Source: https://patents.google.com/patent/JP4727965B2/en
Timestamp: 2019-12-08 16:33:08
Document Index: 249045850

Matched Legal Cases: ['art, 7', 'art, 8', 'art, 9', 'art, 38', 'art, 39', 'art, 40', 'art, 41', 'art, 42']

JP4727965B2 - Lighting control system - Google Patents
JP4727965B2
JP4727965B2 JP2004277240A JP2004277240A JP4727965B2 JP 4727965 B2 JP4727965 B2 JP 4727965B2 JP 2004277240 A JP2004277240 A JP 2004277240A JP 2004277240 A JP2004277240 A JP 2004277240A JP 4727965 B2 JP4727965 B2 JP 4727965B2
JP2004277240A
JP2006092917A5 (en
JP2006092917A (en
祐也 大澤
弘明 西川
2004-09-24 Application filed by 三菱電機株式会社, 三菱電機照明株式会社 filed Critical 三菱電機株式会社
2004-09-24 Priority to JP2004277240A priority Critical patent/JP4727965B2/en
2006-04-06 Publication of JP2006092917A publication Critical patent/JP2006092917A/en
2006-04-06 Publication of JP2006092917A5 publication Critical patent/JP2006092917A5/ja
2011-07-20 Publication of JP4727965B2 publication Critical patent/JP4727965B2/en
The present invention relates to a lighting apparatus that allows a user to arbitrarily change group settings and pattern settings of a control system.
The following technologies have been clarified as a technology for performing group setting / pattern setting of a lighting control system that combines a lighting control device and a lighting fixture. (For example, patent literature)
JP-A-9-35875 (page 3, right line 46, page 4, left line 20, FIGS. 1 to 3)
According to the illumination control system showing the embodiment of the invention of FIG. 1 to FIG. 3 of Patent Document 1, control information for group control or pattern control is stored in each control terminal so that illumination control is performed. It constitutes a lighting control system that does not require a central device.
However, it has been necessary to set a control condition for group or pattern control by transmitting a signal having strong directivity from the transmitter of the remote control operation switch to each control terminal.
The present invention has been made to solve the above-described problems of the conventional apparatus. According to the present invention, a signal having a strong directivity is transmitted from the transmitter of the remote control operation switch to each control terminal. An object of the present invention is to provide a lighting control system that does not transmit and does not set control conditions for group or pattern control, and simultaneously sets control conditions for group or pattern control for a plurality of control terminals. And
Lighting control system according to the present invention includes a plurality of control units having a first storage unit, and a first communication unit for transmitting and receiving a determine another part, a radio signal omnidirectional,
A display unit, a second storage unit, a second communication unit for transmitting and receiving radio signals omni-directional, meet lighting control system comprising a setting device having an input portion,
The second communication unit transmitting an address information request signal input from the input unit to the first communication unit ;
A step in which the address information request signal of the first communication unit a communication signal imparted with the address information stored in the first storage unit and to receive is transmitted to the second communication unit,
When the communication signal to which the address information is added is received, the address information is stored in the second storage unit, and a list of addresses corresponding to the address information stored in the second storage unit is displayed on the display unit. The second communication unit transmits an identification display signal to which the address information corresponding to the address selected from the address list displayed on the display unit is given to the first communication unit;
The identification display signal is received, and the determination unit collates the address information given to the received identification display signal with the address information stored in the first storage unit. When the address information matches, the step of performing identification display based on the identification display signal;
A plurality of addresses are selected from the list of addresses input to the input unit and displayed on the display unit, and address information corresponding to the selected plurality of addresses and group information to be set are given. Transmitting a group information signal from the second communication unit to the first communication unit;
The group information signal is received, and the determination unit collates the address information given to the received group information signal with the address information stored in the first storage unit. Storing the group information included in the group information signal as its own group information in the first storage unit when the address information matches,
It is what has .
Lighting control system according to the present invention, can the list of addresses corresponding to the address information received to the display unit together with the setter address information of the control unit is stored in the second storage unit is received by the display, the display unit The control unit to which the address information corresponding to the address selected from the list of addresses displayed on is assigned can be easily specified. In addition, a plurality of addresses can be selected from the list of addresses displayed on the display unit, and group information of each control unit having address information corresponding to the selected plurality of addresses can be set simultaneously.
FIGS. 1-18 is a figure which shows the structure of the lighting fixture in this Embodiment.
FIG. 1 is a block diagram showing an entire lighting system including a lighting fixture and a setting device.
The lighting fixtures 1a to 1i are respectively arranged on the ceiling, communicate with the control units 5a to 5i provided in the lighting fixtures 1a to 1i, and control the output of the lamp 2 provided in the lighting fixtures 1a to 1i. Yes.
The control units 5a to 5i provided in the lighting fixtures 1a to 1i can be arbitrarily grouped by the user. When the control units 5a to 5i are set as a group, for example, when the control units 5a to 5f are set as a group 1 and the control units 5g to 5i are set as a group 2, communication is performed between the control devices 5a to 5f set as the group 1. 2 is not affected by communication between the control units 5g to 5i set to 2. Moreover, if the control signal with respect to the group 1 is transmitted from an external apparatus, the control apparatus 5a-5f set to the group 1 can be controlled simultaneously, and the output of the lamp | ramp 2 with which the lighting fixtures 1a-1f were equipped is changed. be able to.
The group setting of the lighting fixture 1 is performed by the setting device 12, and the setting device 12 acquires address information for specifying the lighting fixture 1 from the lighting fixture 1 in the wireless signal reception area of the setting device 12 and acquires the address information. Based on the address information, group settings are made for the lighting fixtures 1a to 1i.
FIG. 2 is a perspective view showing the luminaire body.
The luminaire 1 shown in FIG. 2 includes a reflector 3, a lighting device 4 that lights the lamp 2 inside the reflector 3, and a lighting control signal corresponding to a received radio signal while performing wireless communication with other devices. Is provided with a control unit 5 that outputs to the lighting device 4, and the lamp 2 can be mounted.
The control unit 5 performs wireless communication by inputting / outputting a radio signal through the first antenna unit 6, and the radio signal is projected from the inside of the reflector 3 in order to make the radio signal less susceptible to the influence of the reflector 3.
Note that if wireless communication can be performed satisfactorily, the antenna 3 is not protruded from the inside of the reflector 3, and an antenna unit may be disposed on the back surface of the lighting fixture 1, for example.
FIG. 3 is a block diagram of a first control unit that controls the lighting state of the lighting fixture, and FIG. 4 is a flowchart of the first control unit provided in the lighting fixture.
The radio signal received by the antenna unit 6 is output to the receiving unit of the first radio communication unit 7 and converted into an electric signal (hereinafter referred to as a radio communication signal) by the first radio communication unit 7 to generate a first signal. It is input to the decoder of section 8. The decoder removes the header and end frame signal attached to the wireless communication signal, and outputs the data part to the first determination unit 9 as a transmission / reception signal. (Step 1)
The first discriminating unit 9 discriminates the presence / absence of address information in the transmission / reception signal (step 2). When it is discriminated that there is no address information, the first discriminating unit determines whether the signal contains an address information request signal. Next, a determination is made at 9 (step 3).
When it is determined in step 3 that the address information request signal is not included, a lighting control signal is output based on the transmission / reception signal to change the output of the lighting device (step 4).
In addition, when it is determined in step 3 that the address information request signal is included, the first determination unit 9 specifies an address for specifying each lighting device 1 stored in advance in the first storage unit 10. The information is read, the address information is converted into a transmission / reception signal (step 5), the first signal generation unit 8 adds a header, an end frame, etc. to convert it into a wireless communication signal, and further the first wireless communication unit 7 is converted into a radio signal and output via the first antenna unit 6. (Step 6)
In addition, in order to specify the luminaire 1, address information unique to the luminaire is stored in the first storage unit 10 in advance, for example, a MAC address composed of 48-bit data is stored. Further, the user may arbitrarily set an address for each lighting fixture 1 with a DIP switch or the like.
Next, when it is determined in step 2 that the transmission / reception signal has address information, the first determination unit 9 compares the address information with the address information stored in the first storage unit 10. (Step 7)
When it is determined in step 7 that the address information stored in the first storage unit 10 does not match with the first storage unit 10, a preset self-code is added to the received transmission / reception signal and output (step 8). The first signal generation unit 8, the first radio communication unit 7, and the first antenna unit 6 perform the process of step 6 and output a radio signal.
In the process of step 8, for example, when the lighting apparatus 1a receives a wireless signal including address information for the lighting apparatus 1i, the wireless signal is relayed to the lighting apparatus 1i. The self-code is given in order to prevent the lighting apparatus 1a from receiving the wireless signal transmitted from 1 again, that is, the transmission and reception of the wireless signal once relayed is repeated indefinitely.
Although not shown in the flowchart of FIG. 4, in step 8, the first determination unit 9 determines whether the wireless signal is assigned with a self-code for specifying the relayed luminaire 1. Is assigned, a self-code for specifying the relayed luminaire 1 is assigned to the radio signal when it does not match, and a radio signal is relayed. The process is not relayed.
In addition, a self-code different from the MAC address is assigned so that processing in the first determination unit 9 is not complicated, but a MAC address may be used.
Next, when it is determined in step 7 that the address information stored in the first storage unit 10 is the same as that in the first storage unit 10, it is determined in the first determination unit 9 whether the transmission / reception signal includes a group or pattern setting signal ( Step 9), when it is determined that the transmission / reception signal includes a group and a pattern setting signal, the group and pattern information included in the group and the pattern setting signal are stored in the first storage unit 10, and the setting is completed. The signal is output as a transmission / reception signal (step 10), the first signal generation unit 8, the first radio communication unit 7, and the first antenna unit 6 perform the process of step 6 to output a radio signal.
When it is determined in step 9 that the transmission / reception signal is not a group or pattern setting signal, the first determination unit 9 determines whether the transmission / reception signal includes a group or pattern signal (step 11). When it is determined that the pattern signal is not included, the transmission / reception signal is processed, all the lights are turned on and off, or an identification display described later is performed. (Step 12)
Further, when it is determined in step 11 that the group and pattern signal are included, the first determination unit 9 reads the group and pattern information stored in the first storage unit 10 and responds to the group and pattern information. The control signal is output to the first control signal generator 11. (Step 13)
Next, the group setting of the lighting fixture 1 is demonstrated.
FIG. 5 is a perspective view of a setting device 12 for setting the lighting device 1, FIG. 6 is a block diagram of the setting device 12, and FIGS. 7 and 8 are communication model diagrams showing communication between the lighting device 1 and the setting device 12. FIG. 9 is a flowchart showing group setting of the lighting fixture 1.
The setting device 12 shown in FIG. 5 includes a display unit 13 for displaying address information of the lighting fixture 1 and an input unit 14 for inputting information such as group setting / pattern setting of the lighting fixture 1. A setting unit 16 including a second antenna unit 15 that performs wireless communication with the first antenna unit 6 included in the setting unit 12 is provided inside the setting unit 12.
FIG. 7 is a model of steps 14 and 15 of the flowchart of FIG. 9 described later, and FIG. 8 is a model of step 16 of the flowchart of FIG.
The group setting will be described with reference to FIGS. 1, 3, 6 and 9.
When the mode switching button 23 of the setting device 12 is pressed, the display unit 13 is switched to display normal operation → group setting → pattern setting → normal operation. When the mode switch button 23 is pressed until the group setting is displayed on the display unit 13 and the setting button 26 is pressed, the group setting mode is set, and the group number is displayed on the display unit 13. When the direction button 22 is pressed, the cursor displayed on the display unit 13 is moved to select from the group number displayed on the display unit 13, and when the reception button 24 is pressed, an address information request signal is transmitted to the lighting fixture 1. (Step 14)
Next, the luminaires 1a to 1i that have received the address information request signal transmitted in step 14, that is, the luminaires 1a, 1d, 1e, 1g, and 1h that are within the wireless communication reception range of the setting device 12 are set in advance. The wireless signal with the address information stored in the storage unit 10 is transmitted to the setting device 12, and the setting device 12 receives the wireless signal. The address information of the received radio signal is stored in the second storage unit 19 and displayed on the display unit 13. (Step 15)
When the setting device 12 is moved and the reception button 24 is pressed again, the process returns to step 14, and the address information request signal is transmitted to the lighting fixture 1, and the wireless communication of the setting device 12 after the setting device 12 is moved is received. The luminaires 1b, 1c, 1f, 1i within the range receive the address information request signal. The received lighting fixtures 1b, 1c, 1f, and 1i transmit a wireless signal to which the address information stored in advance in the first storage unit 10 is added to the setting device 12, and the setting device 12 receives the wireless signal. . The received radio signal address information may be stored in addition to the address information already stored in the second storage unit 19 and also displayed on the display unit 13.
Further, during the group setting, the transmission output of the first antenna unit 6 and the second antenna unit 15 may be strengthened in order to widen the wireless communication reception range between the setting device 12 and the luminaire 1, and the reception sensitivity. May be raised.
Next, when the direction button 22 is pressed from the address displayed in step 15 to move the cursor to select an address for group setting and the confirmation button 25 is input, the identification display is displayed on the lighting apparatus 1a corresponding to the address where the cursor is placed. A signal, for example, a turn-off signal is transmitted to turn off the lighting fixture 1a, and the other lighting fixtures 1b to 1i are identified and displayed. (Step 16)
When the luminaire 1 for which the user sets the group is identified and displayed, the setting button 26 is pressed and stored in the temporary storage unit 28 of the setting device 12. (Step 17)
In addition, when the lighting fixture 1 identified and displayed is different from the lighting fixture 1 set by the user, for example, when the lighting fixture 1h is identified and displayed when setting the lighting fixture 1d, the direction button 22 is pressed to select another address. Steps 16 and 17 are performed.
In addition, when there is a luminaire 1 set to the same group number, for example, when setting the luminaire 1a and the luminaire 1e to the same group 1, the cursor is moved by pressing the direction button 22 from the address displayed on the display unit 13. Then, another address is selected and the processing of step 16 and step 17 is performed.
Next, when other lighting fixtures 1 are not added, the transmission button 27 is input, and the wireless signal with the address information and group number information stored in the temporary storage unit 28 in step 17 is sent from the setting device 12 to the lighting fixture 1. Send to. (Step 18)
The luminaire 1 that has received the wireless signal transmitted in step 18 collates the address information given to the wireless signal with the address information stored in the first storage unit 10, and when this matches, The group number information given to the radio signal is stored in the first storage unit 10, and a setting completion signal is transmitted to notify the setting device 12 that the group setting has been normally completed. When the setting device 12 receives this setting completion signal and receives it from the luminaire 1 at the address transmitted in step 18, it determines that the group setting has been completed normally. (Step 19)
When finishing the group setting, the confirmation button 25 is inputted to complete the group setting. When continuing the group setting, the direction button 22 is pressed and the group number is selected in step 14. (Step 20)
In addition, when continuing the group setting of the same group number, the display unit 13 is displayed as adding a lighting fixture in step 20, the direction button 22 is pressed so that the lighting fixture addition can be selected, and the reception button of step 14 is pressed. It can be made to return to.
Next, group setting with different group numbers in the already set areas will be described with reference to FIGS. 1, 3, 6, and 10. FIG.
In FIG. 10, the same processing parts as those in the flowchart shown in FIG. 9 are denoted by the same reference numerals, and the different parts are denoted by quotation marks.
When the mode switch button 23 of the setting device 12 is pressed to display the group setting on the display unit 13 and the setting button 26 is pressed to enter the group setting mode, the group number is displayed on the display unit 13. When the direction button 22 is pressed to move the cursor displayed on the display unit 13 to the group number for which group setting is performed, and the reception button 24 is pressed, an address information request signal is transmitted to the luminaire 1. (Step 14)
Next, the luminaire 1 that has received the address information request signal transmitted in step 14, that is, the luminaire 1 within the wireless communication reception range of the setting device 12, stores the group number information in the first storage unit 10. If the first determination unit 9 determines that the group number information is stored in the first storage unit 10, the address information and the group number information set in advance in the first storage unit 10 are The assigned radio signal is transmitted to the setting device 12. When group number information is not stored in the first storage unit 10, a wireless signal to which address information stored in advance in the first storage unit 10 is added is transmitted to the setting device 12.
During group setting, the transmission output of the first antenna unit 6 and the second antenna unit 15 may be increased in order to widen the wireless communication reception range between the setting device 12 and the lighting fixture 1, and the reception sensitivity may be increased. May be raised.
The setter 12 receives this radio signal, stores the address information in the second storage unit 19 and displays it on the display unit 13. At this time, when a radio signal to which the group number information is added together with the address information is received, the address is displayed in a group number frame based on the group number information.
When a wireless signal without group number information is received, an address is displayed in a group number frame for group setting. (Step 15 ')
When the direction button 22 is pressed from the address displayed in step 15 'to move the cursor to select an address for group setting and a confirmation button 25 is input, an identification display signal is sent to the lighting fixture 1 corresponding to the address where the cursor is placed. For example, a light extinction signal is transmitted to turn off the lighting fixture 1a, and the other lighting fixtures 1b to 1i are identified and displayed. (Step 16)
Next, group settings for other areas will be described.
FIG. 11 is a communication model diagram showing communication between the luminaire 1 and the setting device 12 in another area when the setting device 12 is moved to change the wireless communication reception range of the setting device 12.
After setting the lighting fixtures 1a, 1d, 1e, 1g, and 1h with the setting device 12, the setting device 12 is moved to make group settings for the other lighting fixtures 1b, 1c, 1f, and 1i.
As described above, when the group setting of the lighting fixtures 1a, 1d, 1e, 1g, and 1h is performed, the address information of the lighting fixtures 1a, 1d, 1e, 1g, and 1h is stored in the second storage unit of the setting device 12. However, the address information stored in the second storage unit 19 is deleted, and the address information of the other lighting fixtures 1b, 1c, 1f, and 1i is stored.
The address information may be additionally stored without erasing the address stored in the second storage unit 19, and in this case, this address information can be used for lighting control, for example, during normal operation after group setting.
Moreover, since it is the same as that of the flowchart shown in FIG. 10 and is the same as the group setting process with different group numbers in the already set area, the description is omitted.
Next, pattern setting will be described.
FIG. 11 is a block diagram showing the entire lighting control system constituted by the lighting fixture 1 and the setting device 12.
The control units 5a to 5i provided in the lighting fixtures 1a to 1i are configured so that the user can arbitrarily set a pattern. When the control devices 5a to 5i are set in a pattern, for example, the lighting fixtures 1a, 1c, 1e, 1g, and 1i are set to turn on the pattern 1, the pattern 2 is turned off, and the lighting fixtures 1b, 1d, 1f, and 1h are set to the patterns 1, 2. When both are set to light, the lighting fixtures 1a to 1i are turned on when the pattern 1 control signal is received from the external device, and the lighting fixtures 1a, 1c, 1e, 1g, and 1i are received when the pattern 2 control signal is received from the external device. The light fixtures 1b, 1d, 1f, and 1h are turned on.
This pattern setting is performed by the setting device 12, and the setting device 12 acquires address information for specifying the lighting devices 1 a to 1 i from the lighting devices 1 a to 1 i in the wireless signal reception area of the setting device 12. A pattern is set for the lighting fixtures 1a to 1i based on the address information.
FIG. 12 is a flowchart showing pattern setting of the luminaire 1.
When the mode switching button 23 is pressed to display the pattern setting on the display unit 13 and the setting button 26 is pressed, the pattern setting mode is entered, and the pattern number is displayed on the display unit 13. When the direction button 22 is pressed to move the cursor to the pattern number to be set and the reception button 24 is pressed, an address information request signal is transmitted to the lighting device 1. (Step 21)
Next, the luminaire 1 that has received the address information request signal transmitted in step 21, that is, the luminaire 1 within the wireless communication reception range of the setting device 12, is an address preset in the first storage unit 10. The wireless signal to which the information is added is transmitted to the setting device 12, and the setting device 12 receives the wireless signal, stores it in the second storage unit 19, and displays it on the display unit 13. (Step 22)
During the pattern setting, the transmission output of the first antenna unit 6 and the second antenna unit 15 may be increased in order to widen the wireless communication reception range between the setting device 12 and the lighting fixture 1, and the reception sensitivity may be increased. May be raised.
When the direction button 22 is pressed from the address displayed in step 22 to move the cursor to select an address for pattern setting, and the confirmation button 25 is input, an identification display signal is sent to the lighting apparatus 1a corresponding to the address where the cursor is placed, For example, a light extinction signal is transmitted to the lighting fixture 1a to turn off the lighting fixture 1a, and the other lighting fixtures 1b to 1i are identified and displayed. (Step 23)
When the lighting apparatus 1a for which the user sets a pattern is identified and displayed, the setting button 26 is pressed and stored in the temporary storage unit 28 of the setting device 12. (Step 24)
When a lighting fixture 1 different from the lighting fixture 1a for which the user sets a pattern is identified and displayed, the direction button is pressed to select another address, and the processing of step 23 and step 24 is performed.
When there is a lighting fixture 1 to be set to the same pattern number, the direction button 22 is pressed from the address displayed on the display unit 13 to move the cursor, another address is selected, and the processing of step 23 and step 24 is performed. Do.
Next, when no other lighting fixtures 1 are added, when the setting button 26 is pressed again, the display unit 13 displays a pattern lighting state such as all light, 70% dimming lighting, and extinction. When the pattern lighting state of the luminaire 1 selected up to step 24 is selected and the transmission button 27 is pressed, the address information and pattern information (pattern number and pattern lighting state) stored in the temporary storage unit 28 in step 24 are selected. ) Is transmitted from the setting device 12 to the luminaire 1. (Step 25)
The luminaire 1 that has received the signal transmitted in step 25 collates the address information given to this signal with the address information stored in the first storage unit 10, and if it matches, this signal Is stored in the first storage unit 10 and a setting completion signal is transmitted to notify the setting device 12 that the pattern setting has been completed normally. When the setting device 12 receives this setting completion signal and receives it from all the luminaires 1 of the address transmitted in step 25, it determines that the pattern setting has been completed normally. (Step 26)
Next, when the pattern setting is continued, for example, when another pattern number is set, the direction button 22 is pressed, the address information stored in the temporary storage unit is deleted, and the pattern number selection process in step 21 is performed in order.
When the pattern setting is finished, the confirmation button 25 is inputted to complete the pattern setting. (Step 27)
In this way, the address information request signal is transmitted from the setting device 12, and the wireless signal to which the address information is given from each lighting fixture 1 that has received the address information request signal is transmitted to the setting device 12, and the display unit 13 of the setting device 12. Since the address list is displayed on the screen, it is not necessary to record the address set in advance in the lighting fixture 1 when installing the lighting fixture 1 on the ceiling, and the user can easily operate by operating the setting device 12. The address of each lighting fixture 1 installed in can be confirmed.
Further, by selecting an address displayed on the setting device 12 and transmitting an identification display signal, the selected lighting device 1 can be easily identified, and the user can easily perform group setting and pattern setting.
In addition, in the present Example, although the case where communication with the lighting fixture 1 and the setting device 12 was performed by wireless communication was demonstrated, you may perform not only by wireless communication but by wired communication.
The present embodiment relates to a group setting of lighting fixtures and control units when the control unit is combined with the lighting control system of the first embodiment.
1, 2, 3, 4, 11, and 12 are diagrams showing the configuration of the illumination control system according to the present embodiment. Is omitted. 13 is a communication model diagram showing communication between the lighting fixture 1, the setting device 12, and the controller unit 29. FIG. 14 is a block diagram showing the configuration of the controller unit 29. As shown in FIG.
The control unit 29 includes an input device 33 that includes any one of the illuminance sensor 31, the human sensor 32, and the ON / OFF switch 30, an LED 34 that performs identification display when performing group setting, and the like, and illuminates according to a signal from the input device. A third control unit 36 that generates a control signal for the fixture 1 and communicates with the lighting fixture 1 or the setting device 12 from the third antenna unit 35 is provided.
Note that the control unit 29 having the illuminance sensor 31 in the input device 33 is the illuminance sensor unit 43, the control unit 29 having the human sensor 32 is the control having the human sensor unit 44, and the ON / OFF switch 30. The unit 29 is an ON / OFF switch unit 42.
The group setting will be described when combining luminaire 1 and the control unit 29.
By setting groups in the lighting fixture 1 and the control unit 29, the control unit 29 controls the lighting state of the lighting fixture 1 for the lighting fixture 1 set to the same group number as the group number set in the control unit 29. can do.
Next, the group setting of the control unit 29 will be described. FIG. 15 is a flowchart showing group setting of the lighting fixture 1 and the control unit 29.
When the mode switch button 23 of the setting device 12 is pressed, the display unit 13 is switched and displayed in the order of normal operation → group setting → pattern setting → normal operation. When the mode switch button 23 is pressed until the group setting is displayed on the display unit 13 and the setting button 26 is pressed, the group setting mode is set and the group number is displayed on the display unit 13. When the direction button 22 is pressed to move to the group number where the cursor is set and the reception button 24 is pressed, an address information request signal is transmitted to the luminaire 1 and the control unit 29. (Step 28)
Next, the luminaire 1 and the control unit 29 that have received the address information request signal transmitted in step 28, that is, the luminaire 1 and the control unit 29 within the wireless communication reception range of the setting device 12 are stored in the first storage unit. Alternatively, a wireless signal with address information set in advance in the third storage unit is transmitted to the setting device 12, and the setting device 12 receives this wireless signal. The address information of the received radio signal is stored in the second storage unit 19 and displayed on the display unit 13. (Step 29)
When the direction button 22 is pressed from the address displayed in step 29 to move the cursor to select an address for group setting and the confirmation button 25 is input, the lighting apparatus 1 or the control unit 29 corresponding to the address where the cursor is placed is input. An identification display signal is transmitted for identification display. For example, when the target for group setting is the luminaire 1, the target luminaire 1a is extinguished and is displayed in a different manner from the lighting state of the other luminaires 1b to 1i, and the target for group setting is the control unit 29. In some cases, the LED 34 or the like provided in the control unit 29 is turned on to display the identification. (Step 30)
When the luminaire 1 or the control unit 29 to be group-set by the user is identified and displayed, the setting button 26 is input and stored in the temporary storage unit 28 of the setting device 12. (Step 31)
When the luminaire 1 or the control unit 29 that is identified and displayed is different from the luminaire 1 or the control unit 29 that the user sets as a group, the direction button 22 is pressed to select another address, and the processing of step 30 and step 31 is performed. I do.
Further, when there is the lighting device 1 or the control unit 29 to be set to the same group number, the direction button 22 is pushed from the address displayed on the display unit 13 to move the cursor, and another address is selected. Process 31 is performed.
Next, when another lighting fixture 1 or control unit 29 is not added, a transmission button is input, and the wireless signal with the address information and group number information stored in the temporary storage unit 28 in step 31 is sent from the setting device 12. It transmits with respect to the lighting fixture 1 and the control unit 29. FIG. (Step 32)
The luminaire 1 or the control unit 29 that has received the wireless signal transmitted in step 32 collates the address information given to the wireless signal with the address information stored in the first storage unit 10 to make a match. When this is done, the group number information given to this signal is stored in the first storage unit 10 and a setting completion signal is transmitted to notify the setting device 12 that the group setting has been completed normally. When the setting device 12 receives this setting completion signal and receives it from all the lighting fixtures 1 or the control unit 29 of the address transmitted in step 32, it determines that the group setting has been completed normally. (Step 33)
When finishing the group setting, the confirmation button 25 is inputted to complete the group setting. (Step 34)
Thus, the address information request signal is transmitted from the setting device 12, the address signal is transmitted from each lighting fixture 1 that has received the address information request signal to the setting device 12, and the address list is displayed on the display unit 13 of the setting device 12. Is displayed, so that it is not necessary to record preset addresses when installing the lighting fixture 1 and the control unit 29 on the ceiling, wall surface, etc., and the user can easily install them by operating the setting device 12. The addresses of the luminaire 1 and the control unit 29 thus made can be confirmed.
Further, by selecting the address displayed on the setting device 12 and pressing the confirmation button 25 to give this address information and transmitting a radio signal, the selected lighting fixture 1 and the control unit 29 are identified and displayed. , The user can easily identify and group setting can be easily performed.
In addition, although the case where communication with the lighting fixture 1, the control unit 29, and the setting device 12 was performed by radio | wireless communication was demonstrated in a present Example, you may perform by not only radio | wireless communication but wired communication.
Further, a touch panel may be provided on the upper surface of the display unit of the setting device 12 and an address displayed on the display unit 13 may be touched for input, and the input unit 14 is not limited to an input button.
Next, the operation of the control unit 29 during normal operation will be described.
FIG. 16 is a flowchart of the illuminance sensor unit 43 during normal operation.
The illuminance sensor unit 43 measures the illuminance on the desk top surface during normal operation with the illuminance sensor 31, and has the same group number as the group number in which the illuminance sensor unit 43 is set so that the illuminance is preset. The light output of the lighting fixture 1 is controlled. The preset illuminance can be changed by the setting device 12 or the like.
The illuminance sensor 31 detects the illuminance on the desk surface, etc., and the third control signal generation unit 37 converts the illuminance into a control signal (step 35), which is compared with the reference illuminance preset and stored in the third storage unit 39. And match. (Step 36)
In step 36, if they do not coincide with each other, it is determined whether the illuminance is higher or lower than the reference illuminance. If it is higher, an output down signal for decreasing the output is output, and if lower, an output up signal for increasing the output is output. (Step 37)
The group number information stored in the third storage unit 39 is added to the output down signal or the output up signal output in step 37, and a radio signal is transmitted from the third antenna unit 35. (Step 38)
When the lighting apparatus 1 that has received the wireless signal in step 38 matches the group number information stored in the first storage unit, the light output of the lighting apparatus 1 is controlled based on the received wireless signal. To do.
As described above, the light output of the luminaire 1 is controlled so that the illuminance on the desk surface or the like is constant by repeatedly performing the processes of Steps 35 to 38.
FIG. 17 is a flowchart of the human sensor unit during normal operation.
The human sensor unit 44 detects infrared rays or the like emitted from a human by the human sensor 32 during normal operation, and turns on the luminaire 1 having the same group number as the group number set in the human sensor unit 44. When the predetermined time elapses after the human sensor 32 no longer detects infrared rays or the like emitted from a person, the lighting apparatus 1 is turned off.
A human sensor 32 detects a person and a third control signal generator converts it into a control signal (step 39). When a person is detected, a lighting signal is output as a transmission / reception signal. (Step 40)
When no person is detected in step 40, it is determined whether or not a predetermined time has passed since the detection of a person is stopped. When the predetermined time has passed, a turn-off signal is transmitted, and when the predetermined time has not passed, step 39 is executed. Return to. (Step 41)
The group number information stored in the third storage unit 39 is added to the turn-on signal or the turn-off signal output from step 40 or step 41, and a radio signal is transmitted from the third antenna unit 35. (Step 42)
When the lighting fixture 1 that has received the wireless signal in step 42 matches the group number information stored in the first storage unit, the lighting fixture 1 is turned on or off based on the received wireless signal. .
In this manner, the processing of step 39 to step 42 is repeatedly performed so that the lighting device 1 is turned on when a person is present, and the lighting device 1 is turned on / off so that the lighting device 1 is turned off after a predetermined time has elapsed since the absence of the person.
FIG. 18 is a flowchart of the ON / OFF switch unit during normal operation.
The ON / OFF switch unit 42 turns on / off the lighting fixture 1 having the same group number as the group number in which the ON / OFF switch unit 42 is set by pressing the ON / OFF switch 30 during normal operation.
An ON / OFF switch signal is input and converted into a control signal by the third control signal generation unit (step 43) to determine whether the signal is an ON signal or an OFF signal. In the case of, output a turn-off signal. (Step 44)
The group information stored in the third storage unit 39 is added to the turn-on signal or the turn-off signal output in step 44 and a radio signal is transmitted from the third antenna unit 35. (Step 45)
When the lighting apparatus 1 that has received the wireless signal in step 45 matches the group number information stored in the first storage unit, the lighting apparatus 1 is turned on or off based on the received wireless signal. .
In this way, the processing of step 43 to step 45 is repeatedly performed, and lighting / extinguishing of the lighting fixture 1 is controlled by operating the ON / OFF switch 30.
The present invention relates to the setting of a control system in which a plurality of control units are installed.
It is a block diagram of the illumination control system which shows the structure of Embodiment 1 of this invention. It is a perspective view of the lighting fixture main body which shows the structure of Embodiment 1 of this invention. It is a block diagram of the control unit which shows the structure of Embodiment 1 of this invention. It is a block diagram of the control unit which shows the structure of Embodiment 1 of this invention. It is a perspective view of the setting device which shows the structure of Embodiment 1 of this invention. It is a block diagram of the setting device of Embodiment 1 of this invention. It is a figure which shows communication of the setting device and lighting fixture of Embodiment 1 of this invention. It is a figure which shows communication of the setting device and lighting fixture of Embodiment 1 of this invention. It is a flowchart which shows the group setting of the lighting fixture of Embodiment 1 of this invention. It is a flowchart which shows the group setting of the lighting fixture of Embodiment 1 of this invention. It is a figure which shows communication of the setting device and lighting fixture of Embodiment 1 of this invention. It is a flowchart which shows the pattern setting of the lighting fixture of Embodiment 1 of this invention. It is a figure which shows communication of the setting device, lighting fixture, and control unit of Embodiment 2 of this invention. It is a block diagram of the control unit of Embodiment 2 of this invention. It is a flowchart which shows the group setting of the lighting fixture and control unit of the lighting control system of Embodiment 2 of this invention. It is a flowchart of the illumination intensity sensor unit 43 at the time of normal driving | operation of the illumination control system of Embodiment 2 of this invention. It is a flowchart of the human sensitive sensor unit at the time of the normal driving | operation of the illumination control system of Embodiment 2 of this invention. Flow chart showing operation It is a flowchart of the ON / OFF switch unit at the time of normal driving | operation of the illumination control system of Embodiment 2 of this invention.
DESCRIPTION OF SYMBOLS 1 Lighting fixture, 2 lamp | ramp, 3 reflector, 4 lighting apparatus, 5 1st control unit, 6 1st antenna part, 7 1st radio | wireless communication part, 8 1st signal generation part, 9 1st discrimination | determination , 10 first storage unit, 11 first control signal generation unit, 12 setting unit, 13 display unit, 14 input unit, 15 second antenna unit, 16 second control unit, 17 second control signal Generation unit, 18 second determination unit, 19 second storage unit, 20 second signal generation unit, 21 second wireless communication unit, 22 direction button, 23 mode switching button, 24 reception button, 25 confirmation button, 26 Setting button, 27 Send button, 28 Temporary storage unit, 29 Sensor unit, 30 ON / OFF switch, 31 Illuminance sensor, 32 Human sensor, 33 Sensor unit, 34 LED, 35 Third antenna unit, 3 6 3rd control unit, 37 3rd control signal generation part, 38 3rd discrimination | determination part, 39 3rd memory | storage part, 40 3rd signal generation part, 41 3rd radio | wireless communication part, 42 ON / OFF Switch unit, 43 Illuminance sensor, 44 Human sensor unit.
Plural control units having a first storage unit, and a first communication unit for transmitting and receiving a determine another part, a radio signal omnidirectional,
Lighting control system characterized by having a.
A plurality of control units having a first storage unit, a determination unit, and a first communication unit that transmits and receives omnidirectional radio signals;
An illumination control system comprising a setting unit having a display unit, a second storage unit, a second communication unit that transmits and receives omnidirectional radio signals, and an input unit,
The second communication unit transmitting an address information request signal input from the input unit to the first communication unit;
When the address information request signal is received, the first communication unit transmits a communication signal to which the address information stored in the first storage unit is assigned to the second communication unit;
A plurality of addresses are selected from the list of addresses input to the input unit and displayed on the display unit, and address information corresponding to the selected plurality of addresses and pattern information to be set are added. Transmitting a pattern information signal from the second communication unit to the first communication unit;
The pattern information signal is received, and the discriminating unit collates the address information given to the received pattern information signal with the address information stored in the first storage unit. Storing the pattern information included in the pattern information signal as its own pattern information in the first storage unit when the address information matches,
The system according to claim 1 or claim 2 wherein the control unit comprises a LED, characterized by an identification by the LED.
The lighting control system according to any one of claims 1 to 3, wherein the control unit is connected to a lighting device that lights a lamp, and the lighting state of the lamp is changed to identify and display.
The first discriminating unit compares the address information included in the communication signal received by the first communication unit with the address information held by the first communication unit. If they match, the processing based on the received communication signal is executed, If not, a step of giving a self-code that the self has to the received communication signal and executing a relay process of outputting a communication signal to which the self-code is given to another control unit ;
Lighting control system according to any one of claims 1 to 4, characterized in that it comprises a.
When the communication signal received by the first communication unit includes a self code assigned by itself, the communication signal in which the processing based on the received communication signal is not executed and the self code is assigned to another control unit A step of stopping the relay processing for outputting
The system according to claim 5, characterized in that it comprises a.
When set by the setting device, the first communication unit and the second communication unit increase the transmission output of the wireless communication or increase the reception sensitivity of the wireless communication. The illumination control system according to any one of claims 1 to 6 .
JP2004277240A 2004-09-24 2004-09-24 Lighting control system Active JP4727965B2 (en)
JP2004277240A JP4727965B2 (en) 2004-09-24 2004-09-24 Lighting control system
JP2006092917A JP2006092917A (en) 2006-04-06
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JP4727965B2 true JP4727965B2 (en) 2011-07-20
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JP2004277240A Active JP4727965B2 (en) 2004-09-24 2004-09-24 Lighting control system
JP (1) JP4727965B2 (en)
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2004-09-24 JP JP2004277240A patent/JP4727965B2/en active Active
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