WO2018197226A1 - Method for controlling a lighting system - Google Patents

Abstract

The invention relates to a lighting system comprising at least two lighting means (lighting device 1, lighting device 2) and at least two switch actuators (presence detector A, presence detector B), preferably movement detectors or brightness sensors, for monitoring a parameter of the surroundings, preferably a presence, movement, or change in brightness. Each of the switch actuators (presence detector A, presence detector B) is designed to be able to interrupt or connect the voltage supply (L, N) at least for a respective lighting means. The switch actuators (presence detector A, presence detector B) are designed to forward information on a change in the parameter of the surroundings to at least one other switch actuator of the switch actuators (presence B, presence A) by means of wireless communication (radio connection).

Description

 Method for controlling a lighting system

The invention relates to a method for controlling a lighting system according to the preamble of claim 1, a lighting system according to the preamble of claim 5 and a switching actuator according to the preamble of claim 9. Technical field

Such methods are used to control operating devices for lighting and are used in lighting systems to turn on and off bulbs by means of a central control unit and adjust the brightness. Usually, the bulbs are driven by operating devices. The operating devices are grouped together and can be controlled by one or several central control units. The term bulbs refers to both gas discharge lamps and halogen lamps or light emitting diodes (LED). Such a light source can be arranged individually or together with other light sources in a luminaire, which may also contain the operating device.

State of the art

In modern lighting systems digital control commands are often sent to the operating devices by the central control unit. In particular, brightness values can be predetermined by these external control commands in order to achieve different illumination states. The operating devices can with an address be provided to allow a single or group-wide control by the central control unit. A widely used control method is the control of lighting systems according to the DALI (Digital Addressable Lighting Interface) standard. This standard defines an interface and a transmission format for the digital control of operating devices, whereby addresses can be assigned for the individual operating devices. The operating devices can be switched on and off via the external control commands or controlled in the brightness, in addition, a special operating condition such as an emergency lighting state can be initiated and error messages are queried.

The DALI standard is 16 bit Manchester code, which allows a maximum dimming speed with a brightness change from 1% to 100% in just 0.7 seconds. The high level is in the region of about 16V, the low level at a voltage of about 0 volts.

Although modern operating devices with interface device can deactivate the lamp upon receipt of a shutdown command and also reduce their own losses in such a standby mode, however, the control circuits of the operating devices are still active and there is no separation of the power section from the network, causing the operating devices even in stand-by mode, a reactive power and usually also a small active power record. This reactive power is just undesirable for grid suppliers in the case of operating devices for illuminants, which are used in large numbers in modern office buildings, for example, and should be as small as possible being held. The stand-by active power also adds up to a considerable amount for larger installations which should be minimized as far as possible. The so-called stand-by mode is generally also referred to as idle state. The operating state is the state in which at least at least one operating device operates a light source.

The application DE 10329876 AI describes a control gear for gas discharge lamps with an interface device, the power part of the operating device in the case of a switch-off can be completely switched off and a logic in the interface device monitors the bus line and activated in the case of activity on the bus, the power section of the operating device again , However, it is the interface device of the operating device consuming and costly interpret and also the power section of the operating device must be adjusted.

Presentation of the invention

It is the object of the invention to provide a method which enables the control of lighting systems without the disadvantages mentioned above or with a marked reduction of these disadvantages.

This object is achieved for a method according to the invention by the characterizing features of claim 1 and for a generic device according to the invention by the characterizing features of claims 5 and 9. Particularly advantageous embodiments of the invention are described in the subclaims. The inventive solution for controlling operating devices is based on the idea that a lighting system with at least two light sources and at least two switching actuators, preferably

Motion detector or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change is used. The switch actuators are each designed to interrupt or switch on the connection to the power supply for at least one light source. The switching actuators are designed for forwarding information by means of wireless communication via the change of the environmental parameter to at least one other of the switching actuators.

The invention also relates to a method for controlling an illumination system comprising at least two light sources and at least two switch actuators, preferably motion detectors or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change, wherein the switch actuators in each case at least for each one illuminant the connection to the power supply interrupt or switch on, comprising the following steps:

 Detecting a change in the environmental parameter by one of the switch actuators,

 Interrupting or connecting the power supply for at least one light source by the switching actuator, - forwarding information by means of wireless

Communication about the change of the

Environmental parameter by the switch actuator to at least one other of the switch actuators, Interrupting or connecting the connection to the power supply for at least one further of the lighting means by the further switching actuator.

The invention also relates to a switching actuator, preferably motion detector or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change, wherein the switching actuator is designed to interrupt or switch the connection to the power supply for at least one light source, wherein the switching actuator for Forwarding information by means of wireless communication on the change of the environmental parameter is designed for at least one further switching actuator.

Description of the preferred embodiments

The invention will be explained in more detail with reference to the accompanying drawings. Show it:

Fig. 1 shows schematically the embodiment of a lighting system according to the invention. The invention will be explained with reference to an embodiment of a lighting system. The lighting system has at least two light sources (light 1, light 2) and at least two switching actuators (presence detector A, presence detector B). The switching actuators (presence detector A, presence detector B) are preferably motion detectors or brightness sensors and serve to monitor an environmental parameter, preferably a presence, movement or brightness change. The switching actuators (presence detector A, presence detector B) are each connected to a light source (light 1, light 2) and a power supply (L, N) and each designed to be able to interrupt or switch on the connection to the power supply (L, N) for at least one light source.

The switch actuators (presence detectors A, presence detectors B) are furthermore designed to forward information by means of wireless communication (radio link) via the change of the environmental parameter to at least one other of the switch actuators (presence detector B, presence detector A).

The further switching actuator (presence detector B) is designed, upon receiving information by means of wireless communication (wireless connection) via the change of the environmental parameter from the first switching actuator (presence detector A) the connection to the power supply (L, N) for at least one of the other bulbs ( Lamp 2) to interrupt or switch on.

The supply of the lamps (lamp 1, lamp 2) can be done via electronic control gear (not shown here), which are connected via one of the switch actuators (presence detector A, presence detector B) with a power supply (L, N).

The switch actuators (presence detector A, presence detector B) can have an internal low-voltage supply and an internal control logic, and preferably the control logic is also at a switch-off, so for example, a corresponding change in the environmental parameter such as a determination a sufficient ambient brightness or a lack of presence such as leaving the monitored area not switched off. The switching actuator (presence detector A), preferably motion detector or brightness sensors, is used to monitor an environmental parameter, preferably a presence, movement or brightness change, wherein the switching actuator (presence detector A) is designed to connect to the power supply (L, N) at least for one light source. be able to interrupt or switch on. The switching actuator (presence detector A) is designed for forwarding information by means of wireless communication (radio connection) via the change of the environmental parameter to at least one further switching actuator (presence detector B).

The switching actuator (presence detector A) can be used to receive information by means of wireless communication (wireless connection) via the change of a

Environmental parameters of the other switching actuator (presence detector B) to be designed and on receipt of such information the connection to

Power supply (L, N) for the lamp (lamp 1) to interrupt or switch on.

The invention relates to a method for controlling an illumination system comprising at least two light sources (luminaire 1, luminaire 2) and at least two switch actuators (presence detector A, presence detector B), preferably motion detectors or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change the switch actuators (presence detector A, presence detector B) in each case at least for each one illuminant the connection to the power supply (L, N) can interrupt or switch on, comprising the following steps:

 Determining a change of the environmental parameter by one of the switch actuators (presence detector A),

Interrupting or connecting the power supply (L, N) for at least one lamp (lamp 1) by the switching actuator (presence detector A),

 Forwarding information by means of wireless communication (radio link) on the change of

Environmental parameter through the switching actuator

(Presence detector A) to at least one other of the switch actuators (presence detector B),

 Interrupting or connecting the connection to the power supply (L, N) for at least one of the other lighting means (lamp 2) by the further switching actuator (presence detector B).

The forwarding of information by means of wireless communication (radio connection) via the change of the environmental parameter by the switching actuator (presence detector A) can also be carried out to other subscribers of the lighting system. The interruption or connection of the connection to the power supply (L, N) by the switching actuator (presence detector A, presence detector B) can be done by a relay, which preferably in the switching actuator

(Presence detector A, presence detector B) or connected to the switch actuator (presence detector A, presence detector B).

The supply of the lamps (lamp 1, lamp 2) can be done via electronic control gear over one of the switch actuators (presence detector A, presence detector B) is connected to the power supply (L, N).

The present invention can be used in all types of electronic control devices for lighting. The application of very different bulbs is possible, it can in particular

Gas discharge lamps, halogen lamps or inorganic or organic light-emitting diodes can be used.

In addition, the lighting system may also be connected to further control devices for influencing the lighting means.

The switching actuators (presence detectors A, presence detector B), various sensors, such as motion ^¬ or brightness sensors having, for example, combinations of sensors and additionally controllable by a user of actuators, such as switches, push buttons or touch-sensitive screens with a user interface for

Have lighting control.

It can be linked together by means of a radio link according to the invention, several switching actuators, which lie together on a supply line. The radio link allows an exchange of information between the switch actuators, for example via their current state. When a switch actuator changes state, it informs all other switch actuators in the system. These can then adapt their state to the changed situation and, for example, open / close their internal switching contact, such as a relay and thus the entire circuit. Thus, a simultaneous operation of multiple switch actuators with switching contact in series on the same supply line is made possible. Furthermore, it can be made possible that lighting system-wide state changes are dependent on the state of the individual switch actuators. Also, a simultaneous operation of multiple switching actuators on different supply lines allows, while system-wide state changes are possible.

Claims

claims 1. A method for controlling a lighting system comprising at least two lamps (lamp 1, lamp 2) and at least two switch actuators (presence detector A, presence detector B), preferably motion detectors or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change, wherein the Switch actuators (presence detector A, presence detector B) in each case at least for one illuminant (light 1, light 2) can interrupt or connect a connection to a power supply (L, N), comprising the following steps:  Determining a change of the environmental parameter by one of the switching actuators (presence detector A), interrupting or connecting the connection to the power supply (L, N) for at least one Lamp (lamp 1) through the switching actuator (presence detector A),  Forwarding information by means of wireless communication (radio link) on the change of the environmental parameter by the switching actuator (Presence detector A) to at least one other of the switch actuators (presence detector B),  Interrupting or connecting the connection to the power supply (L, N) for at least one further of the lighting means (light 2) by the other Switch actuator (presence detector B). 2. The method according to claim 1, characterized the forwarding of information by means of wireless communication (radio connection) via the change of the environmental parameter by the switching actuator (presence detector A) also to other subscribers of the lighting system. 3. The method according to any one of claims 1 to 2, characterized that the interruption or connection of the connection to the power supply (L, N) by the switching actuator (presence detector A, presence detector B) by a relay. 4. The method according to any one of claims 1 to 3, characterized that the supply of the lamps (lamp 1, lamp 2) via electronic control gear, which are connected via one of the switch actuators (presence detector A, presence detector B) with a power supply (L, N). 5. Lighting system with at least two lamps (lamp 1, lamp 2) and at least two switching actuators (presence detector A, presence detector B), preferably motion or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change, the switch actuators (presence detector A , Presence detector B) are each designed to be able to interrupt or switch on the connection to the power supply (L, N) for at least one light source, characterized in that that the switching actuators (presence detector A, presence detector B) for forwarding information by means of wireless communication (radio connection) via the change of the environmental parameter to at least one of the further Switching actuators (presence detector B, presence detector A) are designed. 6. Lighting system according to claim 5, characterized in that that the further switching actuator (presence detector B) is designed, upon receipt of information by wireless communication (wireless connection) via the change of the environmental parameter of the first switching actuator (presence detector A) the connection to the power supply (L, N) for at least another of Lamp (light 2) to interrupt or switch on. 7. Lighting system according to claim 6, characterized in that that the supply of the lamps (lamp 1, lamp 2) via electronic control gear, which are connected via one of the switch actuators (presence detector A, presence detector B) with a power supply (L, N). 8. Lighting system according to claim 5 or 6, characterized that the switching actuators (presence detector A, presence detector B) have an internal low-voltage supply and an internal control logic and that the control logic is not switched off even with a switch-off command. 9. Switching actuator (presence detector A), preferably motion detectors or brightness sensors, for monitoring an environmental parameter, preferably a presence, movement or brightness change, the switch actuator (presence detector A) being designed to connect to the power supply (L, N) at least for one light source interrupt or be able to switch on, characterized the switching actuator (presence detector A) is designed to forward information by means of wireless communication (radio connection) via the change of the environmental parameter to at least one further switching actuator (presence detector B). 10. Switching actuator (presence detector A) according to claim 9, characterized in that that the switching actuator (presence detector A) for receiving information by means of wireless communication (Radio connection) about the change of a Environmental parameter of the other switching actuator (presence detector B) is designed and then interrupt the connection to the power supply (L, N) for the lamp (lamp 1) or switch.