阅读说明：本技术 用于家用洗碗机的冲洗容器、家用洗碗机和方法 (Washing container for a domestic dishwasher, domestic dishwasher and method ) 是由 诺贝特·内斯勒 安杰伊·巴德齐恩斯基 迪特尔·豪兹 约翰·沙贝特 于 2018-05-09 设计创作，主要内容包括：本发明涉及一种用于家用洗碗机(1)的冲洗容器(2),冲洗容器包括：底板(7)；布置在底板(7)上的U形的冲洗容器外壳(12),冲洗容器外壳包括侧壁(10、11),侧壁借助于折边咬合连接部(20、21)与底板(7)连接；以及,与冲洗容器外壳(12)连接的U形的框架(16),U形的框架支撑冲洗容器外壳(12),其中框架(16)具有从框架中突出的且布置在冲洗容器外壳(12)之内的支承肋(22、23),折边咬合连接部(20、21)支撑在支承肋处,并且其中支承肋(22、23)包括闭合的支承面(25),折边咬合连接部(20、21)抵靠在支承面处。(The invention relates to a washing container (2) for a domestic dishwasher (1), comprising: a base plate (7); a U-shaped washing container housing (12) arranged on the base plate (7), said washing container housing comprising side walls (10, 11) which are connected to the base plate (7) by means of fold-edge snap connections (20, 21); and a U-shaped frame (16) connected to the flushing container housing (12), the U-shaped frame supporting the flushing container housing (12), wherein the frame (16) has bearing ribs (22, 23) projecting from the frame and arranged within the flushing container housing (12), at which the fold-over engagement connection (20, 21) is supported, and wherein the bearing ribs (22, 23) comprise a closed bearing surface (25), at which the fold-over engagement connection (20, 21) rests.)

1. A rinsing container (2) for a domestic dishwasher (1), the rinsing container comprising: a base plate (7); a U-shaped rinsing container housing (12) arranged on the base plate (7), said rinsing container housing comprising side walls (10, 11) which are connected to the base plate (7) by means of a fold-forming snap connection (20, 21); and a U-shaped frame (16) connected to the rinse container housing (12), which frame supports the rinse container housing (12), wherein the frame (16) has bearing ribs (22, 23) projecting from the frame and arranged within the rinse container housing (12), at which bearing ribs the fold snap connection (20, 21) is supported, and wherein the bearing ribs (22, 23) comprise a closed bearing surface (25), at which the fold snap connection (20, 21) rests.

2. Rinsing container (2) according to claim 1, characterized in that the frame (16) is arranged at least partially inside the rinsing container housing (12) and at least partially outside the rinsing container housing.

3. A rinsing container (2) as claimed in claim 1 or 2, characterized in that the fold-over snap connection (20, 21) bears over the entire surface against the bearing surface (25).

4. A rinsing container (2) as claimed in claim 1, 2 or 3, characterized in that the bearing surface (25) is curved arcuately.

5. Rinsing container (2) according to one of the preceding claims, characterized in that the frame (16) comprises a water leakage lead-through (27) which is provided for guiding leakage water from the support ribs (22, 23) to a sealing element receiving section (26) of the frame (16).

6. A rinsing container (2) as claimed in claim 5, characterized in that the water leakage opening (27) penetrates the frame (16).

7. A rinsing container (2) as claimed in claim 5 or 6, characterized in that the supporting ribs (22, 23) comprise a water leakage channel (28) which is provided for conveying leakage water to the water leakage opening (27).

8. A rinsing container (2) as claimed in claim 7, characterized in that the frame (16) comprises water leakage guide ribs (29, 30) arranged for conveying leakage water to the water leakage channel (28).

9. A rinse container (2) according to any of the preceding claims, characterized in that the frame (16) is heat-riveted to the rinse container housing (12).

10. The rinse container (2) according to any of the preceding claims, characterized in that the rinse container housing (12) comprises: a first side wall (10) connected to the base plate (7) by means of a first fold snap connection (20); a second side wall (11) which is connected to the base plate (7) by means of a second fold-in snap connection (21); and a cover (8) connecting the first side wall (10) with the second side wall (11).

11. A rinsing container (2) as claimed in claim 10, characterized in that the frame (16) comprises: a first support rib (22) at which the first fold snap connection (20) is supported; and a second support rib (23) at which the second flange engagement connection (21) is supported.

12. A rinsing container (2) as claimed in claim 10 or 11, characterized in that the frame (16) is connected with the first side wall (10) and with the second side wall (11).

13. Rinsing container (2) according to one of the preceding claims, characterized in that a rear wall (9) is provided which is welded, in particular spot welded, to the floor (7) and to the rinsing container housing (12).

14. A domestic dishwasher (1) comprising a rinsing container (2) according to any of the preceding claims.

15. A method for manufacturing a rinsing container (2) of a domestic dishwasher (1), the method comprising the steps of:

-providing (S1) a bottom plate (7), a U-shaped rinse container housing (12) and a U-shaped frame (16),

-connecting (S2) the frame (16) with the rinse container housing (12), and

-connecting (S3) the side walls (10, 11) of the washing container housing (12) to the floor (7) by means of a fold-over snap connection (20, 21), wherein the fold-over snap connection (20, 21) is supported, when the fold-over snap connection is produced, at a bearing rib (22, 23) of the frame (16) which projects from the frame (16) and is arranged within the washing container housing (12), and wherein the bearing rib (22, 23) comprises a closed bearing surface (25) at which the fold-over snap connection (20, 21) is arranged when the fold-over snap connection is produced.

Technical Field

The invention relates to a washing container for a domestic dishwasher, a domestic dishwasher having such a washing container and a method for producing such a washing container.

Background

The dishwasher has at least one washing container which is formed from a plurality of plate sections connected to one another. The plate sections can be welded or crimped to one another, for example. For example, the rinse container can include: a bottom part where a side wall is fixed laterally; and, closing the rear wall of the rinsing container at the rear side. The rinsing container can be reinforced by means of a frame fixed thereto.

Document WO2007/048697a1 discloses a dishwasher having at least one frame part made of plastic and fastened to a treatment container, wherein the treatment container has a loading opening closed with a door on the front side. The treatment container has a container housing with side walls and a container top and a frame part, wherein the frame part forms the front side of the treatment container and is connected to the container housing in a form-fitting manner.

Disclosure of Invention

Against this background, it is an object of the present invention to provide an improved rinsing container for a domestic dishwasher.

Accordingly, a rinsing container for a domestic dishwasher is proposed. The washing container includes: a base plate; a U-shaped rinse container housing arranged on the base plate, comprising side walls which are connected to the base plate by means of a folded-edge snap connection; and a U-shaped frame connected to the flushing container housing, the U-shaped frame supporting the flushing container housing, wherein the frame has a bearing rib protruding from the frame and arranged within the flushing container housing, at which the fold engagement connection is supported, and wherein the bearing rib comprises a closed bearing surface, at which the fold engagement connection rests.

Since the supporting front ribs are provided with closed supporting surfaces, a watertight folding snap connection can be achieved even in the region of the frame. In particular, forces are absorbed by the frame during the production of the flanged snap connection, without the frame deforming. This reliably prevents the fold from engaging the leaktightness of the connection in the region of the frame.

"flanged snap connection" or "flanged connection" is understood to mean, in particular, a connection technique in sheet metal processing. This connecting technique is of the type that joins by deformation. Here, one side of the sheet is bent using a hemming or flanging machine. Thereby, the plurality of plate members can be connected to each other. The term "flush container housing is U-shaped" is to be understood as meaning: the rinse container housing includes a first sidewall, a second sidewall, and a cover disposed between the first sidewall and the second sidewall of the rinse container. The flushing container housing is arranged on or standing on the base plate, so that the U-shaped geometry of the flushing container housing is closed at the top and open at the bottom. This means that the U-shaped geometry does not lie flat on the base plate, but is arranged upright on the base plate. The base plate is preferably made of a different steel material than the flushing container housing. For example, a less expensive material than the base plate can be used for the flushing container housing. The frame is preferably made of a synthetic material. For example, the frame is an injection molded member. The frame is preferably arranged at the filling opening of the rinsing container and stabilizes it. The frame is fixedly connected with the shell of the washing container. "the bearing surface is closed" is to be understood in particular as meaning: the bearing surface does not have any ridges, ribs, perforations, recesses or other types of structuring. That is, the bearing surface is preferably smooth. The bearing surface can be planar or curved.

According to one embodiment, the frame is arranged at least partially within the flushing container housing and at least partially outside the flushing container housing.

In particular, the frame is pushed onto the flushing-container housing on the front side and is fixedly connected to the flushing-container housing. In particular, the flushing container housing is inserted into the frame such that the frame is arranged at least partially within the flushing container housing and at least partially outside the flushing container housing.

According to a further embodiment, the fold engaging connection rests over the entire surface on the support surface.

This can be understood as: the fold engagement connection contacts the bearing surface in the region of the bearing surface, so that no gap is provided in particular between the fold engagement connection and the bearing surface. Preferably, the fold engaging connection thus rests without play against the bearing surface.

According to a further embodiment, the bearing surface is curved arcuately.

Alternatively, the bearing surface can also be flat or planar.

According to another embodiment, the frame comprises a water leakage through opening, which is provided for guiding a water leakage from the support rib to the sealing element receiving section of the frame.

In particular, a sealing element is accommodated in the sealing element receiving section, said sealing element surrounding the filling opening of the rinsing container. The water leakage through hole penetrates the frame and extends from the support rib toward the sealing element accommodating section and guides the water leakage behind the sealing element into the sealing element accommodating section. Subsequently, the leakage water can be reintroduced downwards in the sealing element receiving section into the rinsing container.

According to another embodiment, the water leakage passage is guided through the frame.

The leakage opening is in particular designed as a bore or opening. The water leakage through-openings can have any geometrical shape.

According to another embodiment, the support rib comprises a water leakage channel, which is provided for conveying leakage water to the leakage water passage opening.

For this purpose, the water leakage channel is inclined, in particular, in the direction of the water leakage passage opening. The water leakage channel is positioned particularly behind the support ribs.

According to another embodiment, the frame comprises a water leakage guide rib provided to deliver the leakage water to the water leakage passage.

The water leakage guide rib is preferably integrally constructed with the support rib. The leakage water guide rib and the support rib form a Y-shaped geometry. The water leakage guide rib is positioned slantingly in the direction of the water leakage through opening.

According to a further embodiment, the frame is heat-riveted to the flushing container housing.

For this purpose, a plurality of hot rivets are provided at the frame, which can be designed in one piece with the frame. The rinse container housing has a corresponding through opening through which the hot rivet is guided. In order to connect the frame to the rinse container housing, the hot rivet guided through a through opening provided in the rinse container housing is melted and flattened. The frame is thereby fixedly connected to the flushing container housing.

According to another embodiment, the flushing receptacle housing comprises: a first side wall connected to the base plate by means of a first folded-edge snap-in connection; a second side wall connected to the base plate by means of a second flanged snap-in connection; and a cover connecting the first sidewall with the second sidewall.

The first side wall, the second side wall and the cover form a U-shaped geometry of the flushing container housing. The flushing container housing is in particular designed as an integral bent sheet metal section.

According to another embodiment, the frame comprises: the first folding edge meshing connection part is supported at the first supporting rib; and a second support rib at which the second flange engagement connection portion is supported.

In particular, the first water leakage guide rib is associated with the first support rib, and the second water leakage guide rib is associated with the second support rib. Each bearing rib has a closed bearing surface at which the respective hem-engaging joint is supported.

According to another embodiment, the frame is connected with the first side wall and with the second side wall.

In particular, the frame is heat staked to the first and second sidewalls. Furthermore, the frame is preferably also fixedly connected, in particular heat-riveted, to the cover of the rinsing container housing.

According to a further embodiment, the flushing container comprises a rear wall, which is welded, in particular spot welded, to the floor and to the flushing container housing.

Preferably, the rear wall is made of the same material as the flushing container housing. A sealing element is provided between the rear wall and the floor or the flushing-container housing, which sealing element seals the rear wall watertight with respect to the floor and the flushing-container housing.

Furthermore, a domestic dishwasher with such a rinsing container is proposed.

A door can be opened and closed at the rinse container, the door being pivotable about a pivot axis to open and close the rinse container. In the rinsing container, a plurality of, for example three, rinsing product receptacles for rinsing products can be provided, which receptacles are arranged one above the other.

Furthermore, a method for producing a rinsing container for a domestic dishwasher is proposed. The method comprises the following steps: providing a base plate, a U-shaped rinse container housing and a U-shaped frame; connecting the frame to the rinse container housing; and connecting the side walls of the washing container housing to the base plate by means of a fold-over snap connection, wherein the fold-over snap connection is supported during its production at a bearing rib of the frame that protrudes from the frame and is arranged within the washing container housing, and wherein the bearing rib comprises a closed bearing surface at which the fold-over snap connection is arranged during its production.

The term "support ribs projecting from the frame" is to be understood as meaning: the supporting ribs project beyond the base section of the frame. Preferably, the frame is connected to the flushing container housing by means of a heat-staking process.

The features described for the rinsing container and the domestic dishwasher apply correspondingly to the method and vice versa.

Other possible embodiments of the rinsing container, the domestic dishwasher and/or the method also include combinations of features or embodiments not explicitly mentioned previously and in the following with respect to the examples. The person skilled in the art also adds the individual aspects as a development or as a supplement to the corresponding basic manner of the rinsing container, the domestic dishwasher and/or the method.

Drawings

Further advantageous embodiments and aspects of the rinsing container, the domestic dishwasher and/or the method are the embodiments of the rinsing container, the domestic dishwasher and/or the method described in the following and the subject matter of the dependent claims. Furthermore, a rinsing container, a domestic dishwasher and/or a method according to preferred embodiments are explained in detail with reference to the drawings.

The drawings show

FIG. 1 shows a schematic perspective view of an embodiment of a domestic dishwasher;

FIG. 2 shows a schematic perspective exploded view of an embodiment of a rinsing container for a domestic dishwasher according to FIG. 1;

fig. 3 shows a schematic perspective view of the rinse container according to fig. 2;

fig. 4 shows a schematic perspective detail view of a frame for the rinse container according to fig. 2;

fig. 5 shows another schematic perspective partial view of the frame according to fig. 4;

fig. 6 shows another schematic perspective partial view of the frame according to fig. 4;

fig. 7 shows a schematic detail of the rinsing container according to fig. 2;

FIG. 8 shows a section IIX-IIX according to FIG. 7;

fig. 9 shows a section IX-IX according to fig. 7;

fig. 10 shows an X-X cross-section according to fig. 7;

fig. 11 shows a schematic view of a beader for producing the rinse container according to fig. 2; and

fig. 12 shows a schematic block diagram of an embodiment of a method for producing a rinsing container according to fig. 2.

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

Detailed Description

Fig. 1 shows a schematic perspective view of a domestic dishwasher 1. The domestic dishwasher 1 comprises a rinsing container 2, which can be closed, in particular watertight, by a door 3. For this purpose, a sealing device can be provided between the door 3 and the rinsing container 2. The rinsing container 2 is preferably square. The rinsing container 2 can be arranged in a housing of the domestic dishwasher 1. The rinsing container 2 and the door 3 can form a rinsing chamber 4 for rinsing the rinsing goods.

The door 3 is shown in its open position in fig. 1. The door 3 can be opened or closed by pivoting about a pivot axis 5 provided at the lower end portion of the door 3. The filling opening 6 of the rinsing container 2 can be closed or opened by means of the door 3. The rinsing container 2 has a base plate 7, a cover 8 opposite the base plate 7, a rear wall 9 opposite the closed door 3, and two side walls 10, 11 opposite one another. The floor 7, the cover 8, the rear wall 9 and the side walls 10, 11 can be made of, for example, steel sheet. In particular, the bottom plate 7 can be made, for example, of a different material than the cover 8 and the side walls 10, 11. For example, the floor 7 can be made of material 1.4301, the lid 8 and the side walls 10, 11 of material 1.4016, and the rear wall 9 can likewise be made of material 1.4016.

The first side wall 10, the second side wall 11 and the cover 8 arranged between the first side wall 10 and the second side wall 11 are formed in one piece, in particular from the same material, and form a flushing container housing 12 of the flushing container 2. The flushing container housing 12, the rear wall 9 and the floor 7 are components which are manufactured separately from one another, but which are connected to one another in a watertight manner. For example, the flushing container housing 12 is connected to the base plate 7 by means of a flanged snap connection, and the rear wall 9 is welded, in particular spot welded, to the flushing container housing 12 and to the base plate 7.

The domestic dishwasher 1 also has at least one wash-ware receptacle 13 to 15. Preferably, a plurality of, for example three, rinsing product receptacles 13 to 15 can be provided, wherein the rinsing product receptacle 13 can be a lower rinsing product receptacle or bottom basket, the rinsing product receptacle 14 can be an upper rinsing product receptacle or top basket, and the rinsing product receptacle 15 can be a knife and fork drawer. As is also shown in fig. 1, the flushing-product receptacles 13 to 15 are stacked on top of one another in the flushing container 2. Each flushing-article receptacle 13 to 15 can be selectively moved into and out of the flushing container 2. In particular, each flushing-article receptacle 13 to 15 can be pushed into the flushing container 2 in a push-in direction E (arrow) and can be pulled out of the flushing container 2 in a pull-out direction a (arrow) counter to the push-in direction E (arrow).

Fig. 2 shows a schematic perspective exploded view of an embodiment of a rinsing container 2 for the domestic dishwasher 1 according to fig. 1. Fig. 3 shows a schematic perspective view of the rinsing container 2 according to fig. 2. Reference is now made to fig. 2 and 3 simultaneously.

In addition to the rinse container housing 12, the floor 7 and the rear wall 9, the rinse container 2 also comprises a U-shaped frame 16, which supports the rinse container housing 12. For this purpose, the frame 16 is fixedly connected to the flushing-container housing 12. In particular, the frame 16 is connected to the rinse container housing 12 by means of heat staking. The frame 16 is a composite material member. In particular, the frame 16 is an injection molded component. The frame 16 can thus be produced in large numbers at low cost. The frame 16 is designed such that it is arranged at the filling opening 6 and is arranged at least partially within the flushing container housing 12 and at least partially outside the flushing container housing 12.

As shown in fig. 3, the frame 16 is pushed onto the filling opening 6 on the front side and thus secures the flushing container housing 12 in the region of the filling opening 6. The frame 16 comprises a first leg 17, a second leg 18 and an intermediate leg 19 connecting the first leg 17 with the second leg 18. The first leg 17 is fixedly connected with the first side wall 10, the second leg 18 is fixedly connected with the second side wall 11, and the middle leg 19 is fixedly connected with the cover 8.

The first side wall 10 is connected to the base plate 7 by means of a first hemming connection or first folding snap connection 20, and the second side wall 11 is likewise connected to the base plate 7 by means of a second hemming connection or second folding snap connection 21. "flanging bite" or "hemming" is understood herein to mean a joining technique in the processing of sheet materials. This connecting technique is of the type that joins by deformation. In this case, one side of the sheet is bent, for example, by means of a hemming or flanging machine. This results in a reinforcement of the bent edge and enables a connection to be formed by a plurality of plate elements. The fold snap connections 20, 21 each extend over the entire depth of the rinsing container 2, i.e. from the filling opening 6 to the rear wall 9.

Fig. 4 to 6 each show a schematic perspective detail view of the frame 16. The frame 16 comprises supporting ribs 22, 23 which project from the frame 16 and in particular from the respective legs 17, 18 and are arranged within the flushing container housing 12. The respective fold snap connections 20, 21 are supported at the respective bearing ribs 22, 23. In particular, the first hem snap connection 20 is associated with a first support rib 22 of the first leg 17 of the frame 16, and the second hem snap connection 21 is associated with a second support rib 23 of the second leg 18 of the frame.

"the respective support ribs 22, 23 extend beyond the frame 16" is to be understood as: the supporting ribs 22, 23 project beyond the respective strip-shaped base section 24 of the legs 17, 18. Each support rib 22, 23 comprises a closed support surface 25. "the bearing surface 25 is closed" is to be understood as: it preferably has no bores, ridges, ribs, channels, perforations, etc. That is to say that the bearing surface 25 is smooth. The bearing surface 25 can be planar or curved. In particular, the respective fold engaging connection 20, 21 lies over the entire surface, i.e. with its entire surface, on the bearing surface 25 in the region of the respective bearing surface 25 of the bearing rib 22, 23.

The frame 16 also comprises a sealing element receiving section 26, in which a sealing device, not shown, which has already been mentioned above and surrounds the contents opening 6, for example a polyurethane seal, can be received, so that the door 3 is sealed off from the rinse container 2. The frame 16 is also provided with a water leakage opening 27, which can have any geometric shape. The leakage openings 27 are provided for guiding leakage water from the respective support ribs 22, 23 to the sealing element receiving section 26. Each support rib 22, 23 is associated with one such water leakage orifice 27.

Subsequently, in the sealing element receiving section 26, the leakage water can flow back down in the direction of gravity into the rinsing container 2 again. The water leakage opening 27 penetrates the frame 16 for this purpose and in particular the legs 17, 18 of the frame 16. The support ribs 22, 23 also have water leakage channels 28, respectively, which are provided for conveying leakage water to the leakage water passage openings 27. For this purpose, the water leakage passage 28 is obliquely positioned. The water leakage channel 28 can be positioned behind the respective support rib 22, 23.

The frame 16 further includes a first leakage guide rib 29 associated with the first leg 17 and a second leakage guide rib 30 associated with the second leg 18. Here, the first leakage guide rib 20 is constructed integrally with the first support rib 22, and the second leakage guide rib 30 is constructed integrally with the second support rib 23. The leakage guide ribs 29, 30 are positioned obliquely, thereby delivering leakage water to the leakage passage 28.

Fig. 4 also shows a hot rivet provided with the reference numeral 31, by means of which the frame 16 is connected to the flushing container shell 12. For this purpose, a plurality of bores or passages 32 (fig. 7) are provided in the rinse container housing 12, through which bores or passages the hot rivets 31 are guided. After the frame 16 is placed at the rinse container shell 12, the hot rivet 31 is melted and flattened. The frame 16 is thereby fixedly connected to the flushing container housing 12.

Fig. 7 shows a schematic enlarged side view of the rinsing container 2. Figure 8 shows a cross-sectional view IIX-IIX according to figure 7. Fig. 9 shows an IX-IX section according to fig. 7 and fig. 10 shows an X-X section according to fig. 7. Next, fig. 7 to 10 are referred to simultaneously.

Fig. 8 to 10 show a sealing element 33, which is provided to seal the frame 16 in a watertight manner with respect to the flushing container housing 12. The sealing element 33 is arranged inside the rinsing container 2. In fig. 9, it can be seen that the bearing surfaces 25 of the bearing ribs 22, 23 are arcuate. However, the bearing surface 25 can also be rectilinear. In particular, the bearing surface 25 is arched in an arc. The respective fold snap connection 20, 21 rests over the entire surface on the respective bearing surface 25, so that in the region of the bearing ribs 22, 23 the respective fold snap connection 20, 21 preferably lies without play on the bearing surface 25 associated therewith.

Fig. 11 schematically shows the function of the support ribs 22, 23 when producing the fold snap connections 20, 21. In the production of the fold snap connections 20, 21, the frame 16 is supported on the inside by a counter holder 34. The respective folding nip 20, 21 is formed on the outside by means of a hemming roller or folding roller 35. By providing the support ribs 22, 23, the folding-edge snap connection 20, 21 is fixedly supported in the region of the support ribs 22, 23 during its production, thereby simplifying the folding process. In order to produce the fold-forming snap connections 20, 21, as is shown in fig. 11 by means of the broken-line illustration and the arrows of the fold-forming roller 35, the fold-forming roller 35 is moved toward the flushing container 2 and along the flushing container 2, for example from the rear wall 9 in the direction of the filling opening 6, wherein the respective fold-forming snap connection 20, 21 is formed with the bottom plate 7 and the respective side wall 10, 11 deformed. The mating holder 34 and the hemming roller 35 can be part of a hemming or hemming machine 36.

In fig. 12, a production method for producing the rinsing container 2, for example by means of a flanging machine 36, is schematically illustrated by means of a block diagram. In step S1, the base plate 7, the U-shaped rinse container housing 12 and the U-shaped frame 16 are provided. In step S1, for example, the bottom plate 7 can be deep drawn. In step S2, the frame 16 is connected to the rinse container housing 12. This can be done by means of a hot riveting method. In a further step S3, the side walls 10, 11 of the rinse container housing 12 are connected to the base plate 7 by means of the respective flanged snap connections 20, 21. In this case, the respective flanged snap connection 20, 21 is supported during its production on a support rib 22, 23 of the frame, which protrudes from the frame 16 and is arranged within the flushing container housing 12. The fold snap connections 20, 21 rest without play against the closed bearing surface 25 during their production.

With the aid of the frame 16 described above, the flanging technique can be used at the rinsing container 2 with a frame 16 made of synthetic material. By the flanging snap-in connections 20, 21 resting over the entire surface at the bearing surface 25, visible damage to the frame 16 during the flanging process can be prevented. Furthermore, it is ensured that the forces are reliably absorbed during the flanging process without deformation of the flanging bite-connection 20, 21. The leaktightness of the fold snap connections 20, 21 in the region of the frame 16 is reliably prevented.

The tightness between the sealing element 33 arranged at the frame 16 and the fold snap connections 20, 21 is always ensured. The geometry of the support surface 25 allows different crimping methods to be used. For example, a static or dynamic hemming method can be used. Furthermore, the geometry of the bearing surface 25 allows different sealing solutions to be used. For example, a silicone seal can be applied, a seal made of a thermoplastic elastomer can be injection molded, or another seal can be bonded.

Although the present invention has been described in terms of embodiments, various modifications can be made thereto.

List of reference numerals

1 household dish washer

2 flushing container

3 door

4 flushing cavity

5 pivoting axis

6 opening for loading articles

7 bottom plate

8 cover

9 rear wall

10 side wall

11 side wall

12 flushing container shell

13 flushing article receiving part

14 rinsing the article receiving part

15 rinsing article accommodating part

16 frame

17 leg part

18 leg part

19 middle leg

20 folded edge snap connection

21 folded edge snap connection

22 support rib

23 support rib

24 base section

25 bearing surface

26 sealing element receiving section

27 leakage water through hole

28 water leakage channel

29 Water leakage guide Rib

30 water leakage guide rib

31 rivet hot

32 through hole

33 sealing element

34 mating retainer

35 edge folding roller

36 edge folding machine

A drawing direction (arrow)

E push-in direction (arrow)

Step S1

Step S2

And step S3.