JP2011238563A - Illumination system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illumination system which can facilitate specifying an installation location of each of lighting apparatuses while improving the workability.SOLUTION: An illumination system comprises a plurality of lighting apparatuses 2 each having an assigned unique identification ID and a controller 1 for controlling the plurality of lighting apparatuses 2. The controller 1 transmits to each of the lighting apparatuses 2 a transmission signal including at least the identification ID assigned to each of lighting apparatuses 2 and control information for making each lightning apparatus 2 perform a specified operation. Simultaneously, the controller 1 assigns a location address indicating an installation location to each of the lighting apparatuses 2 having performed the specified operation on the basis of the installation location and stores the assigned location address made correspondingly to the identification ID. In addition, the controller 1 sets up a group which is to be subjected to a batch operation on the basis of the location address assigned to each of the lighting apparatuses 2.

Description

  The present invention relates to a lighting system.

  Conventionally, a lighting system is provided in which a plurality of lighting fixtures and a controller that controls these lighting fixtures are connected via a communication line. In this lighting system, a unique identification ID is assigned to each lighting fixture, and a predetermined transmission signal including the identification ID is transmitted from the controller in accordance with, for example, a time schedule, switch operation, sensor output, or the like. . And in each lighting fixture which received said transmission signal, if identification ID contained in this transmission signal corresponds with identification ID allocated to self, a light source will be lighted, extinguished or blinked according to the control command contained in a transmission signal. It is.

  Here, in a large-scale lighting system, a method of controlling a plurality of lighting fixtures in units of groups is more common than a method of controlling each lighting fixture as described above (see, for example, Patent Document 1). As a group setting method, a group setting is sequentially performed for each lighting fixture after installation, or a group setting is performed in advance for each lighting fixture, and each lighting fixture is installed according to the set group. There are methods.

JP 2007-287682 A (paragraph [0011] and FIG. 2)

  However, when setting each lighting fixture in groups one by one or installing each lighting fixture in accordance with a preset group, it takes time as the number of lighting fixtures increases. In addition, when a group setting is made directly for each lighting fixture, when an abnormality such as a lamp burnout is transmitted to the controller through communication, the lighting fixture installed at any location has an abnormality with only the above identification ID. It was not possible to judge whether it occurred.

  This invention is made | formed in view of the said problem, The place made into the objective is providing the illumination system which can specify the installation place of each lighting fixture easily, improving workability | operativity.

  The lighting system of the present invention includes a plurality of lighting fixtures each assigned a unique identification code, and a controller that controls the plurality of lighting fixtures. The controller is provided for each of the plurality of lighting fixtures. A transmission signal including at least the assigned identification code and control information for performing a predetermined operation is transmitted, and a first address indicating the installation location is assigned based on the installation location of the luminaire that has performed the predetermined operation. The group is stored in association with the identification code of the lighting fixture, and a group to be collectively operated is set based on the first address assigned to each lighting fixture.

  In this lighting system, the controller has a data table in which a first address is associated with a second address corresponding to a group, and there are a plurality of spaces in which a plurality of lighting fixtures are arranged in the same layout. For this, it is preferable to set a group for each space in a batch by using a data table.

  There is an effect that it is possible to provide a lighting system capable of easily specifying the installation location of each lighting fixture while improving the workability.

It is a schematic block diagram of the illumination system of this embodiment. It is an example of arrangement | positioning of the lighting fixture which comprises the same as the above. It is another example of arrangement | positioning of the lighting fixture which comprises the same as the above.

  Below, embodiment of the illumination system which concerns on this invention is described based on FIGS. 1-3.

As shown in FIG. 1, the lighting system of the present embodiment includes a plurality of (three in FIG. 1) lighting fixtures 2 and a controller 1 that controls these lighting fixtures 2 and is connected by a communication line Ls. ing. In addition, in the following description, when it is necessary to distinguish each lighting fixture 2, it describes with lighting fixture _2N (N = 1, 2, 3, ...).

  Each lighting fixture 2 controls the transmitter / receiver 21 that transmits and receives transmission signals to and from the controller 1, the light source (for example, a fluorescent lamp) 22, the transmitter / receiver 21 and the light source 22, and performs general control. Unit 20 and storage unit 23. Each lighting fixture 2 is assigned a unique identification ID (identification code) to be distinguished from other lighting fixtures 2 and is stored in the storage unit 23. This identification ID may be stored in the storage unit 23 at the time of factory shipment, or may be randomly set and stored in the storage unit 23 when the system is started up after installation.

  The controller 1 controls a transmission / reception unit 11 that transmits / receives transmission signals to / from each lighting fixture 2, a setting unit 12 that sets a location address and a group address, which will be described later, and the transmission / reception unit 11 and the setting unit 12. A control unit 10 that performs general control and a storage unit 13 are provided. The location address and group address set by the setting unit 12 are stored in the storage unit 13 in association with the identification ID assigned to each lighting fixture 2. Details will be described later.

Here, FIG. 2 shows an arrangement example of the lighting fixtures 2 _N (N = 1, 2,..., 22) constituting the present lighting system, and shows, for example, one floor such as an office building. In the example shown in FIG. 2, the floor has been divided into four areas to D, the luminaire 2 ₁ to 2 ₉ nine are located in the area A, the luminaire 2 ₁₀ 3 units in area B to 2 ₁₂ are arranged. In addition, four lighting fixtures 2 ₁₃ to 2 ₁₆ are arranged in the area C, and six lighting fixtures 2 ₁₇ to 2 ₂₂ are arranged in the area D. Here, number described in each of the illumination fixtures _{2 21 to 22} in FIG. 2 shows the location address of each luminaire ₂ 1 _{to 2 22.}

Table 1 is a data table showing the correspondence between the location address and group address set for each lighting fixture 2 _N (N = 1, 2,..., 22). According to this data table, the location address 1 to 9 is set (that area is arranged A) luminaires 2 ₁ to 2 ₉ group address 1 is set, the location address 10-12 is set The group address 2 is set to the lighting fixtures 2 ₁₀ to 2 ₁₂ (that is, arranged in the area B). Also, the location addresses 13 to 16 are set (that is, arranged in the area C), the group addresses 3 are set to the lighting fixtures 2 ₁₃ to 2 ₁₆ , and the location addresses 17 to 22 are set (that is, the area D is set to The group address 4 is set in the lighting fixtures 2 ₁₇ to _{22 22 (} which are arranged). This data table is created in advance based on an address map (not shown) or the like and stored in the storage unit 13, and is read from the storage unit 13 when setting a group address for each lighting fixture 2. Here, in this embodiment, the location addresses 1 to 22 are used as the first addresses indicating the installation locations of the lighting fixtures 2, and the group addresses 1 to 4 are used as the second addresses corresponding to the group to be collectively operated. ing.

Next, a location address setting method will be described. When by operating the setting unit 12 sets the operation mode of the illumination system to the location address setting mode, the controller 1, for example, the illumination fixture 2 _1, and the identification ID of the illumination fixture 2 _1, a predetermined operation (e.g. A transmission signal including at least control information for performing a blinking operation or the like is transmitted via the communication line Ls. Then, in the lighting fixture 2 _1, the identification ID included in the transmission signal transmitted from the controller 1 from the matching own identification ID, start flashing operation based on the control information included in the transmission signal.

Configurator luminaire 2 ₁ confirms that the flashing operates the setting unit 12 of the controller 1 sets a location address 1 corresponding to the lighting fixture 2 ₁ flashing, lighting fixture 2 a transmission signal including the _first identification ID and the location address 1 via the communication line Ls. In the lighting fixture 2 ₁ a transmission signal and reception of the identification ID included in the transmission signal from the matching own identification ID, it captures the location address 1 contained in the transmitted signal, in the storage unit 23. In the other lighting fixtures 2 ₂ to ₂₂₂ , the location address 1 is not captured because the identification ID included in the transmission signal does not match the identification ID of itself. Further, the controller 1, the location address 1 of the illumination fixture 2 ₁ is stored in the storage unit 13 in association with the identification ID. Thereafter, through the same processing, location addresses ₂ to ₂₂ are set for the lighting fixtures 2 ₂ to _{22 22} , and the location addresses ₂ to ₂₂ are stored in the storage units 23 of the lighting fixtures 2 ₂ to _{22 22} , respectively. And stored in the storage unit 13 of the controller 1 in association with each identification ID.

Next, a group address setting method will be described. In this embodiment, since the data table (refer to Table 1) in which the location address and group address of each lighting fixture 2 are associated is stored in the storage unit 13 of the controller 1, for example, by operating the setting unit 12 it is possible to set the sequence group address to the illumination fixtures _{2 21 to 22.} That is, since it is not necessary to set a group address for each luminaire 2, work time can be reduced.

Next, FIG. 3 is another arrangement example of the luminaire 2 constituting this lighting system, a plurality of case where the illumination in the same layout in floor (In FIG. 3 three positions) instrument 2 ₁ to 2 ₂₂ are arranged Show. In such a case, it is possible to collectively set a plurality of floors by using the data table described above, thereby further reducing the work time.

  Thus, according to this embodiment, in order to assign a location address (first address) and set a group from the controller 1 after installing each luminaire 2, the luminaire 2 set in advance in a group is installed. Compared to the above, there is an advantage that the labor of selecting the lighting fixture 2 according to the installation location can be saved and the workability is improved. In addition, since the installation location of the luminaire 2 can be specified by the location address set for each luminaire 2, for example, when an abnormality such as a lamp burnout or power over occurs, the luminaire 2 in which the abnormality has occurred can be easily obtained. Can be identified.

In the present embodiment, the lighting fixture 2 is blinked as a predetermined operation when setting the location address. For example, the target lighting fixture 2 may be turned on, or the target lighting fixture 2 may be turned on. May be turned off and the other lighting fixtures 2 may be turned on, or may be operated in different operating states so as to be visually distinguishable from the other lighting fixtures 2. In addition, the identification ID (identification code) set for each lighting fixture 2 may be a number, a symbol such as an alphabet, or a combination of a number and a symbol. Furthermore, in the present embodiment, when setting the location address and group address, the setting unit 12 of the controller 1 is operated and set. However, it may be set by a remote controller using infrared rays, for example. Further, the number of lighting fixtures 2 is not limited to the present embodiment, and may be plural. Furthermore, in the present embodiment, is set in order from the illumination fixture 2 ₁ side when setting the location or group addresses, to the lighting fixture 2 ₂₂ side good to set in order, randomly sets May be.

1 Controller 2 Lighting equipment

Claims (2)

A plurality of lighting fixtures each assigned a unique identification code, and a controller for controlling the plurality of lighting fixtures,
The controller transmits a transmission signal including at least the identification code assigned to each lighting fixture and control information for performing a predetermined operation to each of the plurality of lighting fixtures, and performs the predetermined operation. A first address indicating an installation location is assigned based on the installation location of the luminaire, and is stored in association with an identification code of the luminaire, based on the first address assigned to each luminaire. A lighting system characterized by setting a group to be collectively operated.   The controller has a data table in which the first address is associated with the second address corresponding to the group, and there are a plurality of spaces in which the plurality of lighting fixtures are arranged in the same layout. The lighting system according to claim 1, wherein group setting is collectively performed for each space by using the data table.

Images