NL1035368C2 - Lighting system for illuminating building, has power line communication unit for communication between lighting unit and control unit via electricity network, where lighting unit includes sensors to sense one or more environmental stimuli - Google Patents

Abstract

The system has a control unit (42) and a lighting unit (20) connected to an electricity network for receiving electrical power for the ratification of the lighting unit and provision of light in the proximity of the lighting unit. A power line communication unit is provided for communication between the lighting unit and control unit via the electricity network. The lighting unit includes one or more sensors to sense one or more environmental stimuli in the vicinity of the lighting unit.

Description

Brief indication: Lighting system and lighting unit for lighting a facility.

DESCRIPTION

Field of the invention

The present invention relates to a lighting system for illuminating a device, comprising at least one control unit and at least one lighting unit, the one lighting unit being connected to an electricity network for receiving electric power for energizing the lighting unit and providing light in the vicinity of the lighting unit.

The invention is further directed to a lighting unit in a lighting system as described above.

Such lighting systems are known for illuminating facilities of large size. These systems enable an operator to centrally control, control and manage the lighting in the facility. The lighting can therefore be connected to an electricity network that consists of a (complex) group layout that makes it possible to switch the various lighting units of the lighting system on and off separately. The disadvantage of such a configuration is the complexity of the electricity network that must be installed. For each group to be installed, power cables must be laid from a central power source to the specific light point that must be centrally operable. In addition, the electricity network must also regularly provide sockets and other electricity supply points in the building, which must be connected to their own groups in order not to switch them on and off together with the lighting units.

A further disadvantage is that for the implementation of this solution in a building with an existing electricity network, the entire electricity network must be adapted, which entails a radical renovation. The configuration is therefore not easy to implement in existing facilities.

A third disadvantage of this method and configuration is that the control and management of the lighting units is relatively simple, since it is only based on the switching on and off of power to the various lighting units.

Summary of the invention The object of the present invention is to provide a lighting system that can be centrally managed and controlled, that is easy to implement, also in existing situations, and that offers extensive possibilities with regard to control and use of the lighting system.

These and other objects are achieved by the present invention in that, according to a first aspect, it provides a lighting system for illuminating a device comprising at least one control unit and at least one lighting unit, wherein the at least one lighting unit is connected to an electricity network for the receiving electrical power for energizing the lighting unit and providing light in the vicinity of the lighting unit, further comprising communication means for releasing communication between the at least one lighting unit and the at least one control unit, depending on the control the operation of the at least one lighting unit, wherein the communication means are adapted to release communication via the electricity network.

The present invention allows communication between the lighting units and the at least one control unit via the electricity network. This provides the advantage that when the lighting system according to the invention is implemented, use can be made of the existing electricity network of the facility or the building, without the need for adaptations. Also the use of other communication techniques, for which separate networks are required, or the use of wireless networks which, as a result of the electromagnetic radiation, can have a disturbing influence on equipment present in the facility, can easily be prevented in this way. The present invention provides an elegant method of controlling the lighting units with the aid of a control unit.

The communication, which runs via the electricity network, is based on providing a modulation signal above the supply current in the electricity network which supplies the lighting units with electrical power. This modulation signal can be either an analog or digital signal that carries information with which the operation of the lighting units can be controlled. For example, the lighting units can be switched on and off, but it is also possible to dim the lighting units, for example, in order to adjust the light intensity to the light requirement. On the other hand, this system provides the possibility that upon the occurrence of a defect in one of the lighting units, this defect can be detected in the central control unit by means of the communication over the electricity network, so that appropriate action can be taken.

According to an embodiment of the invention, the communication means are adapted to release data communication. The modulation signal provided on top of the electric power supply in the electricity network, in this case, is a digital signal with which commands within the lighting system can be transmitted from the lighting unit to the control unit and from the control unit to the lighting unit. This communication may for example be based on CENELEC standard EN 50065-1, prepared by the European Committee for Electrotechnical Standardization (CENELEC) and entitled "Control via low-voltage installations in the frequency range 3 kHz to 148.5 kHz - part 1: General requirements, frequency bands and electromagnetic disturbances "(Dutch version). By making use of data communication, a wide range of different types and types of commands can be sent via the electricity network, which makes the lighting system very versatile. The lighting units in the lighting system can be individually addressable because these lighting units are assigned network addresses on the electricity network, in this way the control unit can address and address each individual lighting system, and the lighting units can be controlled separately from each other.

According to a further embodiment of the invention, at least one of the lighting units comprises one or more sensors for detecting one or more environmental stimuli in the vicinity of the lighting unit. These sensors can be selected from a group comprising 4 motion sensors, temperature sensors, humidity sensors, optical sensors such as light sensors, infrared sensors, or ultraviolet sensors, smoke sensors, carbon monoxide sensors, sensors for detecting the presence or concentrations of gases or vapors, sensors for detecting fire, and similar sensors.

The advantage of executing the at least one lighting unit with sensors is that via the electricity network, the lighting units can also serve as monitoring units for monitoring the local conditions in the vicinity of the lighting system. In this way the lighting system according to the present invention can be used as a security system for monitoring a facility, and the lighting system according to the present invention fits into a prevention policy in order to protect the facility against, for example, calamities due to fire or smoke development, accidents caused by carbon monoxide, vapors or other hazardous gases or vapors with a hazardous chemical composition or combustible composition, floods, and similar calamities. Furthermore, with the aid of, for example, temperature sensors, motion sensors or optical sensors, it is possible to make control of the lighting units in the lighting system dependent on, for example, the presence of persons in the vicinity of the lighting unit, the time of day, the presence of daylight, etc.

Furthermore, the use of temperature sensors makes it possible to make control of the lighting units dependent on the temperature of the lighting unit, which can prevent damage or accelerated wear of the lighting unit. For example, if the lighting unit becomes too warm, this is noted with the aid of the temperature sensor on the lighting unit, and the central control unit can ensure that the supply of electrical energy to the luminaire of the lighting unit is limited for limiting heat dissipation in the lighting unit. . The temperature of the lighting unit can hereby be influenced in order to prevent damage or accelerated wear.

The one or more sensors in the at least one lighting unit can also comprise cameras, or sound sensors such as, for example, 5 microphones. This provides additional options for using the lighting system as a security system. The facility can in this way be protected, for example, against burglary or other criminal activities, but it is also possible to record the camera images and / or audio signals that have been opened with the microphones in, for example, a black box which, in the event of a calamity investigation possible afterwards.

In a further embodiment, the one or more sensors comprise wireless identification means for wirelessly identifying persons or objects of the at least one lighting unit. This can include, in the broadest sense of the term, motion sensors which can detect movement in the vicinity of the lighting unit. In particular, it is meant here that the wireless identification means are capable of distinguishing and identifying specific persons or objects in the vicinity of the lighting unit, and if possible report this to the central control unit. Consider, for example, a camera with a camera recognition system for recognizing people on the basis of camera images. For example, in a simpler system use can be made of a system for detecting identification labels which are worn by persons or which are attached to objects. The system 20 according to this embodiment makes it possible to be aware at all times of the location of specific persons or objects in the facility, so that in the event of an emergency specific persons who may be in a danger zone can be traced and if possible to bring it to safety. It is also possible with this embodiment to distinguish (non-identifiable) intruders or burglars in the facility.

In a special embodiment thereof, the wireless identification means can be provided with optical identification means, which can receive, for example, optical transmission signals on the basis of light-emitting diodes (LEDs) that are distributed by the persons who are within the range of the lighting unit. The advantage of this embodiment is that it is not affected by the presence of electromagnetic radiation, or by the presence of large amounts of electrically conductive material that can form a Faraday cage. The light-emitting diodes present on the lighting unit, if they are not activated, can further serve as light sensors since the potential difference across the LEDs is dependent on the light intensity of the light incident on the LEDs.

The lighting unit can of course further be equipped with processing means which converts the signals from the one or more sensors into data which can be transmitted to the control unit with the aid of the communication means and the electricity network. Furthermore, the control unit can be adapted to control the operation of the at least one lighting unit, depending on the one or more environmental stimuli that have been detected by the sensors as already mentioned above.

The data transmitted back and forth over the electricity network can be stored in the controller in a memory so that they can be analyzed afterwards.

According to a further embodiment of the lighting system, the system comprises signaling means for providing information to the user of the lighting system. These signaling means can be controlled to provide the information in dependence on the environmental stimuli. The use of signaling means in this way supports the use of the lighting system as a security system, because it enables alarms of persons to be monitored via screens of the device. The signaling means mentioned above may be selected from a group comprising display means such as screens, indicator lights or projection means, and sound generating means such as sirens, public address systems, loudspeakers or tone generators. These signaling means may also comprise other signaling means.

According to a second aspect, the invention provides a lighting unit for use in a lighting system according to at least one of the preceding claims, comprising a luminaire, means for actively incorporating a light source in the luminaire, connecting means for connecting the lighting unit to an electricity network for energizing the light source with electric power from the electricity network, further comprising communication means for releasing communication between the lighting unit and a control unit, for controlling the operation of the lighting unit in dependence on the communication, the communication means being adapted to release of communication via the electricity network.

5 Brief description of the drawings

The present invention will be explained below with reference to a few specific embodiments thereof, not intended as limiting, with reference to the appended figure, in which: the figure provides a schematic representation of a lighting system according to the present invention.

Detailed description of embodiments The attached figure shows an illumination system 1 according to an embodiment of the present invention. In the lighting system 1, a distribution box or meter box 3 is connected to a (regional) electricity network by means of power input 2. The distribution box 3 normally comprises an earth leakage circuit breaker 4, behind which the electricity network of a building is located. Groups are provided in the distribution box 3, provided with automatic fuses 5, 6, 7, 8 and 9, for the internal electricity network of the building. The groups of the electricity network are schematically indicated with supply lines 13, 14, 15, 16 and 17. Furthermore, there are a plurality of lighting units 20, 21, 22 and 23 in the facility or in the building, which are connected to the different groups of the electricity network. In the example shown, each of the groups 13, 14, 15 and 16 of the electricity network comprises a lighting unit (lighting unit 20, 21, 22 and 23, respectively).

The lighting units 20, 21, 22 and 23 are centrally controlled from central control unit 42. On screen 48, an operator of the control unit 42 can see which lighting units are switched on and which are dark. Moreover, it is possible to see on screen 48 whether there are lighting units that require maintenance. The lighting units can be controlled by means of input means such as, for example, keyboard 50. The central control unit can be a specific control unit which is adapted to control the lighting system, but 8 can also be formed by, for example, a regular computer system provided with a keyboard, mouse and display.

The electricity network of lighting system 1 is designed for releasing communication: 'power line communication' (PLC). Here, in central distribution box 3, there is a central router 26 and each of the lighting units 20, 21, 22 and 23, as well as the control unit 42, can be individually addressable on the data network thus created. The lighting units 20-23 are provided with an input / output port, such as input / output port 37 of lighting unit 20. The input / output port is connected to a unit that makes power line communication (PLC) possible. For lighting unit 20 this is PLC filter unit 33, for lighting unit 21 it is PLC filter unit 34, for lighting unit 22 it is PLC filter unit 35, and for lighting unit 23 it is PLC filter unit 36. The PLC filter units 33-36 are connected on the electricity network. To this end, there is a split on the electricity network, such as splitters 27, 28, 29 and 30, for separating power lines and data lines.

The central processing unit 42 is also connected to the PLC network provided by the electricity network. To this end, splitter 39 is located on the electricity network and PLC filter unit 40 is connected to the splitter and is also connected to an input / output port of the control unit 42.

Control of the lighting units 20-23 by the control unit 42 takes place with the aid of processing means 45 of the control unit. The processing means 45 receive input signals originating, for example, from keyboard 50, convert these input signals into commands for different lighting units, and send these commands via the PLC network / electricity network to the respective lighting units 20-23. As already mentioned above, the lighting units 20-23 can be individually addressed so that, for example, lighting unit 22 can be switched on or off specifically from control unit 42. It is also possible to dim the lighting units in order to adjust the light intensity to the local light requirement, or to make it work in another way. The lighting units 20-23 can, for example, also be switched into an emergency position. It is also possible, for example, to carry out 9 maintenance work on one of the lighting units 20-23, a relevant group 13-16, or to switch it off in its entirety, or to ensure that the lighting unit to be serviced is free. electricity, and cannot be switched on during maintenance.

5 The lighting units 20, 21, 22 and 23 are located everywhere in the facility or building where people could be located. The inventor has therefore realized that the lighting system according to the present invention is moreover very suitable for serving as a security system. The lighting units 20-23 can for this purpose be designed with all kinds of sensors for detecting environmental stimuli. In the present embodiment, lighting unit 20 is provided with a thermocouple 55 for measuring the temperature. Not only is it possible to determine the temperature of the environment in such a way, which can be an indication of fire or fire hazard, but the temperature of the lighting unit 15 itself can also be determined. Determining the lighting unit 20 makes it possible to adjust the energy requirement of this lighting unit 20 in the case that lighting unit 20, for example, becomes too hot and there is a risk of damage to the lighting unit, or a possible fire hazard.

Lighting unit 20 is furthermore provided with a smoke detector 56. The signals from the thermocouple 55 and the smoke detector 56 are sent via the PLC network / electricity network to the central control unit 42, and upon receipt stored in memory means 46 which are present in control unit 42.

Lighting unit 22 of the lighting system is provided with camera 60 and microphone 61 in the present example. The signals from camera 60 and microphone 61 are digitized and communicated to the central control unit 42 via the PLC network / electricity network. images and the associated sound in the memory 46. It is also possible with the aid of camera recognition to identify persons who are present in the room where lighting unit 22 is suspended. The images and the sound from camera unit 60 and microphone 61 can also be displayed via processing means 45 on screen 48, in order to enable monitoring by a guard.

The environmental stimuli that are sensed by sensors 55, 56, 60, 61 and 67 can give rise to, for example, an alarm for the facility. If, for example, it is determined with the aid of smoke detector 56 and temperature sensor 55 that there is a fire in the room in which lighting unit 20 is suspended, then an alarm indicator 64 can be switched on which is clearly visible to personnel in the vicinity.

Indicator unit 64 can for instance be a flashing light with which the lighting unit 20 is also designed. It is also possible, for example with the help of siren 58, to emit an alarm sound signal with a sufficiently large volume that is easily audible for persons in the facility. The lighting system 1, in particular the lighting units 20-23, can also be provided with, for example, a public address system on which instructions are given to persons in the vicinity of the lighting units. Because the lighting units 20-23 are individually addressable, specific instructions can be broadcast via the public address system in specific spaces, but also general broadcast messages 15 can be distributed throughout the facility.

Lighting unit 23 comprises a special sensor 67. The sensor 67 is formed by wireless identification means, for wireless identification of persons who are in the vicinity of lighting unit 23. This is schematically shown in the figure by a person 69 who carries an identification label 70 with him. The identification label 70 can be detected by means of a wireless signal 72 by identification means 67, which upon detection of person 69 outputs a recognition signal to lighting unit 23. Lighting unit 23 transmits this information via PLC network / electricity network to the central control unit 42, which information 25 can store in memory 46 or display on screen 48. By storing this information, it can be made visible which people were in which room of the facility at what time. This can be important information in the event of emergencies, or in the event of an investigation into emergencies afterwards. In addition, if persons are detected that are not identifiable, control unit 42 can report this to the operator, and possibly issue an alarm.

The embodiment described above and schematically illustrated, is only intended to illustrate and clarify the invention, and is not to be construed as limiting. The scope of the invention is only limited by the following claims.

5 1035368

Claims (19)

A lighting system for illuminating a device, comprising at least one control unit and at least one lighting unit, wherein the at least one lighting unit is connected to an electricity network for receiving electrical power for energizing the lighting unit and providing light in the vicinity of the lighting unit, further comprising communication means for releasing communication between the at least one lighting unit and the at least one control unit, for controlling the operation of the at least one lighting unit in dependence on the communication, the communication means are designed for releasing communication via the electricity network. 2. Lighting system according to claim 1, wherein the communication means are adapted to release data communication. 3. Lighting system as claimed in claim 1 or 2, wherein each lighting unit of the at least one lighting unit is assigned a network address on the electricity network. 4. Lighting system as claimed in any of the foregoing claims, wherein the at least one lighting unit comprises one or more sensors for detecting one or more environmental stimuli in the vicinity of the lighting unit. 5. Lighting system according to claim 4, wherein the one or more sensors are selected from a group comprising motion sensors, temperature sensors, humidity sensors, optical sensors such as light sensors, infrared sensors, or ultraviolet sensors, smoke sensors, carbon monoxide sensors, sensors for detecting presence or concentrations. of gases or vapors, sensors for detecting fire, cameras, and sound sensors such as microphones. 6. Lighting system according to claim 4 or 5, wherein the one or more sensors comprise wireless identification means for wirelessly identifying persons or objects in the vicinity of the at least one lighting unit. 1035368 7. Lighting system as claimed in at least one of claims 4-6, wherein the at least one lighting unit comprises processing means for converting signals from the one or more sensors into data for transmission via the communication means. A lighting system according to any of claims 4-7, wherein the at least one control unit is adapted to control the operation of the at least one lighting unit in dependence on the one or more environmental stimuli. 9. Lighting system as claimed in any of the foregoing claims, wherein the control unit comprises memory means for storing data. The lighting system according to any of the preceding claims, further comprising signaling means for providing information to a user of the lighting system. 11. Lighting system as claimed in claim 10, insofar as dependent on at least one of claims 4-8, wherein the system is adapted to control the signaling means for providing the information in dependence on the environmental stimuli. 12. Lighting system according to claim 10 or 11, wherein the control means are adapted to control the signaling means for providing the information. 13. Lighting system according to at least one of claims 10-12, wherein the signaling means are selected from a group comprising display means such as screens, indication lighting or projection means, and sound generating means such as sirens, public address systems, loudspeakers, or tone generators. 14. Lighting unit for use in a lighting system according to at least one of the preceding claims, comprising a luminaire, means for actively incorporating a light source in the luminaire, connecting means for connecting the lighting unit to an electricity network for energizing the light source with electrical power from the electricity network, further comprising communication means for releasing communication between the lighting unit and a control unit, for controlling the operation of the lighting unit in dependence on the communication, the communication means being adapted to release communication via the electricity network. 15. Lighting unit according to claim 14, comprising one or more sensors for detecting one or more environmental stimuli in the vicinity of the lighting unit. 16. Lighting unit according to claim 15, wherein the one or more sensors are selected from a group comprising motion sensors, temperature sensors, humidity sensors, optical sensors such as light sensors, infrared sensors, or ultraviolet sensors, smoke sensors, carbon monoxide sensors, sensors for detecting presence or concentrations. of gases or vapors, sensors for detecting fire, cameras, and sound sensors such as microphones, and wireless identification means for wirelessly identifying persons or objects in the vicinity of the at least one lighting unit. 17. Lighting unit according to at least one of claims 15 or 16, further comprising processing means for converting signals from the one or more sensors into data for transmission via the communication means. The lighting unit according to at least one of claims 14-17, 20 further comprising signaling means for providing information to a user of the lighting system. 19. Illumination unit according to claim 18, wherein the signaling means are selected from a group comprising display means such as screens, indication lighting or projection means, and means for producing sound such as sirens, public address systems, loudspeakers, or tone generators. 1035368