This application is the U.S. National Stage of International Application No. PCT/EP2019/083286, filed Dec. 2, 2019, which designated the United States and has been published as International Publication No. WO 2020/114957 A1 and which claims the priority of German Patent Application, Serial No. 10 2018 221 159.0, filed Dec. 6, 2018, pursuant to 35 U.S.C. 119(a)-(d).
The invention relates to a household appliance, in particular a household dishwasher or a household washing machine, with a housing having an underside, wherein a plurality of height-adjustable levelling feet are arranged on the underside of the housing, the height of each height-adjustable levelling foot can be adjusted using the height-adjusting device from a side wall of the household appliance and each height-adjusting device consists of a threaded shaft, which passes vertically through an adjustment housing fixed to the housing and has a foot plate.
In the context of the present description the term “household appliance” essentially means any household appliance that can be provided with a disclosed height-adjusting device. The household appliance is therefore not limited to a household dishwasher or household washing machine but can also be a tumble dryer, a refrigeration appliance, a freezer appliance, a cooker, a microwave appliance, a coffee machine or the like.
It is generally known that integrated kitchen appliances can be adjusted to the correct installation position using height-adjustable appliance feet in the installed state. This involves adjusting the height of the rear appliance feet that are generally inaccessible, usually using an adjusting rod that can be actuated at the front of the appliance.
The publication DE 196 06 460 A1 discloses a height-adjusting device for a levelling foot of a household appliance. The height-adjusting device consists of a threaded shaft, which passes vertically through an adjustment housing fixed to the housing and has a foot plate, a nut mounted rotatably in the adjustment housing being displaced by way of the threaded shaft and being configured as a worm wheel at its outer circumference and being driven by way of a worm connected to an adjusting rod and mounted rotatably in the adjustment housing. The threaded shaft of the height-adjustable levelling foot here passes in an interlocking manner through the adjustment housing.
The publication WO 2004/107914 A1 discloses a height-adjusting device for an appliance foot of a household appliance, wherein a worm wheel meshes with a transmission gear, converting the rotational movement of the worm to a lifting movement of the appliance foot.
The publication WO 2009/068399 A1 discloses a household appliance, in particular a dishwasher or washing machine, with a height-adjusting device for an appliance foot, which has at least one drive gear, which meshes with a transmission gear converting the rotational movement of the drive gear to a lifting movement of the appliance foot. The drive gear is assigned a torque limiting element that allows the drive gear to move out of its operating position when a torque limit is exceeded, releasing the meshing between the drive gear and the transmission gear.
With this in mind, one object of the present invention is to provide an improved household appliance, in particular a household dishwasher or household washing machine.
The inventive object is achieved by the features of the independent claim. Advantageous developments will emerge from the dependent claims.
To achieve the inventive object, a household appliance, in particular a household dishwasher or household washing machine, is proposed, with a housing having an underside, wherein a plurality of height-adjustable levelling feet are arranged on the underside of the housing, the height of each height-adjustable levelling foot can be adjusted using the height-adjusting device from a side wall of the household appliance and each height-adjusting device consists of a threaded shaft, which passes vertically through an adjustment housing fixed to the housing and has a foot plate. A worm wheel mounted rotatably in the adjustment housing and configured as a nut, which is configured as an output gear at its outer circumference and which is driven by way of a worm connected to an adjusting rod, preferably mounted rotatably in the adjustment housing and configured as a drive gear, is displaced by way of the threaded shaft. The threaded shaft of each height-adjustable levelling foot here passes in an interlocking manner through the adjustment housing, with either at least part of the threaded shaft of the height-adjustable levelling foot having at least one flattened section along the length of the threaded shaft, which rests against the adjustment housing at one point at least, the threaded shaft of the height-adjustable levelling foot having two flattened sections and the two flattened sections being arranged on opposite sides of the threaded shaft or the threaded shaft of the height-adjustable levelling foot being provided with two axially extending grooves and the two grooves being arranged on opposite sides of the threaded shaft.
The use of identical or approximately identical height-adjusting devices for all the height-adjustable levelling feet means that tool holders for just one tool, for example a screw driver or Allen key, can be provided to adjust the height of all the height-adjustable levelling feet. The household appliance can therefore be positioned and aligned easily and reliably with just one tool. This allows a household appliance to be positioned more reliably, more quickly and intuitively. It can also be marketed as “perfect built-in”.
The interlocking passage of the threaded shaft of the height-adjustable levelling foot through the adjustment housing also readily provides a height-adjusting device for a levelling foot of a household appliance, with which lower outlay reduces costs while maintaining the cited advantages and the height-adjustable levelling foot is not also rotated. With an inventive height-adjusting device the adjustment housing can be much smaller, as it does not have to engage over the threaded shaft.
The height-adjusting device can be used in particular with appliance feet of integrated appliances. The height is then adjusted using an actuation element provided at the front of the household appliance. The actuation element is positioned on an adjusting rod, which extends to the height-adjusting device. The rear end of the adjusting rod can support the worm, for example a drive gear, which in turn meshes with a worm wheel of the transmission gear. The worm wheel is mounted in a fixed position in a bearing housing and has an internal thread that engages with an external thread of the appliance foot shaft. A lifting movement of the appliance foot therefore results when the worm wheel is rotated.
The height-adjusting device can be used in particular for rear appliance feet of integrated appliances. The height-adjusting device allows the inaccessible rear region of the integrated appliance to be raised until the household appliance is at the correct height. When plastic parts in particular are used for the height-adjusting device, there is a risk in the prior art that manual actuation of the height-adjusting device will induce torques, which can result in the destruction of the plastic part.
In a first inventive embodiment provision is made for at least three height-adjustable levelling feet to be arranged on the underside of the housing, with two height-adjustable levelling feet being arranged at the front of the household appliance and at least one height-adjustable levelling foot to be arranged at the rear of the household appliance. This for example allows a further height-adjustable levelling foot to be arranged at the rear of the household appliance in each of the corner regions of the household appliance.
The arrangement of just one height-adjustable levelling foot of three height-adjustable levelling feet with a height-adjusting device that can be operated from a housing side wall reduces the outlay for a household appliance and therefore also the costs. Naturally more than three height-adjustable levelling feet can also be provided in very different arrangements on the household appliance.
In a second inventive embodiment provision is made for the height-adjustable levelling foot arranged at the rear of the household appliance to be arranged approximately in the center of the lower rear housing edge of the household appliance.
The arrangement of the rear height-adjustable levelling foot approximately in the center of the lower rear housing edge results in a bearing layout with an outline of a roughly isosceles triangle, the most stable shape for a three-point bearing layout.
In a further inventive embodiment provision is made for the flattened sections to rest against the adjustment housing at two points at least.
The arrangement of two flattened sections further assists with preventing the height-adjustable levelling foot also rotating during the adjustment operation. The flattened sections are expediently arranged on opposite sides of the threaded shaft, thereby facilitating mounting. The flattened sections advantageously rest against the adjustment housing at two points at least, thereby providing additional security to prevent the height-adjustable levelling foot also rotating.
In a further inventive embodiment provision is made for the flattened sections to extend over the entire length of the threaded shaft.
Because the flattened sections expediently extend over the entire length of the threaded shaft, interlocking passage is ensured over the entire adjustment path. According to a further advantageous embodiment of the invention the threaded shaft of the height-adjustable levelling foot is provided with at least one axially extending groove, which also results in a very simple embodiment of the inventive interlocking passage. The threaded shaft of the height-adjustable levelling foot is preferably provided with two grooves, thereby further assisting with preventing the height-adjustable levelling foot also rotating during the adjustment operation. The grooves are expediently arranged in opposite sides of the threaded shaft, thereby facilitating mounting.
In a further inventive embodiment provision is made for the adjustment housing to have at least one exit opening for the threaded shaft of the height-adjustable levelling foot, its shape being matched to the cross section of the threaded shaft.
Its length means that the threaded shaft not only leaves the adjustment housing at the point opposite the floor but also at a point opposite the foot plate, thereby resulting in an interlocking passage in the manner described above without additional outlay at both these points.
In a further inventive embodiment provision is made for a further height-adjustable levelling foot to be arranged at the rear of the household appliance in each of the corner regions of the household appliance.
This advantageously allows the user to perform a presetting operation with the four height-adjustable levelling feet arranged respectively in the region of the outer, lower housing edges before the household appliance is finally installed in a furniture unit, for example a corresponding recess in a built-in kitchen front, and then if necessary to carry out a final adjustment of the installation position using the height-adjusting device of the fifth height-adjustable levelling foot without having to move the household appliance in and out again or even repeatedly. The household appliance can optionally be positioned on four or three height-adjustable levelling feet in the process. If the presetting should also be correct for the final installation site, the household appliance remains set up on four height-adjustable levelling feet but if the presetting subsequently has to be changed using the fifth height-adjustable levelling foot, a three-point bearing layout results. The arrangement of the fifth height-adjustable levelling foot approximately in the center of the lower rear housing edge means that, when the fifth foot is deployed, a bearing layout with the outline of a roughly isosceles triangle results, the most stable shape for a three-point bearing layout.
In a further inventive embodiment provision is made for the worm to be assigned a torque limiting element that allows the worm to move out of its operating position when a torque limit is exceeded, releasing the meshing between the worm and the worm wheel.
This at least temporarily releases the meshing between the worm and a transmission gear element meshing with it. The outward movement allows the worm to skip at least one thread pitch in relation to the transmission gear element thereby disengaging the teeth of the worm and the transmission gear element.
The outward movement of the worm can therefore take place when a permissible maximum torque is exceeded. The permissible maximum torque should be determined based on the structural design of the torque limiting element and as a function of its material strength. The permissible maximum torque here should be such that the worm, the transmission gear and/or a shaft or adjusting rod driving the worm are not damaged. With the inventive torque limiting element, as with a slip clutch, the worm is temporarily unmeshed when the maximum torque is exceeded, so that it rotates freely and no torque is transferred to the transmission gear. When the induced torque drops below the torque limit, the worm meshes with the transmission gear again.
The torque limiting element does not only allow reliable torque limiting when the appliance foot shaft of the height-adjusting device moves against an end stop, as is the case in the prior art. Rather the invention ensures that torque limiting takes place over the entire adjustment region of the appliance foot shaft.
As mentioned above, the height-adjusting device can be used in particular for rear appliance feet of integrated appliances. When plastic parts in particular are used for the height-adjusting device, there is a risk here in the prior art that manual actuation of the height-adjusting device will induce torques, which can result in the destruction of the plastic part.
In a further inventive embodiment provision is made for the worm to be pushed against the torque limiting element with a deflection force that results during torque transmission.
If the deflection force is too great, the torque limiting element ideally yields in an elastic manner, with the result that the worm moves out. This causes the worm to skip the teeth of the worm wheel, whereupon the elastically returning torque limiting element moves the worm back to mesh with the worm wheel. Such skipping of the teeth can be perceived as a rattling noise so the user realizes that the household appliance has come up against a stop, for example an upper kitchen worktop.
In a further inventive embodiment provision is made for the torque limiting element to be elastically deflectable.
The worm is preferably configured so that when torque is transmitted to the transmission gear, a deflection force is generated between the worm and the worm wheel of the transmission gear, pushing the worm against the torque limiting element. The limiting element here can be configured to be elastically deflectable. The above-mentioned deflection force is generated by correspondingly angled teeth of the worm and/or worm wheel.
In a further inventive embodiment provision is made for the torque limiting element to be a housing part of the adjustment housing, in which the worm is rotatably mounted, or for the torque limiting element to be of the same material and/or of a single piece with a base support floor of the base support of the household appliance, the base support floor of the base support preferably being an injection-molded plastic part together with the torque limiting element.
It is simple for manufacturing purposes, if the torque limiting element is a housing part of the adjustment housing, in which the worm is rotatably mounted, or if the torque limiting element is of the same material and/or of a single piece with a base support floor of the base support of the household appliance. The base support floor of the base support serves to support appliance units. It can be manufactured as an injection-molded plastic part together with the torque limiting element. The compensatory movement of the worm can then take place across the rotation axis of the worm wheel.
In a further inventive embodiment provision is made for the torque limiting element to be able to be brought into contact with the toothed wheel outer contour of the worm.
Alternatively the torque limiting element can be brought into contact with a shaft driving the worm. It is preferable for a compact configuration of the height-adjusting device if the torque limiting element can be brought directly into contact with the toothed wheel outer contour of the worm.
In a further inventive embodiment provision is made for the worm to mesh with the worm wheel and in particular for the rotation axis of the worm to be perpendicular to the rotation axis of the worm wheel.
In a further inventive embodiment provision is made for the compensatory movement of the worm to be directed across the rotation axis of the worm wheel.
It is simple for manufacturing purposes, if the torque limiting element is of the same material and/or of a single piece with a base support floor of the base support of the household appliance. The base support floor of the base support serves to support appliance units. It can be manufactured as an injection-molded plastic part together with the torque limiting element. The compensatory movement of the worm can then take place across the rotation axis of the worm wheel.
In a further inventive embodiment provision is made for the torque limiting element to be a sprung rib.
Such a sprung rib has a projecting and free end, which can easily be configured to be elastically deflectable with little force outlay during manufacture.
Further advantageous configurations and aspects of the household appliance are set out in the subclaims and the exemplary embodiments of the household appliance described in the following. The household appliance is also described in more detail based on preferred embodiments with reference to the accompanying figures.
Identical elements or those of identical function are shown with the same reference characters in the figures, unless otherwise specified.
In
The household dishwasher 1 also has at least one dish receptacle 12 to 14. Multiple, for example three, dish receptacles 12 to 14 can preferably be provided, it being possible for the dish receptacle 12 to be a lower dish receptacle or a lower rack, the dish receptacle 13 to be an upper dish receptacle or an upper rack and the dish receptacle 14 to be a flatware drawer. As shown in
The wash container 2 of the household dishwasher 1 is positioned on a base support 15, with a technical space 17 for holding mechanical and/or electrical components of the household dishwasher 1 arranged between the base support floor 16 configured on the base support 15 and the wash container 2. The household dishwasher generally comprises a housing 18, which is provided on the underside 18.U (see
The household appliance 1 comprises a housing 18, which in the exemplary embodiment shown is provided on the underside 18.U with three height-adjustable levelling feet 19, 19′, 19″. The height of each of the height-adjustable levelling feet 19 (front; shown with a broken line), 19′ (front; shown with a broken line), 19″ (rear) can be adjusted. The three height-adjustable levelling feet 19, 19′, 19″ are each arranged in the region of the outer, lower housing edges 20. The height-adjustable levelling foot 19″ arranged at the rear of the household appliance 1 is arranged approximately in the center of the lower rear housing edge 20 of the household appliance 1.
The height of each of the three height-adjustable levelling feet 19, 19′, 19″ can be adjusted using a height-adjusting device 21, 21′, from the front 22 of the household appliance 1 in the exemplary embodiment shown. Each height-adjustable levelling foot 19, 19′, 19″ comprises a threaded shaft 23, 23′ (shown at the front with a broken line) and a foot plate 24 (see also
The respective threaded shaft 23, 23′ of the height-adjustable levelling feet 19, 19′, 19″ passes vertically through an adjustment housing 25, 25′ of the height-adjusting device 21, 21′ fixed to the housing. A worm wheel 26 (see also
The respective adjusting rod 28 (see also
The respective threaded shaft 23, 23′ of the height-adjustable levelling foot 19, 19′, 19″ passes in an interlocking manner through the adjustment housing 25, 25′ to prevent the height-adjustable levelling foot 19, 19′, 19″ also rotating during the adjustment operation.
So that the threaded shaft 23 of the height-adjustable levelling foot 19, 19′, 19″ can pass in an interlocking manner, the threaded shaft 23 (see also
So that the threaded shaft 23′ of the height-adjustable levelling foot 19, 19′, 19″ can pass in an interlocking manner, the threaded shaft 23′ has grooves 33 arranged on opposite sides, into which noses 34 project respectively from the upper exit opening 30′ and also from the lower exit opening 31′ (not shown) in the direction of the threaded shaft 23′.
The interlocking passage of the threaded shaft 23′ of the respective height-adjustable levelling foot 19, 19′, 19″ through the adjustment housing 25′ provides a height-adjusting device 21′ for a height-adjustable levelling foot 19, 19′, 19″ of a household appliance 1 in a simple manner, its lower outlay reducing costs, it being able to be operated from a housing side wall, preferably the front 22 (see also
The height of each of the three height-adjustable levelling feet 19, 19′, 19″ can be adjusted from the front 22 of the household appliance 1 using a height-adjusting device 21, 21′ in the exemplary embodiment shown. Each height-adjustable levelling foot 19, 19′, 19″ can be embodied in the same manner as the height-adjustable levelling foot 19, 19′, 19″ disclosed in
The respective threaded shaft 23, 23′ of the height-adjustable levelling feet 19, 19′, 19″ can pass vertically through an adjustment housing 25, 25′ (only the height-adjustable levelling foot 19″ shown with a broken line) of the height-adjusting device 21, 21′ fixed to the housing.
The height-adjusting device 21, 21′ (see also
The respective height-adjusting device 21, 21′ has a gear housing 38, which is preferably molded as a single piece on the base support 15. The gear housing 38 is subdivided into a substantially hollow cylindrical shaft housing 39 and a worm housing 40. A threaded shaft 2323′ of the height-adjustable levelling foot 19″ is arranged in the shaft housing 39 in a height-adjustable and rotationally fixed manner. For a rotationally fixed arrangement the threaded shaft 23, 23′ has a flattened section 29 (see also
The shaft channel 41 of the shaft housing 39 is also divided into two in a vertical direction. The worm wheel 26 is arranged between the two channel sections, with a screw-type connection to the threaded shaft 23, 23′.
As shown in the figures, the rotation axis 42 of the worm 27 (see also
The worm housing 40 (see also
The worm 27 is extended with a bearing pin 44, which is mounted rotatably in a slot 45 in the rear wall 46 of the base support 15. A worm wheel 26 (see also
The worm 23 therefore meshes with the worm wheel 26. When the adjusting rod 28 is actuated rotationally, the worm wheel 26 is therefore rotated by way of the worm 23, resulting in a lifting movement of the height-adjustable levelling foot 19″ in a vertical direction.
Torque is limited by the sprung rib 43, when a torque acting on the height-adjusting device 21, 21′ exceeds a torque limit.
Such an overload, which is not part of normal operation, results when the rear appliance region comes up against a kitchen worktop for example due to a height adjustment of the rear height-adjustable levelling foot 19″, so that no further lifting movement of the integrated appliance is possible. When the torque limit is exceeded, a deflection force FA (arrow) results between the helical screw 48 and the external gears 47 of the worm wheel 26, pushing the worm 23 against the sprung rib 43 in a transverse direction. In the case of an overload the sprung rib 43 yields elastically so the worm 23 moves out (arrow III) of its operating position. This means that the helical screw 48 skips a thread pitch of the external gears 47 of the worm wheel 26. Such a skip is perceived as a rattling noise allowing a corresponding lifting actuation of the rear height-adjustable levelling foot 19″ to be stopped.
As shown in particular in
When installing the household appliance 1 the user uses the three height-adjustable levelling feet 19, 19′, 19″ arranged in the region of the outer, lower housing edges 20 (see also
Although the present invention has been described based on exemplary embodiments, it can be modified in many different ways.
Number | Date | Country | Kind |
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10 2018 221 159.0 | Dec 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/083286 | 12/2/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/114957 | 6/11/2020 | WO | A |
Number | Name | Date | Kind |
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1417639 | Sterner | May 1922 | A |
4967994 | Rice | Nov 1990 | A |
4991805 | Solak | Feb 1991 | A |
5292095 | Cattaneo | Mar 1994 | A |
5398620 | Rouch | Mar 1995 | A |
5967472 | Wilhelmstatter | Oct 1999 | A |
8220760 | Fetzer | Jul 2012 | B2 |
10278500 | De Bruin | May 2019 | B2 |
10638839 | Cattaneo | May 2020 | B2 |
20070023590 | Lotz | Feb 2007 | A1 |
20070205342 | Gabriel | Sep 2007 | A1 |
20170314725 | Ozyuksel | Nov 2017 | A1 |
20180368574 | Cattaneo | Dec 2018 | A1 |
Number | Date | Country |
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9112657 | Jan 1992 | DE |
19606460 | Aug 1997 | DE |
2004107914 | Dec 2004 | WO |
Entry |
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National Search Report DE 10 2018 221 159.0 dated Oct. 24, 2019. |
International Search Report PCT/EP2019/083286 dated Mar. 5, 2020. |
Number | Date | Country | |
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20210378403 A1 | Dec 2021 | US |