CN109489333B

CN109489333B - Food receiving container, domestic refrigeration appliance and method with a separating wall frictionally positioned in the housing

Info

Publication number: CN109489333B
Application number: CN201811068183.5A
Authority: CN
Inventors: A·加特; T·迪舍尔; A·芬克
Original assignee: BSH Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2017-09-13
Filing date: 2018-09-13
Publication date: 2021-01-05
Anticipated expiration: 2038-09-13
Also published as: US20190078835A1; DE102017216200A1; CN109489333A

Abstract

The invention relates to a food receiving container (7) having a housing (8) and a separate partition wall (11) arranged in the interior (10) of the housing (8) for dividing the volume of the housing (8), wherein a holding device (28) is designed by means of which the partition wall (11) can be positioned in a fixed position and can be placed in a displaced position different from the fixed position, in the fixed position, the partition wall (11) is fixed to the housing (8), and in the displaced position, the partition wall (11) is displaceable within the interior (10) relative to the housing (8) in the state of being arranged on the housing (8), wherein the holding device (28) has at least one friction element (29, 30), the partition wall (11) is held by friction on the housing (8) in a fixed position against displacement, wherein the fixed position can be released by lifting the partition wall (11). The invention also relates to a method.

Description

Food receiving container, domestic refrigeration appliance and method with a separating wall frictionally positioned in the housing

Technical Field

The present invention relates to a food receiving container having a shell and a separate dividing wall relative to said shell, arranged inside the shell for dividing the volume of the shell. The food receiving container has a holding device by means of which the partition wall can be positioned in a fixed position in which it is fixed in position on the housing. The partition wall can be placed in a displaced position, which is different from the fixed position, in which the partition wall can be displaced internally relative to the housing in the state of being arranged on the housing. The invention further relates to a domestic refrigeration device having at least one such food-receiving container.

Background

A food receiving container with a separate partition wall in this respect is known, for example, from JP 2004089255 a. The partition wall can be positioned differently there by having compressible retaining brackets. If the bracket is in the clamped position, the lateral flange region of the partition wall is pressed against the vertical side wall of the housing and the partition wall is then fixed in its position in the interior of the housing. If the brackets are actuated and in particular moved toward one another, the fixed position is released and the clamping action of the retaining brackets is reduced at least in a defined manner such that the partition wall can be moved in the interior of the housing.

In the known configuration of the holding device with the special graspable and manipulable holding bow, the adjustment of the fixed position and the mobile position is very complicated for the user. The user must first enter the interior of the housing and grasp the holding bow, which is located deeper in this respect. This is particularly difficult if the shell contains deposits and access to the bow is limited. Just if the contents are moist or frozen, undesirable damage to the user's fingers can occur. Furthermore, the holding brackets are relatively vulnerable and hidden in position, so that they can not only be undesirably handled strongly during handling but can also be impaired or broken in their function.

Disclosure of Invention

The object of the invention is to provide a food receiving container in which different positions of the partition wall in the interior of the housing can be adjusted in a relatively simple manner.

This object is achieved by a food receiving container and a domestic refrigeration appliance according to the independent claims.

One aspect of the present invention relates to a food receiving container having a shell and a separate dividing wall with respect to the shell, the dividing wall being disposed inside the shell for dividing the volume of the shell. The food receiving container has a retaining device by means of which the partition wall can be positioned in a fixed position inside the housing. In this fixed position, the partition wall is fixed in position on the housing. The partition wall can be brought into a displaced position, which is different from the fixed position, in which it can be displaced internally relative to the housing in the state of being arranged on the housing. When the holding means have removed their holding effect, the shifted state is reached. Conversely, the holding action of the holding device plays a role in the fixed position. The holding device has at least one plate-shaped friction element, by means of which the partition wall in the fixed position is held against displacement on the housing by friction. The fixed position can be released by raising the partition wall. The partition wall is therefore arranged in the housing in such a way that it is adjusted to the fixed position on the one hand and to the mobile position on the other hand by different height positions of the partition wall relative to the housing. The different height positions are viewed in a direction perpendicular to the filling opening of the housing. The frictional attachment element is an element which, due to its geometry and/or the material configuration, automatically establishes or eliminates frictional attachment depending on the different position of the partition wall relative to the housing. Thus, the frictional attachment element is configured to establish or eliminate frictional attachment only through contact with the shell. The frictional attachment element is not a user-manipulated element that grips in a gripped state or otherwise causes a holding action by direct gripping and defined manipulation of the element. When adjusting the partition wall into its particular position, it is no longer necessary to directly grip the frictional attachment element by the user. This results in a significantly improved handling for the unique positional adjustment of the partition wall. It is no longer necessary for the user to grip circumferentially into the interior of the housing in order to be able to positively actuate the holding element hidden there by direct gripping, but rather to achieve a contactless actuation of the friction attachment element by the user in this respect, by: the user positions the separating wall in a defined manner and then also adjusts the fixed position or the displaced position individually. The fixed position is maintained only by creating or eliminating frictional attachment that is uniquely and automatically created upon mechanical contact of the divider wall with the housing. In order to release the fixed position and thus to eliminate the contact with frictional adhesion between the friction element and the housing, the partition wall is raised perpendicular to the plane of the filling opening and also perpendicular to the possible direction of movement of the partition wall in the interior of the housing. The very intuitive and user-friendly and thus also quick and targeted positioning of the partition wall has the advantages described above.

The at least one plate-shaped friction element is arranged on an edge side of the inner side of the partition wall facing the side wall of the housing and projects beyond the partition wall on the edge side. It is thereby achieved that, on the one hand, a flat-configured configuration of the friction attachment element is achieved and, on the other hand, mechanical contact with the inside of the housing is also advantageously and preferentially achieved by the projecting position that is exceeded, so that a friction attachment can be established here in particular and also continuously when the partition wall is moved preferably vertically and thus pressed down into the housing.

It is preferably provided that the frictionally engaging element has a plate-shaped partial element which is configured with a plate surface for frictionally engaging contact. This is a particularly advantageous embodiment, since, on the one hand, a flat design is advantageous, and, on the other hand, the above-mentioned advantages with regard to the frictionally adhering design are achieved in particular when the partition wall is lowered or pressed into the interior of the housing. The plate surface can also achieve the state of frictional adhesion over as large an area as possible, so that the fixed position is held particularly firmly. Even if the contents hit the partition wall when the interior of the housing is filled, the fixed position is not unintentionally released or the partition wall is prevented from moving.

Preferably, the plate surface of the plate-shaped partial element extends over at least 80% of the height of the friction traction element. The very large-area configuration in this respect enables a continuous and stable frictional adhesion to be established when the partition wall is lowered into the interior of the housing. Abrupt use of an already very large frictional attachment is avoided. This configuration also supports a user-friendly insertion of the partition wall.

Preferably, the friction attachment element is made of an elastomer. The material facilitates the above-mentioned advantages with regard to the targeted continuous establishment of the frictional adhesion and the continuous and reliable maintenance of the fixed position. On the other hand, the configuration made of elastomer is suitable for various environmental conditions, so that frictional adhesion is reliably generated and maintained not only at room temperature but also at refrigeration temperatures in domestic refrigeration appliances.

In addition, in the case of a configuration made of an elastomer, the required deformation elasticity is maintained over a long service life, so that here too no slack and, for example, no embrittlement of the friction traction elements or the like occur.

Preferably, the partition wall has a strip-shaped lateral flange facing the inside of the housing, wherein the frictional attachment element is arranged on the lateral flange. By means of this configuration, the widening of the edge side is achieved by a plane running almost perpendicular to the partition wall, so that in this respect a wider friction traction element can find a stable position on the edge side. The functionality of creating frictional grip is improved by this configuration. By means of the side flanges, the friction adhesion element can also be supported on both sides and clamped in an almost sandwich-like manner when the friction adhesion is produced. Clamped by the inner side of the shell on the one hand and by the side flanges on the other hand. Thereby also preventing undesired deformation or other damage to the frictional attachment elements. Furthermore, with this configuration, the friction lining elements do not project laterally in the fixed position, as viewed in width, so that no undesired impacts or impacts of the deposit on the friction lining elements occur here, so that the friction lining elements are also not damaged.

Preferably, the side flanges are wider than the friction traction elements, whereby the above-mentioned advantages are achieved in particular.

It is preferably provided that the separating wall is arranged at a higher level in the displaced position than in the fixed position, viewed in the height direction of the food-receiving container. The height direction is oriented perpendicular to the plane of the filling opening of the housing. In this case, a simple displacement of the partition wall in the displaced position can be achieved, since the partition wall can project almost upward from the interior of the housing and can therefore be easily gripped by the user and can be displaced in a defined manner accordingly. In the secured position, which is deeper downward in this respect, no undesired projection of the partition wall beyond the filling opening of the housing occurs, so that here no interfering projections occur and collisions of other components of the domestic refrigeration appliance are avoided.

Preferably, provision is made for the partition wall to be latched to the housing and for the latching element of the partition wall and the counter-latching element on the housing to lie against one another in the moved position and for the latching element and the counter-latching element to be decoupled in the fixed position. This configuration thus prevents that, in the displacement position in which a defined displacement can be achieved, an undesired release of the partition wall from the housing still does not occur. Since the displacement direction is oriented in the plane of the housing, in which the filling opening extends, or parallel to the plane of the housing, unintentional removal of the partition wall perpendicular to this plane is prevented by the latching connection. This prevents the separating wall from unintentionally becoming detached, in particular during displacement. Furthermore, the release of the fastening position by the configuration of the latching device thus prevents an excessive pull-out in this respect when the partition wall is pulled out upward from the interior of the housing.

On the other hand, in the secured position, the detent device is still present and in this case a release position of the detent state of the detent element with the counter detent element is produced. In this fixed position too, the detent device is further designed in such a way that the partition cannot be completely separated from the housing. However, in this secured position, the latching elements and the counter-latching elements do not need to be actually latched and in contact with one another.

It is preferably provided that a laterally extending bracket with a latching element is arranged on the upper edge of the partition wall and that a mating latching element is arranged on the outer side of the side wall of the housing. By means of this configuration, a wing-like element is provided on which the latching element is arranged in a concealed and thus protected manner. This advantageously enables the counter-latching element to be enclosed from above. On the one hand, a secure latching and an upward undesired exposure of the latching elements can be achieved, which can then be damaged or broken by impact.

Preferably, the counter latching element is designed as a rail, through which the latching element is guided during displacement in the displaced position of the partition wall. The versatility of the mating detent element saves components and makes it particularly easy to construct an integrated processing variant of the partition wall.

It is preferably provided that two opposite side walls of the housing, between which the partition wall extends, are arranged obliquely towards the filling opening of the housing, so that the interior of the housing widens towards the filling opening. This configuration makes it possible to achieve a particularly advantageous fixed position and thus to continuously build up the frictional attachment. It can advantageously be provided that the opposing side walls have different slopes. This makes it possible to form the friction-bonded arrangement on the respective wall individually. On the other hand, the installation code is created so that the partition wall is not installed erroneously.

It is preferably provided that the partition wall overlaps the upper edges of the opposite side walls of the (ulbergeift) shell by means of the already mentioned bow. This makes it possible to achieve a particularly advantageous solution for retaining the partition wall on the housing. In particular, the bracket can also be placed on the edge from above, in particular the partition wall, in a fixed position inside the housing, so that a further additional stabilization of the fixed position is achieved by the above placement.

It is preferably provided that the path of movement of the partition wall relative to the housing is delimited by a sunken edge section of at least one upper edge of the side wall of the housing. On the one hand, this advantageously makes it possible to set a defined partial volume of the interior of the housing, and on the other hand, no undesired projection of the partition wall upwardly out of the housing occurs via the lowered edge section.

Another aspect of the invention relates to a domestic refrigeration appliance having at least one food-receiving container according to the above-mentioned aspect or one of the advantageous configurations.

Another independent aspect of the invention relates to a method for positioning a dividing wall of a food receiving container inside a shell of the food receiving container. In the method, the partition wall is moved in the displacement position relative to the housing in order to change the volume division of the interior of the housing in the state of being arranged on the housing, and is held against displacement on the housing in the fixed position. The partition wall is held on the housing by holding means. The partition wall is held in the fixed position against displacement on the housing, in particular in a direction perpendicular to the loading opening or the filling opening of the housing, by frictional engagement of the frictional engagement elements of the holding device. The fixed position is released by the partition wall being lifted, in particular in a direction perpendicular to the plane of the filling opening and thus in particular also perpendicular to the direction of movement of the partition wall.

Advantageously, by this measure, the partition wall can be manipulated by the hand of the user only and moved between the fixed position and the displaced position. This also results in simple handling. In particular for impaired users with disabled hands or arms or in addition with at least temporarily restricted one hand, the partition wall can still be handled reliably.

A further advantageous embodiment of the method can be achieved by the above-described components of the food receiving container and by their at least partially unique interaction with one another.

The terms "above", "below", "front", "rear", "horizontal", "vertical", "depth direction", "width direction", "height direction", etc. describe the position and orientation that results when the food-receiving container or utensil is used and arranged as intended.

Further features of the invention emerge from the claims, the figures and the description of the figures. The features and feature combinations mentioned above in the description and the features and feature combinations mentioned below in the description of the figures and/or shown in the figures individually can be used not only in the respectively stated combination but also in other combinations or individually without departing from the scope of the invention. Thus, embodiments which are not shown and explained in detail in the drawings, but which are obtained and produced by means of the combination of the sorting features of the embodiments explained, are also to be considered as being included in the invention and disclosed by the invention. Consequently, embodiments and combinations of features of the independent claims not originally presented are also to be regarded as disclosed.

Drawings

Embodiments of the invention are explained in detail below with reference to the schematic drawings. It shows that:

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

FIG. 2 is a perspective view of one embodiment of a food receiving container with a dividing wall in a fixed position;

FIG. 3 is a perspective cross-sectional view of the configuration according to FIG. 2; and

fig. 4 is a perspective sectional illustration according to fig. 3, wherein, in contrast to fig. 3, the partition wall is arranged in the raised displacement position.

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

Detailed Description

In fig. 1, a domestic refrigeration device 1 is shown in a schematic view, which is designed for storing and preserving food products. The domestic refrigerator 1 can be designed as a refrigerator or freezer or as a combination refrigerator and freezer. In this embodiment, the domestic refrigeration appliance is preferably a combination refrigerator-freezer appliance. The domestic refrigerator 1 has a housing 2 in which at least one receiving space 3 for food is formed. The receiving space 3 may be a cold storage compartment or a freezer compartment. In a preferred embodiment, the domestic refrigeration device 1 has a second receiving space 4, which is separate from the first receiving space 3 and can likewise be a refrigerating compartment or a freezing compartment. The second receiving space 4 is in particular a freezer compartment.

Furthermore, the domestic refrigeration appliance 1 has a door 5 which closes the receiving space 3. In an alternative embodiment, the domestic refrigeration device 1 has a second door 6 which closes off the optionally present second receiving space 4 on the front side. The doors 5 and 6 are pivotably arranged on the housing 2.

In the receiving space 4a separate food receiving container 7 is arranged. In fig. 2, the food receiving container 7 is shown in a perspective view according to one embodiment. The food receiving container 7 has a pot-like structured shell 8. The housing 8 has a filling opening 9 in the upper region, which is open and through which contents can be introduced into the interior 10 of the housing 8 and removed therefrom. Furthermore, the food receiving container 7 has a separating wall 11, separate from the housing 8, which can be mounted in the interior 10 for dividing the volume of the housing 8. The partition wall 11 thus divides the volume of the housing 8 into two separate partial volumes. The housing 8 has a front boundary wall 12 and a rear boundary wall 13. The bounding wall 12 has an upper edge 14. The delimiting wall 13 has an upper edge 15. As can be seen in the embodiment according to fig. 2, the edge section 14a of the upper edge 14 is countersunk relative to the rest of the edge 14. Accordingly, the edge section 15a of the upper edge 15 is sunk in relation to the rest of the upper edge 15. By means of the sunk

edge sections

14a and 15a, a maximum travel path of the partition wall 11 in the interior 10 of the housing 8 is defined.

The edge section 14a is reinforced or stiffened by the optional connecting web 16. Accordingly, a further connecting web 17 can be provided in the edge section 15a in order to also reinforce the edge section. Preferably, the mating latching elements 18 are arranged on the outer side 12a of the side wall 12 offset downward, as viewed in the height direction (y direction), with respect to the edge section 14a over the entire length of the edge section 14 a. The counter latching element 18 is also designed here in particular as a continuous and uninterrupted, straight rail which projects forward from the outer side 12 a. Correspondingly, a counter latching element 19, which is preferably in the form of a continuous linear rail extending over the entire length of the edge portion 15a, is integrally formed on the outer side 13a of the rear side wall 13, offset downward with respect to the edge portion 15 a. The further counter latching element 19 is shown in fig. 3.

The partition wall 11 is constructed in one piece, in particular from plastic. As can be seen in fig. 2, the partition wall 11 has a base plate 20. Side flanges 21 and 22 (fig. 3) are formed on opposite edge sides of the base plate 20, which extend in width to a greater extent than the base plate 20. The side flanges 21 and 22 face the

inner sides

13b and 12b of the

side walls

12 and 13, respectively. A further connecting lug 23 is formed on the upper edge of the base plate 20, which is likewise wider than the base plate 20. Thereby, the partition wall 11 is reinforced.

In the upper region, in particular the upper region adjoining the web 23, the

brackets

24 and 25 are formed on opposite sides. The bow is oriented downwards and surrounds the

edge sections

14a and 15a from above. Fig. 2 shows the fixed position of the partition wall 11. This means that the partition wall is arranged at a deeper position in the height direction (y-direction) and thus at a lower height position than the height position that the partition wall 11 has in the displaced position than in the fixed position. The height direction is oriented perpendicular to a plane in which the filling opening 9 extends.

As can be seen, the latching

elements

26 and 27 are integrally formed on the lower free ends of the brackets 24 and 25 (fig. 3). The

mating latching elements

18 and 19 together with the latching

elements

26 and 27 form a latching device, by means of which the partition wall 11 is arranged in a latching manner on the housing 8. In the fixed position of the partition wall 11 shown in fig. 2, the partition wall 11 is arranged in the housing against displacement. This means that the partition wall cannot move in the width direction (x direction). In the secured position, the partition wall 11 is positioned such that the latching

elements

18 and 19 are spaced apart from the

mating latching elements

26 and 27 and are therefore arranged in the height direction without touching one another. However, the latching device is designed such that in this fixed position, the partition 11 cannot be removed from the interior 10 either.

As can be seen in the perspective sectional view of fig. 3, which shows a sectional view along the sectional line III-III in fig. 2, the partition wall 11 is positionally fixed on the housing 8 in this fixed position only by frictional adhesion. For this purpose, the food product receiving container 7 has a holding device 28, which here has at least two separate, in particular plate-shaped

friction elements

29 and 30. The friction traction elements 29 are designed as separate components, in particular as solid bodies, preferably made of an elastomer. The frictional attachment elements are arranged on opposite sides of the partition wall 11, in particular on the

side flanges

21 and 22. The friction attachment element 29 has a plate-shaped partial element 31, which extends laterally from the side flange 22 in the direction of the inner side 12 b. The plate-shaped sub-element 31 has a plate surface 32 which is constructed and arranged for direct frictional attachment contact with the inner side 12 b. In the secured position, the partition wall 11 is pressed into the interior 10 in the height direction in such a way that the partition wall 11 is held in the position by the

frictional attachment elements

29 and 30. The plate-like partial element 31 is compressed or pressed by the pressing down in such a way between the inner side 12b and the side flange 22 that a corresponding frictional adhesion is established here. The further frictional attachment elements 30 are correspondingly designed and function identically in function.

Preferably, the plate surface 32 extends over at least 80% of the height of the entire friction traction element 29, so that here the largest possible surface area is realized on the inner side 12 b.

In this fixed position, the partition wall 11 is also placed in particular on the bottom 33 of the housing 8. In addition or alternatively, it can be provided that the

brackets

24 and 25 are placed at the

edge sections

14a and 15a in the fixed position. The fixed state is additionally stabilized by the two alternatives described, which can also occur in combination. Starting from the fixed position of the partition wall 11 shown in fig. 3, it is raised in the height direction relative to the housing 8 and is therefore moved upwards. The displacement of the partition wall 11 from the fixed position into the displaced position is thus effected in a direction oriented perpendicularly to the displaced position P1 shown in fig. 4. Said raising is illustrated by reference P2 in fig. 4.

By this movement in a direction perpendicular to the filling opening 9 of the housing 8, the frictional adhesion between the

frictional adhesion elements

29 and 30 and the

inner sides

12b and 13b, which are produced and held in the fixed position, is eliminated and in this respect released. In the shifted position shown in fig. 4, there is therefore no direct abutment of the

friction traction elements

29 and 30 on the

inner sides

12b and 13b and therefore no friction traction is established. However, in the displaced position shown in fig. 4, the partition 11 cannot be separated from the housing 8, since the latching action of the latching device is fully effective here. Since, as shown in the maximum possible raised position in fig. 4, the latching

elements

26 and 27 bear directly against the

counter-latching elements

18 and 19. This configuration also achieves that the partition wall 11 is prevented from being pulled out of the interior 10. In the displacement position according to fig. 4, the partition wall 11 can then be displaced back and forth linearly along the arrow P1. If the desired position of the partition wall 11 relative to the housing 8 is then reached, this position is again fixed by: the partition wall 11 is pressed down into the interior 10 according to the arrow P3 in fig. 4 until the corresponding frictional adhesion is again established and the fixed position is reached. In particular, in this fixed position, the partition wall 11 is then placed on the base 33 and/or the

brackets

24 and 25 are placed on the

edge sections

14a and 15 a.

In one advantageous embodiment, it is provided that the side walls 12 are arranged at an angle and are therefore not oriented completely vertically. Preferably, the side wall 12 is arranged obliquely outward or obliquely forward from the bottom 33. In particular, an angle of between 1 ° and 5 °, in particular between 1 ° and 3 °, preferably 1.5 °, can be formed here.

In addition or alternatively, it can be provided that the further side wall 13, i.e. the side wall which is here to the rear, viewed in the depth direction (z direction), is arranged obliquely. Here also from the bottom 33, a preferably outwardly inclined component is provided. With this configuration, the shell 8 therefore widens, viewed from the bottom 33, towards the filling opening 9. It is particularly advantageous if the side wall 13 has a slope of between 5 ° and 10 °, in particular between 6 ° and 9 °, in particular 8 °.

In particular, it may also be provided that an air inlet 34 is formed in this rear side wall 13. Air may enter the interior 10 through the air inlet 34.

List of reference numerals

1 domestic refrigeration appliance

2 casing

3 receiving space

4 receiving space

5 door

6 door

7 food receiving container

8 case

9 filling opening

10 inner part

11 partition wall

12 front limit wall

12a outer side

12b inner side

13 rear limiting wall

13a outer side

13b inner side

14 upper edge

14a edge segment

15 upper edge

15a edge segment

16 connecting sheet

17 connecting sheet

18 mating latch elements

19 mating latch element

20 base plate

21 side flange

22 side flange

23 connecting sheet

24 bow member

25 bow member

26 latch element

27 latching element

28 holding device

29 frictional attachment element

30 frictional attachment element

31 subelement

32 plate surface

33 bottom

34 air inlet

P1 Shift State

P2 rising

P3 arrow

Claims

1. A food receiving container (7) having a housing (8) and a separating wall (11) which is independent of the housing and which is arranged in the interior (10) of the housing (8) for dividing the volume of the housing (8), wherein a holding device (28) is designed by means of which the separating wall (11) can be positioned in a fixed position in which the separating wall (11) is fixed to the housing (8) and can be placed in a displaced position which is different from the fixed position and in which the separating wall (11) can be displaced in the interior (10) relative to the housing (8) in a state arranged on the housing (8), characterized in that the holding device (28) has at least one friction adhesion element (29, 30) by means of which the separating wall (11) in the fixed position is held in a displacement-proof manner by friction adhesion On the housing (8), wherein the fixed position can be released by raising the partition wall (11),

wherein the partition wall (11) is latched to the housing (8) by means of a latching device, and in the moved position latching elements (26, 27) of the partition wall (11) and counter-latching elements (18, 19) on the housing (8) abut one another, and in the secured position latching elements (26, 27) and counter-latching elements (18, 19) are decoupled, and by means of the latching device complete separation of the partition wall (11) from the housing (8) is prevented both in the secured position and in the moved position.

2. Food receiving container (7) according to claim 1, wherein a friction attachment element (29, 30) is arranged on and protrudes beyond the edge side of the inner side (12b, 13b) of the partition wall (11) facing the side wall (12, 13) of the housing (8).

3. Food receiving container (7) according to claim 1 or 2, wherein the friction attachment element (29, 30) has a plate-like sub-element (3) configured with a plate surface (32) for frictionally attaching contact.

4. A food receiving container (7) according to claim 3, wherein said panel surface (32) extends over at least 80% of the height of said frictional attachment elements (29, 30).

5. Food product receiving container (7) according to any of claims 1, 2, 4, wherein the friction attachment element (29, 30) is constructed of an elastomer.

6. Food receiving container (7) according to any of claims 1, 2, 4, wherein the partition wall (11) has strip-shaped side flanges (21, 22) facing the inner sides (12b, 13b) of the shell (8), wherein the frictional attachment elements (29, 30) are arranged on the side flanges (21, 22).

7. Food product receiving container (7) according to any of claims 1, 2, 4, wherein the partition wall (11) is arranged at a higher level in the displaced position than in the fixed position, viewed in the height direction (y) of the food product receiving container (7).

8. Food receiving container (7) according to any one of claims 1, 2, 4, characterised in that laterally extending bows (24, 25) with said latching elements (26, 27) are arranged on the upper edge (23) of the partition wall (11) and that mating latching elements (18, 19) are arranged on the outer sides (12a, 13a) of the side walls (12, 13) of the housing (8).

9. Food product receiving container (7) according to one of the claims 1, 2, 4, wherein the counter latching elements (18, 19) are configured as rails, the latching elements (26, 27) being guided by the rails in the displacement position of the partition wall (11) during displacement.

10. Food product receiving container (7) according to any one of claims 1, 2, 4, wherein two opposite side walls (12, 13) of the shell (8) are arranged obliquely towards the filling opening (9) of the shell (8) such that the interior (10) of the shell (8) widens towards the filling opening (9), the partition wall (11) extending between the two opposite side walls.

11. Food receiving container (7) according to any of claims 1, 2, 4, wherein the partition wall (11) overlaps the upper edges (14, 15) of the opposite side walls (12, 13) of the shell (8) with bow-shaped pieces (24, 25).

12. Food receiving container (7) according to claim 11, wherein the path of movement of the partition wall (11) relative to the housing (8) is delimited by a sunken rim section (14a, 15a) of at least one upper rim (14, 15).

13. A domestic refrigeration appliance (1) having at least one food-receiving container (7) according to any one of the preceding claims.

14. Method for positioning a partition wall (11) of a food receiving container (7) according to any one of claims 1 to 12 in the interior (10) of a housing (8) of the food receiving container (7), wherein the partition wall (11) is moved in a moved position relative to the housing (8) in order to change the volume division of the interior (10) in a state of being arranged on the housing (8) and is held against movement on the housing (8) in a fixed position, wherein the partition wall (11) is held against movement on the housing (8) by means of a holding device (28), characterized in that the partition wall (11) is held against movement on the housing (8) in the fixed position by frictional adhesion of frictional adhesion elements (29, 30) of the holding device (28), wherein the frictional adhesion is such that the partition wall (11) is moved relative to the housing (8) The interior (10) is automatically established and the fixed position is released by raising the partition wall (11).