JP2004063161A - Lighting control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting control system flexibly corresponding to the enlargement of a system scale while an increase in cost is suppressed. <P>SOLUTION: A plurality of lighting systems 10<SB>1</SB>-10<SB>10</SB>and a plurality of human presence sign detecting sensor devices 20<SB>1</SB>-20<SB>4</SB>are bus-connected to a control device 1 with a signal line 40. In the case where the total number of the inherent address given to the lighting system 10<SB>1</SB>and a group addresses exceeds a specified value, group control information of a group comprising the lighting systems 10<SB>8</SB>-10<SB>10</SB>and the human presence sign detecting sensor device 20<SB>4</SB>is controlled with the inherent address of the lighting system 10<SB>8</SB>-10<SB>10</SB>. Group control is made possible by setting more fictional group address without increasing the total number of addresses by enlarging the data length of a plurality of transmission signals S1 and without being limited by the number of practically setting group addresses Gr1-Gr3, and flexible correspondence to the enlargement of the system scale is made possible while the increase in cost is suppressed. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lighting control system that controls blinking and dimming of a plurality of lighting devices.
[0002]
[Prior art]
Conventionally, as a lighting control system for controlling blinking and dimming of individual lighting devices in a space where a large number of lighting devices are installed like an office, it is proposed in European Patent Application No. 0490329 shown in FIG. There is the following (conventional example 1). This lighting control system includes a plurality of electronic ballasts 61 and a centralized control device 60 in which these electronic ballasts 61 are connected by a bus via a signal line 62, and transmits a control signal generated by the centralized control device 60 to a signal line. The electronic ballast 61 transmits to the individual electronic ballasts 61 via 62, and the electronic ballast 61 blinks or dims the light source based on a control command or illuminance information included in the control signal. The feature of the first conventional example is that, for example, a group consisting of a large number of electronic ballasts 61 arranged in one room can be controlled to blink or dimming simultaneously or individually.
[0003]
As another conventional example, there is one shown in FIG. 15 (conventional example 2) proposed in US Pat. No. 5,866,992. In this conventional system, a plurality of devices 71 to which unique addresses U1 to U5 are assigned in advance, and a central control device 70 that stores the unique addresses U1 to U5 of each device 71 are connected by a signal line 72. Recognizes the unique addresses U1 to U5 of the respective devices 71 after completing the wiring, newly sets operation addresses B1 to B5 for the respective devices 71, and uses the operation addresses B1 to B5 to set the installation location of each device 71 ( Each device 71 can be intentionally selected at the time of confirming the presence of the device 71 in a group including Room A, Room B, and Room C) and the device 71.
[0004]
Still another conventional example is shown in FIG. 16 (conventional example 3). This conventional system includes a plurality of illumination devices 10, a human detection sensor device 20 for detecting the presence of a person in a detection area, an operation device 30 including an operation unit 31, an illumination device 10, and a human detection sensor device. The control device 20 controls the lighting device 10 in accordance with the detection result of the motion detection sensor device 20 and the operation status of the operation unit 31.
[0005]
The lighting device 10 includes a signal transmission / reception unit 11 that transmits and receives a transmission signal to and from the control device 1 via a signal line 40 as shown in FIG. 17, a lighting circuit unit 12 that lights a light source (not shown), and A control unit 13 for controlling the lighting circuit unit 12 in accordance with a control command included in a transmission signal received by the signal transmitting / receiving unit 11; a storage unit 14 for storing a predetermined unique address; And a lighting state detector 15 for detecting the lighting state of the light source.
[0006]
As shown in FIG. 18, the human detection sensor device 20 detects, for example, infrared rays radiated from the human body to detect the presence of a person in the detection area, and a human body detection result by the human body detection unit 21 And a signal transmission unit 22 that transmits the control signal to the control device 1 via the signal line 40 by a transmission signal. The operation device 30 has an operation unit 31 having a switch such as a push button switch as shown in FIG. 19, and a signal for transmitting the operation result of the switch on the operation unit 31 to the control device 1 via the signal line 40 by a transmission signal. And a transmission unit 32. In addition, a unique address is also assigned in advance to the human detection sensor device 20 and the operation device 30, respectively, and are stored in a storage unit (not shown).
[0007]
On the other hand, the control device 1 includes a signal transmission / reception unit 2 that transmits and receives a transmission signal via a signal line 40 as shown in FIG. 20, a control unit 3 that generates a control command for the lighting device 10, and the like, A storage unit 4 for storing a unique address assigned to the device 10, the human detection sensor device 20 and the operation device 30 and a type of device corresponding to each unique address, and a lighting state for displaying a lighting state of each lighting device 10 And a display unit 5.
[0008]
The operation of this conventional system will be briefly described. For example, in the human detection sensor device 20, when the human body detection unit 21 detects the presence of a person in the detection area and outputs a human body detection signal, the signal transmission unit 22 transmits the transmission signal including the unique address and the human body detection data. Is transmitted to the control device 1. In the control device 1, when the signal transmission / reception unit 2 receives the transmission signal transmitted from the human detection sensor device 20, the control unit 3 causes the illumination having a specific address previously associated with the specific address of the human detection sensor device 20. A control command for controlling the lighting of the device 10 is generated, and a transmission signal including the unique address of the lighting device 10 to be controlled and the control command is transmitted from the signal transmitting / receiving unit 2 to the signal line 40. In the lighting device 10 to be controlled, when the transmission / reception unit 11 receives a transmission signal including its own unique address, the control unit 13 interprets a control command included in the transmission signal, and the control unit 13 responds to the control command. By generating and outputting the control signal to the lighting circuit unit 12, the lighting circuit unit 12 turns on or off the light source or adjusts the light according to the control signal. Here, as the lighting control of the lighting device 10, for example, the lighting is performed when the presence of a person is detected in the detection area of the human detection sensor device 20, and the light is turned off if the presence of the person is not detected within a certain period. There are various control methods. In each lighting device 10, when the lighting state detecting unit 15 detects a failure of the light source and outputs a failure detection signal, the control unit 13 having received the failure detection signal transmits a transmission signal including its own unique address and failure detection data. Is transmitted from the signal transmitting / receiving unit 11 to the control device 1. Then, in the control device 1, when the transmission signal is received by the signal transmission / reception unit 2, the control unit 3 interprets the unique address and the failure detection data included in the transmission signal, and turns on the information of the lighting device 10 in which the light source has failed. The status is displayed on the status display unit 5.
[0009]
Here, the control device 1 checks the unique address included in the received transmission signal with the address stored in the storage unit 4 so that the transmission source of the transmission signal is the illumination device 10, the human detection sensor device 20, The control unit 3 determines which of the devices 30 is. FIG. 21 shows an example of a signal format of a transmission signal, which has a short data length of about 10 to 30 bits including a start bit ST, an address data bit AD, a command data bit CD, and a stop bit SP.
[0010]
By the way, usually, the lighting control of a plurality of lighting devices 10 is often performed in accordance with the detection result of one human detection sensor device 20, and therefore, in Conventional Example 3, each lighting device 10 is separately provided with a unique address. A group address is assigned, and the correspondence between the group address assigned to the lighting devices 10 in the same group and the unique address of the human detection sensor device 20 is stored in the storage unit 4 of the control device 1. That is, in the control device 1 that has received the human body detection data from the human detection sensor device 20, the control unit 3 refers to the storage unit 4 and transmits the data to the group address corresponding to the unique address of the human detection sensor device 20. A control command is transmitted by a signal. Then, the control unit 13 of each of the lighting devices 10 belonging to the same group confirms that the group address included in the received transmission signal matches the group address stored in the storage unit 14 and responds to the control command. Lighting control is performed.
[0011]
[Problems to be solved by the invention]
However, in the above-mentioned conventional example 3, when the scale of the system increases and the number of devices connected to the signal line 40 increases, if the data length of the transmission signal is short, the number of address data (the unique address and the group address) is reduced. Total number) may be insufficient. If the data length of the transmission signal is increased in order to increase the number of address data, the amount of information to be processed by the control device 1 or the lighting device 10 or the like increases, and the load increases. There is a disadvantage that the cost increases if the processing capacity of the device 10 or the like is increased. Further, there is a problem that the number of groups to which one lighting device 10 can belong, that is, the number of group addresses that can be stored in the storage unit 14 is limited by the capacity of the storage unit 14.
[0012]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a lighting control system that can flexibly cope with an increase in system scale while suppressing cost increase.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, a plurality of lighting devices each assigned a unique address, a plurality of lighting devices are identified by a unique address, and a control command for each lighting device is generated, and communication is performed. A control device for controlling the operation of the lighting device by transmitting a control command to the lighting device via the medium, wherein a group address for identifying one or a plurality of groups to which the one or more lighting devices belong, respectively. In a lighting control system having a function of group control provided to a lighting device and causing the lighting device to which the same group address is provided to perform the same operation, in the lighting control system, the total number of unique addresses and group addresses provided to the lighting device is predetermined. Change the management method of group control information necessary for group control when the value does not exceed the value It is characterized in.
[0014]
According to a second aspect of the present invention, in the first aspect of the present invention, the group control information is connected to the lighting device and the control device via a communication medium, and manages the group control information when the total number of addresses given to the lighting device exceeds a predetermined value. One or a plurality of terminal devices are provided.
[0015]
According to a third aspect of the present invention, in the first aspect of the present invention, the control device manages the group control information when the total number of addresses given to the lighting device exceeds a predetermined value.
[0016]
According to a fourth aspect of the present invention, in the second aspect of the present invention, the terminal device includes a sensor for detecting a condition related to control of the lighting device.
[0017]
According to a fifth aspect of the present invention, in the first aspect of the present invention, the method of recognizing a group address is changed when the total number of addresses given to the lighting device exceeds a predetermined value.
[0018]
According to a sixth aspect of the present invention, in the first aspect of the present invention, when the total number of addresses given to the lighting device exceeds a predetermined value, a group address exceeding the predetermined value is managed by a unique address.
[0019]
The invention according to claim 7 is the invention according to claim 6, further comprising: a brightness sensor device including a brightness sensor that detects ambient illuminance; and a human detection sensor device that detects presence or absence of a person in the detection area. The brightness sensor device manages group control information by a group address, and the motion detection sensor device manages group control information by a unique address.
[0020]
The invention of claim 8 is characterized in that, in the invention of claim 6, the group control information is managed by the unique address in a normal state, and the group control information is managed by the group address when an abnormality such as a fire occurs. I do.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
This embodiment basically includes the same components as the conventional example 3, that is, the control device 1, the lighting device 10, the human detection sensor device 20, and the like. The unique address and the group address assigned to the lighting device 10 The method is characterized in that the management method of group control information necessary for group control is changed depending on whether the total number does not exceed a predetermined value or not.
[0022]
FIG. 1 shows an example of a system configuration according to the present embodiment, in which a plurality of lighting devices 10 are provided. ₁ -10 ₁₀ And a plurality of human detection sensor devices 20 ₁ ~ 20 ₄ Are connected to the control device 1 by a bus via a signal line 40. Note that the upper limit of the total number of unique addresses and group addresses is 4, that is, the upper limit of the number of group addresses is 3, depending on the data length of the transmission signal. Although not shown, the human detection sensor device 20 _j A group address can be set for (j = 1, 2, 3, 4).
[0023]
Here, in the present embodiment, three lighting devices 10 ₁ -10 ₃ And one human detection sensor device 20 ₁ Are assigned the same group address Gr1, and the two lighting devices 10 ₄ , 10 ₅ And one human detection sensor device 20 ₂ Are assigned the same group address Gr2, and the two lighting devices 10 ₆ , 10 ₇ And one human detection sensor device 20 ₃ Are assigned the same group address Gr3, and the remaining three lighting devices 10 ₈ -10 ₁₀ Cannot be assigned another group address, so only a unique address is assigned.
[0024]
First, three human detection sensor devices 20 to which group addresses Gr1 to Gr3 are assigned. ₁ ~ 20 ₃ The operation when a person is detected in any of the above will be described. For example, the human detection sensor device 20 ₁ When the human body detection unit 21 detects that a person is present in the detection area and outputs a human body detection signal, the light source is turned on (ON) to the group address Gr1 assigned to itself as shown in FIG. The transmission signal S1 including the control command is transmitted from the signal transmission unit 22. Illumination device 10 provided with group address Gr1 ₁ -10 ₃ Then, the human detection sensor device 20 ₁ The transmission / reception unit 11 receives the transmission signal S1 transmitted from the control unit 13 and interprets the control command included in the transmission signal S1 by the control unit 13, and the control unit 13 responds to the control signal (the signal for turning on the light source). ) Is generated and output to the lighting circuit unit 12, so that the lighting circuit unit 12 lights the light source according to the control signal. Thereby, the human detection sensor device 20 that has detected a human ₁ Lighting device 10 belonging to the same group as ₁ -10 ₃ The control for turning on the light source is performed. Similarly, the human detection sensor device 20 ₂ When a person is detected by the human detection sensor device 20 ₂ Lighting device 10 to which the same group address Gr2 is assigned by the transmission signal S2 transmitted from ₄ , 10 ₅ Light source is turned on, and the human detection sensor device 20 ₃ When a person is detected by the human detection sensor device 20 ₃ Lighting device 10 to which the same group address Gr3 is given by the transmission signal S3 transmitted from ₆ , 10 ₇ Will be lit.
[0025]
Thus, in the conventional example 3, the human detection sensor device 20 ₁ ~ 20 ₃ The transmission signal transmitted from the control device 1 is received by the control device 1, and the lighting device 10 belonging to each group is ₁ , A transmission signal including a control command is transmitted to the human detection sensor device 20. ₁ ... from the control device 1, from the control device 1 to the lighting device 10. ₁ .., The transmission signal needs to be transmitted twice, once each time. However, in the present embodiment, the motion detection sensor device 20 is used. ₁ ~ 20 ₃ From the lighting device 10 without passing through the control device 1. ₁ Since the transmission signal including the control command is directly transmitted to..., The congestion of the signal line 40 can be reduced.
[0026]
Next, the human detection sensor device 20 to which no group address is assigned ₄ The operation when a person is detected will be described.
[0027]
Human detection sensor device 20 ₄ When the human body detection unit 21 detects that a person is present in the detection area and outputs a human body detection signal, the signal transmission unit 22 transmits the transmission signal S4 including the imaginary group address Gr4 and the human body detection data to the signal line 40. To send to. At this time, the lighting device 10 to which the group address Gr4 is assigned _i Does not exist, any lighting device 10 _i Also does not receive the transmission signal S4, and only the control device 1 receives the transmission signal S4. In the control device 1, the human detection sensor device 20 ₄ When the transmission / reception unit 2 receives the transmission signal S4 transmitted from the control unit 3, the control unit 3 generates a control command for turning on (ON) the light source and associates it with the fictitious group address Gr4 in advance as shown in FIG. Lighting device 10 ₈ -10 ₁₀ The transmission signals V8, V9 and V10 including the unique address (8 or 9 or 10) and the control command (ON) are sequentially transmitted from the signal transmitting / receiving unit 2 to the signal line 40. And the lighting device 10 ₈ -10 ₁₀ Then, when the transmission / reception unit 11 receives the transmission signals V8 to V10 including its own unique address, the control unit 13 interprets the control commands included in the transmission signals V8 to V10, and the control unit 13 responds to the control commands. By generating the control signal (signal for turning on the light source) and outputting the generated control signal to the lighting circuit unit 12, the lighting circuit unit 12 turns on the light source according to the control signal. In this way, the lighting device 10 corresponding to the imaginary group address Gr4 that cannot be set originally ₈ -10 ₁₀ Group control can be performed.
[0028]
As described above, in the present embodiment, the lighting device 10 _i When the total number of unique addresses and group addresses assigned to the lighting device 10 does not exceed a predetermined value. ₁ -10 ₃ And human detection sensor device 20 ₁ , Lighting device 10 ₄ , 10 ₅ And human detection sensor device 20 ₂ , Lighting device 10 ₆ , 10 ₇ And human detection sensor device 20 ₃ Group control information for group control is managed by group addresses Gr1 to Gr3 for a total of three groups of _i When the total number of unique addresses and group addresses given to the device exceeds a predetermined value, ₈ -10 ₁₀ And human detection sensor device 20 ₄ For the group consisting of ₈ -10 ₁₀ The group control information is managed by the unique address. Therefore, even if the data length of the transmission signals S1. Can be set to perform group control, and a so-called layout-free lighting control system that can flexibly cope with an increase in system scale while suppressing cost increase can be provided.
[0029]
(Embodiment 2)
As shown in FIG. 4, the system configuration of this embodiment is common to the first embodiment. This embodiment is different from the first embodiment in that the lighting device 10 corresponding to the fictitious group address Gr4 is used. ₈ -10 ₁₀ The unique address of the human detection sensor device 20 ₄ The transmission signals S8 and S9 including a control command for turning on the light source to a unique address corresponding to the group address Gr4, instead of transmitting the transmission signal S4 to the group address Gr4 when a person is detected. , S10 are sequentially transmitted to the signal line 40. That is, in the present embodiment, the lighting device 10 _i When the total number of addresses given to the user exceeds a predetermined value, the human detection sensor device 20 as a terminal device _j Manages the group control information.
[0030]
Human detection sensor device 20 ₄ Then, when the human body detection unit 21 detects the presence of a person in the detection area and outputs a human body detection signal, the signal transmission unit 22 generates a control command for turning on (ON) the light source, and generates a virtual group. The lighting device 10 previously associated with the address Gr4 ₈ -10 ₁₀ The transmission signals S8, S9 and S10 including the unique address and the control command (ON) are sequentially transmitted to the signal line 40. And the lighting device 10 ₈ -10 ₁₀ Then, when the transmission / reception unit 11 receives the transmission signals S8 to S10 including its own unique address, the control unit 13 interprets the control commands included in the transmission signals S8 to S10, and the control unit 13 responds to the control commands. The lighting circuit unit 12 turns on the light source according to the control signal by generating and outputting the control signal (signal for turning on the light source) to the lighting circuit unit 12.
[0031]
Thus, according to the present embodiment, the human detection sensor device 20 ₄ It is not necessary to transmit the transmission signal S4 to the control device 1 from the first embodiment. ₈ -10 ₁₀ Can be reduced by reducing the number of transmissions of the transmission signals S8 to S10 when performing the group control.
[0032]
(Embodiment 3)
In the present embodiment, the lighting device 10 _i The method is characterized in that the method of recognizing a group address is changed when the total number of addresses given to a group exceeds a predetermined value. FIG. 5 is a system configuration example of the present embodiment, and FIG. _i (I = 1, 2,..., 10). _i Storage unit 14a for storing the address value n of the unique address, _i And storage areas 14b to 14d for group addresses Gr1 to Gr3 for identifying a group to which the group belongs. Up to three group addresses Gr1 to Gr3 can be set at the same time. The lighting device 10 _i When a plurality of group addresses are assigned to a group, group control is performed by a transmission signal addressed to any of the group addresses, but when control command contents included in the transmission signals addressed to each group address conflict with each other, , The control command included in the transmission signal received later (priority priority) is executed.
[0033]
As shown in FIG. 5, the control device 1 includes ten lighting devices 10 ₁ -10 ₁₀ And four human detection sensors 20 ₁ ~ 20 ₄ Are connected via a signal line 40, and three lighting devices 10 ₁ -10 ₃ And one human detection sensor device 20 ₁ Are set as one group (this is called a “first group”), and two lighting devices 10 ₄ , 10 ₅ And one human detection sensor device 20 ₂ Are set in one group (this is called a “second group”), and two lighting devices 10 ₆ , 10 ₇ And one human detection sensor device 20 ₃ Are set in one group (this is called a “third group”), and three lighting devices 10 ₈ -10 ₁₀ And one human detection sensor device 20 ₄ Are set in one group (this is called a “fourth group”). And the lighting device 10 of the first group ₁ -10 ₃ And human detection sensor device 20 ₁ Is assigned a group address Gr1, and the lighting devices 10 of the second group ₄ , 10 ₅ And human detection sensor device 20 ₂ Is assigned a group address Gr2. On the other hand, the lighting device 10 of the third group ₆ , 10 ₇ And human detection sensor device 20 ₃ Are assigned two group addresses Gr3 and Gr1, and the lighting devices 10 of the fourth group ₈ -10 ₁₀ And human detection sensor device 20 ₄ Are also given two group addresses Gr3 and Gr2.
[0034]
Here, the operation of the group control of the first group and the second group to which only one group address is assigned is the same as that of the first embodiment (or the second embodiment), and therefore the description is omitted, and the two group addresses are used. The operation of the assigned third group and fourth group control will be described.
[0035]
For example, the human detection sensor device 20 belonging to the third group ₃ When the human body detection unit 21 detects that a person is present in the detection area and outputs a human body detection signal, the signal transmission unit 22 generates a control command for turning on (ON) the light source, as shown in FIG. After transmitting the transmission signal S3a including the control command (ON) to the one group address Gr3 assigned to the self on the signal line 40, the other self assigned to before the predetermined time T1 elapses. A transmission signal S3b including a control command addressed to the group address Gr1 is transmitted to the signal line 40. Lighting device 10 belonging to the third group ₆ , 10 ₇ Then, the human detection sensor device 20 ₃ After receiving the first transmission signal S3a transmitted from the first transmission / reception unit 11 for a predetermined time T1, and if the second transmission signal S3b is received within that time T1, the transmission signal S3a (S3b) is included. The control command is interpreted by the control unit 13, and the control unit 13 generates a control signal (signal for turning on the light source) corresponding to the control command and outputs the control signal to the lighting circuit unit 12. The light source is turned on according to. However, if the second transmission signal S3b is not received within the time T1, the lighting devices 10 belonging to the third group ₆ , 10 ₇ Does not perform any control operation ignoring the control command. In this case, the lighting device 10 belonging to the first group ₁ -10 ₃ Receives the transmission signal S3b, and turns on the light source according to the control command.
[0036]
The human detection sensor device 20 belonging to the fourth group ₄ When the human body detection unit 21 detects that a person is present in the detection area and outputs a human body detection signal, the signal transmission unit 22 generates a control command for turning on (ON) the light source, as shown in FIG. As described above, after transmitting the transmission signal S4a including the control command (ON) to the one group address Gr3 assigned to the self on the signal line 40, before the predetermined time T1 elapses, the other self assigned to the other group address Gr3. A transmission signal S4b including a control command addressed to the group address Gr2 is transmitted to the signal line 40. Lighting device 10 belonging to the fourth group ₇ -10 ₁₀ Then, the human detection sensor device 20 ₄ After receiving the first transmission signal S4a transmitted from the transmission / reception unit 11, the transmission / reception unit 11 waits for a predetermined time T1. If the second transmission signal S4b is received within the time T1, the transmission signal S4a (S4b) is included. The control command is interpreted by the control unit 13, and the control unit 13 generates a control signal (signal for turning on the light source) corresponding to the control command and outputs the control signal to the lighting circuit unit 12. The light source is turned on according to. However, if the second transmission signal S4b is not received within the time T1, the lighting devices 10 belonging to the fourth group ₈ -10 ₁₀ Does not perform any control operation ignoring the control command. In this case, the lighting devices 10 belonging to the second group ₄ , 10 ₅ Receives the transmission signal S4b, and turns on the light source according to the control command.
[0037]
As described above, in the present embodiment, for the first group and the second group, the group addresses Gr1 and Gr2 are recognized as addresses for each group as they are, and for the third and fourth groups, the group address Gr3 and other Of the group address Gr1 or Gr2 is recognized as an address for each group. _i The number of groups exceeding a specified number (three in the present embodiment) can be set and group control can be performed without increasing the capacity of the storage unit 14 of this embodiment, and lighting with a high degree of freedom in design can be achieved while reducing costs. A control system can be provided.
[0038]
(Embodiment 4)
In the present embodiment, as shown in FIG. ₁ -10 ₁₀ And two human detection sensors 20 ₁ , 20 ₂ And one illuminance detection sensor device 50 are connected via the signal line 40, and the six illuminating devices 10 ₁ -10 ₃ , 10 ₈ -10 ₁₀ And one illuminance detection sensor device 50 are set in one group (this is referred to as a “first group”), and two illuminating devices 10 ₄ , 10 ₅ And one human detection sensor device 20 ₁ Are set in one group (this is called a “second group”), and two lighting devices 10 ₆ , 10 ₇ And one human detection sensor device 20 ₂ Are set in one group (this is called a “third group”). And the lighting device 10 of the first group ₁ -10 ₃ , 10 ₈ -10 ₁₀ And the illuminance detection sensor device 50 is assigned a group address Gr1, and the illumination devices 10 of the second and third groups are assigned. ₄ -10 ₇ Does not have a group address.
[0039]
The illuminance detection sensor device 50 includes a photoelectric conversion element or the like as shown in FIG. 10, detects an illuminance of the surroundings, and outputs an illuminance reduction signal when the ambient illuminance falls below a predetermined threshold. When the illuminance lowering signal is output from the illuminance detector 51, the illumination device 10 _i And a signal transmission unit 52 that generates a control command for turning on the light source or increasing the light output with respect to the group, and transmits the generated control command to a group address assigned to the self via the signal line 40 by a transmission signal. are doing.
[0040]
Here, the human detection sensor device 20 ₁ , 20 ₂ The operation of group control of the second group and the third group to which the illuminance detection sensor device 50 belongs is the same as that of the second embodiment, and a description thereof will be omitted.
[0041]
When the illuminance detection unit 51 of the illuminance detection sensor device 50 outputs the illuminance decrease signal, the signal transmission unit 52 generates a control command for increasing the light output of the light source, and sends the control command to the group address Gr1 assigned to itself. The transmission signal S5 including the control command is transmitted to the signal line 40. Lighting device 10 belonging to the first group ₁ -10 ₃ , 10 ₈ -10 ₁₀ Then, if the transmission signal S5 transmitted from the illuminance detection sensor device 50 is received by the signal transmission / reception unit 11, the control command included in the transmission signal S5 is interpreted by the control unit 13, and the control unit 13 performs control according to the control command. By generating a signal (a signal for increasing the light output of the light source) and outputting the signal to the lighting circuit unit 12, the lighting circuit unit 12 increases the light output of the light source according to the control signal.
[0042]
Usually, in the group including the illuminance detection sensor device 50, the lighting devices 10 belonging to the group _i Is relatively large, but the number of groups on the system is relatively small. On the other hand, the human detection sensor device 20 _j The lighting device 10 belonging to the group _i Are relatively small, and conversely, the number of groups on the system tends to be relatively large. Therefore, in a system in which the total number of group addresses is limited, the human detection sensor device 20 _j If you use too many groups, you tend to run out of group addresses.
[0043]
However, in the present embodiment, the group including the illuminance detection sensor device 50 (the first group) is controlled by the group address Gr1, and the human detection sensor device 20 is controlled. _i Group (second and third groups) is controlled by using a unique address, so that the group address can be used effectively, and the apparent total number of groups can be increased. The degree of freedom in design can be increased.
[0044]
(Embodiment 5)
In the present embodiment, as shown in FIG. ₁ -10 ₁₀ And three human detection sensors 20 ₁ ~ 20 ₃ Are connected via a signal line 40, and the five lighting devices 10 ₁ -10 ₅ And one human detection sensor device 20 ₁ Are set as one group (this is called a “first group”), and five lighting devices 10 ₄ , 10 ₅ , 10 ₈ -10 ₁₀ And one human detection sensor device 20 ₂ Are set in one group (this is called a “second group”), and two lighting devices 10 ₆ , 10 ₇ And one human detection sensor device 20 ₃ Are set in one group (this is called a “third group”). And the lighting device 10 of the first group ₁ -10 ₃ And human detection sensor device 20 ₁ Is assigned a group address Gr1, and the lighting devices 10 of the second group ₈ -10 ₁₀ And motion sensor device 20 ₂ Is assigned a group address Gr2, and the third group of lighting devices 10 ₆ , 10 ₇ And human detection sensor device 20 ₂ Is assigned a group address Gr3. However, the lighting devices 10 belonging to both the first and second groups ₄ , 10 ₅ Has no group address, and these lighting devices 10 ₄ , 10 ₅ Each of the human detection sensors 20 of the first and second groups to which the ₁ , 20 ₂ Each lighting device 10 ₄ , 10 ₅ Is stored.
[0045]
That is, the lighting devices 10 belonging to both the first group and the second group ₄ , 10 ₅ When the group addresses Gr1 and Gr2 are given to the lighting device 10 as described in the third embodiment. ₄ , 10 ₅ In the first embodiment, the control command is processed with a higher priority. ₁ Lighting device 10 based on the human body detection result by ₄ , 10 ₅ Immediately after the light source is turned on, the human detection sensor device 20 of the second group ₂ Lighting device 10 by a control command from ₄ , 10 ₅ May turn off the light source. In order to avoid such a phenomenon, two lighting devices 10 ₄ , 10 ₅ May be set to another group and a group address may be separately assigned, but the group address cannot be assigned because the total number of group addresses is limited to three. Therefore, in the present embodiment, the lighting devices 10 belonging to two groups ₄ , 10 ₅ Is not assigned a group address, and group control is performed using a unique address.
[0046]
For example, the human detection sensor device 20 belonging to the first group ₁ When the human body detection unit 21 detects that a person is present in the detection area and outputs a human body detection signal, the signal transmission unit 22 generates a control command for turning on the light source, and the group assigned to the self. The transmission signal S1 including the control command is sent to the signal line 40 to the address Gr1. Lighting device 10 belonging to only the first group ₁ -10 ₃ Then, the human detection sensor device 20 ₁ When the transmission / reception unit 11 receives the transmission signal S1 transmitted from the transmission unit 11, the control command included in the transmission signal S1 is interpreted by the control unit 13, and the control unit 13 responds to the control signal (the signal for turning on the light source). ) Is generated and output to the lighting circuit unit 12, so that the lighting circuit unit 12 lights the light source according to the control signal. On the other hand, the lighting devices 10 belonging to the first and second groups ₄ , 10 ₅ For each of the lighting devices 10 from the control device 1 having received the transmission signal S1 ₄ , 10 ₅ The control signal V1 including the control command is transmitted to the unique address of the lighting device 10 by receiving the control signal V1. ₄ , 10 ₅ , The light source is turned on. The control device 1 transmits the control signal V1 to the human detection sensor device 20 which transmits the control signal V1. ₁ I remember.
[0047]
The human detection sensor device 20 belonging to the second group ₂ When the human body detection unit 21 detects that a person is present in the detection area and outputs a human body detection signal, the signal transmission unit 22 generates a control command for turning on the light source, and the group assigned to the self. The transmission signal S2 including the control command is transmitted to the address Gr2 on the signal line 40. Lighting device 10 belonging to only the second group ₈ -10 ₁₀ Then, the human detection sensor device 20 ₂ When the transmission / reception unit 11 receives the transmission signal S2 transmitted from the control unit 11, the control unit 13 interprets the control command included in the transmission signal S2, and the control unit 13 responds to the control signal (a signal for turning on the light source). Is generated and output to the lighting circuit unit 12, so that the lighting circuit unit 12 lights the light source according to the control signal. On the other hand, the lighting devices 10 belonging to the first and second groups ₄ , 10 ₅ Is transmitted from the control device 1 that has received the transmission signal S2 to the lighting devices 10 ₄ , 10 ₅ A control signal V2 including the control command is transmitted to the unique address of the lighting device 10 by receiving the control signal V2. ₄ , 10 ₅ Is performed to turn on the light source. Note that the control device 1 transmits the transmission signal S2 to the human detection sensor device 20 that has transmitted the transmission signal S2. ₂ I remember.
[0048]
Then, the human detection sensor device 20 belonging to the first group ₁ When the human body detection unit 21 does not detect the presence of a person in the detection area for a predetermined time or more, the signal transmission unit 22 generates a control command for turning off the light source and sends the control command to the group address Gr1 assigned to itself. The transmission signal S1 'including the control command is transmitted. Then, the lighting device 10 belonging to only the first group ₁ -10 ₃ Then, the human detection sensor device 20 ₁ When the transmission / reception unit 11 receives the transmission signal S1 ′ transmitted from the control unit 13, the control unit 13 interprets the control command included in the transmission signal S1 ′, and the control unit 13 controls the control signal (turns off the light source) according to the control command. A signal is generated and output to the lighting circuit unit 12, so that the lighting circuit unit 12 turns off the light source according to the control signal. At this time, the control device 1 also receives the transmission signal S1 ', but the lighting devices 10 belonging to the two groups. ₄ , 10 ₅ As for, the transmission source of the last received transmission signal S2 is stored, and since the last transmission source does not match the transmission source of the transmission signal S1 ', no transmission signal including the control command is transmitted. Therefore, the lighting device 10 ₄ , 10 ₅ In this case, the light source remains lit without being turned off.
[0049]
On the other hand, the human detection sensor device 20 belonging to the second group ₂ When the human body detection unit 21 does not detect the presence of a person in the detection area for a predetermined time or more, the signal transmission unit 22 generates a control command for turning off the light source and sends the control command to the group address Gr2 assigned to itself. The transmission signal S2 'including the control command is transmitted. Then, the lighting devices 10 belonging to only the second group ₈ -10 ₁₀ Then, the human detection sensor device 20 ₂ The transmission / reception unit 11 receives the transmission signal S2 ′ transmitted from the control unit 13 and interprets the control command included in the transmission signal S2 ′ by the control unit 13, and the control unit 13 controls the control signal (turns off the light source) according to the control command. A signal is generated and output to the lighting circuit unit 12, so that the lighting circuit unit 12 turns off the light source according to the control signal. At this time, the control device 1 uses the lighting devices 10 belonging to the second group. ₄ , 10 ₅ Since the last transmission source and the transmission source of the transmission signal S2 ′ match, the transmission signal V2 including the control command is transmitted to the lighting device 10 ₄ , 10 ₅ Are sequentially transmitted to a unique address of the lighting device 10. ₄ , 10 ₅ Will be turned off.
[0050]
Thus, in the present embodiment, the lighting devices 10 belonging to a plurality of groups ₄ , 10 ₅ Even those lighting devices 10 ₄ , 10 ₅ It is not necessary to separately assign a group address to the group, and a highly flexible group control can be performed without being limited to the specified number of group addresses.
[0051]
(Embodiment 6)
In this embodiment, as shown in FIG. ₁ -10 ₅ And two human detection sensors 20 ₁ , 20 ₂ Are connected via a signal line 40, and three lighting devices 10 ₁ -10 ₃ And one human detection sensor device 20 ₁ Are set as one group (this is called a “first group”), and two lighting devices 10 ₄ , 10 ₅ And one human detection sensor device 20 ₂ Are set in one group (this is called a “second group”). In addition, all the lighting devices 10 ₁ -10 ₅ Is assigned a group address Gr1. Here, the group control information of the first group and the second group, that is, the lighting devices 10 belonging to the first group ₁ -10 ₃ And human detection sensor device 20 ₁ Device 10 belonging to the second group and the second group ₄ , 10 ₅ And human detection sensor device 20 ₂ Is stored in the storage unit 4 of the control device 1.
[0052]
Therefore, the human detection sensor device 20 belonging to the first group ₁ The control unit 3 receives the transmission signal S1 including the unique address and the human body detection data from ₁ Lighting device 10 having a unique address associated with the same group as the unique address of ₁ -10 ₃ A control command for performing lighting control of the first group of lighting devices 10 is generated. ₁ -10 ₃ The transmission signal V1 including the above-mentioned control command is sequentially transmitted to the unique address. Similarly, the human detection sensor device 20 belonging to the second group ₂ The control unit 3 receives the transmission signal S2 including the unique address and the human body detection data from the ₂ Lighting device 10 having a unique address associated with the same group as the unique address of ₄ , 10 ₅ A control command for performing lighting control of the second group of lighting devices 10 is generated. ₄ , 10 ₅ The transmission signal V2 including the control command is sequentially transmitted to the unique address. On the other hand, the lighting device 10 receiving the transmission signals V1 and V2 _i Then, the light source is turned on by interpreting the control command.
[0053]
Since all the transmission signals S1 are exchanged via the control device 1 in this manner, the motion detection sensor device 20 ₁ , 20 ₂ Lighting device 10 _i There is a slight time delay before the light source is turned on. _i This is not a problem if it is used for normal lighting.
[0054]
Here, the lighting device 10 of the present embodiment _i One of the lighting devices 10 ₅ However, this is an emergency light with a built-in fire alarm that detects smoke or heat to notify the occurrence of a fire, and transmits an alarm from the fire alarm to the control device 1 by a transmission signal. The details of the fire alarm are well known in the related art, and thus the description thereof is omitted.
[0055]
Thus, the lighting device 10 ₅ Then, the control unit 13 having received the alarm from the built-in fire alarm transmits a transmission signal SE of the fire alarm to the control device 1. In the control device 1 that has received the transmission signal SE, the control unit 3 controls the other lighting devices 10 to notify the occurrence of a fire. ₁ -10 ₄ Is generated, and a transmission signal VE including the control command is transmitted to the group address Gr1 (see FIG. 13). However, in order to surely transmit the transmission signal VE, the control device 1 transmits the transmission signal VE several times. Then, each lighting device 10 receiving this transmission signal VE ₁ -10 ₄ Changes the illuminance by changing the light output of the light source, whereby the lighting device 10 ₁ -10 ₄ Can notify a person in a living room or the like where the is installed of a fire.
[0056]
As described above, in the present embodiment, the group control information is normally managed by the unique address, and the group control information is managed by the group address Gr1 when an abnormality such as a fire requiring reliability and speed occurs. Lighting device 10 when an abnormality occurs. ₁ -10 ₄ There is no time delay in the group control, and a highly reliable system can be constructed.
[0057]
【The invention's effect】
According to the first aspect of the present invention, a plurality of lighting devices each assigned a unique address, the plurality of lighting devices are identified by the unique addresses, a control command for each lighting device is generated, and the lighting device is controlled via the communication medium. A control device that controls the operation of the lighting device by transmitting a command, wherein a group address for identifying one or more groups to which the one or more lighting devices belong is assigned to the lighting device, and the same In a lighting control system having a group control function of causing a lighting device to which a group address is assigned to perform the same operation, when the total number of unique addresses and group addresses assigned to the lighting device does not exceed a predetermined value The method of managing group control information necessary for group control is changed between Without increasing the total number of addresses that can be set by increasing the data length of the signal for transmitting the address and control commands, without limiting the number of group addresses that can actually be set. Group control can be performed, and it is possible to flexibly cope with an increase in system scale while suppressing an increase in cost.
[0058]
According to a second aspect of the present invention, in the first aspect of the present invention, the group control information is connected to the lighting device and the control device via a communication medium, and manages the group control information when the total number of addresses given to the lighting device exceeds a predetermined value. One or a plurality of terminal devices are provided, and congestion of a signal line can be reduced by transmitting a control command directly to a lighting device without using a control device.
[0059]
According to a third aspect of the present invention, in the first aspect of the present invention, the control device manages the group control information when the total number of addresses given to the lighting device exceeds a predetermined value. A similar effect is achieved.
[0060]
A fourth aspect of the present invention is characterized in that, in the second aspect of the present invention, the terminal device includes a sensor for detecting a condition related to control of the lighting device, and has the same effect as the second aspect of the invention.
[0061]
According to a fifth aspect of the present invention, in the first aspect of the present invention, the method of recognizing a group address is changed when the total number of addresses given to the lighting device exceeds a predetermined value. The number of groups exceeding the specified number can be set and group control can be performed without increasing the number of lights, and a lighting control system with a high degree of design freedom while reducing costs can be provided.
[0062]
According to a sixth aspect of the present invention, in the first aspect of the invention, when the total number of addresses given to the lighting device exceeds a predetermined value, a group address exceeding the predetermined value is managed by a unique address. The unique addresses of the lighting devices belonging to the group are stored, and the number of group addresses that can be actually set is increased by transmitting a control command to these unique addresses during group control. It becomes possible to perform group control by setting a group.
[0063]
The invention according to claim 7 is the invention according to claim 6, further comprising: a brightness sensor device including a brightness sensor that detects ambient illuminance; and a human detection sensor device that detects presence or absence of a person in the detection area. The brightness sensor device manages group control information by a group address, and the motion detection sensor device manages group control information by a unique address. When the motion detection sensor device is frequently used, the group address is insufficient. And the group addresses can be used effectively, and the apparent total number of groups can be increased to increase the degree of freedom in design.
[0064]
The invention of claim 8 is characterized in that, in the invention of claim 6, the group control information is managed by the unique address in a normal state, and the group control information is managed by the group address when an abnormality such as a fire occurs. By transmitting control commands all at once using the group address, there is no time delay in group control when an abnormality occurs, and reliability can be improved.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing a first embodiment.
FIG. 2 shows a signal format of a transmission signal in the above.
FIG. 3 is a signal format of a transmission signal in the above.
FIG. 4 is a system configuration diagram showing a second embodiment.
FIG. 5 is a system configuration diagram showing a third embodiment.
FIG. 6 is a block diagram of the lighting device in the above.
FIG. 7 is a time chart for explaining the above operation.
FIG. 8 is a time chart for explaining the above operation.
FIG. 9 is a system configuration diagram showing a fourth embodiment.
FIG. 10 is a block diagram of the illuminance detection sensor device in the above.
FIG. 11 is a system configuration diagram showing a fifth embodiment.
FIG. 12 is a system configuration diagram showing a sixth embodiment.
FIG. 13 is an operation explanatory diagram of the above.
FIG. 14 is a system configuration diagram showing Conventional Example 1.
FIG. 15 is a system configuration diagram showing a second conventional example.
FIG. 16 is a system configuration diagram showing a third conventional example.
FIG. 17 is a block diagram of the lighting device in the above.
FIG. 18 is a block diagram of the human detection sensor device in Embodiment 1;
FIG. 19 is a block diagram of the operating device in Embodiment 1;
FIG. 20 is a block diagram of the control device in Embodiment 1;
FIG. 21 shows a signal format of a transmission signal in the above.
[Explanation of symbols]
1 controller
10 ₁ -10 ₁₀ Lighting equipment
20 ₁ ~ 20 ₄ Human detection sensor device
40 signal lines

Claims (8)

A plurality of lighting devices each having a unique address, a plurality of lighting devices are identified by a unique address, a control command for each lighting device is generated, and the control command is transmitted to the lighting device via a communication medium, thereby illuminating the lighting device. A control device for controlling the operation of the device, wherein a group address for identifying one or a plurality of groups to which the one or a plurality of the lighting devices belong is assigned to the lighting device, and the same group address is assigned to the lighting device In a lighting control system having a function of group control for causing a device to perform the same operation, a group control is performed when the total number of unique addresses and group addresses given to the lighting device does not exceed a predetermined value or not. A lighting control system characterized by changing a management method of necessary group control information. One or more terminal devices connected to the lighting device and the control device via the communication medium, and managing the group control information when the total number of addresses given to the lighting device exceeds a predetermined value. The lighting control system according to claim 1. The lighting control system according to claim 1, wherein the control device manages the group control information when the total number of addresses given to the lighting device exceeds a predetermined value. The lighting control system according to claim 2, wherein the terminal device includes a sensor that detects a condition related to control of the lighting device. 2. The lighting control system according to claim 1, wherein a method of recognizing a group address is changed when the total number of addresses given to the lighting device exceeds a predetermined value. 2. The lighting control system according to claim 1, wherein when the total number of addresses given to the lighting device exceeds a predetermined value, a group address exceeding the predetermined value is managed by a unique address. A brightness sensor device having a brightness sensor for detecting ambient illuminance, and a human detection sensor device for detecting the presence or absence of a person in the detection area, wherein the brightness sensor device manages group control information by a group address. 7. The lighting control system according to claim 6, wherein the motion detection sensor device manages the group control information by a unique address. 7. The lighting control system according to claim 6, wherein the group control information is managed based on the unique address in a normal state, and the group control information is managed based on the group address when an abnormality such as a fire occurs.

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