OPERATING UNIT FOR AN ELECTRICAL APPARATUS, IN PARTICULAR FOR A VEHICLE COMPONENT

Abstract

The invention relates to an operating unit (10) for an electrical apparatus, in particular for a vehicle component such as, for example, a heating, ventilation and/or air conditioning installation, which is provided with a housing (12), an operating strip (18) and a support element (32) for the operating strip (18), which is arranged in the housing (12). The operating strip (18) is mounted on the support element (32) about a tilt axis that extends transversely to the longitudinal extension of the operating strip (18). The support element (32) is tiltable in at least one pivoting direction and about a pivot axis (34) that extends parallel to the longitudinal extension of the operating strip (18) from a rest position, in which the support element (32) is elastically prestressed, into a pivot position, which is detected by a pivot position sensor (42, 44). Two tilt detection sensors (52, 54) detect a tilting of the operating strip (18) about the tilt axis when the operating strip (18) is actuated by manually pressing against an operating panel (22, 24, 26, 28, 30) of the operating strip (18). Finally, the operating unit (10) is provided with an evaluation and operating unit for receiving the signals of the pivot position sensor (42, 44) and the tilt detection sensors (52, 54) and for determining, on the basis of the signals emitted by the tilt detection sensors (52, 54), the operating field (22, 24, 26, 28, 30) on which, upon manual actuation of the operating strip (18), the finger of one hand is applied with an actuating force required for adopting the pivot position of the support element (32) and for triggering the apparatus function that is associated with the determined operating field (22, 24, 26, 28, 30).

Claims

1. An operating unit for an electrical apparatus, in particular for a vehicle component such as, for example, a heating, ventilation and/or air conditioning installation, the operating unit being provided with a housing having a front wall, an operating strip projecting beyond the front wall, the operating strip having an operating surface with a plurality of operating fields for triggering different apparatus functions, the operating fields being arranged side by side in the longitudinal direction of the operating strip and between two ends of the operating strip, a support element for the operating strip, which is arranged in the housing, wherein the operating strip is mounted on the support element about a tilt axis that extends transversely to the longitudinal extension of the operating strip, and wherein the support element is pivotable in at least one pivoting direction about a pivot axis that extends parallel to the longitudinal extension of the operating strip between a rest position into which the support element is elastically prestressed and a pivot position, at least one pivot position sensor for detecting the pivot position of the support element when the operating strip is actuated, two tilt detection sensors for detecting a tilting of the operating strip about the tilt axis when the operating strip is actuated by manually pressing against an operating field of the operating strip, wherein the tilt detection sensors detect a movement of the ends of the operating strip when the same is actuated, and an evaluation and control unit for receiving the signals of the pivot position sensor and the tilt detection sensors and for determining, on the basis of the signals emitted by the tilt detection sensors, the operating field on which, upon manual actuation of the operating strip, a finger of one hand is applied with an actuating force required for adopting the pivot position of the support element and for triggering the apparatus function that is associated with the determined operating field.

2. The operating unit of claim 1, wherein the operating strip has its ends connected with the support element via flexible webs and that the tilt detection sensors detect a bending of the flexible webs when the operating strip is tilted about the tilt axis.

3. The operating unit of claim 1, wherein the tilt axis is formed as an elastic torsion axis.

4. The operating unit of one of claim 1, comprising a tilt axis sensor for the detection of a movement of the tilt axis in a normal movement direction extending perpendicularly to the tilt axis itself, as well as to the pivot axis.

5. The operating unit of claims 3, wherein the tilt axis is flexurally rigid with respect to a bending in the normal movement direction.

6. The operating unit of claim 2, wherein the torsion axis is designed as a connecting web which, similar to the flexible webs, protrudes to a common side from a transversal web, the flexible webs and the connecting web being fixed to the support element and bear the operating strip.

7. The operating unit of claim 6, wherein for reasons of its geometry, its material and/or the position of its connection with the support element and/or with the operating strip, the connecting rod is more rigid than the flexible webs and/or that if the connecting webs and the flexible webs e.g. have the same geometry and are made of the same material, the connecting web is shorter than the flexible webs and/or has a shorter free bending length than the flexible webs, in particular due to the fact that the connecting web protrudes from the support element at a first connection point and the flexible webs protrude from the support element at a second connection point, the second connection points being spaced farther from the operating strip than the first connection point.

8. The operating unit of claim 1, wherein the support element is pivotable from the rest position in two opposite pivot directions and thus into two opposite pivot positions, and that the pivot position sensor detects the respective pivot position adopted, or that two pivot position sensors provided for the detection of a respective other one of the two pivot positions.

9. The operating unit of claim 8, wherein each tilt detection sensor detects a movement of the respective end of the operating strip and/or a moment acting on the respective end of the operating strip in each of two opposite movement directions.

10. The operating unit of claim 9, wherein, in a rest position of the operating strip in which the operating strip is not actuated, every tilt detection sensor detects a prestressing of the respective flexible web, and that the movement direction of an end of the operating strip may be detected based on an increase or decrease of the signal of the tilt detection sensor outputted by this sensor when the operating strip is in the rest position.

Description

[0035] The invention will be explained in more detail hereunder with reference to embodiments and to the drawings. The Figures show:

[0036] FIG. 1 a perspective front view of an operating unit according to an embodiment of the invention,

[0037] FIG. 2 a perspective view of the cut-open operating unit of FIG. 1 to clearly illustrate the pivot bearing and the connection of the operating strip to a support element pivotably supported in the housing,

[0038] FIG. 3 a top plan view on the cut-open housing according to the arrow III in FIG. 2,

[0039] FIG. 4 a view similar to FIG. 3, but with an alternative embodiment of the tilt axis of the operating strip,

[0040] FIG. 5 a perspective view of the combination of the support element and the operating strip according to the embodiment in FIG. 4,

[0041] FIG. 6 an alternative embodiment of the combination of the support element and the operating strip, and

[0042] FIG. 7 a schematic illustration, clarified by graphic elements, the different combinations of signal swings at the individual sensor elements.

[0043] FIG. 1 is a perspective front view of a simplified operating unit 10. The operating unit 10 has a housing 12 with a front wall 14 in which a cutout 16 is provided. An operating strip 18 protrudes through the cutout 16, the operating strip protruding beyond the front wall 14. The operating strip 18 has an operating surface 20 with a plurality of operating fields 22, 24, 26, 28 and 30 arranged side by side. The operating unit 10 generally comprises further operating elements and in particular also comprises indicating elements in the form of displays or other typical indicating elements, which, however, are not of importance to the present invention so that they will neither be described in detail herein, nor are they illustrated in the Figures.

[0044] As can be seen in particular in FIGS. 2 and 3, the operating strip 18 is connected to a support element 32 arranged inside the housing 12. The support element 32 is substantially plate-shaped and is pivotable about a pivot axis 34 from a rest position into which the support element 32 is prestressed mechanically, into one of two pivot positions situated in opposite pivoting directions. The two pivoting directions are indicated by an arrow 36. Pivot bearing blocks 40 are provided in the area of the side walls 38 of the housing 12, the support element 32 being supported at these blocks so as to be pivotable about the pivot axis 34.

[0045] Pivot position sensors 42, 44 detect when one of the two pivot positions is adopted upon the actuation of the operating strip 18, said sensors also being arranged in the housing 12 in this embodiment (see FIG. 2).

[0046] The operating strip 18 has two ends 46, 48. The operating strip 18 is connected to the support element 32 in the centre between these two ends 46, 48 via a tilt axis or a torsion shaft 50 (e.g. a torsion spring). The operating strip 18 is substantially free at the two ends 46, 48. For this reason, when the operating strip 18 is actuated, torques of different magnitude act, depending on the contact position of a finger of a hand, which torques either result in different degrees of pivoting or in a tension in the operating strip 18. This is detected by two tilt detection sensors 52, 54 which detect flexural moments or movements acting on the ends 46, 48. In this embodiment this is effected by flexible webs 56, 58 protruding from the support element 32. These flexible webs 56, 58 act on the tilt detection sensors 52, 54 so that the degree of bending and also the direction of bending of the flexible webs 56, 58 is a measure of the deformation or the flexural moments acting on the operating strip 18 when the same is actuated.

[0047] As illustrated in FIG. 3 the two pivot position sensors 42, 44 are connected to an evaluation and control unit 60. The two tilt detection sensors 52, 54 are also connected to this evaluation and control unit 60. In addition, a further sensor 62 may be provided that detects flexural moments acting on the axis 50 when the operating strip 18 is actuated.

[0048] The localization of the contact point of a finger of a hand on the operating strip 18 during the actuation of the same is performed on the basis of the signals of the tilt detection sensors 52, 54. The farther away from the axis 50 the actuation force is exerted on the operating strip 18, the greater the torques are that act on the operating strip 18. In this context it has to be ensured that the signals of the tilt detection sensors 52, 54 are evaluated in the instant an effective actuation of the operating strip 18 is detected. The determination of this instant is achieved by means of the pivot position sensors 42, 44 that detect when one of the two pivot positions are adopted. In this instant the signals of the tilt detection sensors 52, 54 are evaluated and, by means of a recognition of these signal patterns, a conclusion can be made with respect to the operating field on which a finger of a hand rests when the operating strip 18 is actuated.

[0049] The additional sensor 62 makes it possible to detect erroneous actuations of the operating strip 18. If for example the two outer operating fields 22, 30 are pressed simultaneously, the two tilt detection sensors 52, 54 output substantially equal signals. Theoretically speaking this could also mean that a finger of a hand rests on the central operating field 26. Now, the signal of the tilt axis sensor 62 is evaluated in addition, which sensor, when a finger of a hand rests on the central operating field 26 while the signals of the tilt detection sensors 52, 54 are substantially equal, outputs a different signal than in the case in which two fingers rest simultaneously on the outer operating fields 22, 30.

[0050] FIGS. 4 and 5 show an alternative embodiment of the invention in which the axis 50 is designed as a torsion spring. The remaining elements of the operating unit in FIGS. 4 and 5 are identical with those of the operating unit in FIGS. 1 to 3.

[0051] Finally, FIG. 6 illustrates still another embodiment of the invention in which the axis 50 is designed as a torsion spring 64 flexurally rigid along its extension. Again it applies that the other components of the operating unit of this embodiment are identical with those of the operating unit in FIGS. 1 to 3.

[0052] FIG. 7 again schematically illustrates the above described situation in which the position of the finger contact point on the operating strip 18 is concluded from the signals of the tilt detection sensors 52, 54 and the tilt axis sensor 62. In FIG. 7 the operating fields 22, 24, 26, 28, 30 are additionally labeled as key 1 to key 5. In a situation in which, due to erroneous actuation, the keys 1 and 5 (or alternatively the keys 2 and 4) are pressed simultaneously, the two tilt detection sensors 52, 54 detect substantially the same forces or moments so that their signals are substantially the same. The tilt axis sensor 62 also detects a signal which, however, is weaker. It is thereby detected that an erroneous actuation is given. Without this tilt axis sensor 62, an erroneous actuation would be impossible to detect.

[0053] If, in contrast, only the central key 3 is pressed, the signal of the tilt axis sensor 62 is larger than the signals of the two tilt detection sensors 52, 54, whereby an actuation of the operating strip 18 by a finger resting on key 3 is detected.

[0054] If e.g. key 1 is pressed, the signal of the tilt detection sensor 54 is larger than that of the tilt detection sensor 52. If key 2 is actuated, a difference can still be determined in this respect, although it is less than in the previous case. The situation is inversed correspondingly when key 4 or 5 is actuated.

LIST OF REFERENCE NUMERALS

[0055] 10 operating unit [0056] 12 housing [0057] 14 front wall of the housing [0058] 16 cutout in the front wall [0059] 18 operating strip [0060] 20 operating surface of the operating strip [0061] 22 outer operating field [0062] 24 operating field [0063] 26 central operating field [0064] 28 operating field [0065] 30 outer operating field [0066] 32 support element [0067] 34 pivot axis of the support element [0068] 36 pivot directions [0069] 38 side walls of the housing [0070] 40 pivot bearing blocks [0071] 42 pivot position sensor [0072] 44 pivot position sensor [0073] 46 end of operating strip [0074] 48 end of operating strip [0075] 50 bending shaft, tilt axis [0076] 52 tilt detection sensor for the operating strip [0077] 54 tilt detection sensor for the operating strip [0078] 56 flexible web [0079] 58 flexible web [0080] 60 evaluation and control unit [0081] 62 tilt axis sensor [0082] 64 torsion spring