched-out recess 33 at its two end sections 32. The strip 29 forms a front contact surface 34 at the end section 32, opposite the extraction limiting surface 23. When a horizontal tensile load is applied to the lattice 11, the front contact surface 34 and the withdrawal limiting surface 23 contact each other oppositely to the depth direction Y and prevent the lattice 11 from moving forward. The end section 32 and the front contact surface 34 formed thereon are formed rigidly, i.e. not flexibly, so that on the one hand an undesired extraction of the panel 11 can be reliably prevented and on the other hand an elastic deformation of the strip 29 which is repeated and can lead to damage to the strip 29 is prevented.

A closed contour 47 is fixed to the front edge section 46 of the pane 11.

As can be seen in fig. 4, the supporting ribs 13 are arranged completely on the side walls 9, while in addition the fixing projections 15 also project into the rear wall 36 of the inner container 7.

The loading or unloading of the panels 11 is shown in figure 5 and is shown simplified for illustrative purposes.

Here, the upper part of fig. 5 shows the grid 11 being moved into the introduction groove 16. It can be seen that the introduction slot 16 is configured (in particular the smallest width measured between the introduction face and the further introduction face is dimensioned) to enable a contactless (i.e. without contacting the inner container) introduction of the panel 11 and in particular of the slats 29 (shown schematically) of the panel. In particular, the strip 29 is neither elastically nor plastically deformed. However, the panels, in particular the panels 29 and the inner container can be in contact with each other. In particular, the panels 11 can therefore be introduced or removed by the slats 29 sliding on the introduction face 17. In this case, the grid 11 is pushed back or pulled forward at an angle 37.

As shown in the lower part of fig. 5, the geometry of the insertion grooves 16 and the spacing between two adjacent support ribs 13 in the height direction Z are configured such that the grid 11 can be inserted or removed without buckling on the support ribs 13 arranged thereon.

Fig. 6 shows a diagram of the second embodiment with reference to fig. 2.

This embodiment differs from the first embodiment in that the two lower retaining means 12 have shorter support ribs 13 in the depth direction Y than the upper retaining means 12. In particular, the two support ribs 13 of the two lower retaining devices 12 extend over substantially only half the depth extension of the grid 11. In order to prevent the grid 11 from tipping about the tilt axis 38, it is provided according to this embodiment: the upper contact surface 39 of the strip 29 permanently contacts the upper stop surface 40 at the two lower retaining devices 12. However, permanent contact in this position is not necessary for the upper retaining device 12, so that a gap 41 is formed between the upper contact surface 39 and the upper stop surface 40.

As in the first exemplary embodiment, in the installed state of the pane 11, a gap 42 is also present between the front contact surface 34 (of the pane 11) and the extraction limiting surface 23 (of the holding device 12). Furthermore, a gap 44 can be formed (as in the first embodiment) between the rear contact surface 43 and the end stop surface 21.

List of reference numerals

1 household appliance

2 cabinet body

3 receiving space

4 receiving space

5 door

6 door

7 inner container

8 inner container

9 side wall

10 side wall

11 grid plate

12 holding device

13 support rib

14 bearing surface

15 securing tab

16 lead-in groove

17 introduction face

18 bearing surface

19-plane starting end

20-sided terminal end

21 end stop face

22 support

23 draw-out limiting surface

24 side concave

25 plate element

26 storage surface

27 bearing surface

28 trailing edge section

29 lath

30 retention profile

31 limit profile

32 end section

33 left empty

34 front contact surface

35 side panel edge

36 rear wall

37 degree

38 inclined axis

39 upper contact surface

40 stop surface

41 gap

42 gap

43 rear contact surface

44 gap

45 additional introduction face

46 leading edge section

47 closed profile

Claims (15)

1. A domestic refrigeration device (1) comprising an inner container (7, 8) which delimits a receiving space (3, 4) at least in sections and has two opposite side walls (9, 10), the side walls are each provided with a holding device (12) for the panels (11), the domestic refrigeration appliance further comprises a panel (11) which is arranged on the holding device (12), wherein each holding device (12) has a bearing surface (14) and a withdrawal limiting surface (23), the extraction limiting surface is arranged behind the bearing surface (14) in the depth direction (Y) and above the bearing surface (14) in the height direction (Z), characterized in that an introduction surface (17) is provided which is arranged behind the bearing surface (14) in the depth direction (Y) and is designed so as to be inclined in the depth direction (Y).

2. A domestic cooling device (1) according to claim 1, wherein the lead-in surface (17) is configured continuously declined.

3. A domestic cooling device (1) according to claim 1 or 2, wherein the introduction surface (17) is designed without ribs, in particular without ribs in the depth direction (Y).

4. A domestic cooling device (1) according to any one of the preceding claims, wherein the lead-in surface (17) directly adjoins the bearing surface (14) in the depth direction (Y).

5. A domestic cooling device (1) according to any one of the preceding claims, wherein the lead-in surface (17) extends in the depth direction (Y) by at least 0.5cm, at least 1.0cm, at least 2.0cm or at least 3.0 cm.

6. A domestic cooling device (1) according to any one of the preceding claims, wherein the extension of the lead-in surface (17) in the depth direction (Y) corresponds to at least two times, at least three times or at least four times the extension of the lead-in surface (17) in the height direction (Z).

7. A domestic cooling device (1) according to any one of the preceding claims, wherein the retaining means (12) each have an introduction groove (16) which is delimited by the introduction surface (17) and a further introduction surface (45) respectively.

8. A domestic cooling device (1) according to claim 7, wherein the further lead-in surface (45) is configured planar.

9. A domestic cooling device (1) according to claim 7 or 8, wherein the lead-in surface (17) and the further lead-in surface (45) are configured substantially parallel to each other.

10. A domestic cooling device (1) according to any of claims 7 to 9, wherein the lead-in slot (16) is dimensioned such that the panel (11) can be fitted in or taken out without elastic deformation of the panel (11).

11. A domestic cooling device (1) according to any one of the preceding claims, wherein two front contact faces (34) are configured on the pane (11), which front contact faces are opposite the extraction limiting face (23).

12. A domestic cooling device (1) according to claim 11, wherein a gap (42) is present between the extraction limiting surface (23) and a front contact surface (34) opposite the extraction limiting surface.

13. A domestic cooling device (1) according to any one of the preceding claims, wherein the bearing surface (14) is configured on a support rib (13) integrally formed on the inner container (7, 8) respectively, and the extraction limiting surface (23) is configured on a fixing protrusion (15) integrally arranged on the inner container (7, 8) respectively.

14. A domestic refrigeration device (1) comprising an inner container (7, 8) which delimits a receiving space (3, 4) at least in sections and has two opposite side walls (9, 10), the side walls are each provided with a holding device (12) for the panels (11), the domestic refrigeration appliance further comprises a panel (11) which is arranged on the holding device (12), wherein each holding device (12) has a bearing surface (14) and a withdrawal limiting surface (23), the extraction limiting surface is arranged behind the bearing surface (14) in the depth direction (Y) and above the bearing surface (14) in the height direction (Z), characterized in that the holding devices (12) are respectively provided with an introduction groove (16), the size of the introduction groove is set so that the grid plate (11) can be put in or taken out without elastically deforming the grid plate (11).

15. A domestic cooling device (1) comprising an inner container (7, 8) which delimits a receiving space (3, 4) at least in sections and has two opposite side walls (9, 10) on which retaining devices (12) for panels (11) are respectively provided, and comprising panels (11) which are arranged on the retaining devices (12), wherein each retaining device (12) has a bearing surface (14) and an extraction limiting surface (23) which is arranged behind the bearing surface (14) in the depth direction (Y) and above the bearing surface (14) in the height direction (Z), characterized in that a rigid strip (29) is arranged on a rear edge section (28) of the panel (11) on which a front contact surface (34) is formed, the front contact surface is opposed to the extraction limiting surface (23).

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