The invention relates to an operating element, particularly for a motor vehicle component, comprising an actuating element arranged on a linearly movable carrier element, the actuating element having a plate-like touch plate which can be manually acted upon on its one plate side and which is made of an electrically nonconductive material, which acts on a switching element and in which an electrically conductive sensor element of a capacitive proximity sensor is arranged which is electrically conductively connected to a circuit board.
To operate motor vehicle components such as, for example, a radio unit, a navigation unit, a car telephone, a multimedia system and the like, operating and display devices are frequently used which are ergonomically arranged in the vehicle. The display device should be arranged in such a manner that the driver can see it with the least possible distraction from the road traffic. The display unit is therefore preferably arranged in the area of the dashboard or in the upper area of a center console. The operating unit is preferably arranged in such a manner that the driver can reach it with his fingers without any great arm movement. However, this arrangement of the operating unit has the disadvantage that the operating unit cannot be easily seen visually. The driver will therefore frequently touch and select the operating elements of the operating unit without visual contact. It is therefore desirable to detect the approach of a hand of the driver to an operating element in order to be able to output, for example on the display device, an indication of the type of operating element or the function to be operated by it or also an audible return message before the operating element is actuated and the associated action is carried out.
It is the object of the invention to create an operating element of the type initially mentioned by means of which the approach of a hand to the operating element can be detected with a high degree of surety.
According to the invention, this object is achieved in that the sensor element of the proximity sensor is arranged at or in the touch plate.
By means of this construction, the hand can always be guided very closely to the sensor element of the proximity sensor independently of production tolerances of the components of the operating element so that the approaching hand is detected with great surety.
It is also possible to use different actuating elements, the operating elements otherwise being of the same type of construction, since the sensor element of the proximity sensor is always located at an optimal position.
In particular, the actuating elements can have different length.
In the actuating element of the operating element, an electrically conductive sensor element (sensor electrode) of a capacitive proximity sensor is arranged which is electrically conductively connected to a circuit board. By arranging the sensor element in the actuating element, the sensor element is not visible to the user and thus does not in any way impair the visual appearance of the operating element. By means of the corresponding electrically conductive connection of the sensor element to the circuit board, a sensor signal of the sensor element can be forwarded in a simple manner to signal-processing elements which, in particular, are arranged on the circuit board itself. By suitably arranging the sensor element in the actuating element and suitably connecting it to the circuit board, it is possible to achieve that the conventional functionality of the operating element, particularly of a pushbutton, is not impaired.
To avoid damage, the sensor element is arranged at the second plate side of the touch plate which is opposite to the one plate side.
The sensor element can be attached to the touch plate.
It is particularly advantageous, however, if the sensor element is loaded by a spring resting against the second plate side of the touch plate which is opposite the one plate side.
As a dual function of the spring, the sensor element can be connected electrically conductively to the circuit board by means of the spring.
In this arrangement, the spring is preferably a compression spring.
This spring can be a helical compression spring.
If the spring is an accordion-like spring element which consists of two or more sheet metal parts forming folds with one another, actuating elements of great and different length can be used, the operating element otherwise having the same structure.
As a simple embodiment, the sensor element is a metal element or a metallically coated plastic element and can be constructed as sensor plate.
If the shape of the area of the sensor plate resting against the touch plate corresponds to the shape of the second plate side of the sensor plate, the entire sensor plate is arranged optimized close to the first plate side of the touch plate.
This makes it possible to use also touch plates with a form deviating from a plane such as, e.g. a domed surface without losing the sensor sensitivity.
A simple plug-in assembly is made possible by the fact that the actuating element is constructed to be pot-like and is placed with its pot opening onto the carrier element, the bottom of the pot forming the touch plate.
In this arrangement, the actuating element can have different cross sections such as e.g. rectangular or round.
It is simple to manufacture if the carrier element is a frame-like sheet metal/bending part which can be moved from a normal position into a switch position against a spring force.
In this arrangement, the pot-like actuating element in plug-in assembly can be plugged onto the carrier element and, in particular, can be held by fixing elements.
If the actuating element can be held nonpositively on the carrier element, manufacturing tolerances can be compensated for by variable insertion depth. This is of advantage, particularly, in the case of several preferably identical operating elements of a device.
For this purpose, the carrier element can have locking elements protruding transversely to a direction of movement which rest against the pot wall of the actuating element with elastic pretension.
If the locking elements are notchings of the carrier element which are bent away transversely to the direction of movement, a considerable reduction of components and of assembly effort is obtained. The carrier element can be arranged at a cover which covers the circuit board so as to be movable from the normal position into the switch position against the spring force.
If the cover in this arrangement has an opening into which the actuating element arranged on the carrier element can be moved immersibly, the opening simultaneously forms a guide for the operating element.
The spring force can have a maximum on the path of movement of the actuating element between the normal position and the switch position so that an actuation of the switching element takes place only after overcoming the maximum of the spring force and thus a complete moving of the actuating element into the switch position. Any unintentional actuation of the switching element is thus largely avoided.
To hold the unactuated actuating element in its normal position and to move it back into the normal position after actuation, the carrier element can be arranged over one or more spring arms at the cover or a component connected to the cover.
In a component and assembly expenditure reducing manner, the spring arms can be constructed integrally with the carrier element as sheet metal/bending component.
As a dual function, the switching element can be actuatable in the switch position by means of the spring arms.
The conducting carrier element preferably has a contact tongue which is electrically conductively connected to a contact of the circuit board, wherein the contact tongue can be constructed in construction and assembly expenditure reducing manner as sheet metal/bending component integrally with the carrier element.
Especially few components are required if spring, carrier element and contact tongue are constructed to be electrically conductive and form an electrically conductive connection of the sensor element to the circuit board.
This also leads to a small constructional size of the operating element.
Without requiring additional construction space, an illumination of the touch plate is possible if the components of the operating element have a continuous light opening at the end of which opposite to the touch plate a light source is arranged by means of which a transparent area of the touch plate can be backlit.
To provide good utilization of the light and uniform light distribution, the inner circumferential area of the carrier element can have a reflection coating.
An exemplary embodiment of the invention is shown in the drawing and will be described in greater detail in the text which follows.
At a fixed cover 3, an opening 4 is formed from which comes a guide duct 5 to the side opposite to the actuating side. The actuating side is symbolically represented by an actuating hand 6. The guide duct 5 extends up to a circuit board 7 arranged self-supported approximately in parallel with the cover 3.
A contact tongue 8, extending perpendicularly to the circuit board 7, of a carrier element 11 rests with its bent-away end 10 on a conductor track, not shown, of the circuit board 7 and is permanently connected to the circuit board 7.
The contact tongue 8 which, at the same time, forms a restoring spring is constructed integrally with a frame-like carrier element 11 constructed as sheet metal/bending part which protrudes into the guide duct 5. From the actuating side, a pot-like actuating element 1 is placed onto the carrier element 11, the bottom of which forms a touch plate 2, which can be acted upon by an operating person, and which protrudes into the guide duct 5 and is carried displaceably therein.
To mount the actuating element 1 on the carrier element 11, the carrier element 11 has notchings 12, bent away transversely to the direction of movement of the actuating element 11, at its frame sides which rest with elastic pretension against the inside walls of the actuating element 1 and thus form a nonpositive connection.
Since the notchings 12 are inclined towards the circuit board 7, the actuating element 1 can be pushed onto the carrier element 11 steplessly into the position desired in each case.
A spring arm 13 which has a V-shaped bend 14 aligned approximately in parallel with the circuit board 7, which bend rests with its V-point with pretension against one wall of the guide duct 5, is likewise constructed integrally with the carrier element 9 at its side which is directed towards the circuit board 7.
The free end of the spring arm 13, which is directed towards the circuit board 7, forms a contact which when the actuating element 1 is acted upon and the actuating element 1 and the carrier element 11 are displaced in the direction towards the circuit board 7 actuates a switching element, not shown, which is arranged on the circuit board 7.
At the end of the carrier element 11, which faces the touch plate 2, a spring constructed as an accordion-like spring element 15 is arranged integrally with the latter and consists of two plates 16 and 17 which are connected to one another in a V shape and of which the plate 16 closer to the circuit board 7 is connected with its end opposite to the connection to the other plate 17 to the frame of the carrier element 11.
The plate 17 forms a sensor plate of a capacitive proximity sensor.
By means of the spring force of the spring element 15, its plate 17 forming the sensor plate is always held flat against the touch plate 2.
The sensor plate is thus located in a nearest possible position to the actuating hand 6 acting upon the operating element and can already sense a subsequent actuation of the operating element at an early time before the actuating element 1 is touched by the actuating hand 6.
In the plates 16 and 17, light openings 9 are formed through which the wholly or partially translucent touch plate 2 can be backlit by means of a light source, not shown, which is arranged on the circuit board 7 and protrudes into the carrier element 11.
Number | Date | Country | Kind |
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10 2006 035 837.6 | Aug 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/057934 | 8/1/2007 | WO | 00 | 11/10/2009 |