SK81296A3 - Display device and array - Google Patents

Abstract

Display element consists of the moving member (22) made by signal target, which rotates in the angular extent 160 to 180 and in its ON, eventually OFF, position its light side (22B), eventually dark side (22D) is visible. The light side (22B) is in ON position of the moving member (22) lightened by continuously connected LED-light source, which enables observation of this light side (22B) in the first angle (1. Dir.), which is symmetric to the direction (V) of the observation. If the moving member is in the position OFF, then the LED-light source in direction to the observer is covered by this moving member. Display elements can be in such make, that except the light reflected from the enlightened members (22) the observer can in the second angle (dir) in ON position of the moving member (22) see also straight LED-light source. Display elements can be arranged in the set, which creates panel with changeable information contents. Display elements can be arranged in columns and these columns in the lines. Other combinations of the said arrangements are possible.

Description

A display element, a set of display elements, a marking panel comprised of these display elements

Technical field

The invention relates to display elements comprising a movable member reversing in the viewing direction with its light side in the ON position or the dark side in the OFF position. The invention further relates to a display element array, further to a display element column, and finally to a series of display element columns.

BACKGROUND OF THE INVENTION

Display elements are known which consist of a rotatable signal target defining a center plane of the display element. This signal target has its opposite sides colored so that one of them has a high contrast to the background, while the other side is colored with the background. The signaling target is rotatable about an axis of rotation that is approximately parallel to said median plane, so that either the light or dark side of the signaling target is evident in the viewing direction, which is the axis of the cone of viewing angles, which does not necessarily have to be rotatable. The stator forms the background for the individual signaling targets and is dark-colored to contrast with the bright sides of the signaling targets and at the same time to align with the dark sides of these signaling targets. The light and dark sides of the signal targets are alternately visible in the ON and OFF positions of the signal targets.

A disadvantage of these known display elements is, in particular, the fact that they cannot be arranged in the immediate vicinity of a cover glass, for example a vehicle windscreen, because space is required in front of them to accommodate the light source or sources by which these display elements are illuminated. SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a display element structure which allows it to be positioned in the immediate vicinity of the windshield and which avoids the need to switch off the individual light sources.

SUMMARY OF THE INVENTION

This object solves the drawbacks of known display elements of this kind and largely eliminates the display element with the movable member according to the invention, which is characterized in that the display element is equipped with an LED light source arranged to illuminate the bright side of the movable member in its ON position. The bright side is turned away from the viewing direction in the OFF position of the movable member. The movable member is formed by a signaling target with an axis of rotation approximately perpendicular to the direction of observation.

The display element assembly is comprised of columns that are assembled from a series of display elements with a width corresponding to the individual display elements.

The vehicle marking panel consists of a set of display elements located behind the vehicle windscreen and visible through the windscreen. Said display elements are designed such that the assembly can be arranged in the immediate vicinity of the vehicle windshield. The display elements, which can thereby obtain a static charge, are arranged at a sufficient distance from the windshield in order to avoid the interaction between the static charges of the windshield and the display elements. The vehicle marking panel provided with the display element assembly is configured such that the display elements are arranged in the assembly so that the assembly may be arranged behind the windshield of the vehicle and be visible through the windshield. In other words, the display elements are designed such that their assembly can be arranged in the immediate vicinity of the windshield. The windshield may be curved in a vertical direction and the assembly is composed of columns and shaped in accordance with the curvature of the windshield.

The actual display element, which consists of a stator and a rotor, is designed such that the rotor consists of a signal target mounted on the stator for rotation at an angle of approximately 160 ° to 180 ° between the ON and OFF end positions about an axis of rotation approximately perpendicular to the display element is provided with means for rotating the signal target about its axis of rotation between the ON and OFF positions, a lateral side is arranged on at least one side of the stator a wall with an LED light source extending upstream of the axis of rotation, the stator is provided with means for limiting the rotation of the signaling target between its ON and OFF positions, the LED light source being arranged in front of the signaling target and in its ON position and thus illuminating its bright side, possibly after this signal target in its O FF position where the LED light source is obscured in the viewing direction by the signaling target and the side wall obscures the LED light source in a direction transverse to the assembly.

The display element column, which defines the longitudinal direction and the opposing sides in a direction transverse to the longitudinal direction, is constructed such that each display element consists of a rotor and a stator, the rotor being a signal target mounted on the stator for rotation at approximately 160 ° to 180 ° between the ON and OFF end positions about the axis of rotation approximately perpendicular to the direction of observation, the rotor is turned with its light side and dark side in its end ON and OFF positions, the display element is equipped with means for rotating the signal target around its an axis of rotation between the ON and OFF positions, on at least one side of the stator there is arranged a side wall with an LED light source which protrudes before the axis of rotation, the stator is provided with means for defining the rotation of the signaling target between its ON and OFF positions; is arranged in front of this signaling target in its ON position and may therefore illuminate its bright side or behind this signal target in its OFF position, where the LED light source is obscured by the signal in the viewing direction and the side wall obscures the LED light in a direction transverse to the assembly.

The array of columns of display elements positioned side by side is constructed such that each of the side walls of the screen shades light from an LED light source in both directions across the assembly. Each of the side walls shields the light from the LED light source in both directions across to the assembly.

The viewing element for viewing in the direction of the viewing axis, which consists of a stator and a rotor, is constructed such that the rotor is a signaling plate mounted on the stator to rotate about the axis of rotation and to visualize its light side and dark side in its ON and OFF positions , the display element is provided with means for rotating the signal target about its axis of rotation between the ON and OFF positions, a stator is provided with an LED light source to illuminate the bright side of the signal target in its ON position and covered by the signal target in its OFF position; provided with means for blocking light from the LED light source in directions transverse to the viewing direction. The light blocking means are preferably formed by side walls arranged on the stator. The side wall is preferably a printed circuit board and the LED light source is arranged on the side of the side wall facing the signaling target.

The column of display elements is preferably designed such that said locking means are all arranged on the same side of the column, the side walls being combined so as to form a single side wall on one side of said column.

The array of display elements is preferably designed such that the display elements have similar means on each side thereof and these blocking means block the light from LED light sources on all sides.

The display element with opposed light and dark sides is preferably designed to be provided with means for rotating the signal target between its end ON position and the OFF position, in which the light side or the dark side is visible in the viewing direction, respectively the LED- the light source is arranged to illuminate the bright side of the signaling target in its ON position and is obscured by the signaling target in its OFF position. The LED light source is preferably arranged on one side of the signaling target and housed in a reflective surface housing that allows light to enter from the LED light source only in the direction of illumination of said bright side of the signaling target.

LED light source, t. j. The Light Emitting Diode associated with the individual signaling targets is thus included in each display element. If the bright side of the signaling target is turned in the viewing direction, i. the signaling plate is in the ON position, the LED light source is located above the light side and illuminates it. The LED light source is switched on continuously, so it must be obscured in the OFF position of the signaling target.

The forward and backward directions are from the display element toward the viewer and vice versa.

An assembly is to be understood as the entire bus marking panel or other light panel consisting of sub-assemblies consisting of columns of individual display elements or individual display elements.

When referring to LEDs, this also means groups of luminescent diodes.

The viewing direction is generally understood to mean the center of the point projected in a plane perpendicular to the viewing direction from which the display element or the display element assembly is to be viewed.

The cone of viewing angles surrounds the viewing direction and includes a projection to the plane of the points from which the display element or the display element assembly is to be viewed.

One of the essential advantages of the invention is that the angle in plan view below which the illuminated signal targets can be observed is about 150 ° and is distributed symmetrically to the longitudinal axis of the bus on which the system according to the invention is arranged. However, at an angle of approximately 75 ° from the longitudinal axis of the bus, direct light from the LED light sources is also visible, but only on the side of the bus towards which the light from the LED light sources is directed. This is advantageous because the bus is often seen from the sidewalk. Thus, for buses for most countries except the UK and Australia, this 75 ° sector will be to the right of the centerline of the bus, while for the UK and Australia it will be on the left.

Signal discs illuminated by the ends of optical fibers are known. Examples include:

US 4,974,353 from Dec 04, 90 Norfolk

US 5,022,171 of 11/06,91 to Norfolk et al

US 5,055,832 of 08.06.91 Browne

However, optical fibers that are suitable for relatively narrow viewing angles are not as suitable as LED-luminescent diodes for wide viewing angles. In addition, LEDs are cheaper to such an extent that an LED display can be a practical application, while similar light-fiber applications would be economically impractical.

There are also known embodiments of rotating signal display displays in which LED light sources are used. By way of example, U.S. Pat. 5,055,325 from 24.09.91. According to this patent, however, it is not ensured that the LED light source is covered by its own signaling target, at least not for a wide viewing angle. The LED light source must therefore be switched off in the OFF position of the signal target. The solution according to the present invention, however, assumes that the LED light source will be switched on continuously when the signal target is swiveled from the ON position to the OFF position and vice versa, thereby saving the switching circuit costs for individual LED lighting sources. Such switching circuits are structurally demanding and also expensive.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a display element structure for use on its own or in a system in which, in the ON position of a signaling target, its signaling target is highlighted by illumination. The light from the LED light source should be oriented so as to illuminate only the light side of the associated LED light source, and also only in this case is the light visible directly.

It is also an object of the present invention to provide such a display element or display element structure which enables the ON / OFF position of the signal targets to be viewed over a wide angular range, while in the OFF position the light from the LED light source is to be obscured over a wide angular range. The light reflected from the signal target, which is illuminated by an LED light source, should be visible at a plane angle which is symmetrical in the horizontal plane.

Here, the viewing direction of the signaling target is understood to be a direction approximately perpendicular to the average position of the illuminated signaling target in its ON and OFF positions and at the same time perpendicular to the axis of rotation of the signaling target. This axis is not parallel to the signal target in its ON and OFF positions because the ON and OFF positions of the signal target are somewhat different to each other so that its rotation range is below 180 ° because using an electromagnetic drive would rotate the signal target within 180 ° problems have arisen with this propulsion, especially with its initial torque. By the use of a display element assembly, the viewing direction is understood to be approximately perpendicular to the surface of the assembly.

• Plane view here means a view perpendicular to the viewing direction and parallel to the median plane of the system. The plan view relative to the bus will thus be approximately vertical, but in other applications it may have any other real orientation.

Based on what has already been said here, in the case of a marker panel for a bus or other vehicle, the planar view will be approximately horizontal and where the light from the LED light sources can be seen, they all lie on one side of the viewing direction illuminated of signal targets.

One aspect of the invention is a display element suitable as part of a system that is provided with a signaling target rotatable between its ON position in which the bright side of the signaling target is visible to its viewer and its OFF position in which it is visible toward the observer the dark side of the signaling target, wherein the LED light source is arranged to illuminate its bright side in the ON position of the signaling target. The display element or assembly composed of display elements may be arranged in close proximity to the windshield of a bus or other vehicle so as to be visible to pedestrians through the windshield. The proximity of the display element to the windshield is limited only by the space required to move the signaling plate between its ON and OFF position and the interaction of electrostatic charges between the signaling plate and the windshield.

The closer the assembly is to the windshield, the wider viewing angle is achieved.

It is also an object of the present invention to provide such display element constructions in which the light source is maintenance-free and is to be cheaper compared to known solutions of this kind.

Another object of the present invention is also to provide a construction of a display element forming a base module. It should be possible to assemble relatively large assemblies of these basic modules or pixels, for example 20 to 40 such modules, in order to achieve a good resolution in the sense that small modules are used in comparison to the dimensions of the assembly, will have relatively large effective areas.

Here, the effective area is understood to be the ratio of the area of the marker panel or assembly occupied by the bright areas of the individual signaling targets when they are all ON, to the total area of the marker panel or assembly. This ratio is a measure of the efficiency of the marking panel or assembly, although this measure may not be entirely accurate, particularly with regard to the light effects of LED light sources and the angular alignment of the panel with signaling targets relative to the viewing angle. The need to achieve as large an effective area as possible assumes the use of rectangular signal targets, since these are arranged side by side for maximum utilization of the area and thus, in the ON position, form the largest ON position in the system. Thus, the need for the use of modules or display elements with a small area compared to the system dimensions implies the use of square modules with approximately square signal targets.

The term LED or LED light source is understood here to mean a semiconductor chip, which is arranged in the optical system and possibly enclosed in a housing, for the sake of simplicity the term LED is used here.

Thus, according to the invention, a display element or column or set of display elements, usually of square shape, is achieved, wherein the signaling target rotates about an axis so that either the light or the dark side is visible in the viewing direction. The background of the signaling target, when viewed in the viewing direction, has a high contrast to the bright side of the signaling target and at the same time a similar coloration to the dark side of the signaling target. The LED light source located on the stator is arranged to illuminate the bright side of the signal target in its ON position and is obscured in the viewing direction by the signal target when it is in its OFF position. The display element according to the invention is further provided with means to prevent light escape from the LED light source in a direction transverse to the viewing direction.

Preferably, a known electromagnetic drive is used for the signaling target. Other types of drive can also be used in the present invention.

In a preferred embodiment of the invention, a printed circuit board is arranged on one side of the signaling plate and the LED light source is arranged such that its light illuminates the bright side of the signaling plate when the signaling plate is in its ON position. This all depends on the position of the signal target in its ON position. Preferably, the light side of the signaling plate is in the ON position slightly inclined towards the LED light, at a light source whose light is oriented transversely to the viewing direction. The display element is provided with means to prevent light leakage in directions deviated substantially from the desired light direction from the LED light source. These means consist of a housing on the sides of the optical assembly which is oriented in the desired direction of light and towards the rear of the printed circuit board. In this case, a sufficient divergence of the light from the LED light source from the desired direction of illumination is maintained, so that the observer on the sidewalk in front of the bus, i.e. on his chosen side, see. mentioned above, the signal discs in their ON positions can also directly see the light emitted by the respective LED light sources.

Said side wall does not necessarily consist of said printed circuit board within the scope of the invention. However, this is an advantageous solution, since the printed circuit boards on it can simultaneously form leads for LED light sources.

It is further preferred that only one common side wall is used instead of two side walls for each display element or column. The opposite side wall in the direction of radiation of the LED light source is then formed by the side wall of an adjacent display element or column.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention is further illustrated by the following non-limiting examples, which are described in the accompanying drawings.

In FIG. 1 is a fragmentary view of a column of display elements according to the invention.

In FIG. 2A shows an LED light source, an optical assembly and a housing according to the invention.

In FIG. 2B is a detailed side view of the LED lamp housing and the printed circuit board.

In FIG. 3A in the plane 3A - 3A of FIG. 1 is a cross-sectional view of the target in the ON position where its bright side is visible.

In FIG. 3B in plane 3B-3B of FIG. 1, a cross-sectional view of the target in the OFF position is shown where its dark side is visible.

In FIG. 4 is a front view of a column of display elements.

In FIG. 5 is a schematic front view of a front side of a bus with a marker panel formed by the display element assembly of the invention.

In FIG. 6 is a schematic cross-sectional view of the front of the bus with the marking panel in a vertical plane passing through the longitudinal axis of the bus.

In FIG. 7 shows angles of observation of illuminated targets and direct observation of LED light sources.

In FIG. Figures 8A and 8C depict hitherto known arrangements of marking panels in a bus.

In FIG. 8B compared to FIG. 8A and 8C of the arrangement of the marking panel according to the invention in a bus, correspond to the alternative of FIG. 6th

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 shows a portion of a column of display elements according to the invention. The stator 10 or stationary portion of each display element is formed by an open-front housing consisting of a bottom 12, side walls 14S and front walls 14E extending forwardly from the bottom 12 and defining such a square shape of the display element to ensure good use of space and efficient use of display area.

Columns 16 are provided in opposing square corners of the display element, in which receiving holes 18 are provided for the signaling target axes 20 having dark sides 22D and bright sides 22B. A punch 31 is formed in the signaling target so that the signaling target can pass around the cores 26B as it moves between its end positions. 26D.

The drive of the signaling targets is preferably electromagnetic and is designed such that the magnet 24 on or in the signaling target is oriented by its N-S axis perpendicular to the axis of rotation of the signaling target, i. perpendicular to the axis 20 and is driven by switching the polarity of the cores 26B and 26D. which always have opposite polarity, by switching to achieve rotation of the signaling target. A permanent magnet 29 with a magnetic axis in the direction is arranged in the middle 12 of each display element

In observation, cores 26B. torque. U.S. Pat. whose content modifies 26D and provides said drive is 3,518,664 in the name referred to herein.

28, the magnetic field generated by such a more favorable initial preferably performed according to MK Taylor

The polarity switches through the coils 28 which these cores and are fed from a current (not shown) thus electromagnetically operated from 30.06.1970, to the cores 26B. 26D to 26B. 26D surround the source and.

the signaling target generally rotates between 160 ° and less than 180 ° between the ON and OFF end positions, because reaching a full 180 ° rotation is difficult due to the insufficient initial torque of the electromagnetic drive of the signaling target.

The magnet 24 is preferably embedded in a middle layer of a signaling plate composed of several layers, for example according to U.S. Pat. No. 3,953,274 and no. No. 3,871,945, both to Vinrow and others, the contents of which are incorporated herein by reference. However, it will be understood that the magnet 24 may be installed or mounted differently.

It is also possible to use another electromagnetic drive or a drive on a different principle, all within the scope of the invention.

On one side of each display element is a side wall 30 that projects forward from the walls 22E and 22S. FIG. 4, it can be seen that all the side walls 30 of the stack of individual display elements may be combined in a single side wall 30 and the stators 10 or housings may be formed by a single common casting or molding. The side wall 30 is preferably a printed circuit board. On the side of the side wall 30 inclined to the signaling target there is arranged an LED not shown, which is provided with an optical assembly 32 and housed in a housing 34. The LED pin or LED light source is attached to the side wall 30 by its anode 36 and cathode. In the housing 34, an aperture is provided to permit light emission from a LED light source in a narrow cone, which is coaxial with the LED axis A of this LED light source, which extends perpendicular to the viewing direction V and is directed to the signaling target. This signal target is in its ON position slightly inclined towards the LED light source, this inclination being adjusted by the length of the core 26B, the end of which acts as a stop in the end ON position according to FIG. 3A, so that the light side 22B of the signaling target is illuminated by a cone of light from an LED light source that is coaxial with the LED light source. Light leakage in undesirable directions is prevented in the transverse direction by the reflective walls of the housing 34, which has an open rear side for connecting the LED light source and rearwardly through the side wall 30.

The direction of the A-axis of the LED light source is independent of the ON position of the signaling target, so that the inclination of the signaling target and its bright side 22B is also within the scope of the invention. In this case, however, the housing 34 must be redirected so that the light cone with the A axis illuminates the light side 22B.

It should be noted that some of the light from the LED light source passes in front of the light side 22B of the signal target, but only in its ON position, so that the viewer can see the light directly, see. DIR angle in FIG. 7, which is approximately 75 °.

On the other hand, the light side 22B of the signaling target, which is illuminated by an LED light source, can be observed at a symmetrical angle I.DISK. which is approximately 150 °.

The optical assembly 32 may be formed in a known manner to provide an angle DIR of approximately 75 ° to the right of the longitudinal axis of the bus (FIG. 6) and a total viewing angle I, DISK of approximately 150 °, symmetrical about this longitudinal axis of the bus.

It should be noted that the signal target in its OFF position prevents sufficient light leakage in the direction or area of observation. The position of the signaling target in its OFF position is determined by the end of the core 26D. The side wall 30, which is formed by the printed circuit board, prevents lateral light escape in both positions of the signaling target.

Although said side wall 30 may be disposed on both sides of the display element, it is preferred to design with only one side wall 30 so that light leakage is then prevented by the side wall 30A. see. Fig. 1 and 6, which is shown in dotted lines and is at the same time a side wall 30 of an adjacent display element on the side opposite the original side wall 30.

In FIG. 4 shows a column of seven display elements, five of which are outwardly facing light side 22B and two dark side 22D. Also in FIG. 4, the side wall 30A of an adjacent display element in the assembly is visible.

In FIG. 5 shows a bus provided with a display element assembly which forms its marking panel. FIG. 7 is not decisive for the number of pixels in the system. The bus marking panel may consist, for example, of twenty elements in height and forty pixels in width.

In FIG. 6 shows schematically how close the display element assembly A can be arranged at the bus windshield C so that it can be seen by a pedestrian through this windshield C. This immediate proximity can be achieved due to the illumination of the system being provided from the inside by LED light sources in display elements.

The distance of the system A and its display elements in the marking panel of the bus or other vehicle from the windshield CA of the bus BA is also indicated in FIG. 8A and 8C illustrating the prior art and FIG. 8B showing the AB assembly of the invention. In FIG. 8A shows an arrangement according to the prior art. Here, the BA bus is provided with a front windshield CA and a dot or target matrix display AA arranged to be visible through the front windshield CA. Unfortunately, the matrix display AA must be offset from the front windscreen CA to the rear so that the bright sides of the signal targets can be illuminated by a light source or light sources DA. According to FIG. 8B, the dot or target matrix display AB may be arranged as close to the windshield CB of the BB bus as possible, this approach being limited only by the necessary distance to rotate the signaling targets and eliminate static charge interaction between the signaling targets and the CB windscreen. which will be discussed later. The achievement of this minimum distance is made possible by the fact that the individual signal discs are illuminated according to the invention by their own LED light sources. Obviously, the arrangement made possible by the display elements according to the invention allows a wider viewing angle of the matrix display AB in all directions than that of the matrix display AA of FIG. 8A. Another embodiment of the prior art is shown in FIG. 8C, where a halogen DC light source is arranged below the matrix display AA. which illuminates an EC mirror that is inclined and / or shaped to reflect light on the matrix display AA. From the geometry of this arrangement, it is clear that the possible viewing angle of FIG. 8C according to the prior art is considerably narrower than the possible viewing angle of FIG. 8B, as well as the known arrangement of FIG. 8A has a narrower viewing angle than the arrangement of FIG. 8B.

In addition, it will be appreciated that in the configurations of FIG. 8A and 8C, the matrix display signaling targets are unevenly illuminated because the path of light to the upper edge of the matrix display AA, i. to its area remote from the light source DA, DC is larger than to the lower edge of the matrix display AA. On the contrary, the illumination of signal targets according to the invention, i.e. FIG. 8B, will be more even, since each signal target is illuminated by its own LED light source.

The approach of the matrix display AB to the windshield CB is limited by two conditions.

Firstly, in some cases, the non-conductive windshield C, CB, especially if it is made of organic glass, can carry a considerable electrostatic charge, so that if the distance between the windshield C, CB and the signal targets of the matrix display AB is small, with an electrostatic charge located on the non-conducting parts of the signaling target and affecting the function of the signaling target. Thus, the signaling target must be arranged at a distance from the CB windshield to prevent this. By way of example only, for a signal disc with a diameter of 13 mm, there must be a distance of 25 mm between the axis of rotation of the signal disc and the windscreen C or CB. FIG. 3A and 3B, but not drawn to scale.

Secondly, there must be some space between the positioning of the signaling target and the windscreen C or CB to rotate these signaling targets, cf. The arcs of EA in FIG. 3A and 3B.

Therefore, the word turn imminent proximity must be understood with the first and second limitations.

Thus, taking into account the basic principles of geometry, it is apparent that by approaching the matrix display AB and its display elements to the windshield C, a substantial widening of the possible viewing angle of this matrix display AB is achieved.

The vertical arrangement of FIG. 8B can be changed to a slightly oblique arrangement according to FIG. 6, in both cases an extension of the possible viewing angle is achieved. This is preferable to cases of a large distance of the matrix display AA from the prior art windshield CA, where the AA screen has to be offset from the front windshield CA to the rear to accommodate the DA, DC light source illuminating this AA matrix display.

Since the display element assembly according to the invention can be arranged close to the windshield C of the bus B, it must often be curved so as to adapt to the curvature of the windshield C. The system is therefore preferably constructed of columns having a width equal to only the width of one display element. as shown in FIG. 6 and the individual display elements to the extent necessary to assemble the desired module.

In FIG. 7 shows the required viewing angles,

i a viewing angle of about 150 ° of illuminated signal targets and an asymmetric angle of direct observation of LED light sources of about 75 °.

The asymmetry shown is used when the nearest footpath is to the right of the bus, which is most countries except the UK and Australia. The buses for Great Britain or Australia will be equipped with display elements in a mirror image, i.e. with the right side being replaced by the left side. In some cases, a simple reversal of these display elements is sufficient.

There is no restriction on the shape of the signaling target, but on the other hand, it is true that the efficient use of space is achieved by the square or rectangular shape of the signaling targets.

Although the axis of rotation of the signaling targets, i. the axis 20 is shown diagonally, it is also possible to use vertically or horizontally pivot axes within the scope of the invention. The solution according to the invention can be used, for example, in conjunction with signaling targets with vertical axes of rotation and an elongated shape as described in U.S. Pat. No. 4,577,427, issued March 25, 1986 to John Browne, the contents of which are incorporated herein by reference.

The cores 26B and 26D serve as stops for the signaling plate in its ON and OFF positions. which determine the end positions of the signaling target. However, the said stops can also be made differently and the cores 26B and 26D then serve only to electromagnetically drive the signal targets.

List of used stator bottom brands

14E side wall

14S side wall pillar storage opening

20 osička 22Β - light side (signal) Targets) 22D dark side (signal) Targets) 22Ε the wall 22S the wall 24 magnet 26Β the core 26D the core 28 coil 29 permanent magnet 30 side wall 30Α side wall 31 cut out 32 optical system 34 case 36 anode 38 cathode 40 PCB A system A LED emission axis AA system AB system B the bus BA the bus BB the bus C windshield CA windshield CB windshield WILL GIVE light source DC halogen light source DIR angle EC Mirror I.DISK uhol IN direction of observation

? \ l A G

Claims (28)

PATENT CLAIMS A display element comprising a movable member rotating in the viewing direction with its light side in the ON position or the dark side in the OFF position, characterized in that it is provided with an LED light source arranged to illuminate the light side (22B) of the movable member v its ON position. Display element according to claim 1, characterized in that the bright side (22B) is turned away from the viewing direction in the OFF position of the movable member. Display element according to claim 1 or 2, characterized in that the movable member is formed by a signaling target with an axis of rotation approximately perpendicular to the viewing direction. Display element assembly according to claims 1 to 3, characterized in that it is composed of columns which are composed of rows of display elements with a width corresponding to the individual display elements. Vehicle marking panel, characterized in that it consists of a display element assembly according to claims 1 to 3, located behind the windscreen (C, CA, CB) of the vehicle (B, BA, BB) and visible through the windscreen ( CB CA, CB). Vehicle marking panel according to claim 5, characterized in that said display elements are designed so that the assembly can be arranged in the immediate vicinity of the windshield (C, CA, CB) of the vehicle (B, BA, BB). Vehicle marking panel according to claim 5 or 6, characterized in that the display elements can obtain a static charge and are arranged at a sufficient distance from the windshield (C, CA, CB) to prevent the interaction of the static charges of the windshield (C, CA, CB) and display elements. Vehicle marking panel provided with an assembly according to claim 4, characterized in that the display elements are arranged in the assembly (A, AB) so that the assembly (A, AB) can be arranged behind the windshield (C, CA, CB) ) of the vehicle (B, BA, BB) and can be seen through this windscreen (C, CA, CB). Vehicle marking panel according to claim 8, characterized in that the display elements are designed such that their assembly (A, AB) can be arranged in the immediate vicinity of the windshield (C, CA, CB). Vehicle marking panel according to claim 4, 8 or 9, characterized in that the windscreen (C, CA, CB) is curved in a vertical direction and the assembly (A, AB) is composed of columns and shaped in accordance with the curvature of this windscreen (C, CA, CB). 11. A display element for observation at the observation point and consisting of a stator and a rotor, characterized in that: - the rotor consists of a signaling plate mounted on the stator (10) for rotation at an angle of approximately 160 ° to 180 ° between the ON and OFF end positions about the axis of rotation (20) approximately perpendicular to the viewing direction (V) - the rotor is turned with its light side (22B) and dark side (22D) in the direction of observation (V) in its end ON and OFF positions, - is provided with means for rotating the signal target about its axis of rotation (20) between the ON and OFF positions, - at least one side of the stator (10) is provided with a side wall (30, 30A) with an LED light source which is in front of the rotation axis (20), - the stator (10) is provided with means (26B, 26D) for limiting the rotation of the signaling target between its ON and OFF positions, the LED light source being arranged in front of the signaling target in its ON position and can therefore illuminate its bright side (22B) or after this signaling target in its OFF position, where the LED light source is obscured by the signaling target in the viewing direction (V) and - the side wall (30, 30A) covers the light of the LED light source in a direction transverse to the assembly (A, AB). 12. A column of display elements that defines a longitudinal direction and opposing sides in a direction transverse to said longitudinal direction, wherein: - each display element consists of a rotor and a stator (10), - the rotor consists of a signal rod mounted on the stator (10) for rotation at an angle of approximately 160 ° to 180 ° between the ON and OFF end positions about the axis of rotation (20) approximately perpendicular to the viewing direction (V), - the rotor is turned with its light side (22B) and dark side (22D) in the direction of observation (V) in its end ON and OFF positions, - is provided with means for rotating the signal target about its axis of rotation (20) between the ON and OFF positions, - on at least one side of the stator (10), a side wall (30, 30A) is provided with an LED light source which enters the axis of rotation (20), - the stator (10) is provided with means (26B, 26D) for limiting the rotation of the signaling target between the ON and OFF positions, the LED light source being arranged in front of the signaling target in its ON position and thus illuminating its bright side (22B), optionally after this signaling target in its OFF position, where the LED light source is obscured by the signaling target in the viewing direction (V), and - the side wall (30, 30A) covers the light of the LED light source in a direction transverse to the assembly (A, AB). A row of display element columns according to claim 12 arranged side-by-side, characterized in that each of the side walls (30, 30A) shields the light from the LED light source in both directions transversely to the assembly (A, AB). 14. An observation display element in the direction of the observation axis, comprising a stator and a rotor, characterized in that: - the rotor consists of a signaling plate mounted on the stator (10) for rotation about the axis of rotation (20) and for displaying its light side (22B) and dark side (22D) in its ON and OFF positions, - is provided with means for rotating the signal target about its axis of rotation (20) between the ON and OFF positions, - an LED light source arranged to illuminate the bright side (22B) of the signaling plate in its ON position and covered by the signaling plate in its OFF position is arranged on the stator (10), and - the stator (10) is provided with means (30, 30A) for blocking light from the LED light source in directions transverse to the viewing direction (V). Display element according to claim 14, characterized in that the light blocking means are formed by side walls (30, 30A) arranged on the stator (10). Display element according to claim 15, characterized in that the side wall (30, 30A) is formed by a printed circuit board. Display element according to Claim 14, characterized in that the LED light source is arranged on the side wall (30, 30A) inclined to the signaling target. Display element column according to claim 14, characterized in that said locking means (30, 30A) are all arranged on the same side of the column. Display column according to claim 15, characterized in that the side walls (30, 30A) are combined such that they consist of a single side wall (30) on one side of said column. Display column according to claim 16, characterized in that the side walls (30, 30A) are combined such that they consist of a single side wall (30) on one side of said column. Display element column according to claim 17, characterized in that the side walls (30, 30A) are combined such that they consist of a single side wall (30) on one side of said column. Display element assembly according to claim 14, characterized in that the display elements have similar means on each side and the blocking means (30, 30A) block transverse light from LED light sources on all sides. The display element assembly of claim 14, wherein the display elements have similar means on each side and the blocking means (30, 30A) block transverse light from LED light sources on all sides. An array of display elements according to claim 15, characterized in that the display elements have similar means on each side thereof and these blocking means (30, 30A) block transverse light from LED light sources on all sides. An array of display elements according to claim 16, characterized in that the display elements have similar means on each side thereof and these blocking means (30, 30A) block transverse light from LED light sources on all sides. An array of display elements according to claim 17, characterized in that the display elements have similar means on each side thereof and the blocking means (30, 30A) block transverse light from LED light sources on all sides. A display element with opposite light and dark sides, characterized in that: - is provided with means for rotating the signaling target between its end ON and OFF positions, in which the light side (22B) or the dark side (22D) is visible in the viewing direction (V), The LED light source is arranged to illuminate the bright side (22B) of the signaling target in its ON position and is covered by the signaling target in its OFF position. Display element according to claim 27, characterized in that the LED light source is arranged on one side of the signaling target and housed in a housing (34) with a reflecting surface that allows light to enter from the LED light source only in the direction of illumination of said LED light source. the bright side (22B) of the signaling target. .