WO2010009914A1

WO2010009914A1 - Translationally actuated joystick

Info

Publication number: WO2010009914A1
Application number: PCT/EP2009/055796
Authority: WO
Inventors: Benedikt Schmidt
Original assignee: Preh Gmbh
Priority date: 2008-07-25
Filing date: 2009-05-14
Publication date: 2010-01-28
Also published as: DE102008034602B3

Abstract

The invention relates to a control element (1) comprising a control button (2), at least two pivoting levers (4, 5), an adjustment axis (6) connected to the control button which cooperates with the pivoting levers (4, 5) such that the levers (4, 5) are pivoted in correspondence to the motion of the adjustment axis, and means for detection of the pivot motion of the levers (4, 5). The control element (1) is characterized in that the adjustment axis (6) is arranged so as to be displaceable in parallel to the axes.

Description

DESCRIPTION

Translationally operated joystick

The invention relates to a control element with a control knob and an associated adjusting axis, which cooperates with two pivotable levers so that the levers are pivoted in accordance with the movement of the adjusting axis and means for detecting the pivoting movement of the lever. Such a structure is known from a joystick.

In the known joysticks a lever along at least 2 predetermined directions is pivotable. In this case, upon reaching each end position, a switching function is performed, for example, a digital switching function, or it is generated proportional to the respective deflection in the two mutually perpendicular deflection an associated signal that is used for example for moving a cursor on an associated display panel of a display device. In the latter case, the associated signals corresponding to the pivoting are generated by a potentiometer adjustment or the adjustment of an optical encoder. The usual joysticks have to operate a control knob with a centrally located and mounted by means of a universal joint or in a ball and socket bearing control lever. This structure is relatively complicated, due to the relatively high number of moving parts susceptible to interference and expensive to manufacture. Furthermore, there is the problem that the pivoting mechanism is difficult to protect against ingress of cleaning fluid and dust due to the tilting movement of the control knob. In addition, the control knob is usually kept small and thin, so as not to hinder the pivoting movement. This has the disadvantage that the control knob is difficult to feel and can only be seen by looking directly and then gripped. When used in a motor vehicle, this can disturb the driver and distract his attention from traffic and thus represents a security risk. Although the control knob could be increased by its distance from the surrounding aperture is increased. However, with increasing height, the risk of injury increases (head impact criterion), this approach is not desirable.

Against the background of the above disadvantages of the prior art, the inventors have set themselves the task of providing an operating element of the type described above, which is reliable, easy to operate and manufacture. This object is achieved by an input device according to claim 1. Advantageous embodiments are the subject of the dependent claims.

The invention relates to an operating element, preferably an operating element for a motor vehicle. The operating element comprises a control knob, which is connected to a control axis. For example, the adjusting axis is mounted concentrically on a cylindrical control knob and extends from the end facing away from the operator. The operating element comprises two pivotable levers. The term lever in the context of the invention is to be interpreted broadly and the lever can be designed varied depending on the mechanical stress. The adjusting axle cooperates with the displaceable levers so that the levers are pivoted in accordance with the movement of the adjusting axle. For example, the adjusting shaft is accommodated in at least one recess of the lever, wherein the recess is preferably configured such that the adjusting axle is received in the pivoting direction with minimal play in order to prevent a "backlash." There are further means for detecting the pivoting movement of the levers It is conceivable that the levers extend from the pivot axis only to over the recesses so that the levers form a C-shape.

The operating element according to the invention is characterized in that the adjusting axis is mounted to be displaceable axially parallel. In other words, the adjusting axis is moved in parallel while maintaining its orientation in order to perform the control or switching functions. There is thus a translatory operation of the control axis and thus also the control knob, that is, the control knob is moved in its installed position, for example in a dashboard of a motor vehicle, in a direction horizontal to the dashboard. This not only has the Advantage that due to the small number of moving parts and the simplified storage of the adjusting axis of the structure is considerably simplified and thus the production is cheaper, but that beyond the problem of sealing is easier to solve due to the pure translational movement.

In addition, the control knob can be flat and still large, to be more precise, it can be configured almost arbitrarily, while maintaining the legally prescribed in many countries supernatant of the surrounding panel, if it is used in a motor vehicle, according to its haptic requirements.

Another advantage results from the fact that the gap between the control knob and the control knob associated housing can be set very small, which on the one hand prevents contamination and on the other hand, a high qualitative appearance comes to good.

To obtain a control function, the means for detecting the pivoting movement respectively generate a signal which is substantially proportional to the pivoting of the respective lever.

In a particularly simple embodiment, the detection means comprise in each case one resistance track assigned to the respective lever and one respective sliding contact fastened to the lever and guided during the pivoting movement over the resistance track. Depending on the position of the lever so a corresponding resistance value is tapped (potentiometer principle), which is used to generate a signal corresponding to the position of the lever in question.

In a particularly reliable and precise embodiment, the means for detection in each case comprise a rotary potentiometer coupled to the respective lever or, in this sense, more preferably a coupled optical encoder. In order to obtain a switching function, means for detecting the pivoting movement each generate an on or off signal correlated with the pivoting.

The switching function can be realized in a low-cost configuration by at least one mechanical switch per lever. In a low-wear embodiment, the means for detecting the pivoting movement each comprise at least one light barrier, which is arranged so that its light path can be shaded by pivoting the respective lever.

The means for detecting the pivoting movement preferably each comprise at least two light barriers per lever in order to detect the direction of the pivoting movement of the relevant lever, for example from its rest position. Thus, three switching states can be realized per lever: rest position, deflection in a first direction and rash in a second, opposite direction.

Preferably, the pivot axes of the lever are arranged offset by 90 ° about a rest position of the adjusting axis. As a result, an input device which serves to control a cursor or the like on a display device can be easily created together with the generation of a signal which is substantially proportional to the pivoting of the relevant lever for each lever. In the embodiment in which the means for detecting the pivoting movement in each case comprise at least two light barriers per lever can be realized relatively easily with the offset by 90 ° lever arrangement, a 4-way switch or even an 8-way switch.

Preferably means for returning the lever and thus the adjusting axis are provided in the rest position. For example, springs are provided for returning the lever.

In a further embodiment, it is provided that the adjusting axis for performing an additional switching and / or control function is rotatable about its axis or displaceable in the axial direction and that it is an associated switching or control element, such as a rotary potentiometer or an optical encoder for the control function or a pushbutton for the switching function, acts. This additional functionality is particularly easy to integrate into the inventive design due to the simple structure and the pure translational movement of the adjusting axis.

To achieve high strength and durability, at least the levers and / or the adjusting shaft are made of a zinc-aluminum-magnesium-copper (ZAMAK) alloy, for example in a zinc die-casting process.

Due to the possibility to provide a control knob, which is easy to take haptic and also may have a slight projection and since the associated mechanism is easy to seal against penetration of cleaning fluid and dust, the control element according to the invention is advantageously applied to a motor vehicle application.

In the attached figure, a preferred embodiment of the essential elements of the mechanics of the control element according to the invention is shown schematically, without limiting the invention thereto.

The operating element 1 comprises a control knob 2 which is rigidly connected to a control axis 6. The adjusting shaft 6 engages in each case in elongate recesses 9 of two legs of a lever 5 and correspondingly in the recess of a further lever 4, wherein the levers 4, 5 are mounted pivotably about respectively associated, attached to a base plate 8 pivot axes 3. The pivot axes are arranged offset by 90 ° about the adjusting axis 6. The recesses 9 are dimensioned so that their edge abuts in a pivoting as possible clearance on the adjusting axis 6, on the other hand whose longitudinal extent is dimensioned so that the amount of movement of the adjusting axis in the pivoting direction of the other lever 4 and 5 is sufficiently permitted. The pivoting movement of the levers 4, 5, which is effected by the control knob 2 on the housing axis 6, is detected by means, not shown, for detecting the pivoting movement. For example, on the base plate 8 each one of the relevant lever 4, 5 associated resistance path provided by a sliding contact in the Swinging movement is traversed to produce a pivoting position corresponding resistance value and thus a signal proportional thereto. In a further embodiment, it may be provided that the adjusting shaft 6 for performing an additional switching and / or control function by the control knob 2, is rotatable about its axis or displaceable in the direction of its longitudinal axis and that they on an associated switching or control element, for example a rotary potentiometer or an optical encoder for the control function or a push button switch for the switching function, acts. This additional functionality is particularly easy to integrate into the inventive design due to the simple structure and the pure translational movement of the adjusting axis 6.

Claims

Preh GmbH, Bad Neustadt ad Saale 24.07.2008P ATENTANSPR Ü CHE

First operating element (1), comprising a control knob (2), at least two pivotable levers (4, 5), connected to the control knob adjusting axis (6) which cooperates with the pivotable levers (4, 5) so that the lever (4, 5) are pivoted in accordance with the movement of the adjusting axis, and means for detecting the pivoting movement of the lever (4, 5), characterized in that the adjusting axis (6) is mounted displaceably perpendicular to the axis.

Second operating element (1) according to claim 1, characterized in that the means for detecting the pivoting movement in each case one of the pivoting of the respective lever (4, 5) generate substantially proportional signal.

3. Operating element (1) according to the preceding claim, characterized in that the means for detecting the pivoting movement in each case one respective lever (4, 5) associated resistance path and one on the lever (4, 5) attached, and in the pivoting movement comprise sliding contact guided over the resistance track.

4. Control element (1) according to claim 2, characterized in that the means for detecting the pivoting movement each comprise a with the respective lever (4, 5) coupled rotary potentiometer or an optical encoder.

5. Control element (1) according to claim 1, characterized in that the means for detecting the pivoting movement in each case generate a correlated with the pivoting of the respective lever (4, 5) on or off signal.

6. Operating element (1) according to the preceding claim, characterized in that the means for detecting the pivoting movement each comprise at least one light barrier, which is arranged so that the light path by pivoting the respective lever (4, 5) can be shaded.

7. operating element (1) according to the preceding claim, characterized in that the means for detecting the pivoting movement each comprise at least two light barriers per lever (4, 5) to detect the direction of the pivoting movement of the respective lever (4, 5).

8. operating element (1) according to any one of the preceding claims, characterized in that the pivot axes (3) of the lever (4, 5) offset by 90 ° about a rest position of the adjusting axis (6) are arranged.

9. operating element (1) according to any one of the preceding claims, characterized in that means for returning the lever (4, 5) and thus the adjusting axis (6) are provided in the rest position.

10. Operating element (1) according to any one of the preceding claims, characterized in that the adjusting axis (6) for performing an additional switching and / or control function about its axis is rotatable or displaceable in the axial direction and acts on an associated switching or control element.

11. Motor vehicle characterized by an operating element (1) according to one of the preceding claims 1 to 10.