奥地利专利AT15251U1 Illuminant arrangement for the dynamic display of a machine-readable code

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专利摘要:
A luminous means arrangement is provided, in particular a luminous field, comprising a plurality of luminous means, at least one communication interface, in particular a bus and / or radio interface, and a converter unit, wherein the converter unit activates the plurality of illuminants of the illuminant arrangement as a function of a signal received via the communication interface and / / or deactivated, so that a machine-readable code, in particular a one- or two-dimensional, machine-readable code is shown when the illuminant arrangement is being viewed.
公开号:AT15251U1
申请号:TGM377/2014U
申请日:2014-10-24
公开日:2017-04-15
发明作者:Herter Jens
申请人:Tridonic Gmbh & Co Kg；
IPC主号:

专利说明:

description
LIGHTING APPARATUS FOR THE DYNAMIC DISPLAY OF A MACHINE READABLE CODE
The invention relates to a luminous means arrangement for the dynamic display of a machine-readable code, and more particularly to a luminous field comprising a plurality of luminous means, e.g. LEDs, for displaying such a machine-readable code. Furthermore, the invention relates to a system with at least one such luminous means arrangement, in which the luminous means arrangement preferably visually displays parameters (operating and / or configuration parameters) of the system in the form of a machine-readable code. The illuminant arrangement can be a participant in a lighting and / or building technology system.
Machine readable codes are known. The best known representatives are barcodes (or barcodes, barcodes, barcodes) as they are used on many products. Known formats for such barcodes are EAN, UPC, IAN, JAN, as well as codes from the 2/5 family as well as codes according to Code39, Code93, Codabar, Code128, etc.
Also known are "two-dimensional" (2D) bar codes corresponding, for example, to codablock format, code 49, PDF417, or other formats in which encoded data is resolved along two dimensions Known two-dimensional codes are matrix codes For example, DataMatrix codes, MaxiCodes or the Aztec code Since about 1994, the QR code is a well-known representative of the 2D codes, because it can encode a large amount of information and also has an error correction that QR codes can be used free of charge.
Especially in lighting and building systems often there is a need to read parameters of the system or a subscriber and / or to change. The illuminant assembly of the invention and the system provide a solution to this need. The invention therefore provides a lighting arrangement and a system according to the independent claims.
Further developments are the subject of the dependent claims.
In a first aspect, a luminous means arrangement is provided, in particular a luminous field, comprising a plurality of luminous means, at least one communication interface, in particular a bus and / or radio interface, and a converter unit, wherein the converter unit, the plurality of illuminants of the illuminant arrangement depending on one of the Communication signal received signal activated and / or deactivated, so that when viewing the lamp assembly, a machine-readable code, in particular a one- or two-dimensional, machine-readable code is shown.
The machine-readable code may be a QR code.
The machine-readable code may encode at least one parameter received with the signal from the illuminant assembly. Preferably, therefore, a control unit is provided in the converter unit, which converts the signal, for example, received via a bus into a code representation and causes the corresponding control of the lighting means. Preferably, therefore, the externally received signal does not directly the necessary to display the code control of the bulbs, even if it is basically possible according to the invention also that the signal directly instructs this code representation.
The lighting device can be connected via the communication interface functionally connected to a lighting and / or building services system. The machine-readable code may encode operational and / or configuration parameters of the respective system and / or system subscribers of the respective system.
The operating and / or configuration parameters can be parameters of a lighting operating device.
In a further aspect of the invention, provision is made for a luminous means arrangement (A) comprising: [0012] - illuminant, [0013] - at least one communication interface (11), in particular a bus and / or bus
Radio interface, and [0014] - a converter unit (2), wherein the converter unit (2) is adapted to
Lighting purposes to control the bulbs.
In this case, further illuminants can be connected to an interface of the luminous means arrangement (eg, only during the installation phase), which are operable by the converter unit in such a way that, when the illuminant arrangement (A) is monitored by the further illuminants, a machine-readable code, in particular a one- or two-dimensional, machine-readable code is shown.
In a still further aspect, a system comprising a lighting arrangement, as described above, is provided with a further communication interface, in particular a radio interface. It can be set up to receive operating and / or configuration parameters via the further communication interface, in particular from a mobile communication device.
The mobile communication device may be part of the system. The mobile communication device can be set up to capture a machine-readable code represented by the illuminant arrangement, to extract and in particular to change operating and / or configuration parameters therefrom, and to send the operating and / or configuration parameters to the further communication interface.
The system can evaluate the operating parameters received via the further communication interface and / or configuration parameters and output them to system users.
The system may be a lighting system and / or building services system.
The operating and / or configuration parameters received via the further interface can be used by a particularly centrally provided control unit to set operating and / or configuration parameters in system users connected to the system.
At least one system subscriber can send operating and / or configuration parameters to the lighting device. In response, the illuminant assembly may adjust or change the representation of the machine-readable code.
The mobile communication device may comprise at least one means for detecting the machine-readable code, in particular a camera and an interface for communication, in particular a WLAN / WiFi-, a Bluetooth, a USB, and / or a mobile Datenkom-munikations interface for communication with the further communication interface.
The central control unit can evaluate the operating and / or configuration parameters received via the further communication interface and send corresponding operating and / or configuration parameters to subscribers of the system.
The operating and / or configuration parameters may include at least one identifier identifying a subscriber to the system whose operating and / or configuration parameters are to be preferably set.
The mobile terminal may include a software component that permits decoding of the machine-readable code.
In a further aspect, a method for setting operating and / or configuration parameters of a system subscriber of a system, in particular a lighting and / or building engineering system is provided, wherein a state indicating operating and / or configuration parameters of the system participant by a Illuminant arrangement, in particular a luminous field, are represented in the form of a machine-readable code. The machine-readable code can be detected and evaluated by a mobile communication device, whereby the illustrated operating and / or configuration parameters become available in the communication device. The operating and / or configuration parameters can be transmitted, in particular in a modified form, from the communication device to the system, wherein in particular the operating and / or configuration parameters of the system user are set on the basis of the transmitted operating and / or configuration parameters.
The invention will now be described with reference to the figure: Fig. 1 shows a schematic and exemplary representation of an inventive system Shen.
The illuminant arrangement according to the invention, which may be provided in particular in the form of a display device or a display unit, has according to the invention a communication interface via which information can be supplied to the illuminant arrangement. In particular, this information includes data to be coded in the form of a bar code (1D or 2D bar code) through the illuminant assembly.
If the display device is connected to a building technology or lighting system, in particular data can be transmitted to the display device, which contain operating or configuration parameters of the respective system or its participants. These are then displayed encoded by the illuminant assembly.
The communication interface of the display device may in particular be a bus interface, with which the lamp arrangement can be connected to a Gebäudetechniksystembus or Beleuchtungssystemebus (eg. DALI or DSI bus).
The light-emitting device thus detects at least one signal and depicts thereof a corresponding machine-readable code by means of the illuminant arrangement. The illuminant arrangement can have a converter unit which is functionally connected to the interface of the illuminant arrangement and the lighting means. The converter unit then converts the signal received via the interface, and controls the lighting means of the lighting arrangement accordingly.
Alternatively, the converter unit can implement the desired information also in suitable for a drive control data. The converter unit may be further configurable and, for example, selectively selecting a selection of parameters to be presented. The generated machine-readable code can now be read by a device, in particular a mobile communication device.
On the one hand, it is possible to scan the machine-readable code represented by the display device with a specially developed bar code reader, which then in particular decodes the machine-readable code. The corresponding device may then make available the parameters encoded by the machine-readable code such that they may be changed by a user via a user interface, for example.
The changed parameters can then be transmitted by means of a further communication interface to the system (building technology or lighting system), so as to feed the system changed configuration or operating parameters. A parameter represented by the illuminant arrangement is, in particular, an identifier which identifies a participant of the system with the displayed data. This identifier can then also sent with the data sent to the system by the communication device who the. Thus, a change of the parameters of the participant belonging to the identifier take place.
A particular central control unit can then capture these changed parameters and perform appropriate settings, in particular to configure participants of the system accordingly. In response to the change, the representation of the machine-readable code can then be suitably changed by transmitting changed operating and / or configuration parameters to the illuminant arrangement. The converter unit has a system address and is thus addressable, in particular by the central control unit.
Of course, it is also possible to capture the corresponding machine-readable code by another mobile communication device, for example. A smartphone, a tablet, .... For this purpose, a software component is provided on the mobile communication device, which makes it possible, for example via the camera of the mobile communication device, to capture the machine-readable code, to correspondingly evaluate it and to make the encoded parameters available in the mobile communication device. The software component can then represent a user interface, via which, by means of an input interface of the mobile communication device, the corresponding parameters in the communication device can be changed. The input interface may in particular be a touch-sensitive screen (touchscreen). However, it is also possible to change the parameters by means that are suitable for the user input (eg keyboard or mouse).
Most mobile communication terminals also have at least one further communication interface (for example the interface for wireless networks such as WLAN, Bluetooth, Zig Bee,...). The modified parameters are then transmitted to the system via this further communication interface, which has a suitably configured interface (WLAN, Bluetooth, Zig Bee).
Another application for the dynamic lighting arrangement can be determined in the field of emergency lighting devices.
Thus, an emergency lighting device can be configured with a corresponding lighting arrangement and thus information about its state (eg. Battery or accumulator capacity but also, for example, a light-emitting state) display. For example, the result of a self-test of the emergency lighting device can be represented coded by the dynamic display.
It is possible that the lamp arrangement is only selectively activated. For example, a pushbutton / switch can be provided on an emergency lighting device with which the dynamic lighting arrangement can be temporarily activated. It is also possible for the illuminant arrangement to be operated on an emergency lighting device or a building lighting system or participant only during an installation / configuration phase in order to be able to read out and set corresponding parameters (for example a subscriber address). Subsequently, the lamp arrangement can be deactivated, in particular via the bus, or disconnected from the bus, if it is designed as a separate display unit. The machine-readable code, in particular the QR code, is preferably represented in each case by an LED matrix or by individual LEDs in a substantially matrix-shaped arrangement.
In particular, the system has a central control unit which is capable of sending commands to the illuminant assembly. By means of the illuminant arrangement, it is then also possible, for example, to display status data of luminaires, sensors or switches. One way to attach the lamp assembly is, for example, to install the display in or close to a switch / a lamp.
Fig. 1 shows an example of an embodiment of an embodiment. Here, at least one illuminant arrangement A in the form of a dynamic display unit or a display device is provided in a room. In addition, for example, a luminaire 1 likewise has a luminous means arrangement, which can display a state of the luminaire or its configuration or operating parameters. The luminaire serves as an example for a system user.
In particular, the luminaire has a converter unit 2, which is equipped with an address. It is now possible that a control circuit of the luminaire detects configuration and operating parameters of the luminaire and transmits them to the converter unit 2. This can be addressed via an address 3, in the example the ID eO 02, preferably by a central control unit 4 via a bus 5.
The converter unit 2 then converts the data received from the control unit 4 for display by the illuminant arrangement A, such that the illuminant arrangement A on the luminaire 1 then represents a corresponding machine-readable code.
Of course, it is also possible to provide more than one display unit. Thus, for example, a further lighting arrangement B can be provided, which is positioned, for example, at a different location in a room that may be more easily accessible.
The illuminant arrangement B also has a corresponding generator (not shown) for generating a machine-readable code. The converter unit also has an operating address for addressing and can be addressed by the control unit 4, in particular a central control unit. The central control unit 4 can thus transmit corresponding information or signals to the further illuminant arrangement B, as a result of which a corresponding machine-readable code can be generated by the code generator and displayed by the illuminant arrangement.
For example, it is possible that the lamp 1 transmits configuration and / or operating parameters to the central control unit 3 and the central control unit 4 in response thereto by means of the operating address 3 of the code generator of the lamp assembly B, the lamp assembly B addressed, and thus a corresponding coded representation of the configuration and / or operating parameters of the lamp 1 by the display unit B causes.
The example further shows mobile communication devices 6a, 6b which are capable of detecting and decoding the machine-readable code represented by the respective illuminant arrangement A, B, and the corresponding represented parameters are available in the device 6a, 6b close.
The mobile communication device 6b is equipped with a user interface 7, via which the parameters can be changed. In addition, the mobile communication device 6b has an interface 8, which enables communication with the central control unit 4. This can be done in particular by means of wireless communication, as indicated by the dashed dotted arrow. The control unit 4 then has a suitable communication interface 9. The mobile communication terminals 6a, 6b can in particular each be equipped with a camera 10, which serves to capture the machine-readable code.
In particular, by attaching the lamp arrangement to building technology devices or device participants of a lighting system, it is possible to present an identifier of the respective system participant. Thus, in particular during the installation / picking of the subscribers, a simple localization of the subscribers or a position determination can take place.
For this purpose, the identifier information coded by means of the illuminant arrangement can be read out and, for example on a mobile communication device 6b, linked to a position. This position can be carried out in particular by means of a positioning unit (not shown) present in the mobile communication device 6b (for example a GPS or GLONASS receiver) which determines a position either automatically or in response to a user input.
The respective converter unit does not have to be connected to the control unit via a bus; instead, an interface 11 can also be designed as a radio, USB, serial interface or other type of interface. This interface can also be the interface of the lamp arrangement.

权利要求:
Claims (17)
[1]
claims
1. Lamp arrangement (A), in particular light-emitting panel, comprising a plurality of lamps, at least one communication interface (11), in particular a bus and / or radio interface, and a converter unit (2), wherein the converter unit (2) the plurality of lamps of the lamp arrangement (A ) is activated and / or deactivated as a function of a signal received via the communication interface (11), so that a machine-readable code, in particular a one- or two-dimensional, machine-readable code, is represented when the illuminant arrangement (A) is viewed.
[2]
2. Lamp assembly (A) according to claim 1, wherein the machine-readable code is a QR code.
[3]
3. Illuminant arrangement (A) according to claim 1 or 2, wherein the machine-readable code encodes at least one parameter which is received with the signal from the illuminant arrangement (A).
[4]
4. Lamp arrangement (A) according to one of the preceding claims, wherein the lamp arrangement (A) via the communication interface (11) is functionally connectable to a lighting and / or building management system, and the machine-readable code operating and / or configuration parameters of the corresponding Systems and / or coded by system participants of the respective system.
[5]
5. Lamp arrangement (A) according to one of the preceding claims, wherein the operating and / or configuration parameters operating and / or configuration parameters of a light-emitting device operating device.
[6]
6. illuminant arrangement (A) comprising: - lighting means, - at least one communication interface (11), in particular a bus and / or radio interface, and - a converter unit (2), wherein the converter unit (2) is designed to illuminate the lighting means - to be connected to an interface of the lamp assembly preferably releasably further bulbs are operable by the converter unit such that when the illuminant arrangement (A) by the other bulbs a machine-readable code, in particular a one- or two-dimensional, machine-readable code is shown.
[7]
7. System comprising a luminous means arrangement (A) according to one of the preceding claims, wherein the system has a further communication interface (9), in particular a radio interface, and is adapted to receive operating and / or configuration parameters via the further communication interface (9) , in particular of a mobile communication device.
[8]
8. System according to claim 7, wherein the mobile communication device (6b) is part of the system, and wherein the mobile communication device (6b) is adapted to detect a machine-readable code represented by the lighting device (A), from operating and / or Extract configuration parameters and in particular to change, and send the operating and / or configuration parameters to the other communication interface (9).
[9]
9. System according to claim 7 or 8, wherein the system evaluates the received via the further communication interface (6) operating parameters and / or configuration parameters and outputs them to system users.
[10]
10. System according to one of claims 7 to 9, wherein the system is a lighting system and / or building services system.
[11]
11. System according to any one of claims 7 to 10, wherein the over the further interface (9) received operating and / or configuration parameters of a particular centrally provided control unit (4) are used to operating and / or configuration parameters in connected to the system Set system participants.
[12]
12. System according to any one of claims 7 to 11, wherein at least one system participant sends operating and / or configuration parameters to the lighting device (A), and wherein the lighting device adjusts or changes in response to the representation of the machine-readable code.
[13]
13. System according to one of claims 7 to 12, wherein the mobile communication device (6b) at least one means for detecting the machine-readable code, in particular a camera (10) and an interface for communication (8), in particular a WLAN / WiFi-, a Bluetooth, a USB, and / or a mobile data communication interface for communication with the further communication interface (9).
[14]
14. System according to any one of claims 7 to 13, wherein the central control unit (4) evaluates the operating and / or configuration parameters received via the further communication interface (9) and sends corresponding operating and / or configuration parameters to subscribers of the system.
[15]
15. System according to one of claims 7 to 14, wherein the operating and / or configuration parameters comprise at least one identifier which identifies a subscriber of the system whose operating and / or configuration parameters should preferably be set.
[16]
The system of any one of claims 7 to 15, wherein the mobile terminal comprises a software component that permits decoding of the machine-readable code.
[17]
17. A method for setting operating and / or configuration parameters of a system participant of a system, in particular a lighting and / or building engineering system, wherein a state indicating operating and / or configuration parameters of the system participant by a lighting arrangement (A), in particular a light field, in The machine-readable code is detected and evaluated by a mobile communication device (6b), whereby the illustrated operating and / or configuration parameters in the communication device (6b) become available, and transmit the operating and / or configuration parameters , in particular in a modified form, from the communication device (6b) to the system, wherein in particular the operating and / or configuration parameters of the system user are set on the basis of the transmitted operating and / or configuration parameters. For this 1 sheet drawings

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法律状态:
2020-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20191031 |

优先权:

申请号 | 申请日 | 专利标题

DE102014217692.1A|DE102014217692A1|2014-09-04|2014-09-04|Illuminant arrangement for the dynamic display of a machine-readable code|

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