Mounting Star for a Washing Machine

Abstract

A mounting star stabilizing and rotationally mounting a washing drum of a washing machine. The mounting star comprises at least three arms near the center of the mounting star and a hollow molded body with a box-like open profile. Support points support the mounting star against the rear wall of the washing drum and are arranged at a distance from approximately the mid-length of each arm. The open profile of the arm is made of a pair of surfaces which are non-connected between themselves and are at least similar to a flat rectangle which forms the transversal section of the supports and the short sides thereof are oriented towards the rear wall of the washing drum. Both of the supports are connected by means of a third support of the identical transversal surface from arm to arm, with a support of the other arm.

Description

The invention relates to a mounting star for stabilizing the rear wall of a drum-type component of a washing machine, and for assembly on it, at least three arms of which component are embodied in the center of the mounting star and include hollow molded bodies with a box-like, open profile, and with support points provided at a distance of a length from the central axis of the mounting star, preferably to approximately the mid-length of each arm, which points serve as a support against the rear wall of the drum-type component.

Such mounting stars for a washing drum are disclosed in DE 14 60 840 A1 and DE 24 32 465 A1. Mounting stars with even greater stiffness are required for tubs for transmitting greater forces than are required for a washing drum. They are comprised mainly of cast steel, as disclosed in DE 39 27 166 A1 for example, but are becoming dispensable because tubs are increasingly being produced from plastic and the stiffness is therefore becoming a design element of the tub.

In the mounting stars of prior art their high price is the main criticism, this price resulting from their design as individual molded components and from the relatively high quantity of material required for them. Moreover, the mounting stars of prior art are relatively heavy and therefore require a correspondingly heavy balancing weight on the front side of the tubs concerned, which in turn generates higher costs than necessary.

The object if the invention is therefore to design a mounting star of the type already described so that it is capable of saving weight and costs, with the lowest possible material consumption, for transmitting the forces acting in washing machines in the region of tubs or washing drums.

This object is achieved according to the invention in such a manner that the open profile of the arms comprises a pair of surfaces which are not connected together and are at least similar to a flat rectangle, which surfaces form the cross-section of supports and are orientated, with one of their short sides, towards the rear wall of the drum-type component, and that the two supports are each connected, at least at the support points, by a third support with a similar cross-sectional surface from arm to arm, to a support of the other arms. This lattice structure provides the best conditions for designing the mounting star with the lowest possible material consumption, yet so that it is so stable that its weight can be reduced by almost 40% compared to a conventional mounting star, but with the same force transmitting capacity. This also results in considerable cost savings as far as the other components of the washing machine are concerned.

These savings may prove extremely effective if, in a further development of the invention, the supports arranged in pairs are connected together by means of a latticework. The supports required for the transmission of forces on the drum-type component may then be dimensioned exclusively to achieve this object, whilst their dimensional stability in and relative to each other is achieved by the latticework, which can be designed in a filigree fashion.

One design has proved to be a particularly well suited further development in which at least the supports arranged in pairs run in an arc shape with bents opposing each other. This already provides the structure with sufficient stiffness to render further measures superfluous.

The above further development is advantageously rendered particularly stable when the neutral fibers of both supports of a pair run through the central axis of the mounting star and each of the supports running through the central axis forms part of two arms so that the respectively assigned supports of each arm intersect in the central axis.

According to an advantageous further development of the invention the connection of the adjacent supports of two arms at the support points to a further support, which runs outside the central axis, is then sufficient.

In one variant the arc-shaped supports continue running from the support points with the same curvature in the direction of the arm ends and are connected to each other at the end points of the arms to produce a stable shape of the mounting star arms.

In another variant, in which the arms of the mounting arm are intrinsically even more torsionally stiff, the arc-shaped supports continue running from the supports with a greater curvature and intersect to connect to each other before the ends of the arms. Here a particularly torsionally stiff effect is achieved if the arc-shaped supports terminate at the ends of the arms at certain distance from each other and are connected to each other by means of a cross bracket.

In a further variant the supports of each pair are connected to each other level with the support points by a cross strut. Although the cross strut may be designed in highly filigree fashion, it provides torsional stiffness in the main supports of the arms.

For stabilizing the rear wall of a drum, all the arms are advantageously fastened to a bearing hub so that each arc running through the central axis of the mounting star is arranged at a certain distance from the adjacent arc of the adjacent arm. Because of the shaping of the supports, this automatically provides a basic shape for a lattice work that guarantees the dimensional stability of the mounting star.

Correspondingly, the supports of all the arms are connected to each other, separated by the same fastening distance, with a round for the bearing axis of the washing drum, for stabilizing the rear wall of a washing drum.

A mounting star designed according to the invention has a profile that is open towards the sides so that all its components are manufactured from a material in the continuous casting process according to a further advantageous embodiment. This method provides the most favorable conditions for low cost mass production of the mounting star.

In order to avoid water or air turbulence in the tub at the profile openings of a mounting star fitted to the washing drum according to the invention, which could have a braking influence on the rotation of the washing drum and could even generate noises, it is proposed, in a variant of a further development of the invention, to seal cavities formed by the latticework of the arms on the side facing away from the drum-type component, at least partially by a cover not participating in the flow of force from the arms, or at least partially by a sealing compound not participating in the flow of force from the arms.

The invention is explained in the following with reference to an exemplary example represented in the drawing, in which

FIG. 1 shows a washing machine represented diagrammatically in a side view,

FIG. 2 shows the view of a mounting star that is still normally used for a washing drum according to the state of the art,

FIG. 3 shows a view of a variant of the lattice structure of a mounting star designed according to the invention, with sharp ending arms,

FIG. 4 shows a view according to FIG. 3 of another variant with blunt ending arms, and

FIG. 5 shows a view of a variant of the mounting star according to FIG. 3 with four arms.

FIG. 1 shows a front-loading washing machine in a housing 1, in which an oscillating system 2, includes a tub 3 and a washing drum 4 mounted horizontally and pivotably therein, which drum can be driven through a shaft journal 5, a pulley 6 and a belt 7 by an electric motor 8, is mounted so that it is suspended on springs 9 and stands on shock absorbers 10. The tub 3 has on its rear side a mounting star 11 that can only be seen from one side, in the center of which mounting star is located a bearing 12 for shaft journal 5 of washing drum 4.

Washing drum 4 is also supported by a mounting star 13 on its rear side, but its center is connected fixedly in terms of rotation to shaft journal 5 so that washing drum 4 can be rotated inside tub 3 concentrically to bearing 12 of the tub.

A three-armed mounting star 13 of prior art is represented in FIG. 2 in a view of its side facing washing drum rear wall 14. Such a mounting star comprises a continuous aluminum casting whose arms 15 are profiled in a manner that is shown by the section along line of intersection II-II. The cross-section shows that arms 15 each have five supports 16 to 20 which, viewed in cross-section, stand at least approximately perpendicular on rear wall 14 of washing drum 4, and lower cords 21 and 22 and upper cords 23 and 24 connecting these supports. These elongated parts of the arms are connected integrally and centrally to each other and to a round 25 which supports shaft journal 5.

It has now been found that the forces for the rotary transmission and for balancing gravitational and centrifugal forces on drum 4 are applied essentially by supports 16 to 20, whilst cords 21 to 24 mainly serve the purpose of keeping the supports apart at all points and stiffening them. At individual points 26 and 36 to 41 they also serve for fastening and support against the rear wall of washing drum 4 and there of course for introducing the forces. This introduction of forces, however, could also be undertaken without problem by supports 16 and 20 alone. Unlike in the example of mounting star 13 of prior art shown, mounting stars are also known (not shown) which, for each arm, only have two parallel supports, but here these arms have a larger cross-sectional area than in the case of the mounting star of prior art shown, and are connected to each other by a lower cord and support, for each support, a flange-like upper cord on the side facing away from the rear wall, which upper cord serves on the one hand to stiffen the supports and on the other to fasten the rear wall.

In the knowledge of these conditions on the mounting stars of prior art, and in an endeavor to ensure sparing use of materials, the invention relies upon new shapes for a mounting star for which exemplary embodiments are represented in FIGS. 3 to 5. The exemplary embodiment shown in FIG. 3 only contains supports with a cross-section which is very similar to a narrow rectangle, as is seen in the secondary figure to FIG. 3 representing section III-III through support part 27-2. Sections at other points of the supports show the same shapes.

The mounting star in FIG. 3 is provided, in a known manner, with a round 25 for the shaft journal (not shown here), on whose circumstance are fitted supports 27 to 29 at regular intervals. Supports 27 to 29 are uniformly bent, and their neutral fibers 30 to 32 intersect at the center of round 25. Two support parts 27-1 and 29-2, 28-1 and 27-2, as well as 29-1 and 28-2, form a pair of supports which constitute the essential part of an arm 33, 34 and 35 respectively. Supports points 36 to 41 are fitted on them approximately centrally along their length, at which support points third supports 42 to 44, also arc-shaped, are fitted which provide a mutual support for arms 33 to 35. Cross struts 45, 46 and 47 (represented as dotted lines) may be inserted between support points 36 and 37, 38 and 39 and 40 and 41 respectively, to improve the torsional stiffness of the individual supports on their long sections between round 25 and the arm ends. At their ends the supports converge at an acute in pairs and are linked by connecting regions 48 to 50 with which they are suitably connected, e.g. by screwing or riveting, to rear wall 14 or other parts of washing drum 4.

According to FIG. 4 (the same components are denoted by the same reference symbols as in FIG. 3), a mounting star according to the invention may also be designed with blunt ends of arms 33 to 35. Here the force transmitting ends of supports 27 to 29, two of which intersect in each end section, are again connected to each other by cross brackets 51 to 53. Moreover, the third supports 42 to 44 in FIG. 3 are extended beyond support points 36, 37 and 38, 39 and 40, 41 as far as connection regions 48-1, 48-2 and 49-1, 49-2 and 50-1, 50-2. This provides an arrangement that is more resistant to torsional forces. In the exemplary embodiment in FIG. 4 cross struts 45 to 47, denoted by dotted lines, may be dispensed with because the points of intersection of supports 27-1 with 29-2, 28-1 with 27-2 and 29-1 with 28-2 already provide sufficient torsional stiffness in supports 27 to 29.

FIG. 5 shows, with reference to an exemplary embodiment with supports of arms 54 to 57 that converge at an acute angle, that a four-arm mounting star can also be designed according to the same principles as in FIG. 3. The principles of a three-arm variant disclosed in FIG. 4 can be transferred directly to a four-arm variant (without being shown in greater detail here). Arms 54 to 57, assumed to be rather wide, may be of a narrower design by sacrificing the uniformity of the curvatures of the bends. Here the bends of the supports would initially be bent at a greater angle from round 25 and become flatter towards the tip. However, the bend may also lead to the intersection of the supports, similar to the variant according to FIG. 4, in a further tight curvature. The principles of this variant would be at least partially applied here.

The arc-shaped supports 27 to 29 and 42 to 44 have proved the best for transmitting and transferring the forces generated. If other requirements necessitate this, however, the supports may also have smaller curvatures, or may even be constructed at least approximately straight. However, further support parts in a lattice-type arrangement are required, which means that the weight advantage that can be achieved with the exemplary embodiments represented and optimized is partially lost again. However, there is still a significant advantage over the mounting stars of prior art already represented.

To ensure that the open lattice structures do not lead to water or air turbulence during washing (foaming) or of air (braking of the drum during spinning) when a mounting star according to the invention is used on a washing drum, the openings of the structures can be sealed by a method not shown in further detail, completely or partially on the side facing away from the rear wall of the washing drum by a cover or filling not participating in the flow of forces from the arms. For example, a covering may be provided by a molded skin of the same material as the supports, or by another material which is connected to the supports by other means, e.g. by gluing. For example, filling may be achieved by foaming the cavities.

Claims

1-14. (canceled)

15. A mounting star for stabilizing a rear wall of a rotating drum of a washing machine, and for assembly on the said rear wall, the mounting star comprising:

at least three arms extending from a center of the mounting star and including hollow molded bodies with a box-like, open profile;

support points provided at a distance from approximately a mid-length point of each arm and supporting against the rear wall of the drum;

wherein the open profile of the arms includes a pair of surfaces that are not connected together and are similar to a flat rectangle, the pair of surfaces forming the cross-section of supports and are orientated with a short side towards the rear wall of the drum, the two supports being connected, at least at the support points, by a third support with a similar cross-sectional area from arm to arm, to a support of the other arms.

16. The mounting star according to claim 15, wherein the supports arranged in pairs are connected to each other by a latticework.

17. The mounting star according to claim 15, wherein at least the supports arranged in pairs run in an arc shape with bends opposing each other.

18. The mounting star according to claim 17, wherein neutral fibers of both supports of a pair run through the central axis and each of the supports running through the central axis forms part of two arms, so that the respectively assigned supports of each arm intersect in the central axis.

19. The mounting star according to claim 16, wherein the adjacent supports of two arms are connected at the support points to a further support which runs outside the central axis.

20. The mounting star according to claim 19, wherein the arc-shaped supports continue to run from the supporting points with the same curvature in the direction of the arm ends and are connected to each other at the end points of the arms.

21. The mounting star according to claim 19, wherein the arc-shaped supports continue to run from the support points with a tighter curvature and intersect before the ends of the arms so that they connect to each other.

22. The mounting star according to claim 21, wherein the arc-shaped supports terminate at the ends of the arms at a certain distance from each other and are connected to each other by means of a cross bracket.

23. The mounting star according to claim 15, wherein the supports of each pair are connected to each other level with the support points by a cross strut.

24. The mounting star according to claim 23, wherein all the arms are secured to a bearing hub so that each arc running through the central axis of the mounting star is arranged at a certain distance from the adjacent arc of the adjacent arm.

25. The mounting star according to claim 23, wherein the supports of all the arms are connected to a round for a bearing journal of the washing drum with the same fastening distance.

26. The mounting star according to claim 24, wherein all its components are manufactured from a material in the continuous casting process.

27. The mounting star according to claim 24, wherein the cavities formed by the lattice structure of the arms are sealed on the side facing away from the drum at least partially by a cover not participating in the flow of forces from the arms.

28. The mounting star according to claim 24, wherein the cavities formed by the lattice structure of the arms are sealed at least partially by a sealing compound not participating in the flow of forces from the arms.

29. A washing machine comprising:

a housing;

a tub disposed within the housing;

a drum having a rear wall and being disposed within the tub and mounted for rotation with respect to the tub;

a mounting star coupled to the rear wall of the drum and comprising: at least three arms extending from a center of the mounting star and including hollow molded bodies with a box-like, open profile; support points provided at a distance from approximately a mid-length point of each arm and supporting against the rear wall of the drum; and wherein the open profile of the arms includes a pair of surfaces that are not connected together and are similar to a flat rectangle, the pair of surfaces forming the cross-section of supports and are orientated with a short side towards the rear wall of the drum, the two supports being connected, at least at the support points, by a third support with a similar cross-sectional area from arm to arm, to a support of the other arms.

30. The washing machine according to claim 29, wherein the supports arranged in pairs run in an arc shape with bends opposing each other and are connected to each other by a latticework.

31. The washing machine according to claim 30, wherein the adjacent supports of two arms are connected at the support points to a further support which runs outside the central axis.

32. The washing machine according to claim 30, wherein the arc-shaped supports continue to run from the supporting points with the same curvature in the direction of the arm ends and are connected to each other at the end points of the arms.

33. The washing machine according to claim 29, wherein the supports of each pair are connected to each other level with the support points by a cross strut.

34. The washing machine according to claim 29, wherein the supports of all the arms are connected to a round for a bearing journal of the drum with the same fastening distance.