WO1996023247A1 - Display with several light sources and display arrangement - Google Patents

Abstract

A process for providing a display using individually controllable light sources, and a display unit with several light sources. The invention relates to a process for providing a display using individually controllable light sources, and a display unit with several light sources which can be caused to light up by a control unit. Displays of this kind have long been in common use in advertising or in instruments in which the light sources are arranged as a chain or several sources are arranged in a matrix and information is displayed by causing either all the light sources to light up in the light source chain or some of them in a light source matrix. The aim of the invention is to provide a display facilitating the representation of all alphanumeric symbols and also other signs with the smallest possible number of light sources while avoiding the aforementioned problems. According to the invention, the aim is attained with a process for generating a display using a set of light sources with individually controllable light sources which can be illuminated by means of a control unit, in which the light sources are moved periodically several times per unit time over an area and thereby one or more light sources are illuminated when they are in a certain place and the area over which the light sources pass forms all or part of the display area. Advantageous developments of the process are described in subsidiary claims 2 and 3.

Description

Display device with multiple light sources and arrangement of display devices

The invention relates to a display device for generating a display using a light source network with individually controllable light sources, which can be excited by a control unit to light up. Displays of this type have hitherto usually been used in advertising or also in devices, the light sources being arranged either as a light source chain or a plurality of light sources in a matrix and information being displayed in that either all light sources in the light source chain or some in a light source matrix be stimulated to light up.

If the light sources are arranged, for example, in such a way that several light sources embody an alphanumeric character, for example, such an arrangement only allows the display of the respectively desired alphanumeric character, while different alphanumeric characters can be generated by a plurality of light sources in a matrix arrangement. In the case of a matrix arrangement, however, a large number of light sources are required in order to represent the diversity of the alphanumeric characters. For example with a 10 x 20 matrix 200 light sources are already required, with light emitting diodes, incandescent lamps or LCD elements usually being used as light sources. In the case of a matrix of many light sources in particular, the hardware outlay is very great and the probability of failure of a single light source is considerably higher than with a few light sources.

A display instrument is known from EP-0 359 218-A, in which lighting elements which are linearly aligned on a pointer are moved transversely to the direction of movement of the pointer and a control circuit switches the lighting elements on depending on the current position of the pointer to form display symbols during the pointer movement. and turn off. The pointer can be moved back and forth like a pendulum or rotate continuously.

Furthermore, from Patent Abstractof Japan, No.59-1 951 81 (Application-No. 50-70553) of the applicant Seikoushiya K.K. a display device similar to that known from EP-0 359 21 8-A is known, in which lighting elements arranged on a pendulum arm are moved back and forth transversely to their linear orientation within a predetermined time unit, so that, using the so-called afterimage phenomenon ) the display of a desired information is generated.

The display principle known from the publications described above is distinguished by the fact that only very few light sources are required and that a display can be generated for which the viewer cannot recognize a display medium, such as a picture tube such as in television, but that the viewer sees the display as looks like floating in the room against the background.

It is an object of the invention to design a display on the basis of the afterimage phenomenon simply and inexpensively and to enable a high display variability. Furthermore, a practically silent display device is to be formed.

According to the invention the object is achieved with a display device having a plurality of light sources arranged on a carrier, a control device for controlling a single light source and / or a subgroup of light sources, with a carrier-coupled drive controlled by the control device, which moves the carrier so that the Light sources repeatedly sweep over a surface area repeatedly within a certain time unit, a storage device connected to the control device for storing display information, and

- A device for detecting location and / or movement information of the wearer, wherein the location and / or movement information can be transmitted to the control device and a light source can be controlled by the control device as a function of the location and / or movement information of the display information.

Advantageous further developments are described in the subclaims and also an arrangement consisting of several display devices.

It has been found that when the carrier is driven without contact, a particularly silent display device can be constructed. Such a contactless drive of the carrier can take place by means of an electromagnet which cyclically exposes a pendulum arm designed as a carrier to an attraction and / or repulsion force.

In addition, a contactless drive as well as the contactless detection of the location and / or movement information has the advantage that the wear of the display device according to the invention is limited to a minimum. Furthermore, contactless data transmission from the fixed part of the display device to the moving part of the display device is also advantageous, which can be ensured, for example, by a contactless coupling of the control device to the carrier and the light sources located thereon.

If acoustic movement is nevertheless caused by the movement of the carrier, be it during the pendulum movement or in the case of a rotating movement on a cylindrical path, such generation of noise should be counteracted by an aerodynamically favorable configuration of the carrier. With such an aerodynamic configuration of the carrier, the person skilled in the art, with the aid of knowledge of the aerodynamic shape of, for example, aircraft wings, will avoid the exterior of the carrier having corners or other discontinuous contours at which acoustic disturbing noises can be generated by air flow.

It has also proven to be very expedient that a detector, preferably a light barrier or proximity switch, is provided for detecting location and / or movement information of the wearer, so that depending on the Carrier position a location and / or movement information signal is generated, which the control device uses as a reference signal for light source control and drive control. The occurrence of acoustic noises is also avoided by a contactless detection of the position and / or movement information of the wearer as described above.

By means of the reference signal, the control device can precisely control a single light source and at the same time also control the drive in such a way that the carrier is moved over the display surface frequently enough and at exact time intervals. In addition, it is expedient if, in the case of a pendulum-like movement back and forth, the representation generated is generated with every movement path, that is to say when the carrier runs back and forth. On the one hand, this increases the sharpness of the display and, at the same time, the carrier does not have to be moved across the display surface as often.

In addition, depending on the reference signal and depending on the information to be displayed, the control signal can switch each individual light source on and off in such a way that it only lights up at a specific location on the display surface. Otherwise, the display is synchronized when a pendulum-type display is moved back and forth in such a way that the display on the run visually overlaps the display on the return.

It is also advantageous if the display device is provided with means for determining the ambient brightness so that the luminosity of the light source dependency of the ambient brightness can be set.

It has also proven to be very expedient if, for individual information display, one or more of the aforementioned display devices is connected to an information input / processing device, the information input / processing device preferably being a personal computer on which the user is using and by managing an editing program provided for the display control is able to enter the content of the information to be displayed. For this purpose, the content to be displayed is first stored temporarily in a memory of the computer and with a corresponding command from the user to the selected display unit, where s: e display information is stored in the memory there.

It is also advantageous that, in the case of an arrangement of a plurality of display devices, each individual display device has an individual address which allows the user to be shown the information to be displayed on the display unit desired for him.

The display principle of the display device described above is based on the fact that, if a plurality of light sources are repeatedly moved in the same way over a certain area, it is possible to generate a line-shaped display, since a single certain light source repeatedly covers the same area of a certain area. If a single light source is correspondingly switched on or off during the movement, a certain optical lighting effect can be generated for the viewer in the respective display line. If the light sources move several times per second over a certain area, a standing image can be generated for the viewer through the interaction of excited light sources without the wearer himself still seeing the light sources in the display area. An image is thus generated which generates a displayed image from the light sources that are switched on and off, for which the viewer cannot specify an image carrier if the movement of the carrier of the light sources is only so fast that the carrier itself can no longer be identified. Here, the invention makes use of a psycho-optical inertia effect which is always present in the case of rapid movements of light spots and is known, for example, from film and television technology, where movements are finally represented by the fact that, for example, more than 25 static images per second on the television screen or on the cinema screen. Through the succession of closely spaced different static events such as successive still images, which differ in certain points, the viewer is given the impression of a movement.

The movement of the individual light sources over the surface area creates an imaginary matrix in which the ratio of the number of light sources and the matrix points is very low. For example, it is easily possible with only 8 light sources that lie linearly on a straight line and perpendicular to their orientation are quickly moved back and forth to create an imaginary matrix of about 8 x (50 to 200) pixels without the quality of the image being produced becoming inadequate. The effort for generating the display with regard to the light sources themselves is thus drastically reduced compared to a known matrix arrangement. On the other hand, the movement of the light sources is very simple, for example by cyclically moving the carrier of the light sources back and forth or rotating about a point.

An amazing optical effect can be achieved with the display device according to the invention. The viewer sees an information display without the actual carrier of the information display, e.g. Recognize screen or display matrix. The viewer can see the background behind the display where the light sources do not light up.

The display device according to the invention can be designed particularly advantageously in that the drive moves the carrier of the light sources back and forth like a pendulum or rotates about a pivot point. The light sources are switched on within a certain time unit, e.g. moved more than 20 times per second over the same area.

An embodiment is particularly advantageous in which the light sources are arranged one behind the other on a straight line on the free end of a pendulum arm. Then a display area of more than 10 cm in width can easily be produced, with each individual light source forming a line of the display.

For the information display, the display device has a memory which transmits the information to be displayed to the control device, be it as complete information or as point-like individual information. If the display device serves as a clock, the display device contains a timer which transmits time information corresponding to the dependence of a time signal to the control device, which in turn displays the time information digitally and / or analogously as the time via the light sources.

The control device thus converts a signal for information to be displayed, for example a number, into control signals for each individual light source, so that the light sources are excited to light up at a specific point in time and at a specific location. Of course, it is also possible to display information not only statically, but also as ticker on the display device. For this purpose, the location of the lighting of a light-emitting diode between successive passes is only shifted to one side of the display area.

The invention is explained in more detail below with reference to an embodiment shown in the drawings.

In the drawing:

Fig. 1 is a principle supervision of the display according to the invention

Fig. 2 is a schematic block diagram of the display according to the invention

Fig. 3 timing diagrams of the device according to the invention

Fig. 4 different examples of light source arrangements.

FIG. 5 shows an arrangement of a plurality of display devices connected to a computer. FIG. 6 shows a schematic diagram of the structure of a display device with a rotating display device

Illuminated source support (advertising pillar solution)

1 shows a support 2 designed as a pendulum arm 1, on which light sources 3 designed as light-emitting diodes are arranged in a row in a composite 16 on the pendulum arm axis. The pendulum movement is excited by an electromagnet 4, which drives the pendulum arm 1 cyclically several times per second, e.g. more than 10 times, moved back and forth. In a certain position of the pendulum deflection, a part 5, which can protrude from the pendulum arm 1 in parallel or coincide with the pendulum arm, penetrates or breaks through a light barrier 6, so that a square-wave signal as a reference signal 15 as a result of the pendulum arm movement - see FIGS. 3a and b - or reference pulse is generated. The light barrier 6 consists of a light transmitter designed as an infrared LED and a detector. If the light barrier is interrupted by the part 5 designed as a reference plate, then the reference pulse signal is generated in the control device 7 connected - see FIG. 2.

Depending on the reference signal, the drive is controlled by a control device 7 - see FIG. 2. The control device 7 ensures that the pendulum 1 is excited as precisely as possible and thus executes an exact movement, and so often over the same area 17 per second, for example more than 10 times. strokes, and thus the pendulum arm 1 itself is no longer recognizable in the area of the display surface 1 7. The pendulum arm 1 appears as a line only at the turning points of the pendulum.

The control device 7 in FIG. 2 consists of a pendulum electronics 8 as drive control and a control processor designed as a microcomputer 9, which generates control signals for the light sources 3 in the form of switch-on and switch-off pulses. The pendulum electronics circuit 8 is connected to the light barrier 6, which has a light transmitter and a detector. The signal excited by the movement of the pendulum arm 1 on the detector is generated in the pendulum electronics or already on the detector itself as a reference pulse signal 15 and fed to the microcomputer 9 via a corresponding line 10. At the same time, for exact oscillation 19 of the pendulum arm 1, a magnetic pulse signal 1 8 is emitted to the drive 4 designed as an electromagnet, so that the pendulum arm carries out a stable and uniform pendulum movement. It is very advantageous if the pendulum arm is excited so that it oscillates at its natural resonance frequency, since the energy consumption for the drive is then extremely low. The pendulum's natural frequency is determined by the pendulum mass and the geometric dimensions of the pendulum. The drive described works completely without mechanical wear, since the pendulum is excited by the electromagnet without contact. This ensures a completely noiseless and wear-free drive.

The entire display device is supplied with 5 volts DC, which is supplied by a power supply unit 1 1, which converts AC voltage into DC voltage. Of course, it is also possible to ensure the necessary electrical energy supply by means of batteries, accumulators or solar cells attached to the display device.

The microcomputer 9 contains a memory and / or a timer which keeps or provides the information to be displayed. At the same time, the microcomputer converts the information to be displayed into corresponding control signals for each individual light source. For this purpose, the reference signal is used to switch the light sources on and off and thus to display information. The relationship between the reference pulse, magnetic pulse, pendulum oscillation and information display is explained in more detail below with reference to FIG. 3.

It should be pointed out that FIGS. 3a and b each represent schematic representations of the pulse and oscillation curve, but do not represent exact times.

FIG. 3a shows the relationship between the reference pulse and the magnetic pulse and the course of the oscillation. It can be seen that the magnetic pulse signal only represents a square-wave pulse signal shifted from the reference pulse signal. The reference pulse signal experiences a change in the zero crossing of the oscillation signal through the time axis, i.e. the moment the pendulum arm reverses its direction of movement.

3b shows that the reference signal also changes as an alternative to FIG. 3a when the speed of the pendulum arm is greatest. At the same time, it can be seen that the information is reproduced both in the pendulum arm and in the pendulum arm movement, that is to say whenever the pendulum arm sweeps over the display area. Thus, for example, with 12 pendulum arm vibrations, the display area can be swept 24 times and, as it were, 24 times the corresponding activation of the light sources takes place, so that 24 display images are generated per second. Such a number of display images per second is sufficient to generate a still image which can be easily recognized by an observer and whose information can be read. The viewer practically does not notice the pendulum arm movement itself, since the pendulum arm speed above the display area is too high. At the same time, the viewer does not perceive the switching on and off of the individual light sources, but only sees individual light points which, as shown in FIG. 1, appear in the display as light points comparable to a light point matrix.

The microcomputer 9 receives from the pendulum electronics circuit the reference pulse signal 1 5, which is processed in the microcomputer in such a way that the oscillation of the pendulum is available to the microcomputer as a defined time slice. This time slice is divided into forward and return information. In this time slice, the right information is then given to the individual light sources at the right time, so that clear, cell-shaped image information is produced. The display quality can be improved as the speed of the light points increases or as the number of vibrations increases. Conversely, with decreasing speed of the light points or with decreasing number of oscillations of the pendulum arm, the representation becomes increasingly poor and can hardly be recognized if the number of oscillations is too low, since the inertia of the human eye is then no longer overcome. The synchronization of the light source control during the outward and return movement is set by the control device 7 such that the two pieces of information are optically superimposed and thus coincide.

4 shows some examples of light source arrangements which are suitable for the representation according to the invention. The light source assembly 16 shown in FIG. 1 is shown in FIG. 4a. All light sources are arranged on a straight line one behind the other like a linear light source chain. In Fig. 4b, the same number of light sources as in Fig. 4a are alternatively arranged. In Fig. 4c two rows of light source points are arranged side by side and in Fig. 4d the light source points are on a zigzag line. Other light source networks are possible and can be more or less advantageous depending on the application. It is essential for all light sources that they are moved essentially transversely to a direction of movement 19 oriented so that each individual light point, alone or together with one of the adjoining ones - see FIG. 4c - forms a display line of the display according to the invention. A nine-line display is equally possible with the light sources connected in FIG. 4. 4e shows a light source combination of linearly arranged light sources, the light sources arranged in the first vertical row producing red light, the blue light arranged in the second row and the light sources arranged in the third row producing green light. With such a light source composite, colored displays can also be designed, as the viewer sees from other color rendering directions such as e.g. a television or a color monitor.

4f shows a light source network in which a single light source has three segments, each individual segment being able to produce a color different from the other signals, so that a color display and reproduction as described above is also possible. The information to be displayed can be stored permanently or volatile in the memory contained in the microcomputer 9 or generated by means of a timer or another information generating device. Then, instead of a digital time display, it is also possible, or alternatively, to have an analog time display in which the dial and the corresponding time hand display are generated with the display according to the invention. The microcomputer 9 then only performs a different light source control than in the digital time display. With the display device according to the invention, all types and shapes of two-dimensional images can be generated, which can also be generated with light point matrixes or other display screens. Light lines, electrical lines or information buses can be used to connect the microcomputer to the light sources. If optical fibers are used, the end pieces of the respective optical fibers can be used as light sources, which are aligned perpendicular to the plane of the drawing in FIG. 1, so that the viewer looks at the end pieces.

The clock module integrated in the microcomputer, from which the time is read out, continues to run even without the operation of the power supply unit, so that the clock does not have to be reset if the power supply fails. It is also useful if the display device has a brightness measuring device, which is also connected to the microcomputer 9 (not shown). The brightness measuring device measures the brightness of the surroundings and emits a corresponding signal to the microcomputer, which in turn adjusts the luminosity of the light sources as a function of the measured brightness signal. For example, it can be indicated that the light sources shine brighter in bright daylight than in darker surroundings.

Light emitting diodes or incandescent lamps are particularly suitable as light sources, but also the end pieces of optical waveguides or other known point-like light sources which can be switched on and off quickly and require little energy.

The conversion of information to be displayed in the microcomputer into corresponding control signals from the light source is known in principle from the control of a dot matrix printer which transmits defined information to the individual needles in every position. The horizontal movement of the printhead of the dot matrix printer over the paper then reveals the information. This principle of the dot matrix printer is used in the invention in a similar manner Switching off the light sources used, the light source carrier must be moved as fast enough as described so that the inertia of the human eye is overcome.

Fig. 6 shows the basic structure of a display device, in which the light source carrier rotates about a fixed pivot point and thus moves on a cylindrical path. This enables a 360 ° display as with advertising columns. In the display device in FIG. 6, the carrier 2 is designed as a rod 21 with light-emitting diodes 22. This rod 21 stands on a rotatable board 23, on which the electronics for the display and data transmission is housed. A rotary plate 24, which is driven by a shaft 25, is attached below the rotating plate. To determine the location of the rotatable circuit board 23, an arranged detector is provided, which emits a reference pulse to the electronics when the rotating circuit board is positioned in a specific manner.

Furthermore, a further circuit board 26 is provided for the wireless data transmission and for the motor control. The board 26 is also connected to carbon brushes 27 for power transmission to the diodes 22. A bearing block 28 receives the rotary shaft 25 and allows it to rotate. The shaft 25 is driven by a drive motor, which is wired or wirelessly connected to the circuit board 26 and is controlled by the control device.

The rotary movement of the rod 21 and the corresponding actuation of the light-emitting diodes 22 enable an advertising column-like display, with the only difference that it is possible to see through the display itself. In the active state, the user cannot see how the information comes to the "advertising column". Such a 360 ° display has considerable advantages over a screen, since the information to be displayed can be made accessible in all directions, in particular if the information to be displayed runs around the advertising column as a ticker.

In a further embodiment — not shown — the carbon grinding brushes shown in FIG. 6 are replaced by a generator-like structure, that is to say that the rotor of a current generator, which is surrounded by the stator, sits on the shaft itself. This enables contactless or torque-free energy transmission, which avoids the wear of carbon grinding brushes from the outset and also contributes to noise reduction. - 13 -

Instead of just one rod 21, it is of course also possible to provide a plurality of rods with light-emitting diodes, with the result that the rotational speed can then be reduced. Since relatively large centrifugal forces act on a single rod in any case, it is advantageous to arrange rods opposite each other which are connected to one another at the free ends, in order thus to ensure a structurally reliable rod arrangement. Furthermore, it is expedient to cover the rotatable part, that is to say the rod and rotatable plate, and also the turntable, with a cylinder having a transparent wall, in order to avoid collisions of the rod with other objects. If the inside of the cylinder is pumped empty of air, the noise reduction can be improved due to the then no longer possible possibility of collision of air molecules with the rod. If only one rod is provided in the construction shown in FIG. 6, the rotational frequency should be approximately 25 Hz in order to enable a qualitatively appealing display. With each revolution, a light barrier pulse is triggered, which is supplied as a reference signal to the control electronics and thus enables synchronization.

Fig. 5 shows the basic structure of a display system consisting of various display devices 41, 42 -sei it with pendulum display or advertising column display- which via a bus -z. B. BRS 485- are connected to a personal computer as information input / processing device 40. Such a construction, paired with corresponding PC software, which allows the display control of the individual display devices, makes it possible to enter the desired display information accordingly, to store it temporarily in the PC and to output the temporarily stored information to the display device, where it is then reproduced.

Each individual display device is preferably provided with an electronically selectable address, so that the PC can not only select all display devices simultaneously, but also individually for information reproduction. Such an address can be, for example, a digitally encoded number.

Claims

Expectations

1 . Display device with a plurality of light sources (3) arranged on a support (2), a control device (7) for controlling an individual light source (3) and / or a subgroup of light sources (3), which are coupled to a support (2) and are controlled by the control device Drive (4) which moves the carrier 2 so that the light sources (3) repeatedly sweep over a surface area (17) repeatedly within a certain time unit, a storage device connected to the control device (7) for storing display information, and a device (6 ) for contactless detection of location and / or movement information of the carrier (2), the location and / or movement information being transferable to the control device (7) and a light source (3 ) can be controlled by the control device (7).

2. Display device according to claim 1, wherein a pendulum drive (4) moves the carrier (2) back and forth like a pendulum without contact.

3. Display device according to claim 2, wherein the pendulum drive (4) consists of an electromagnet which cyclically exerts an attractive and / or repulsive force on the pendulum arm (1) designed as a carrier (2).

4. Display device according to one of claims 1 to 3, in which the device (6) for detecting location and / or movement information of the carrier has a detector which generates a location and / or movement information signal (15) as a function of the carrier position, which the control device (7) serves as a reference signal (15) for light source control and / or for drive control.

5. Display device according to one of the preceding claims, in which a device for determining the ambient brightness is provided and the device transmits a signal corresponding to the ambient brightness to the control device (7), which in turn depends on the signal from the device for determining the ambient brightness Luminosity of a light source (3) sets.

6. Display device according to one of the preceding claims, wherein the display device contains a timer that transmits time signals to the control device (7) and the time signals can be displayed digitally and / or analogously as the time.

7. A display device according to one of the preceding claims, in which the light sources are designed as light-emitting diodes or optical waveguide connectors.

8. Display device according to one of claims 1 or 4 to 7, characterized in that the drive (4) moves the carrier (2) on an approximately circular path.

9. Display device according to one of the preceding claims, characterized in that the light sources (3) with the control device (7) are coupled without contact.

10. Display device according to one of the preceding claims, characterized in that the energy required to activate the light sources can be transmitted without contact to the carrier (2) and / or to the light sources (3).

1 1. Display device according to one of the preceding claims, characterized in that light sources (3) of different colors (red, green, blue) are arranged next to one another on the carrier and / or that a light source (3) is able, depending on the control, blue, red and / or to give the green light.

1 2. Arrangement consisting of one or more display devices (41, 42, 43) according to one of the preceding claims, which are connected or can be connected to an information input / processing device (40) having a second memory, which the memory content of the second memory by input means is controllable and the memory content of the second memory can be loaded into the memory of the display device.

13. The arrangement according to claim 10, characterized in that the information input / processing device (40) with the one or more display devices (41, 42, 43) is wirelessly coupled and the information transfer from the information input / processing device (40) to a display device preferably via an infrared or HF link.

14. Arrangement according to claim 10 or 1 1, characterized in that the information input / processing device is a computer which has a display control program.