WO1987006077A1

WO1987006077A1 - Opto-electronic display device with proximity detector

Info

Publication number: WO1987006077A1
Application number: PCT/DE1986/000514
Authority: WO
Inventors: Winfried KÖNIG; Peter Knoll
Original assignee: Robert Bosch Gmbh
Priority date: 1986-04-04
Filing date: 1986-12-17
Publication date: 1987-10-08
Also published as: DE3611358A1

Abstract

An opto-electronic display device is proposed with at least one proximity detector arranged in its peripheral region, serving to switch on, off or switch over the display by means of an electronic circuit controlled by the finger of the user. In order to produce a simple, exchangeable proximity detector which is essentially insensitive to disturbances or humidity, an infrared light component (11) is used comprising an infrared emitter (13) and receiver (14) adjacent to one another and arranged axially parallel or slightly tilted in relation to one another, located in the vicinity of a specifically allocated control zone (12) of the display device (10). In this way the light (16) radiated by the infrared emitter (13) is reflected by placing a finger (15) on the control zone (12) towards the receiver (14). This reflection initiates a switching process in the control electronic circuitry.

Description

Optoelectronic display device with proximity sensor

State of the art

The invention is based on an optoelectronic display device with at least one proximity sensor arranged in the edge region of the device according to the preamble of the main claim.

In a known display device of this type (DE-OS 30 25 767), the proximity sensor is integrated in the display, in that the electrodes of the capacitive or galvanically acting sensor are applied to the surface of the upper display plate. However, this solution has the disadvantage that if the electrodes are damaged, the entire display device may have to be replaced. In addition, sensors constructed in this way are sensitive to moisture and electrically conductive deposits, and any interfering effects caused thereby are not readily recognizable.

The aim of the present solution is to design the construction of proximity sensors on optoelectronic display devices in such a way that they are insensitive to moisture, electrically conductive deposits and, in the event of defects or damage, are arranged interchangeably in the edge region of the display device. Advantages of the invention

The display device according to the invention with the characterizing features of the main claim has the advantage that the proximity sensors are robust and insensitive to environmental influences and harsh operating conditions, such as occur in motor vehicles, for example. They are also simple and therefore inexpensive to set up and require relatively simple evaluation electronics with high functional reliability. A further advantage is that the proximity sensors can be retrofitted, particularly in the case of a smaller number of command fields in the edge zones of the display device, or can be replaced in the event of damage or defects. The infrared transmitter and the infrared receiver can also be arranged next to one another at a slight inclination.

Advantageous further developments and improvements of the features specified in the main claim are possible through the measures listed in the subclaims. For a retrofittable and exchangeable arrangement of the proximity sensors, it is particularly advantageous that the infrared light module is arranged next to the associated command field of the display device such that the light emitted by it runs approximately parallel to its plane above the command field. By touching the command field, for example with the finger, the infrared light beam passed over it is consequently reflected on the finger of the user and a switching command is thus triggered by the infrared receiver. As an alternative to this, it is particularly advantageous to protect the proximity sensors against damage if the infrared light module is arranged below the translucent command field in such a way that the light emitted by the infrared transmitter emerges almost vertically through the command field so that it also touches the command field with one finger is reflected on the infrared receiver. When using a proximity sensor for several switching commands, for example by calling up various information or command menus on the display device, it is advantageous if the command field is part of the entire display area of the display device, for example an LCD or screen, and has a switchable label associated with the proximity sensor as a display. The command fields, usually in the form of segment displays, can be labeled with appropriate words, symbols or a combination of both. Calling up certain processes or displays on the display device is further facilitated in that the operator's finger can be guided into the correct position in front of the infrared light module through trough-like depressions.

drawing

Two embodiments of the invention are shown in the drawing and explained in more detail in the following description. 1 shows part of an optoelectronic display device with a proximity sensor arranged laterally in the edge region of the device, FIG. 2 shows part of a display device with a proximity sensor arranged below the edge region of the device, and FIG. 3 shows a further embodiment of the invention.

Description of the embodiments

FIG. 1 partially shows an optoelectronic display device in the form of a display plate 10, which can be constructed, for example, as a driver information display in an LCD version. On the right edge area of the display plate 10, a plurality of proximity sensors are arranged next to one another for switching the display on, off or toggle, an infrared light module 11 being shown in FIG is shown as one of the proximity sensors. The infrared light module 11 is connected to the driving data computer and the display, as are the adjacent, non-recognizable infrared light modules, via conventional control electronics (not shown). In front of the infrared module 11, the display panel 10 is provided with a command field 12, which can be provided with a symbol, for example a clock for the time display, a petrol pump for filling the tank or the like, or with a word, for example time, tank filling or the like .

The infrared light module 11 consists in each case of an infrared transmitter 13 and an infrared receiver 14 lying axially parallel thereto, an infrared light diode as the transmitter and a phototransistor as the receiver in a commercially available infrared light module 11. The axially parallel arrangement of transmitter and receiver 13, 14 has the effect that the infrared light emitted by the infrared transmitter 13 is reflected when the finger 15 of a user is placed on the command field 12 toward the infrared receiver 14. The electrical signal generated there triggers a switching process in the control electronics, as a result of which the information assigned to the command field 12 is displayed on the display plate 10. Instead of an axially parallel orientation of the IR transmitter and receiver, slight inclinations of the two optical axes to one another are also possible .

When the infrared light module 11 is arranged laterally next to the command field 12, the infrared light emitted by the infrared transmitter 13 and shown with a dashed arrow 1β runs parallel to its plane above the command field 12. When the finger 15 is placed on the command field 12, the light beam 16 emanating from the infrared transmitter 13 is reflected on the finger 15 and at least partially reaches the infrared receiver 14 for signal triggering. In order to facilitate the actuation of the proximity sensor, there is one in front of the infrared light module 11 translucent plate 17 arranged, which has a trough-shaped depression 18 on the front side facing the command field 12.

In a further exemplary embodiment, FIG. 2 shows a display panel 10, for example a transflective LCD with command fields arranged next to one another on one side, of which only one command field 12 can be seen in FIG. The command field 12 is part of the display panel 10, on which various information menus can be displayed which, for example, can be called up and displayed one after the other in a main menu and several submenus in accordance with DE-OS 33 46 370. The various terms of the menu called appear on the command fields 12 of the display panel 10. The information menus, submenus or the desired data to be displayed on the display panel 10 are called up by briefly tapping the command field 12 assigned to them with the finger 15. For this purpose, the infrared light module 11 is arranged below the translucent command field 12 on the back of the display panel 10 such that the light emitted by the infrared transmitter 13 emerges vertically in the direction of arrow 16 through the command field 12 upwards. When the finger 15 is placed on the command field 12, the light beam 16 is reflected by the finger 15 and partially reflected back on the infrared receiver 14. To make it easier to find the light beam 16 to be reflected, in this exemplary embodiment the translucent plate 17 with its trough-shaped depression 18 is arranged in front of the infrared light module 11 above the command field 12. The switching processes triggered in this way are also effected here by the infrared light module 11 via the electronics (not shown), the labeling or symbols on the command field 12 also being switched over, if necessary. In the exemplary embodiment according to FIG. 3, a combination of the two possible solutions explained for FIGS. 1 and 2 is shown. Here, the infrared light module 11 is arranged laterally next to the display panel 10 and laterally next to the command field 12 of the display panel 10. The display panel 10 and infrared light module 11 are covered by a common, translucent front panel 19, which is optically coupled to the display panel 10 and the infrared light module 11, for example by an optical cement 20. The infrared light beam 16 of the infrared transmitter 13 emerges vertically through the front panel 19 in addition to the command field 12. By placing the finger 15 on the command field 12, the infrared light 16 is also reflected by the finger on the infrared light receiver 14 and the desired switching process is thus triggered.

In order to reduce or eliminate the influence of the ambient light in the area of the display device in the case of the superimposition of the infrared light in the various exemplary embodiments, it is expedient if the infrared transmitter is operated with an alternating voltage so that the reflected infrared light on the infrared receiver triggers a switching operation AC voltage or AC signal causes. In the evaluation circuit, the signal can be evaluated via a bandpass for the frequency of the selected AC voltage with a rectifier, low-pass filter and comparator connected to trigger the desired switching function. To further increase the interference immunity, it is also possible to code the light of the IR transmitter and to check the signal of the IR receiver for agreement with the transmitted code.

Claims

Expectations

1. Optoelectronic display device with at least one proximity sensor arranged in the edge area of the device for switching on, off or switching the display by means of control electronics interposed by the finger or the like of a user, characterized in that the proximity sensor consists of an infrared light module (11) with at least approximately axially parallel juxtaposed infrared light transmitter (13) and receiver (14) and is arranged on a command field (12) of the display device (10) such that the infrared light (16) emitted by the infrared transmitter (13) by placing a finger (15) on the command field (12) zürn infrared receiver (14) is to be reflected in order to trigger a switching operation in the control electronics.

2. Display device according to claim 1, characterized in that the infrared light module (11) next to the command field (12) of the display device (10) is arranged in such a way that the light emitted by the infrared transmitter (13) (16) above the command field (12) in parallel runs to its level.

3. Display device according to claim 1, characterized in that the infrared light module (11) is arranged below the translucent command field (12) such that the light emitted by the infrared transmitter (13) (16) emerges vertically through the command field (12) upwards.

4. Display device according to one of the preceding claims, characterized in that the command field (12) is part of the entire display area of the display device (10) and has a switchable, the infrared light module (11) assigned labeling as a display.

5. Display device according to claim 2, characterized in that in front of the infrared light module (11) a translucent plate (17) is arranged with a trough-shaped depression on the front of the command field (12) facing.

6. Display device according to claim 3, characterized in that in front of the infrared light module (11) on the command field (12) a translucent plate (17) is arranged with a trough-shaped depression on its top.

7. Display device according to one of the preceding claims, characterized in that the infrared light module (11) with an infrared light diode as a transmitter (13) and a phototransistor as a receiver

(14) is provided.