EA004517B1 - Information display system - Google Patents

Abstract

1. Information display system, which contains light-emitting elements, electrodes, contact pads and light-emitting element control unit, is different in that it contains at least one glass-packet with light-emitting elements inside, at that control unit consists of the inward glass-packet light-emitting element control part, placed inside that glass-packet, and the part to control the information display system in general, based outside the glass-packet. 2. Information display system according to claim 1, characterized in that glass-packet at the same time is a part of building glazing and/or is architecture or construction element. 3. Information display system according to claims 1 to 2, characterized in that light-emitting diodes, incandescent lamps and/or other light emitters are used for light-emitting elements. 4. Information display system according to claims 1 to 3, characterized in that it has plain, bent and/or tubular shape. 5. Information display system according to claims 1 to 4, characterized in that glass-packet surface is covered with clarifying, lightsharing, heatreflecting and/or solarblocking coating. 6. Information display system according to claims 1 to 5, characterized in that information display system based inside the glass-packet has active reservation of light-emitting elements as well as control unit elements. 7. Information display system according to claims 1 to 6, characterized in that its optical transmission is greater than 0%. 8. Information display system according to claims 1 to 7, characterized in that light-emitting elements inside the glass-packet are fixed to the glass directly, or with lattice, strings, rods or similar construction elements, which provide regular arrangement. 9. Information display system according to claims 1 to 8, characterized in that light-emitting elements, for instance light-emitting diodes, are placed in a way to provide two way directional information flow without transparent surfaces functionality failures. 10. Information display system according to claims 1 to 9, characterized in that it is operated in static and/or dynamic mode of displaying.

Description

The invention relates to information display systems used in architectural design and construction of buildings, both facade and interior, squares, sports facilities, concert and dance halls.

A known information display system (1), consisting of a transparent plastic panel having internal hollow through parallel cavities passing through the structure of the panel, and from its end parts inserted strips with LEDs entering the inside of the cavities. Both sides of the panel are used as an information field on which stencils with transparent or dark text are placed.

The disadvantage of such a system is that the panel itself is not a matrix screen, and the image is static, which does not allow it to be programmatically modified, i.e. This information display system does not apply to the sign synthesizer.

Also known information display system (2), which is a matrix of screens, the image on each of which is created using an individual projection installation.

The disadvantage of this system is insufficient brightness, a large screen thickness and high power consumption.

The closest technical solution to the proposed information display system is a system based on an LED matrix flat screen comprising a glass or acrylic body, a glass or quartz substrate, horizontal and vertical electrodes, light emitting diodes and a layer of liquid crystal between the front panel of the body and the surface of the LEDs, as well as a control device (3).

The disadvantage of the prototype is the complexity of manufacturing, high cost (in terms of unit area). This system is used to display information of small size, and only for individual use screens. In addition, the prototype can not produce information modules with seamless docking.

The objective of the invention is to simplify the system for displaying information for large screens.

This task is achieved by the fact that the information display system, which includes substrates of transparent material, light-emitting elements, electrodes, contact pads and a control device, consists of one or more double-glazed windows, inside which light-emitting elements are located, and the control device is divided into two parts, one of which is located inside the glass unit, and the other part, which controls the information system as a whole, is located outside the glass unit.

The information display system plays the role of glazing and / or other architectural and building elements of the building, moreover, LEDs, incandescent lamps and / or other light sources are used as light-emitting elements.

In addition, it may have a flat, bent and / or tubular shape.

The information display system inside a single glazing unit has active redundancy of both light-emitting elements and elements of the control device, moreover, it can operate in static and / or dynamic information output mode.

An antireflection, beam-splitting, heat-reflecting and / or sunscreen coating may be applied to the surface of the glass unit.

The display system has a light transmission above 0%.

Light-emitting elements, such as LEDs, are placed with the possibility of passing information of the glass in both directions, without disturbing the functionality of transparent surfaces.

Light-emitting elements, such as LEDs, are placed with the possibility of passing information of the glass in both directions, without disturbing the functionality of transparent surfaces.

The information display system can be made with varying degrees of tightness, as well as any size.

The invention is illustrated in the drawing, which schematically depicts the claimed information display system.

The information display system includes one or several double-glazed windows 1, which is an information module of the declared system and represents a typical building element, which can be either a single double-glazed window or a part of a building or structure made of single double-glazed windows (for example, a building wall, attic , ceiling, floor space).

Inside each single glazing unit, an information display system is placed that includes light-emitting elements electrically interconnected, for example, semiconductor LEDs 2, controlled by a software device. The part of the software device 3, which controls the LEDs of a single glass unit, is installed inside it, and the other part of the software unit 4, which controls the information system as a whole, is located outside the unit glass unit.

The information display system inside a single glazing unit is equipped with a system of active backup, both light-emitting elements and elements of a control device, the backup system assumes that, for example, parallel connections of light-emitting elements operating in the mode of using their power by 40-60%. If any element fails, the duplicating element connected in parallel starts working at full capacity, without compromising the quality of the information display system.

The system of redundancy of elements of the control device works in the same way. The removal of a part of the control device beyond the limits of a single glass unit allows for the operative control of the entire information system, which can occupy not only a part of the building, but also integrate information systems located on several buildings. The location of a part of the control unit directly in a single glazing unit makes it possible to minimize the number of electrical connections with an external control system.

The management of an information system is based on modern software using modern hardware support, which makes it possible to combine not only the LEDs of one board, but also a large number of different boards on different objects into a single network. This allows you to create information systems (for example, screens) of large sizes of up to several hundred square meters.

The use of pulsed sources of low power (with efficiency up to 90%) in the general distributed power supply system of the information display system allows reducing power consumption, increasing reliability, and improving weight and size characteristics.

The declared information display system has a modular construction principle, where the module is a glass packet, generally accepted in construction.

The information display system can be used as an element of a part of the facade of a building or structure, part of the interior of the building (ceiling, floor, wall, window) without disturbing the functional purpose of building structures or architectural elements that are simultaneously supporting force structures for the information display system.

Thus, the combination of functions takes place: parts of a building or structure made of glass pane, in addition to their building functions (windows, walls, fences), simultaneously play the role of power bearing structures for elements of the information display system.

According to the invention, double-glazed windows can be used: single and multi-chamber, rectangular, polygonal, round or other shapes, such as flat, convex, concave, relief, used for interior and interior design of buildings and premises, including walls, partitions, floors and ceilings.

The loss of the luminous flux passing through the glass, can be 5-7%, depending on the filling of the area of the glass with light-emitting and control elements. But these losses can also be compensated by antireflection coatings.

These coatings allow to increase the brightness and contrast of the information image and reduce glare by reducing the reflection from glass on the inner and outer surfaces of the glass unit.

The LEDs of the information display system can be closed on one side, which allows, if necessary, for the passage of luminous flux from inside the building to the outside or inside the building without disturbing the operation of transparent surfaces made of double-glazed windows. Transparent parts of the building, such as windows, allow the flow of transmitted information to the outside of the building, but this information may not be visible from inside this building or room and does not interfere with the normal operation of these windows or other transparent parts of the building or structure made of double-glazed windows (for example, part of a wall or bridge). The proposed device allows you to embed in the glass unit an element of the information display system with any step of the location of the LEDs and with any percentage of filling the area of the glass unit depending on the type and amount of information transmitted, which expands the capabilities of the information display system.

The location of the information display system inside transparent architectural elements or parts of buildings made of double-glazed windows simplifies the operation of the device, since it does not require additional cleaning of the front surface of the information board, since it is combined with ordinary window or transparent surfaces, which is very important in urban environments.

An example of a specific implementation of the proposed device.

For the projected information display system with a size of 20 mx 40 m, a part of the screen was manufactured with a total information field size of 6 m ² (3 modules of 1 m x 2 m each were used).

The glass thickness in the glass was 4 mm. The weight of each module is 50 kg. The screen was made using full-color LEDs. 50 mm pixel pitch.

A 3-layer anti-glare coating was applied to the glass, providing a reflection coefficient of less than 1% from each surface. The integral light transmission of the information display system module is 90%.

With this step of the LEDs on this module, the image on the information system, observed from a distance of 60 m, will be similar to the image on the computer screen. The total number of pixels is 480000. The maximum power consumption is 100 W / m ² , the average consumption in dynamic mode is 2-4 times less.

The proposed system does not violate the architectural integrity of the building and allows you to completely abandon the structural power elements supporting the information display system, since the part of the building or structure made of double-glazed windows itself acts as such a supporting device.

Creating a unified series of information glass packs will allow them to be used in the design as ordinary building elements.

The proposed information display system is distinguished by a high degree of reliability and durability by ensuring the operation of the information display system in a stable microclimate of a sealed glass unit, which increases the service life of the system several times.

The thermal characteristics of the glass unit are improved due to the non-intensive, uniform thermal field created inside it by the information display system during operation.

Sources of information taken into account in the examination:

1. RF patent № 2178588, cl. 6 09E 13/08, 2002

2. RF patent № 2139561, cl. 6 09E 19/18, 1999

3. USSR author's certificate No. 1385132, cl. 6 09E 9/30, 1988 (prototype).

Claims (10)

CLAIM 1. Information display system containing light-emitting elements, electrodes, contact pads and a control device for light-emitting elements, characterized in that it contains at least one glass unit inside which light-emitting elements are located, while the control device consists of a part controlling the light-emitting elements of the glass unit, located inside this glass unit, and the part controlling the information system as a whole, located outside the glass unit. 2. Information display system according to claim 1, characterized in that the glass unit performs the role of glazing and / or is the architectural and construction element of the building. 3. The system of displaying information on pi. 1-2, characterized in that the quality of light emitting elements using LEDs, incandescent lamps and / or other light sources. 4. Information display system for pi. 1-3, characterized in that it has a flat, bent and / or tubular shape. 5. Information display system for pi. 1-4, characterized in that an antireflection, beam splitting, heat reflecting and / or sunscreen coating is applied to the surface of the glass unit. 6. Information display system for pi. 1-5, characterized in that the information display system inside a single glass unit has an active backup of both light-emitting elements and elements of the control device. 7. Information display system for pi. 1-6, characterized in that it has a transmittance higher than 0%. 8. Information display system for pi. 1-7, characterized in that the light-emitting elements inside the glass unit is attached directly to the glass, lattice, strained strings, rods or other similar structural elements, ensuring the regularity of their location. 9. Information display system for pi. 1-8, characterized in that light-emitting elements, such as LEDs, are placed so that information of the glass unit can be passed in both directions without disturbing the functionality of transparent surfaces. 10. Information display system according to claims 1-9, characterized in that it operates in a static and / or dynamic mode of information output.