DE102008021291A1 - Control element with eight tilt directions - Google Patents

Abstract

The invention relates to an operating element, in particular for a motor vehicle, consisting of a control knob, which is mounted pivotably about a central axis (M) in a housing, and switching elements (S26 to S33), which are indirectly or directly actuated by means of the control knob, wherein the Switching elements (S26 to S33) outside the main directions (N, O, S, W) of the operations of the control knob are arranged in the control.

Description

The The invention relates to an operating element, in particular for a motor vehicle, consisting of a control knob, the one Center axis is pivotally mounted in a housing and Switching elements, indirectly or directly by means of the control knob are operable.

controls according to the invention are preferably, but not exclusive, used in vehicles to electrical and / or electronic components to control or regulate. Is preferred the invention can be used with controls that act as a tilting element are designed in eight directions. Such joystick-like controls are mostly used where in motor vehicles, for example navigated or selected from a variety of menu items can be. Of course, the invention is also with control buttons on other electronic devices or control and / or regulating devices can be used, always there, where a control element in a variety of directions tilt or pivotally used to actuate switching elements becomes. Such controls are also known by the term "toggle button" and are used for example in steering wheels, for adjusting the Exterior mirrors or the seat installed in motor vehicles. Preferably, the invention comes as a multi-functional control in a center console of a motor vehicle used.

The unpublished DE 10 2007 013 678 A1 describes a control element with a control knob which is pivotally mounted in a housing about two spatial axes, wherein a ball-like guide is arranged such that four cooperating on the control knob arms arranged with an associated circuit board and thereon arranged contact mats. The tilting of the control knob actuates plungers that act directly on the keypad. The pressure generated by the arms causes the control knob and arms to tilt about a point and the corresponding arm to move down. As a result, the corresponding switching pressure is moved via the associated plunger down and so closed a switching contact on the circuit board. The operating element is designed in this case for four switching contacts.

A control element which is pivotable in eight directions and correspondingly generates a switching function in eight directions is in WO 2005/103773 A1 disclosed. This is an opto-electronic detection of the tilting movements of a joystick. Here, the joystick movements are detected in eight directions by means of a light valve and read the tilting movement as a value. The optoelectronic switching elements lie directly in the tilting directions of the joystick.

One Problem that arises with controls that operate in eight directions tiltable, that is the evaluation of the actuation the control knob is difficult. Such controls have eight offset by 45 ° to evaluate the eight tilt directions arranged electronic, mechanical, optical or combined Switching means to the pivoting or tilting movement of the control element capture. The switching path, in particular with mechanical switches, like buttons or safety mats is very small and moved here in the range of about one millimeter. To a malfunction in detecting the direction of operation of the control knob to stop, must be extremely precise Mechanisms or controls with scenes can be used.

task The invention is to provide a control that a increased safety in the evaluation of tilting movements a operable in at least four directions operating element allows. In addition, the invention should be constructive be realized easily and inexpensively. Farther the task consists in all operating directions to create a uniform feel on the control knob, the operating element independent of mechanical tolerances the components of the control element a precise evaluation of the To enable switching functions.

The The object is achieved according to the invention in that an operating element is provided, in which the switching elements outside the main and secondary directions of actuation of the control knob are arranged in the control. By the invention Arrangement of the switching elements is a mistake or multiple operation of switching elements almost impossible, creating a clear evaluation the tilting direction can be done. In addition, that is Control according to the invention tolerant mechanical tolerances, which means that even with large mechanical tolerances in the components a safe operation the switching elements is possible. A preferred embodiment The invention relates to the arrangement of switching elements in an in eight directions pivoting control knob, the switching elements each at 22.5 ° from the tilting or pivoting directions of Control knob offset in the control are arranged. It should be noted Remains here that it is any means of detecting the switching directions can act as the principle of the invention it makes it possible to recognize the switching directions more effectively, the tolerance for misoperation with respect to conventional Controls in which the switching elements in Kippbeziehungsweise Pan direction are arranged, a much larger Provide operating safety.

As switching elements mechanical switching elements and more preferably switching mats are preferably used with Kontaktdomen. In addition, however, are optoelectronic means, as known from the prior art, such as WO 2005/103857 A1 , are also usable.

following the invention is based on schematic diagrams in one embodiment explained. It shows:

1 A basic arrangement of switching elements with respect to switching directions and a table for evaluating the Schwenkbeziehungsweise tilt directions and

2 the arrangement of switching directions to switching elements and the difference of the tilting movements of a known from the prior art operating element with respect to an inventively designed control element and a table, with conditions for detecting the pivoting or tilting directions.

In the upper illustration of the 1 is the arrangement of the switching elements S26 to S33, as they are arranged according to the invention in a control element about a central axis M shown. This is an operating element which can be moved, tilted or swiveled in eight directions, in which case the terms movable, tiltable or pivotable are used as synonyms and designate the movement of the operating button of the operating element in the switching directions. Here, a distinction is made according to main directions and secondary directions.

The directions are shown as arrows in accordance with the cardinal directions. The main directions are North, East, South and West. As secondary directions the directions north / east, south / east, south / west and north / west are designated. As switching elements S26 to S33 here are any switching elements, such as photoelectric sensors, or buttons or Kontaktdome of safety mats used. Illustrated are contact domains S26 to S33. The contact domes are mounted at an angle of 22.5 ° to the main directions of the eight-way control, so that in each main and secondary direction always two Kontaktdome be operated. A corresponding evaluation is in the table of 1 shown. If the control knob of the control element is actuated, for example, in the main direction north N, the switching elements or buttons S30 and S26 are actuated. If the control knob of the control element is actuated in the southwest direction SW, then the buttons or switching elements S27 and S32 are actuated.

One Another advantage that arises here is that thereby homogeneous actuation forces on the control element adjustable are. By confirming always two switching domes each direction, is an identical feel for all directions guaranteed.

By the arrangement of the dome by 22.5 ° offset to the main directions N, O, S, W is a unique evaluation allows and prevents incorrect or multiple operation. About that In addition, the system is tolerant to mechanical tolerances, as shown below by way of example in the main direction east O. becomes.

In the upper picture of the 2 the arrangement of the main and secondary directions and the switching elements are shown in their circular arrangement in the control. Here, the directions are represented as dark dots and the arrangement of the switching elements as bright dots. Now, if the control knob of the control element in the east O moves, the switching elements S29 and S31 are actuated. In the case of the known from the prior art arrangement of the switching elements, the switching element would be located immediately below the dark point of the east direction O and it would be operated this single switching element. In addition, the lying under the secondary directions north / east and south / east switching elements, with conventional arrangement, would be moved. The stroke or the proportion of the movement to the switching points North / East and South / East is derived from the trigonometric relationship of the angles and the set of rays and calculated as the path h1 = h × 0.707 and graphically represented. Consequently, when the operating element of the operating element is actuated in the direction of east O, the operating knob moves along the directions north / east and south / east by the distance h1 = h × 0.0707. If now switching elements and arranged in the north / east and south / east direction, then actuators of the control knob would move down this distance. A multiple or incorrect operation of these switching elements would thus be possible. Such a system, in which the switching elements are arranged immediately below the main and secondary directions, on the one hand intolerant mechanical tolerances and a multiple and incorrect operation of switching elements is possible.

This results in a significant advantage of the inventive arrangement of the switching elements, which are preferably arranged offset by 22.5 ° to the main directions. The way to actuate a next switching element is substantially lower in an operation in, for example, the main direction east O. If the actuator or the control knob is pressed in the east O, then, as already explained above, the switching elements S29 and S31 operated. The next switching elements are those which are between the main and secondary directions North N and North / East NW and between the main direction South S and secondary direction South / East SO, in this case the switching elements S26 and S33. The illustration in the upper area is an example 2 the actuating travel is calculated to the switching element S33. Here, the actuating travel or stroke of the actuating means above the switching element S33 with h2 = h × 0.38 results. As is apparent from the figure and the graph with the exemplary calculations, the actuation travel or stroke above the switching elements S26 and S33 is substantially smaller, namely, about half of h1, so that misoperation of these switching elements S26 and S33 becomes almost impossible ,

The Arrangement of the switching elements S26 to S33 offset to the main and secondary directions thus provides a mechanical method that provides a clear evaluation, mechanical tolerances in the Training the control eliminated or caught and a mistake or multiple operation as good as impossible does as in the calculation by means of trigonometric Angular relationships in combination with the beam set (R / R1 = H / H1 and R / R2 = H / H2).

The table in the 2 shows the relationship between the operating direction and the conditions for evaluating the direction. If, for example, the control knob of the operating element is moved in the north direction, then the first condition is that the switching elements S30 and S26 are actuated. An evaluation in the direction north N also results when the switching element S30 is actuated and the switching elements S26, S31, S29, S33, S27, S32, S28 are not actuated. The assignment of the switching means S30 to the main direction north N results in a clear assignment, whereby evaluation errors in the main and secondary directions are avoided. Equivalent results in the condition number 3, wherein S26 is actuated and S30, S31, S29, S33, S27, S32, S28 are not actuated, the evaluation of the operation of the main direction north N. In addition, the operation of the control element in the north / East NO, that operates the condition S26 and S31, must be met. Conditions 2 and 3 are not applicable here (na).

In a special embodiment, are the switching elements Contact dome of a safety mat or a rubber mat. In this case, the contact domes in the described special arrangement brought, with the goal, an even haptic in every direction of actuation and a reliable one To achieve function. At the same time, this special arrangement a much larger error distance to incorrect operations allows.

It should be noted Remains here that the described arrangement of the switching elements to the switching directions on any arrangements and switches transferable is. The essential advantage of the invention consists in operating elements, which have a plurality of actuating directions, safer and prevent misuse. Preferably, the controls are controls in motor vehicles and in particular multifunction input buttons, the menus control or regulate.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102007013678 A1 [0003]
• WO 2005/103773 A1 [0004]
• WO 2005/103857 A1 [0008]

Claims (5)

Control element, in particular for a motor vehicle, consisting of a control knob, which is mounted pivotably about a central axis (M) in a housing and switching elements (S26 to S33), which are actuated directly or indirectly by means of the control knob, characterized in that the switching elements ( S26 to S33) outside the main directions (N, O, S, W) of the operations of the control knob are arranged in the control. Operating element according to Claim 1, characterized that the control knob in eight offset by 45 ° to each other arranged directions (N, NO, O, SO, S, SW, W, NW) actuated, is preferably pivotable. Operating element according to claim 2, characterized in that that the switching elements (S26 to S33) offset by an angle of 22.5 ° arranged to the pivot directions (N, O, S, W) in the control are. Operating element according to one of claims 1 to 3, characterized in that the switching elements (S26 to S33) mechanical switching elements are. Operating element according to Claim 4, characterized in that the switching elements (S26 to S33) are contact domes of a switching mat is.