EP3183500A1 - Operating device for a domestic appliance having a stably positioned annular operating-element front part - Google Patents

Abstract

The invention relates to an operating device for a domestic appliance (1), comprising an electronic display field (11) and an operating element (13), which can be moved in relation to the display field (11) in order to set operating conditions of the domestic appliance (1), wherein the operating element (13) has a front part (17), which has a top side (18) inclined inward. The invention further relates to a baking oven (1) having an operating device (10).

Description

 OPERATING DEVICE FOR A HOUSEHOLD APPLIANCE WITH STABLE POSITIONED RINGING

CONTROL PANEL-FRONT

The invention relates to an operating device for a household appliance, with a

electronic display panel, and a control element which is movable relative to the display panel for setting operating conditions of the household appliance. Furthermore, the invention relates to a household appliance with a corresponding

Operating device. Operating devices for household appliances, such as ovens, washing machines, dryers, dishwashers or the like, are known in various configurations. Touch-sensitive operating devices with touch areas are also known for this purpose, as are control elements in the form of rotary switches, push-buttons, and thus such operating elements which have to be moved relative to a display unit in order to set operating conditions.

Especially with such operating devices with movable controls in combination with electronic display panels as display units, a compact design with user-friendly usability and intuitively perceptible information presentation difficult to not possible. The said components must be arranged separately and also spaced from each other. Furthermore, such controls are known to be very large and clunky, so they both need a lot of space. This both in terms of the general size as a gag and thus cylinder, as well as in terms of herauserstrecken from the operating device to the front to be able to accomplish their gripping and turning.

A generic operating device is known from WO 2012/080156 A1.

It is an object of the present invention to provide an operating device for a household appliance and a household appliance with a corresponding operating device, in which or in which a front part of an operating element is positioned more stable and yet easily rotatable. This object is achieved by an operating device and a household appliance according to the independent claims.

An operating device according to the invention for a household appliance comprises a

electronic display panel and a control element which is used for setting

 Operating conditions of the household appliance relative to the display panel is movable. The control element is designed in several parts and has a slide ring and an adjoining, in particular annular, front part. An essential idea of the invention is to be seen in that the front part and the sliding ring are coupled to a guide and guided by the guide, the front part is guided relative to the sliding ring. By this configuration, the front part can be secured against falling out and yet be rotated smoothly.

Preferably, the guide has a groove open in the radial direction of the front part and comprises at least one engagement element for engagement in the groove. This is a simple coupling to secure the front part and is still durable

functionally reliable and enables a jerk-free turning of the front part.

Preferably, the engagement element is resilient in the radial direction of the sliding ring and viewed in the radial direction of the front part. This is particularly advantageous in that the coupling and decoupling is thus made possible in a non-destructive manner and furthermore the relative movement of the front part relative to the sliding ring is smoothly and compensatory, without excessive friction occurring during rotation and thus the rotational movement would be cumbersome.

Preferably, the engagement element is arranged biased in the coupled state with the groove in the groove, in particular radially biased arranged therein. The play-free guidance is thus particularly favored and a very precise and precise location

Rotary movement allows.

In particular, the groove is formed on the front part on a radially inner shell side of the front part. The coupling and motion control is thereby improved and by gravity with vertically oriented front part of the front sits on the quasi also on the Engagement element, so that this results in a bearing or lifting storage of the front part.

Preferably, the sliding ring on a sliding plate, which in the axial direction of

Operating element considered behind the front part is arranged, wherein the sliding ring has a holding web which extends in the axial direction overlapping with the front part, wherein on the holding web at least one radially extending engagement element is formed, which extends in the radial direction in the groove. As a result, the coupling on the one hand and the smooth radial and axial wobble-free relative movement of the front part to the sliding ring is particularly achieved.

Preferably, the seal ring is fixedly arranged on the control panel. In particular, the sliding ring is glued to the control panel or welded or heat staked. As a result, the relative movement of the front part is favored over the sliding ring and achieved the very precise and play-free guidance of the front part and given a mechanically stable and durable position-safe arrangement.

The operating element has a front part, which preferably has an inwardly inclined upper side. This front part is movable relative to the display panel. Due to this configuration with regard to the shaping of the front part on the one hand and the arrangement on the other hand, a very compact operating device is ensured especially with regard to the components of the electronic display panel and the operating element.

Due to the ring shape of the front part and in particular the inwardly inclined

Top is the touchability and operability guaranteed by a finger of a user in particular smoothness and accuracy. The rotation of the annular front part can be performed very precisely by a user.

It can also be provided that the front part has a full-circle surface which is inclined inwards and thus virtually represents a full funnel. An electronic display field is understood in particular to mean a display on which information can be displayed dynamically and alternately. This can be information comprising letters and / or numbers and / or symbols.

Preferably, the operating element is basically designed as a ring. A shape as a full cylinder or the like is therefore no longer provided. On the one hand, this can save material in terms of the fundamental

Operating principle, this can be designed to the effect that in comparison to the prior art on its shell side to be gripped cylinder of the control knob is no longer present here, but just the front or top of this annular front part is touched by a user and then this front part is rotated. Thus, in principle, another surface is provided for contact by the user and the associated movement of the operating element. By the

Ring shape results in this regard a very suitable form in that an operating element is provided which has a relatively large diameter. This can be larger than conventional cylindrical control knob. Just by the annular configuration of the front part and the intended contact on the top then the control element according to the invention can be very accurately brought into a desired rotational position for setting desired operating conditions. Such is not possible with conventional cylindrical controls. For one thing, the related rotation is difficult to touch only at the front of this hollow cylinder and mechanically connected with greater force and also causes no ease and conditionally

Incorrect settings. In this regard, the conventional cylindrical control knob are designed so that they are designed smaller with their diameter, so that the front of such cylindrical control knob is also relatively small and with regard to the touch with a finger due to the force paths then very difficult or not turned can.

Preferably, the operating element is designed as a rotary selector. This means that by setting different rotational positions, the then assigned and desired operating conditions can be selected and / or adjusted. The setting of operating conditions generally encompasses both the selection of functional subunits of a household appliance and the setting of values of operating parameters of these functional subunits. For example, in an oven as a functional subunit, the operation of the cooking chamber or a cooking zone can be provided. In addition, an adjustment of an operating parameter, for example, the temperature, the cooking zone or the cooking chamber can be performed accordingly.

The annular front part sits in particular touching on the slide ring. The slip ring is made of a specific material, which favors the mobility of the annular front part with the least possible friction. This makes a particularly smooth and user-friendly rotation of the front part possible. With regard to the material design of the sliding ring, conventional and known polymer materials can be provided which have particularly low friction. Preferably, it is provided that the operating element designed as a ring magnets, wherein in interaction of the magnets with fixed metal elements, in particular an annular metal spider, depending on a relative movement of the ring, in particular of the annular front part, an associated operating setting of the household appliance can be detected to the metal elements. The magnets may preferably be mounted on or embedded in the back of the front part. The rotational position of this front part relative to the metal elements, in particular the annular metal spider, can thus be detected due to this interaction and evaluated by a control unit of the operating device. It is particularly advantageously provided that the metal elements are arranged on the rear side of a cover covering the display panel at least in regions, on the front side.

With regard to the metal spider, which is preferably formed in one piece, the diameter is preferably substantially corresponding to the diameter of the sliding ring and / or the annular front part. The metal spider preferably has a thickness of less than 1 mm, preferably 0.7 mm. It is preferably embedded or arranged in a recess on the back of the cover. The flat construction of the operating device is thereby favored. On the other hand, the metal spider is thereby positionally secure and mechanically stable.

It is preferably provided that the operating element formed as a ring is at least partially permeable to light in the spectral range visible to humans. By such a configuration, additional optical

Information is passed on to a user. In addition to the identification of the operating element for a user with regard to the general position of the user

 Operating element in the operating device can thereby also beyond

Operating condition individually displayed optically. It can be provided that the annular front part is completely backlit, or that only ring sections are backlit accordingly.

It is preferably provided that the operating element in a plate-shaped arranged in front of the display panel, in particular for the light of the display panel

permeable, cover is embedded. This cover is therefore mulifunktionell, since on the one hand acts as a support for the control element and this control element accommodates minimal space. On the other hand, it protects the display panel, protecting it from wear or damage. By the

translucent embodiment can also be provided with respect to the surface dimensions of a particularly space-minimized arrangement. It is preferably provided that the annular front part, in particular at least its outer edge, projecting beyond the top of the cover, in particular smaller than 1, 5 mm, in particular less than 1 mm protrudes. This is a special one

Emphasizing advantageous embodiment. Because especially in connection with the funnel-shaped upper side of the annular front part or the obliquely inwardly inclined upper side and this slight protrusion of the outer edge, on the one hand, a particularly secure gripping and touching the operating element can be ensured. On the other hand, it can be avoided that the finger is not unintentionally struggled too much along the outside of the cover with the finger. As a result, unwanted contamination of this outer side on the one hand and accidental slipping of the finger from the top of the annular front part of the operating element can be avoided. The movement guide is through this

Design of the control particularly favors and user-friendly. Not least may be mentioned in this context, that through this

 Embedding of the front part and this minimum projection of the outer edge of this annular front part is also minimized especially with regard to the structure of the operating device or its installation space depth. Preferably, the operating element designed as a ring is arranged in a groove open in the axial direction in the front of the cover. This means that in particular the annular front part and the sliding ring are arranged in this front groove. As a result, their positioning can be favored mechanically and be performed particularly well, especially with regard to the relative rotational movement.

Preferably, it is provided that on the outside or front of this

Cover a groove is formed, in which the sliding ring and the annular front part are arranged sunk. Preferably, a groove is formed congruently on the back of this cover, in which the metal spider is positioned. In particular, it may be provided in a first embodiment, that between the two grooves and thus between the metal spider and the sliding ring is still material of the cover in between.

In an alternative embodiment it can be provided that the cover has a completely continuous recess. In this hole recess then said components of the control element can be introduced and it can be provided a rear cover, such as a metal sheet or a plastic part, which then closes the construction from behind. Likewise, it can be provided that a further corresponding glass part is then introduced and secured in this hole, wherein then the said components of the operating element are arranged therein.

In addition to the already mentioned multi-part design of the operating element, however, an integral or one-piece design can also be provided. Again, an already mentioned above possibility of backlighting can be provided, then in the ring corresponding thinner rings or

Ring sections, points or segments would be visually displayed. This can be used to give indications of a setting of an operation or the course of a program of the device. This could also be displayed inside or outside the ring or digitally in the display panel or visually displayed.

It is preferably provided that the cover is a glass plate. This has in particular a thickness of less than 10 mm, in particular less than 8 mm, preferably between 6 mm and 4 mm. On the one hand the sufficient mechanical stability for the embedding of the components of the operating element is created by this thickness, on the other hand a still so thin design allows for a good transmission of the optical signals of the display panel is made possible and the overall depth of the cover is minimized.

It is preferably provided that the upper side of the annular front part of the operating element is made of metal. It can be applied here, for example, a metal layer. However, it can also be provided that the front part is made entirely of metal. In one embodiment with a metallic upper side, on the one hand, a high-quality impression is conveyed, on the other hand, low wear is ensured.

It is preferably provided that the movable control element at least

partially within the area of the electronic display panel

is arranged. The free mobility of the control element on the one hand and the still multiple and digital or dynamically changing display of information on the electronic display very close to the control element can be achieved.

It is preferably provided that the information to be displayed can be changed depending on the movement of the operating element on at least one field region of the display field. Thus, in this context, different menu surfaces can be displayed on the electronic display panel. The menu surfaces can be selected and selected depending on the rotational position of the control element. It can Also be provided that then the basically displayed menu surfaces with further menu contents in a selection by a specific rotational position of the

Control element are displayed. Preferably, it is provided that a

displayed on the display panel around the control element is displayed or is displayed.

Furthermore, the invention relates to a household appliance with an operating device according to the invention or an advantageous embodiment thereof. The household appliance is designed in particular for the preparation of food or for the care of laundry items or for the cleaning of dishes. Exemplary household appliances in this context may be an oven, a washing machine, a tumble dryer, a dishwasher, a refrigerator, a freezer or the like.

Further features of the invention will become apparent from the claims, the figures and the description of the figures. The features and feature combinations mentioned above in the description as well as the features and feature combinations shown only in the figures alone and / or the features and feature combinations mentioned only in the description of the figures are not only indicated in the respective figures

Combination, but also in other combinations or alone, without departing from the scope of the invention.

Embodiments of the invention are described below with reference to schematic

Drawings explained in more detail. Show it:

Fig. 1 is a schematic perspective view of an embodiment of a household appliance according to the invention;

Fig. 2 is a schematic front view of an embodiment of a

 operating device according to the invention;

3 is a sectional view through subcomponents of the operating device according to the illustration in FIG. 2;

Fig. 4 is an exploded view of the figure in Fig. 3; and 5 is a sectional view of the operating device according to FIG. 2.

In the figures, the same or functionally identical elements are the same

Provided with reference numerals.

In Fig. 1, a trained as a baking oven 1 household appliance is shown in simplified schematic representation. The oven 1 comprises four cooking zones 2, 3, 4 and 5 and a cooking chamber 6, which can be closed by a door 7, which has a handle 8 on the outside. In the embodiment above the door 7 is arranged a

Control panel 9 with an operating device 10. Both the position and the

Design of the control panel 9 is merely exemplary.

In Fig. 2 is a simplified front view of an embodiment of the operating device 10 is shown. The operating device 10 comprises an electronic display panel 1 1, which is designed as a display. On the display panel 1 1, which is limited in area by the edge or the boundary 12, in the

Embodiment is designed rectangular, information can be displayed dynamically changeable. On such a screen different information in the form of letters and / or numbers and / or symbols can be displayed.

The operating device 10 also includes an operating element 13, which is a rotary selector in the embodiment. As can be seen from the illustration in FIG. 2, the rotary selector 13 with its surface dimensions projected from the front into the plane of the figure is arranged completely within the surface 12a with the boundary 12 of the electronic display panel 11. It is thus virtually completely embedded in the planar dimensions of the display panel 11. The control element 13 is due to its design as a rotary selector relative to the display panel 1 1 movable. By turning the control element 13, the associated

Operating conditions of the oven 1 is set. As can be seen, adjacent to and at least in annular sections around the annular control element 13 around an information representation is formed, which takes place in Fig. 2 in the form of symbols 14. The symbols 14 are given by way of example only in their number. It can also be provided that instead of the symbols 14 numbers and / or letters are displayed. The information about the annular control element 13 around, for example, also represent menu surfaces, which then define a certain folder structure. The information then displayed, for example, a term for a folder in which then contain more information represent. If such a folder is then selected by selecting the design of the rotation of the operating element 13, the menu content can be displayed in more detail.

As can be seen in the embodiment of FIG. 2, outside of the surface 12a with the boundary 12 of the display panel 1 1 two control units 16a and 16b are formed. These operating parts 16a and 16b are in the embodiment as touch-sensitive

Control panels designed. On the one hand, they can, for example, functionally include switching on and off of the oven 1. In addition or instead of this, provision may also be made for at least one of the operating parts 16a or 16b to be configured for setting an information depth of a menu content to be displayed on the display panel 11. This means that the information, as represented in FIG. 2 as symbols 14 or as menu topical terms of a menu interface, can be changed by one of the operating units 16a or 16b. If necessary, it can be set so that a term to be displayed for a folder is not the overall parent folder, but already represents a deeper folder structure and, for example, a subfolder is displayed as the default setting.

It can also be provided that the operating part 16a and / or 16b is arranged within the surface 12a with the boundary 12 of the display panel 11.

In Fig. 3, the indicated in Fig. 2 cover 15 is partially shown in the form of a glass plate in a perspective view. The cover 15 is in the area of

Operating element 13 shown cut. The operating element 13 is in

Exploded view shown. As can be seen, the control element 13 is constructed in several parts, it comprises an annular front part 17 which a front side or

Top 18 has. The upper side 18 is obliquely inclined inwards, so that the upper side 18 results in quasi a funnel shape of the front part 17. The oblique inclination inwards is preferably between 3 ° and 15 ° with respect to the plane in which the annular front part 17 extends. In the exemplary embodiment, the front part 17 is integrally formed as an aluminum component.

The operating element 13 further comprises a slide ring 19, which is arranged in the direction of a longitudinal axis A of the operating element 13 under or behind the front part 17. He is also integrally formed and made of a particularly low-friction material. The front part 17 is rotatable relative to the sliding ring 19. The sliding ring 19 is stationary and thus fixedly arranged on the control panel 9, in particular glued or non-detachably attached by ultrasonic welding or by hot-holding non-destructive.

The sliding ring 19 and the front part 17 are held in an annular groove 22 formed in an outer side 21 of the cover 15, wherein the sliding ring 19 with a sliding plate 19a (FIG. 5) preferably on a groove bottom 20 of the axial direction and thus in

Direction of the axis A of the control element 13 considered to the front axially open groove 22 is arranged adjacent.

By magnets which can be arranged, for example, in a plurality equidistantly in the circumferential direction of the front part 17 at this, the rotational position relative to a stationary metal spider 23 is detected. The metal spider 23 is also formed as a ring as shown in Fig. 3, which has a thickness of about 0.7 mm.

It is preferably provided that a ring groove is likewise formed on a rear side 24 of the cover 15, in which the metal spider 23 is arranged. With regard to the term metal spider while the ring shape with the arachnoid or

spike-like elevations and / or radial extensions comprises.

Between the groove 22 and the formed on the back 24 groove 26 (Fig. 4) for the metal spider 23 material of the cover 15 and thus glass material is still present, so that in this respect no through hole or no continuous recess is formed.

The thickness D of the cover 15, which in particular represents a rectangular glass plate, in the exemplary embodiment is 4 mm. It can also be provided that the front part 17 and the sliding ring 19 are permeable at least in regions for light in the spectral range visible to humans. As a result, backlighting of at least annular portions of the front part 17 and the sliding ring 19 can take place.

By means of a control unit, not shown, the rotational position of the slide ring 19 and the front part 17 can be detected relative to the metal spider 23 and there detected by the specific rotational position and thus the relative position to the cover 15 and thus to the display panel 1 1 and recognized the associated operating condition setting and performed become.

In Fig. 4, the illustration in Fig. 3 is shown in assembled condition. It can be seen that an outer edge 25 of the annular front part 17 with respect to the outer side 21 projects about 0.5 mm. The obliquely inwardly and downwardly extending top 18 can also be seen. In addition, the groove 26 for the metal spider 23 is shown. With regard to an inner edge or a radially inner circumferential surface 27 of the annular front part 17, this may be flush with the outer side 21. Due to the inwardly sloping downwardly extending top 18 is then provided that this of the control element 13 enclosed portion of the outer side 21 offset downwards relative to the outside of the annular

Front part 17 formed area of the outside 21 is. However, it can also be provided that this inner edge 27 is likewise arranged slightly protruding in relation to this part of the outer side 21 enclosed by the front part 17. The cover 15 is at least partially arranged in front of the electronic display panel 1 1 and for the optical signals and information of the display panel 1 1 permeable.

Preferably, the portion enclosed by the annular control element 13 portion of the outer side 21 is also formed as a display area of the display panel 1 1.

As already briefly mentioned above, the front part 17 is rotatable relative to the sliding ring 19. The front part 17 and the sliding ring 19 are shown in FIG. 5, the one

Sectional view along the section line VV in Fig. 2 shows, through a guide 28th coupled. As a result, the front part 17 is guided rotatably guided relative to the sliding ring 19. Through the leadership is also achieved that the front part 17 can not be solved undesirable from the slide ring 19 and thus can not fall out undesirable, which has particular advantages in the transport of the operating device 10. The guide 28 includes an open in the radial direction of the control element 13 and thus also in the radial direction of the front part 17 open groove 29 which is open inwardly in this radial direction. This means that the groove 29 is thus oriented such that it is closed in the axial direction and thus in the direction of the axis A (FIG. 3) and has its opening or accessibility in the radial direction perpendicular thereto. In the exemplary embodiment, this radially open groove 29 is formed on the side wall 27 of the front part 17 that is located further inward in the radial direction.

In addition, the guide 28 also includes at least one engagement element 30. The engagement element 30 may be in the direction of rotation about the axis A partially

However, it may also be a completely circumferential

Be engagement element.

The engagement member 30 is integrally formed on the slide ring 19. The slide ring 19 comprises, in addition to a slide plate 19a, a holding web 19b arranged thereon, on which in turn this engaging element 30 is then formed. The engagement element 30 extends in the embodiment in the radial direction of the operating element 13 further outward relative to the retaining web 19b, so that it can engage in the open groove 29 facing it or extends into it. The engagement element 30 is preferably resilient and thus elastically deformable, in particular in the radial direction. In particular, it is provided that the

Engagement element 30 is biased in the state coupled to the groove 29 is arranged therein, in particular is arranged radially biased therein. As can be seen from the illustration in Fig. 5, the slide plate 19a in axial

Direction considered behind the front part 17 in front view of the

Operating device 10 is arranged and the front part 17 is located on a sliding surface 19c this slide plate 19a. This sliding surface 19c may be flat or may also be formed napped.

The control element 13 is guided in the control panel 9 and is there centered and held almost free of play. This concerns in particular the front part 17. Preferably a material pairing suitable between the sliding plate 19a and the front part 17, in particular one on the one, is suitable with regard to a smooth motion control

Sliding plate 19 a directly adjacent rear element 17 a of the front part 17 is formed.

In addition, this also breakthroughs in the sliding plate 19 a can be designed to produce the or the engaging elements 30, without affecting the safety requirements, such as the accessibility to live parts.

Preferably, a positive connection between the engagement member 30 and the groove 29 is formed and beyond a positive connection between the sliding surface 19c and the rear element 17a realized. The degree of positive engagement in the radial direction is preferably designed so that a backlash is achieved and on the other hand, the operation of the ring is easily made possible by the user. The degree of positive engagement in the axial direction is particularly designed so that withdrawal forces are large enough so that the front part 17 is held securely even with relative movements of the control panel 9 or during transport on the device 1 and are small enough to the front part 17, for example for cleaning purposes to be able to remove.

It can also be provided that the groove 29 is formed on the sliding ring 19 and in particular on the shell side 27 a radially inwardly standing

Engagement element 30 is formed, so that in comparison to the representation in Fig. 5, the inverse configuration is realized. LIST OF REFERENCE NUMBERS

1 home appliance

2 cooking zone

 3 cooking zone

 4 cooking zone

 5 cooking zone

 6 cooking space

 7 door

 8 handle

 9 control panel

 10 operating device

1 1 display field

 12 boundary or edge

12a surface area

13 control element

14 symbols

 15 cover

 16a, 16b keypads

 17 front part

 17a back element

 18 top

 19 sliding ring

 19a sliding plate

 19b landing stage

 19c sliding surface

 20 groove bottom

 21 outside

 22 groove

 23 metal spider

 24 back side

 25 outer edge

26 groove Sheath side guide groove

engaging member

Claims

Operating device (10) for a household appliance (1), with an electronic

 Display panel (1 1), and an operating element (13) which is movable relative to the display panel (1 1) for setting operating conditions of the household appliance (1), wherein the operating element (13) is formed in several parts and a sliding ring (19) and a characterized in that the front part (17) and the sliding ring (19) are coupled to a guide (28) and guided by the guide (28), the front part (17) relative to the sliding ring (19) is rotatable.

Operating device (10) according to claim 1, characterized in that the

 Guide (28) has a in the radial direction of the operating element (13) open groove (29) and at least one engagement element (30).

Operating device (10) according to claim 2, characterized in that the engagement element (30) in the radial direction of the sliding ring (19) and the front part (17) is resilient.

Operating device (10) according to claim 2 and 3, characterized in that the engagement element (30) in the coupled with the groove (29) coupled state is arranged therein, in particular radially biased therein is arranged.

Operating device (10) according to one of claims 2 to 4, characterized in that the groove (29), the front part (17) on a radially inner shell side (27) of the front part (17) is formed.

Operating device (10) according to one of claims 2 to 5, characterized in that the sliding ring (19) has a sliding plate (19a), which is arranged in the axial direction of the operating element (13) behind the front part (17), and a retaining web ( 19b), which extends in the axial direction overlapping with the front part (17), wherein at the holding web (19b) at least one radially extending Engagement element (30) is formed and extends in the radial direction in the groove (2).

7. Operating device (10) according to one of the preceding claims, characterized

 characterized in that the sliding ring (19) is fixedly arranged on the control panel (9).

8. Operating device (10) according to one of the preceding claims, characterized

 in that the front part (17) has an inwardly inclined upper side (18) and / or the operating element (13) is designed as a rotary selector.

9. Operating device (1) according to one of the preceding claims, characterized

 in that the front part (17) is designed as a ring which has an upper side (18) facing away from the sliding ring (19), which is inclined inwards relative to a plane in which the front part (17) extends.

10. Household appliance (1) with an operating device (10) according to one of

 previous claims.