Patent Grant
11311170
This application is the U.S. National Stage of International Application No. PCT/EP2019/060373, filed Apr. 23, 2019, which designated the United States and has been published as International Publication No. WO 2019/206913 A1 and which claims the priority of German Patent Application, Ser. No. 10 2018 206 443.1, filed Apr. 26, 2018, pursuant to 35 U.S.C. 119(a)-(d).
The present invention relates to a household dishwasher.
A dishwasher may have a washing container and spray devices arranged in the washing container for spraying items to be washed with washing liquor and/or clean water. For example, such a spray device may be mounted, in particular, as a so-called top spinning unit, on a ceiling of the washing container.
EP 1 382 287 A2 discloses a rotatable spray head for an automatic dishwasher having one or more spray openings. The spray head is rotatably mounted and is secured on the tub side by a hoop-shaped holding arm. With each revolution, the holding arm interrupts one or more times the water jets exiting from the spray openings, which enhances the cleaning action.
EP 2 134 230 B1 discloses a dishwasher having a hydraulic system and at least one top spray device which is arranged above a dish rack, which may be supplied with washing liquor by means of the hydraulic system and which has a rotatable spray head which is fastened by means of a cage to the hydraulic system. In this case, the spray head is rotatably mounted in the cage.
Against this background, an object of the invention is to provide an improved household dishwasher.
Accordingly, a household dishwasher is proposed. The household dishwasher comprises a washing compartment and at least one spray device that is arranged inside said washing compartment and is intended to spray washing liquor and/or clean water within the washing container, wherein the spray device comprises a cage and a rotary element that is mounted in said cage so as to rotate about an axis of rotation, wherein said rotary element comprises a bearing surface which is radially distanced from the axis of rotation and extends around same, and with the aid of which said rotary element is mounted rotatably in the cage.
As the rotary element is not centrally mounted on the axis of rotation but on the bearing surface which is arranged radially distanced from the axis of rotation, a large bearing clearance may be provided both in an axial direction and in a radial direction. As a result, blocking or jamming of the rotary element in the cage due to dirt particles is reliably prevented.
In particular, the rotary element is arranged inside the cage and mounted thereon. “Radially distanced” in the present case may be understood as the bearing surface being arranged at a distance from the axis of rotation, viewed in a radial direction of the spray device and/or the rotary element. The radial direction is oriented, in particular, perpendicular to the axis of rotation and away therefrom. By means of the bearing surface, the rotary element is preferably mounted in an axial direction on the cage. The axial direction in this case is oriented parallel to the axis of rotation or coincides therewith. The bearing surface in this case circulates around the axis of rotation, in particular in an annular manner, and preferably entirely. The spray device may be fastened, for example, fixedly to the washing container or to a receptacle for items to be washed received in the washing container. Moreover, the spray device may be arranged on a bottom or on a ceiling of the washing container. The spray device may also be arranged on a spray arm rotatably mounted on or in the washing container. Preferably, a plurality of spray devices is provided. By means of the spray device in the washing container a so-called intensive washing zone may be implemented. By means of such an intensive washing zone, items to be washed which are difficult to clean and/or heavily soiled, such as for example bottles, dishes, bowls, pots or the like, may be cleaned in a simple manner. The cage is preferably fastened to a housing of the spray device. For example, the cage may be snapped or latched to the housing. Alternatively, the cage may also be configured integrally, in particular made of a single material, with the housing. Preferably, the cage, the rotary element and the housing are plastic components, in particular plastic injection-molded components.
According to an embodiment, the cage has a plurality of bearing portions, the bearing surface bearing thereagainst during the operation of the spray device.
Preferably, the rotary element is arranged between the cage and the housing. For example, when the spray device is out of operation, the rotary element may be positioned on the housing. As soon as the rotary element is supplied with washing liquor and/or clean water, the rotary element is raised from the housing and the bearing surface of the rotary element is placed against the bearing portions of the cage. Preferably, at least three bearing portions are provided. However, more than three bearing portions, for example eight bearing portions, may also be provided. The bearing portions are provided on a bearing surface of the cage and extend out of said cage. The bearing surface of the cage faces the bearing surface of the rotary element.
According to a further embodiment, the bearing portions are arranged equally distanced from one another, wherein in each case an intermediate space is provided between two adjacent bearing portions.
Preferably, the bearing portions are arranged equally distributed around a circumference of the cage. In each case an intermediate space is arranged between two bearing portions and in each case a bearing portion is arranged between two intermediate spaces. Since the intermediate spaces are provided, a jamming of the rotary element in the cage due to dirt particles is reliably prevented, as the dirt particles are flushed through the intermediate spaces.
According to a further embodiment, the cage comprises a bearing ring circulating around the axis of rotation, the bearing portions being provided thereon.
Preferably a plurality of struts, for example three thereof, are provided on the bearing ring, the cage being connected thereby to the housing. In this case, each strut may be assigned two snap hooks which are designed to engage in one respective corresponding recess of the housing. As a result, the cage may be snapped or latched to the housing. As a result, it is possible to dismantle the cage in a simple manner. Preferably, the struts are equally distributed over a circumference of the bearing ring. For example, three struts are provided. The bearing ring and the struts are an integral component, in particular made of a single material. In this case the bearing portions extend in the direction of the struts.
According to a further embodiment, the household dishwasher further comprises a nozzle for supplying the washing liquor and/or the clean water to the rotary element, wherein the nozzle is designed to inject the washing liquor and/or the clean water centrally onto the rotary element.
To this end, the nozzle may be provided centrally below or above the rotary element. In particular, the nozzle may be positioned centrally relative to the axis of rotation. The nozzle, however, may also be positioned offset to the rotary element and/or to the axis of rotation.
According to a further embodiment, the rotary element comprises rotor blades and a connecting ring which circulates around the axis of rotation and which connects the rotor blades together, wherein the bearing surface is provided on the connecting ring.
Preferably, a plurality of rotor blades is provided. For example, three or four rotor blades may be provided. As soon as the rotor blades are supplied with the washing liquor and/or the clean water, the rotary element is set in rotation. As a result, the washing liquor and/or the clean water is distributed with a hemispherical spray pattern about the spray device. This conical spray pattern improves the cleaning performance.
According to a further embodiment, the rotary element comprises a hub which is connected to the rotor blades, wherein the hub is designed to supply the washing liquor and/or the clean water to the rotor blades during the operation of the spray device.
In particular, the nozzle injects the washing liquor and/or the clean water centrally onto the hub. The hub then distributes the washing liquor and/or the clean water onto the rotor blades.
According to a further embodiment, the hub is constructed rotationally symmetrically to the axis of rotation and has an at least partially conical envelope surface.
The hub preferably has a conical geometry with a cone point or tip. A cone half angle or cone angle of the envelope surface may, for example, be 30° to 60°, further preferably 40° to 50°, further preferably 45°. Along the envelope surface, the washing liquor and/or the clean water is supplied to the rotor blades. By varying the geometry of the envelope surface, in other words by varying the cone angle, the spray pattern of the spray device is freely definable. By means of very different cone angles of the hub and the rotation thereof, an approximately completely filled hemispherical spray pattern may be generated around the spray device.
According to a further embodiment, the rotor blades are inclined at an angle of inclination relative to the axis of rotation.
The angle of inclination may, for example, be 40° to 70°, preferably 45° to 65°, further preferably 50° to 60°, further preferably 55°. The angle of inclination, however, may adopt any other values. The rotor blades, viewed in the radial direction, may additionally have a bent or curved shape.
According to a further embodiment the cage is curved, in particular curved in a spherical cap-shaped manner.
As a result, a particularly compact construction of the spray device is produced. Alternatively, the cage may also have a different geometry.
Further possible implementations of the household dishwasher also comprise not explicitly cited combinations of features or embodiments described above or below relative to the exemplary embodiments. In this case, the person skilled in the art will also add individual features as improvements or additions to the respective basic shape of the household dishwasher.
Further advantageous embodiments and features of the household dishwasher form the subject matter of the subclaims and the exemplary embodiments of the household dishwasher described below. Moreover, the household dishwasher may be described in more detail by means of preferred embodiments with reference to the accompanying figures.
Elements which are identical or functionally identical have been provided in the figures with the same reference numerals, unless indicated otherwise.
The door 3 is shown in
The household dishwasher 1 also has at least one receptacle for items to be washed 12 to 14. Preferably, a plurality of receptacles for items to be washed 12 to 14, for example three thereof, may be provided, wherein the receptacle for items to be washed 12 may be a lower receptacle for items to be washed or a lower basket, the receptacle for items to be washed 13 may be an upper receptacle for items to be washed or an upper basket and the receptacle for items to be washed 14 may be a cutlery drawer. As
Preferably, a plurality of such spray devices 15 are provided. By means of the spray device 15, for example, a so-called intensive washing zone 16 (
The spray device 15 comprises a cage 17 (
The cage 17 shown in
Each strut 21 to 23 has two resiliently deformable snap hooks 24, 25. The snap hooks 24, 25 are designed to engage in corresponding recesses of the housing 19, in order to connect the cage 17 with a positive fit to the housing 19. A positive-fit connection is produced by the interlocking or rear engagement of at least two connection partners, in this case the snap hooks 24, 25 and the corresponding recess of the housing 19. As
An annular bearing surface 26 circulating about the axis of rotation D is provided on the inner face on the cage 17. The bearing surface 26 faces in the direction of the struts 21 to 23. A plurality of bearing portions 27, 28 extends out of the bearing surface 26. In
The bearing portions 27, 28 extend in this case in the direction of the struts 21 to 23. The bearing portions 27, 28 are radially distanced from the axis of rotation D. In other words, the bearing portions 27, 28 are positioned so as to be distanced from the axis of rotation D in a radial direction R (
The rotary element 18 shown in
When said rotary element is supplied with the washing liquor and/or the clean water F, the rotary element 18 may be set in rotation about the axis of rotation D by means of the rotor blades 32 to 34. The rotor blades 32 to 34, as shown in
The rotor blades 32 to 34 are also curved or bent in an arcuate manner, viewed in the radial direction R. The rotor blades 32 to 34 are connected together by means of a connecting ring 35 circulating around the rotary element 18. Viewed in the radial direction R, the connecting ring 35 is provided distanced from the axis of rotation D and circulating entirely around said axis of rotation. The connecting ring 35 comprises on the upper face a bearing surface 36 which circulates in an annular manner and fully around the axis of rotation D and which is designed to bear during the operation of the spray device 15 against the bearing portions 27, 28 of the cage 17. In other words, the rotary element 18 is rotatably mounted in the cage 17 by means of the bearing surface 36.
On the lower face, in other words remote from the bearing surface 36, a plurality of support portions 37, 38, for example three thereof, are provided on the connecting ring 35, the rotary element 18 being able to be positioned thereby on the housing 19. An intermediate space 39 is provided between two adjacent support portions 37, 38. The rotary element 18 is a plastic injection-molded component, as is the cage 17.
Now returning to
The nozzle 41 is preferably configured rotationally symmetrically relative to the axis of rotation D. Alternatively, the nozzle 41 may also be configured asymmetrically to the axis of rotation D and/or arranged offset relative thereto. Preferably, however, the nozzle 41 is positioned centrally below the hub 30 of the rotary element 18. The rotary element 18 may be arranged relative to a direction of gravitational force g above or below the nozzle 41. In the orientation of
The functionality of the spray device 15 is described hereinafter. Via the supply line 40 the nozzle 41 is supplied with washing liquor and/or clean water F. The washing liquor and/or the clean water F is injected by means of the nozzle 41 centrally onto the hub 30. As a result, the rotary element 18 is raised from the housing 19, so that the support portions 37, 38 are no longer in contact with the housing 19. An axial bearing clearance 42 between the bearing surface 36 and the bearing portions 27, 28 is reduced, viewed in an axial direction AR, such that the bearing surface 26 bears against the bearing portions 27, 28 of the cage 17. Thus a bearing of the rotary element 18 against the cage 17 is implemented in the axial direction AR.
Via the conical envelope surface 31 of the hub 30, the washing liquor and/or the clean water F is conducted away outwardly in the radial direction R and supplied at least partially to the rotor blades 32 to 34. As a result, the rotary element 18, as mentioned above, is set in rotation as is indicated in
Depending on the application, the envelope surface 31 of the hub 30 may be freely designed so that, for example, this envelope surface has a flatter or steeper tip. In this case, a spray angle β of a spray jet and/or a spray pattern may also be influenced by the rotational speed of the rotary element 18. The higher the rotational speed, the flatter the spray angle β. The angle of inclination a of the rotor blades 32 to 34 is freely selectable and may be adapted according to the required drive torque.
In the axial direction AR, the bearing of the rotary element 18 in the cage 17 has the aforementioned bearing clearance 42. The same bearing clearance is also provided in the radial direction R. The bearing in the axial direction AR takes place in this case via the bearing surface 36 and the bearing portions 27, 28 of the cage 17. In this case, dirt particles may flow between the bearing portions 27, 28 through the intermediate spaces 29. As a result, there cannot be any jamming due to the dirt particles. The bearing in the radial direction and the centering are implemented via the washing liquor and/or the clean water F injected through the nozzle 41.
The spray device 15 has a plurality of advantages relative to known spray devices. By a corresponding design of the envelope surface 31 of the hub 30 and the angle of inclination a of the rotor blades 32 to 34, a freely definable spray pattern may be achieved. A minimal dead region may be achieved. This improves the cleaning performance. The functionality of the spray device 15 is clearly visible to a user and the added value easy to understand. By a corresponding bearing clearance both in the axial direction AR and in the radial direction R the spray device 15 is resistant to contamination. By the provision of the intermediate spaces 29 between the bearing portions 27, 28, a jamming of the rotary element 18 in the cage 17 due to dirt particles may be prevented. The dirt particles may be flushed through the intermediate spaces 29. In the case of a blockage of the rotary element 18, however, very effective emergency running characteristics are provided.
A very small installation height of the spray device 15 is produced. As a result, the spray device 15 may also be attached below the receptacles for items to be washed 12 to 14, for example for implementing the intensive washing zone 16. The spray device 15 is also able to be used for media such as air or steam. A uniform spray pattern, virtually without a spray shadow, in particular in the region of the hub 30, may be achieved by the external bearing. Moreover, in this type of bearing a deflection of the rotary element 18 is possible in the case of larger dirt particles. As a result, clogging or jamming of the spray device 15 due to dirt particles jammed between the hub 30 and the nozzle 41 is reliably prevented.
Whilst the present invention has been described with reference to exemplary embodiments, it may be modified in many different ways.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102018206443.1 | Apr 2018 | DE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2019/060373 | 4/23/2019 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2019/206913 | 10/31/2019 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 20100116301 | Heisele et al. | May 2010 | A1 |
| 20150102127 | Bentley et al. | Apr 2015 | A1 |
| Number | Date | Country |
|---|---|---|
| 201505114 | Jun 2010 | CN |
| 1382287 | Jan 2004 | EP |
| 2003225622 | Aug 2003 | JP |
| 20070062296 | Jun 2007 | KR |
| 2018113912 | Jun 2018 | WO |
| Entry |
|---|
| National Search Report DE 102018206443.1 dated Nov. 23, 2018. |
| International Search Report PCT/EP2019/060373 dated Aug. 6, 2019. |
| Number | Date | Country | |
|---|---|---|---|
| 20210145243 A1 | May 2021 | US |
