This application asserts priority from application EP 11 190 736.6 filed on Nov. 25, 2011, which is incorporated herein by reference.
The present invention relates to a display device for displaying numbers and/or combinations of letters and symbols, in particular traffic symbols.
From the prior art display devices for displaying combinations of numbers and/or letters, as well as traffic symbols, are known. Such display devices typically include LEDs, which when appropriately driven can represent text items or for example, arrows. In these devices one colour is assigned to one LED, so that a limited number of symbols can be represented. In addition, the display devices of the above-mentioned type known from the prior art have the disadvantage that the LEDs are visible even when they are not lit, which under certain circumstances can irritate mad uses in strong sunlight, since in infavourable light conditions the open LED structures can lead to the appearance of invalid symbols or combinations of numbers and/or letters from the point of view of an observer. Moreover, the open LED-structures known from the prior art do not satisfy today's design requirements.
The object of the present invention is to specify a display device for displaying combinations of numbers and/or letters and symbols, which allows a variety of combinations of numbers and/or letters and symbols to be represented with multiple colours and in which the LEDs used are visible only when they are activated, i.e. if they are lit. In particular, the display device according to the invention is to have a homogeneous surface during a period of inactivity, so that the display of invalid combinations of numbers and/or letters and symbols is avoided.
This object is achieved by the characterizing features of Claim 1. Further embodiments and advantages are evident from the dependent claims.
Accordingly, a display device for displaying numbers and/or letter combinations and symbols is proposed, which has at least one LED circuit board comprising a plurality of RGB LEDs which are individually controllable and in the context of an extension, dimmable in each of the three RGB-colours, with the surface of the display device, i.e. the side that is used to display numbers and/or letter combinations and symbols, being produced from a translucent polycarbonate. The individually controllable LEDs can have a central control unit or be driven by decentralised control units, each integrated into the LEDs or in the vicinity of the LEDs.
Decentralised control units integrated into the LEDs or in the vicinity of the LEDs allow the assembly space required for conductor tracks to be reduced, which results in a reduction of the material costs and thus the production costs, and/or in a higher packing density. LEDs controllable by integrated, decentralised control units need only be supplied with electricity and a data bus and can be provided in a parallel circuit arrangement.
Because the LEDs can be dimmed individually in each of the three RGB colours, the overall brightness of the display device can be controlled. In addition, the range of colours achievable can be extended by shading in added colours.
Furthermore, the layer of translucent polycarbonate forming the surface of the display device, on the side thereof facing away from or towards the at least one LED circuit board has a covering non-transparent coat of lacquer, wherein, by removal of the lacquer at the points corresponding to the position of the LEDs of the at least one LED circuit board in the assembled condition of the display device, the display device becomes translucent at these points. This ensures that the surface of the display device has a homogeneous surface during periods of inactivity. The LEDs used are only visible when they are activated, so that from the perspective of an observer the display of invalid symbols, or combinations of numbers and/or letters is prevented.
The LEDs are preferably arranged in a honeycomb structure, so that removal of the lacquer layer reveals a corresponding honeycomb structure.
The lacquering can be effected, for example, using lasers or other appropriate methods.
In accordance with an advantageous extension of the invention the at least one LED circuit board is designed as a flexible printed circuit board which is connected to the surface of the display device such that it assumes the shape of the surface of the display device, so that a constant luminance is ensured, even on a curved surface of the display device. In this way, the surface of a display device according to the invention can be designed to be curved while maintaining a constant attainable luminance, so that design requirements can be met.
Using the conception according to the invention of using LEDs that can be activated individually means that the display of arbitrary combinations of numbers and/or letters, and of arbitrary symbols, for example traffic symbols, is possible in the desired colour, without the need to provide multiple display devices for this purpose. Due to the free configurability of the display device that can now be obtained, the device can be used for a wide variety of purposes. The displayable symbols can be traffic symbols or warning symbols, blinking or warning lights. The display device according to the invention is preferably integrated into a stationary infrastructure.
In accordance with a preferred extension of the invention, the display device is used as a lane indicator light for a vehicle barrier, in this case, it is possible to display direction arrows, for example green arrows or an X-symbol coloured in red. In addition, the display device according to the invention can be driven such that a flashing warning light is produced by a movement of the barrier, whereby the requirements of the legislative authorities can be met. In addition, the display of scrolling text, logos or moving symbols is also made possible.
The invention will he explained in further detail in the following text with the aid of examples shown in the figures.
In the Figures:
The display device 1 in accordance with
According to the invention, the surface 2 of the display device 1 is produced from a translucent polycarbonate and on the side facing the LED board 3 has a covering non-transparent lacquer coating 5, which is removed at the points corresponding to the position of the LEDs 4 of the LED circuit hoard 3 in the assembled condition of the display device 1, making the display device 1 translucent at these points. This is illustrated by
Advantageously, a brightness sensor can he provided, wherein based on the signals from the light sensor, the brightness of the display of the display device 1 is adjusted to match the ambient light using the controller of the RGB LEDs 4 which are dimmable in each of the three RGB colours, in order to ensure optimum readability.
The subject matter of
In the example shown in
Number | Date | Country | Kind |
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11 190 736.6 | Nov 2011 | EP | regional |