DE19836261C1 - Control device with rotary switch for controlling an equipment or system enables additional control functions to be implemented in a simple manner and with a simple design - Google Patents

Abstract

The control device has a rotary switch (2) with a hand-operated element (1), whereby an indication marker (8) or frame is moved over a display (7) in the horizontal or vertical direction by turning the hand-operated element. There is a device for measuring the force (F) exerted radially on the hand-operated element. A dialed functional group, function and/or dialed functional value can be selected by means of a radial force acting on the hand-operated element.

Description

The invention relates to an operating device with a rotary switch the preamble of claim 1.

Operating devices are known in which to operate a Device or system next to the rotary switch with a handle additional switches, such as joysticks, are used. The disadvantage here is particularly in motor vehicles that ent Neither two hands are needed for operation or reaching around one hand is required, which requires increased attention. This distracts a motor vehicle driver from the traffic situation and increases the risk of accidents.

From DE 296 04 717 U1 is also a device according to The preamble of claim 1 is known. To implement an entry function, an axial pressure on the rotary switch is required. Furthermore, from DE 195 19 941 C1 and DE 39 13 648 C1 Joy sticks known in which the force acting on a handle ge will measure.

The object of the present invention is therefore an operating device Specify with a rotary switch with the additional operating functions can be realized in a simple manner and have a simplified structure having.

This task is performed by an operating device with the features of Claim 1 solved. By turning the rotary switch is a display  mark or a display frame horizontally or vertically over an ad show movable. Function groups, Functions and / or function values can be selected. This attached selected function groups, functions or function values can be invented According to the invention can be selected particularly easily when making the selection due to the radial force acting on the handle of the rotary switch he follows.

By arranging the force measuring devices at a radial distance from the axis of rotation of the handle is a simple mechanical opening construction achieved.

If the connecting lines of two adjacent force measuring devices enclose a right angle with the axis of rotation of the handle the mechanical structure is further simplified.

If the force measuring devices can measure compressive and tensile forces, only a small number of force measuring devices are required. Provided at the same time the connecting lines between the force measuring devices and the axis of rotation of the handle form a right angle, a total of only two force measuring devices are required to load the and the direction of the action on the handle of the rotary switch To determine force.

Strain gauges as force measuring devices are easy to place and require very little installation space. For example, you can the bearing of the rotary shaft of the handle of the rotary switch become. It is also possible, for example, to use the strain gauges between the housing of the rotary switch and a base on which the rotary switch is installed.

For the arrangement between the housing of the rotary switch and one A pressure-sensitive safety mat is also easy to use the.  

At the same time you get with the control device according to the invention a particularly easy to use control device if too additionally an input mark (cursor) depending on the rotation switch exerted force should be controllable via a display. Here the direction of the force on the rotary switch is directly implemented in the Direction of movement of the cursor. If also the amount of force used to control the cursor, the Ge speed at which the cursor is moved across the display, each be varied according to the amount of force. This allows the Operation of the device with the control device out even faster leads, especially when entering geographic points in maps shown on the display.

Furthermore, it is possible to use the operating device for operating a Use gear shift.

The invention is based on the figures for a particular preferred embodiment explained in more detail.

Show it:

Fig. 1 is a schematic representation of an operating device with egg nem rotary switch and a display,

Fig. 2 shows the display of FIG. 1, are shown on the selectable function groups and functions,

Fig. 3 shows a preferred arrangement of strain gauges for measuring the force.

In Fig. 1 it can be seen a rotary switch 2 with a handle 1 which is rotatable about its axis of rotation 3. The rotary switch 2 is connected via a data line 4 to an evaluation and control unit 5 . The evaluation and control unit 5 evaluates the operating commands that are given by the rotary switch 2 and possibly other operating elements, not shown, and controls a display 7 accordingly. In Fig. 1, a country map with geographical points A, B is shown on the display 7. A display mark 8 points with its arrow head to the geographical point A. If the operator of the operating device wants to enter the geographical point B or another point on the map, for example, he can control the display mark 8 via the screen by means of a radial force acting on the hand 2 . The direction of movement of the indicator mark 8 changes as a function of the radial direction of the force F on the handle. If, in addition, the speed of the indicator mark 8 is dependent on the amount of the radial force F on the handle 1 , the indicator mark 8 can be controlled even faster and without complex different switch operations to the desired location on the display 7 .

In Fig. 2, two function groups are shown on the display 8 , namely the radio function group and the climate function group. A display frame 9 shows which function group is selected. A display frame 10 shows within the selected function group which function of the function group is selected. In Fig. 2, the radio function group and therein the function HR3 are selected, that is, a station to be received by the radio. The movement of the display frame 9 , 10 can for example be controlled by the radial force F on the hand 1 . Here it is possible, for example, to switch between the individual function groups by a radial force F on the hand 1 , which at the same time acts approximately perpendicular to the side a of the rotary switch 2 , between the individual function groups and then the individual functions of a function group by a radial force F, which acts approximately parallel to side a of the rotary switch 2 , to be selected.

A selection of the selected functions can be made, for example, by Timed out, d. that is, if a certain time is not a new function the selected function is selected.

Another possibility is as follows: first, a function group is selected by turning the rotary switch 2 : by rotating the display frame 9 moves over the selectable function groups. As soon as the desired function group is reached, which the operator can perceive through the display frame around the desired function group, the selected function group can be selected by applying a radial force to the handle. This selection can optically z. B. be confirmed by the provision of the display frame 10 , since the operator then recognizes that he can now select the functions located in the frame 9 and select by renewed radial force effect.

It is also possible to use the aforementioned operating modes depending on the function groups, functions or function values binieren.

Furthermore, it is possible, instead of the display frames 9 , 10, to display the selected function groups, functions and function values by changing the respective display, for example by means of a negative mode or otherwise changing the display color of the selected function groups, functions or the selected function value.

FIG. 3 shows a possible construction of a rotary switch according to the invention . A rotary switch 2 is mounted on a base plate 11 . Strain gauges 12 , 13 are mounted between the rotary switch 2 and the base plate 11 , the connecting lines of the strain gauges 12 , 13 including a right angle with the axis of rotation 3 of the handle 1 . So it is possible to vote with only these two strain gauges 12 , 13 all radially acting on the handle 1 forces F be. The angle results from the arcus tangens or arcus co tangens functions of the forces measured by the strain gauges. Since the strain gauges also differentiate between pressure and tension, the entire angular space of 360 ° around the axis of rotation 3 is covered with one measured value each of the strain gauges 12 , 13 . The arcus tangens function of the quotient of the measured value of the strain gauge 12 by the measured value of the strain gauge 13 gives the angle which is included between the connecting lines of the strain gauge 13 with the axis of rotation 3 and the direction of the radial force F sought, the angle being from the connection line of the strain gauge 13 with the axis of rotation 3 continues to rotate clockwise.

Claims (8)

1. Operating device comprising a rotary switch ( 2 ) with a handle ( 1 ), wherein an indicator mark ( 8 ) or an Anzeigerah men ( 9 , 10 ) by rotating the handle ( 1 ) of the rotary switch ( 2 ) in the horizontal or vertical direction Via a display ( 7 ) be movable, characterized in that a device ( 12 , 13 ) for measuring the force (F) is present, which is exerted radially on the handle ( 1 ) of the rotary switch ( 2 ) and a selected radio tion group, function and / or a selected function value can be selected by a radial force (F) on the handle ( 1 ) of the rotary switch ( 2 ). 2. Control device according to claim 1, characterized in that force measuring devices ( 12 , 13 ) are arranged at a radial distance from the axis of rotation ( 3 ) of the handle ( 1 ). 3. Control device according to claim 2, characterized in that the connecting lines of two adjacent force measuring devices ( 12 , 13 ) with the axis of rotation ( 3 ) of the handle ( 1 ) include a right angle. 4. Control device according to one of the preceding claims, characterized in that the force measuring devices ( 12 , 13 ) can measure compressive and tensile forces. 5. Operating device according to one of the preceding claims, characterized in that the force measuring devices ( 12 , 13 ) are designed as strain gauges. 6. Operating device according to one of claims 1 to 4, characterized ge indicates that the force measuring device as a pressure-dependent Mat is designed. 7. Control device according to one of the preceding claims, characterized in that in a selected function group, a function of the function group can be selected by turning the handle ( 1 ) of the rotary switch ( 2 ). 8. Control device according to claim 7, characterized in that in a selected function, a function value or a sub-function can be selected by turning the handle ( 1 ) of the rotary switch ( 2 ).