JP3733788B2 - Lighting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a remote control device that instructs a predetermined process such as lighting / extinguishing or setting of an operation mode to a lighting fixture using a wireless signal (remote control signal), a wireless receiver that receives a wireless signal, and an output of the wireless receiver And a plurality of lighting fixtures having a control unit that performs the predetermined processing based on the above.
[0002]
[Prior art]
Conventionally, as shown in FIG. 11, a lighting system having a configuration in which a plurality of lighting fixtures 1 are connected to a main controller 10 (a center unit such as a control panel) via transmission signal lines Ls has been proposed. In this type of lighting system, a unique address AD (indicated as 001 to 004 in the illustrated example) is set for each lighting fixture 1, and the main control device 10 includes a control signal including address data. Is transmitted to the transmission signal line Ls, the lighting fixture 1 takes in the information associated with the address data matching the address of the lighting fixture 1 from the control signal, and controls the lighting state of the lighting fixture 1 based on the information. The operation mode is set. In short, in this lighting system, instructions such as lighting / extinction / operation mode can be individually given to each lighting fixture 1 by using addresses.
[0003]
Here, the luminaire 1 includes an illuminance sensor as a brightness sensor that detects the brightness in the detection area, and a human sensor as a human body detection sensor that detects the presence or absence of a person in the detection area, depending on the intended use. And a timer, etc., and appropriately control the lighting load for each operation mode. In addition to the address data, the control signal sent from the main control device 10 to the transmission signal line Ls is information that instructs lighting / extinguishing according to the time schedule, raising / lowering the dimming level, setting of various operation modes, and the like. Is included. Here, the operation mode includes a low output control mode in which the output of the illumination load is lower than the rated output, a brightness sensor control mode for controlling the illumination load based on the output of the brightness sensor (illuminance sensor), There is a human sensor control mode for controlling the illumination load based on the output of the sensor.
[0004]
In addition, the light fixture 1 is provided with a light receiving unit 7 that receives a wireless signal from the remote control device 9 so that the remote control device 9 includes a control signal including address data regardless of the presence or absence of the main control device 10. Can be used to instruct the lighting state or operation mode of the desired lighting fixture 1.
[0005]
As another lighting system, as shown in FIG. 12, different channels CH (shown as 01 and 02 in the illustrated example) are set between the adjacent lighting fixtures 1, and the remote control device 9 A proposal has also been made in which a desired lighting fixture 1 receives a wireless signal by specifying a channel according to a wireless signal to be transmitted.
[0006]
[Problems to be solved by the invention]
By the way, in the lighting system shown in FIG. 11, it is possible to instruct the lighting state and operation mode of a desired lighting fixture 1 using the remote control device 9 (that is, to instruct a predetermined process). It is necessary for the remote control device 9 or the operator of the remote control device 9 to store the address, and since the address of the desired lighting fixture 1 must be given and transmitted when transmitting the wireless signal, the operator (user) There is a problem that the operation and the configuration of the remote control device 9 are complicated, and the usability is not good. In addition, there is a problem that it is necessary to set an address for each lighting fixture 1 at the time of construction, and it takes time and effort.
[0007]
On the other hand, in the lighting system shown in FIG. 12 as well, it is possible to instruct the lighting state and operation mode of the desired lighting fixture 1 using the remote control device 9, but the remote control device 9 or the remote control device is used for the channel of each lighting fixture 1. Nine operators need to memorize, and since the channel of the desired lighting fixture 1 must be given when transmitting the wireless signal, the operation of the operator (user) and the configuration of the remote control device 9 are There was a problem that it was complicated and unusable. In addition, there is a problem that it is necessary to set a channel for each lighting fixture 1 at the time of construction, which takes time.
[0008]
Further, if no address or channel is set for each lighting fixture 1, when the lighting fixture 1 is installed adjacent to the lighting fixture 1, when a wireless signal is sent by the remote control device 9, the desired lighting fixture 1 is assigned. The adjacent lighting fixture 1 may receive a wireless signal to change the lighting state or set the operation mode. That is, if an address or a channel is not set for each lighting fixture 1 and the lighting fixtures 1 are installed adjacent to each other, the lighting state and operation of each lighting fixture 1 can be reliably performed using the remote control device 9. There was a problem that the mode could not be specified.
[0009]
In addition, in the lighting system having the configuration shown in FIG. 11, if an address is not set for each lighting fixture 1, to which lighting fixture 1 the control signal is sent when the control signal is sent from the main controller 10. There is a problem that it becomes unclear (means such as sending a control signal from the main control device 10 to the lighting fixture 1 physically connected to the unit are possible, but this means that the address is substantially Is equivalent to having).
[0010]
The present invention has been made in view of the above-described reasons, and its purpose is to perform predetermined processing only on a desired lighting fixture using a remote control device without setting an address, a channel, or the like for each lighting fixture. It is in providing the illuminating device which can be made to perform.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, the invention of claim 1 is based on a remote control device that instructs a lighting apparatus to perform predetermined processing using a wireless signal, a wireless receiver that receives a wireless signal, and an output of the wireless receiver. A plurality of lighting fixtures having a control unit that performs a predetermined process, each lighting fixture is provided with a communication unit that performs signal transmission between the lighting fixtures, and control of the lighting fixture that has received the wireless signal by the wireless reception unitWire after a specified timeControl of the luminaire that sends out a notification signal to notify that it has received the response signal via the communication unit and receives the notification signalIn the departmentEven when a wireless signal has been received, a predetermined process based on the wireless signalNotification within the above specified timeWhen a signal is received, predetermined processing based on the wireless signal is performed.A human body detection sensor that detects the presence or absence of a person in the detection area, and the control unit increases the number of human body detections by the human body detection sensor per unit time in the vicinity of the reception of the wireless signal. ShorteningControl of lighting fixtures that have received a notification signalIn the departmentEven when a wireless signal has been received, a predetermined process based on the wireless signalNotification within the previous specified timeWhen a signal is received, predetermined processing based on the wireless signal is not performed, so that only one desired lighting device is turned on using a remote control device without setting an address, a channel, or the like for each lighting device. Control and operation mode setting can be performed, so there is no need for the remote control device or the operator of the remote control device to store addresses and channels, and the operation of the operator and the configuration of the remote control device It is easy to use without the need for special addressing to connect transmission lines, and the installation of lighting fixtures is highly flexible and easy to install. Become.
[0014]
  Each lightingThe appliance includes a human body detection sensor that detects the presence or absence of a person in the detection area, and the control unit performs human body detection by a human body detection sensor per unit time near the time of reception of the wireless signal.Many timesShorten the above specified timeSo RimoWhen the operator of the control apparatus approaches and operates the desired lighting fixture, the desired lighting fixture can be controlled and the operation mode can be reliably set by the wireless signal.
[0016]
  Claim2InventionIn the invention of claim 1,When the attachment height is H, the minimum mounting pitch between the wireless receivers is L1, the detection range of the wireless receiver is conical, and the maximum detection range is θ1 with respect to the normal to the floor surface,
θ1 ≦ tan^-1(L1 / 2H)
The wireless reception of each lighting fixtureDetection rangeSince there is no overlap between adjacent lighting fixtures, it is possible to control the lighting state of only one desired lighting fixture and set the operation mode using a remote control device without setting an address or channel for each lighting fixture. The remote control device or the operator of the remote control device does not need to memorize the address and channel, the operation of the operator and the configuration of the remote control device are not complicated, and it is easy to use. Since it is not necessary to set an address, construction is facilitated without requiring special consideration in the way of connecting transmission lines.
[0017]
  Claim3The invention of claim2In this invention, when the transmission range of the wireless signal is conical and the angle with the center line in the transmission direction is θ2, the condition of θ2 <θ1 is satisfied, so only one desired lighting fixture is used using the remote control device. There is a high possibility that a wireless signal can be transmitted.
[0018]
  Claim4The invention of claim3In the present invention, when the maximum reachable range of the wireless signal is R,
R ≦ H / cosθ1
Therefore, it is possible to prevent the wireless signal from being received by the wireless receiver after being reflected on the floor or ceiling.
[0019]
  Claim5InventionIn the invention of claim 1,The attachment height is H, the minimum mounting pitch between the wireless receivers is L1, the detection range of the wireless receiver is conical, the maximum detection range is θ1 with respect to the perpendicular to the floor, and the remote control signal transmission range is When it is conical and the angle with the center line in the transmission direction is θ2,
θ2 <{tan^-1(H / (Htanθ1-L1)) − (90 ° −θ1)} / 2
and
θ2 <sin-1((L1 / 2) / Htanθ1)
The illumination that is adjacent to the desired luminaire along the transmission direction even when the detection ranges of the wireless receivers overlap each other between adjacent luminaires. It is possible to prevent a wireless signal from being received by the fixture, and to prevent a wireless signal from being received by a lighting fixture adjacent to the desired lighting fixture in a direction perpendicular to the transmission direction. There is a high possibility that the lighting state of only one desired lighting fixture can be controlled and the operation mode can be set using the remote control device without setting an address, channel, etc. in the fixture. There is no need for the operator to memorize the address and channel, the operator's operation and the configuration of the remote control device are not complicated, and the usability is improved. Also setting of addresses is facilitated construction without requiring any special consideration to connecting way of the transmission line by unnecessary.
[0020]
  Claim6The invention of claim5In the present invention, when the maximum reachable range of the wireless signal is R,
R ≦ H / cosθ1
Therefore, it is possible to prevent the wireless signal from being received by the wireless receiver after being reflected on the floor or ceiling.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
  (Reference Example 1)
  Of this reference exampleThe lighting device includes a plurality of lighting fixtures 1 as shown in FIG._i(I = 1, 2,...) And a lighting device 1 using a wireless signal_iAnd a remote control device 9 for instructing the lighting state. Here, lighting equipment 1₂And lighting equipment 1₃Transmission signal line L between₂₃Connected by the lighting fixture 1₃And lighting equipment 1₄Transmission signal line L between₃₄Connected by the lighting fixture 1₄And lighting equipment 1₅Transmission signal line L between₄₅Connected by.
[0022]
Each lighting fixture 1_iAs shown in FIG. 1B, each includes an illumination load 2 including a lamp such as a fluorescent lamp, and a light receiving unit 7 as a wireless receiving unit that receives a wireless signal. The lighting load 2 includes not only a lamp but also a lamp lighting circuit. Each lighting fixture 1_iIs attached to the ceiling surface, and the light receiving unit 7 is provided with the lighting fixture 1._iIt is provided on the lower surface of.
[0023]
The illumination load 2 and the light receiving unit 7 are connected to the control unit 4. On the other hand, the wireless signal transmitted from the remote control device 9 includes information instructing predetermined processing such as turning on / off according to the time schedule, raising / lowering the dimming level, setting of various operation modes, and the like. 4 can control the lighting load 2 to be turned on / off, increase / decrease the dimming ratio, and set the operation mode based on the output of the light receiving unit 7 that receives a wireless signal. Here, as the operation mode, the control unit 4 is a low output control mode in which the output of the lamp of the lighting load 2 is lower than the rated output, and the control unit 4 is a brightness sensor that detects the brightness in the detection area. A brightness sensor control mode for controlling the illumination load 2 based on the output of the illuminance sensor 3, and an illumination load based on the output of the human sensor 6 as a human body detection sensor for the controller 4 to detect the presence or absence of a person in the detection area There is a human sensor control mode for controlling 2. The control unit 4 is connected to a timer 8 that limits a predetermined time to be described later.
[0024]
Lighting fixture 1 that has received a wireless signal by the light receiving unit 7_iThe control unit 4 sends out a notification signal for notifying that a wireless signal has been received after a specified time via the communication unit 5. In addition, the luminaire 1 that has received the wireless signal by the light receiving unit 7_iThe control unit 4 of the other lighting device 1 within the specified time._iWhen a notification signal is received from the mobile phone, predetermined processing based on the wireless signal is not performed. Here, the specified time is the adjacent lighting device 1._iAre different from each other.
[0025]
Thus, for example, the luminaire 1 as an example._Three, Lighting fixture 1_ThreeThe communication unit 5 of the transmission signal line L_{twenty three}, L₃₄Through the lighting fixtures 1₂, 1_FourThe control unit 4 is controlled based on the received information.
[0026]
Furthermore, the lighting fixture 1_ThreeThe operation of the controller 4 will be specifically described with reference to FIG. When the control unit 4 receives a wireless signal (remote control signal) via the light receiving unit 7 (S1), the control unit 4 causes the timer 8 to count a predetermined time (S2). It is confirmed whether or not a notification signal has been received (S3). If a notification signal has been received, the received wireless signal is discarded (S4). That is, the predetermined process based on the wireless signal is not performed. After discarding the wireless signal, the transmission signal line L via the communication unit 5_{twenty three}, L₃₄A notification signal is sent to the wireless signal, and then the wireless signal reception waiting state is entered (S6). If it is determined whether or not a notification signal has been received via the communication unit 5 after a predetermined time has passed (S3), a predetermined process based on the received wireless signal is performed (S7). ), And then the transmission signal line L via the communication unit 5_{twenty three}, L₃₄A notification signal is sent to (S8), and then a wireless signal reception waiting state is entered (S6). Note that the operation of the control unit 4 described above is performed in various lighting fixtures 1._iBut the same is true.
[0027]
By the way, the lighting fixture 1 which adjoins the said predetermined time._iIf it is different between them, for example, lighting equipment 1_ThreeAnd lighting equipment 1_FourWhen both receive wireless signals simultaneously, both luminaires 1_Three, 1_FourTransmission signal line L₃₄It is possible to prevent the notification signal from being sent simultaneously. By the operation as described above, the lighting apparatus 1_FourEven if the wireless signal is received, the lighting fixture 1 is received when the notification signal is received._ThreeIt can be recognized that is the other party of the remote control device 9. In this case also, the lighting apparatus 1_FourSends a notification signal. In short, the lighting fixture 1 adjacent to the waiting time from when the wireless signal is received until the predetermined processing based on the wireless signal is performed._iPriority is given to accepting wireless signals by differentiating between them.
[0028]
  ButOf this reference exampleIn the illuminating device, the control unit 4 of the luminaire 1i that has received the wireless signal by the light receiving unit 7 sends out a notification signal that notifies that the wireless signal has been received via the communication unit 5, and the luminaire 1 that has received the notification signal._iEven when the control unit 4 receives a wireless signal, the control unit 4 does not perform the process based on the wireless signal when the notification signal is received before the predetermined process based on the wireless signal. 1_iWithout setting an address, a channel, etc. to the desired one lighting fixture 1 using the remote control device 9_iTherefore, the remote controller 9 or the operator of the remote controller 9 does not need to memorize addresses and channels, and the operator ( The operation of the user) and the configuration of the remote control device 9 are not complicated, and the usability is improved. In addition, since the address setting is not required, the signal transmission line L₁₂, L₂₃, L₃₄, L₄₅Lighting fixtures 1 without the need for special considerations_iThe degree of freedom of installation location is high and construction is easy.
[0029]
  In addition,In this reference exampleThe time from when the wireless signal is received until the notification signal is output is the above-mentioned specified time.
[0030]
  (Reference Example 2)
  AboveReference Example 1Then, the predetermined time is the lighting fixture 1._iSince it is fixed for each lighting device 1 that is easy to accept a wireless signal (highly likely to perform predetermined processing based on the wireless signal)_iLighting equipment 1 that is difficult to accept wireless signals_iMay occur.
[0031]
  Of this reference exampleThe lighting device solves this type of problem and is shown in FIG.Reference Example 1The configuration is characterized in that, when the control unit 4 receives a wireless signal via the light receiving unit 7 which is a wireless receiving unit, the predetermined time is randomly determined. That is,In this reference exampleIs the luminaire 1_iIt is determined at random without being fixed every time. Other operationsIs Reference Example 1The explanation is omitted because it is the same.
[0032]
  ButOf this reference exampleIn the illuminating device, the luminaire 1 in which the lighting state is easily controlled by the wireless signal and the operation mode is easily set._iLighting equipment 1 that is difficult to control and set by wireless signals_iCan be prevented from occurring.
[0033]
  (Embodiment1)
  The basic configuration of the lighting device of the embodiment is shown in FIG.Reference Example 1The control unit 4 is characterized in that the predetermined time is determined based on the output of the human sensor 6.
[0034]
  Here, the control unit 4 includes a table so that the predetermined time can be set according to the number (frequency) of human detection by the human sensor 6 received within a unit time (for example, several seconds). . By using this table, as shown in FIG. 3, the predetermined time (waiting time until signal determination) is set shorter as the number of human body detections per unit time increases. Other operationsIs Reference Example 1The explanation is omitted because it is the same as.
[0035]
Therefore, in the present embodiment, the control unit 4 shortens the prescribed time as the number of human body detections by the human sensor 6 per unit time near the time of reception of the wireless signal increases. Is the desired lighting fixture 1_iIn the case of operating close to the desired lighting fixture 1 by a wireless signal_iIt is possible to reliably control the lighting state and set the operation mode.
[0036]
  (Embodiment2)
  The basic configuration of this embodiment is the embodiment.1However, the above-described notification signal includes the content of the wireless signal, and the operation of the control unit 4 is different.₃The operation of the controller 4 will be described with reference to FIG. Note that the format of the notification signal and the wireless signal need not be the same.
[0037]
When the control unit 4 receives a wireless signal (remote control signal) via the light receiving unit 7 (S11), the control unit 4 responds to the number (frequency) of human body detection by the human sensor 6 received within a unit time (for example, several seconds). The predetermined time is set and the timer 8 counts the predetermined time (S12). When the predetermined time elapses, it is confirmed whether or not the notification signal is received via the communication unit 5 (S13). If so, the received wireless signal is compared with the content of the notification signal (S14), and if they are the same, the received wireless signal is discarded (S15). That is, the predetermined process based on the wireless signal is not performed. After discarding the wireless signal, other lighting fixtures 1_iThe notification signal received from the transmission signal line L via the communication unit 5_{twenty three}, L₃₄(S16), and then a wireless signal reception waiting state is entered (S17). When the received wireless signal does not match the content of the notification signal (S14), the notification signal received from another lighting fixture is transmitted via the communication unit 5 to the transmission signal line L._{twenty three}, L₃₄(S20), a predetermined process based on the received wireless signal is performed (S21), and the notification signal is transmitted to the transmission signal line L via the communication unit 5._{twenty three}, L₃₄(S22), and then a wireless signal reception waiting state is entered (S17).
[0038]
If a notification signal is not received when it is confirmed whether a notification signal is received via the communication unit 5 after a predetermined time has passed (S13), a predetermined process based on the received wireless signal is performed (S18). ), And then the transmission signal line L via the communication unit 5_{twenty three}, L₃₄A notification signal is sent to (S19), and then a wireless signal reception waiting state is entered (S17).
[0039]
Therefore, in this embodiment, the notification signal includes the content of the received wireless signal, receives the wireless signal, and other lighting fixtures 1_iLuminaire 1 that received a notification signal from_iThe controller 4 compares the received wireless signal with the received notification signal and does not perform a predetermined process based on the received wireless signal when the contents are the same. Lighting equipment 1_iLuminaire 1 that received a notification signal from_iThe control unit 4 of the received wireless signal is transmitted to another lighting device 1._iThe wireless signal can be selected by recognizing whether or not the signal has been transmitted.
[0040]
  (Embodiment3)
  The lighting device of this embodiment isEach of the above reference examples and each of the above embodimentsThe remote control device (see FIG. 1) similar to the light receiving unit 7 (see FIG. 6) that receives a wireless signal using infrared as a transmission medium, and the control unit (see FIG. 1) that performs predetermined processing based on the output of the light receiving unit 7 In the two lighting fixtures 1 that are installed closest to each other as shown in FIGS. 5 and 6 among the plurality of lighting fixtures 1 that are installed adjacent to the ceiling surface, the detection range of the light receiving unit 7 is as follows. It is characterized in that it is set as follows. In addition, the number of the lighting fixtures 1 may be two. Moreover, the lighting fixture 1 in this embodiment is the lighting fixture 1 provided with the communication part 5 (refer FIG. 1) like each said reference example and said each embodiment._i It is.
[0041]
As shown in FIGS. 5 and 6, the mounting height of the lighting fixture 1 (height from the floor surface of the light receiving unit 7) is H, the minimum mounting pitch between the light receiving units 7 is L1, and the detection range E1 of the light receiving unit 7 Is a conical shape, and when the maximum detection range E1 is θ1 with respect to the perpendicular to the floor surface, the condition that the maximum detection ranges E1 are in contact with each other as shown in FIG.
θ1 = tan^-1(L1 / 2H)
It becomes.
[0042]
Therefore, in this embodiment,
θ1 ≦ tan^-1(L1 / 2H)
The detection range E1 of the light receiving unit 7 is set so as to satisfy the above condition. Here, the detection range E1 of the light receiving unit 7 may be appropriately adjusted depending on the directivity of the light receiving element used in the light receiving unit 7 or the installation of an infrared shielding plate installed on the front side of the light receiving element.
[0043]
Therefore, in this embodiment, since the light receiving part 7 of each lighting fixture 1 does not overlap between the adjacent lighting fixtures 1, the lower side of the lighting fixture 1 so as to enter the detection range E <b> 1 of the light receiving unit 7 of the desired lighting fixture 1. Otherwise, it is difficult for the desired luminaire 1 to receive a wireless signal. Therefore, without setting an address, a channel, or the like for each luminaire 1, only one desired luminaire 1 is turned on using the remote control device. There is a high possibility that predetermined processing such as control and operation mode setting can be performed, and it is not necessary for the remote control device 9 or the operator of the remote control device 9 to memorize addresses and channels. The configuration of the remote control device 9 is not complicated and the usability is improved. In addition, since there is no need to set addresses, it is not necessary to connect the lighting fixtures 1 with transmission signal lines, and construction is easy. Even when connecting with transmission signal lines, special consideration is given to how to connect the transmission signal lines. Construction becomes easy without the need.
[0044]
In the above description, θ1 is set by setting the mounting height of the lighting fixture 1 (height from the floor of the light receiving unit 7) as H, but θ1 is set as H from the operation position of the remote control device. May be set.
[0045]
  (Embodiment4)
  By the way, the embodiment3Then, by setting θ1 as described above, it is possible to prevent the detection range E1 of the light receiving unit 7 from overlapping between adjacent lighting fixtures 1, but the detection range E1 of each light receiving unit 7 is shifted or blurred (that is, θ1). Misalignment and blur), the inclination of the lighting fixture 1 and the light receiving unit 7, the difference in the mounting height H of each lighting fixture 1, and the like, the detection range E1 of the light receiving unit 7 partially overlaps between adjacent lighting fixtures 1 There is a possibility.
[0046]
In the present embodiment, in order to solve this type of problem, as shown in FIG. 7, when the wireless signal transmission range E2 in the remote control device 9 is conical and the angle with the center line in the transmission direction is θ2. , Θ2 <θ1 so that the wireless signal transmission range E2 is set.
[0047]
Therefore, in this embodiment, even when the detection range E1 of the light receiving unit 7 partially overlaps between adjacent lighting fixtures 1, the remote control device 9 is used to wirelessly connect only one desired lighting fixture 1. The possibility that the signal can be transmitted is increased.
[0048]
  (Embodiment5)
  By the way, the embodiment3And embodiments4In the illuminating device, the remote controller 9 prevents the wireless signal from being received by the light receiving unit 7 of the luminaire 1 unless the operator of the remote controller 9 goes below the luminaire 1. Although the wireless signal can be received by only one, it is inconvenient because the wireless signal is not received by the light receiving unit 7 of the lighting fixture 1 unless the wireless signal is received below the lighting fixture 1.
[0049]
The present embodiment solves this type of problem, and as shown in FIG. 8, the transmission range E2 is conical from the direction along the adjacent direction of the adjacent lighting fixture 1, and the center in the transmission direction. When operating with a remote control device that transmits a wireless signal whose angle with the line is θ3, the mounting height of the lighting fixture 1 (height from the floor of the light receiving unit 7) is H, and the minimum mounting pitch between the light receiving units 7 L1 and the detection range E1 of the light receiving unit 7 is conical and the maximum detection range E1 is θ1 with respect to the perpendicular to the floor surface, that is, the maximum detection of the light receiving unit 7 as shown in FIG. When range E1 overlaps,
tanθ1 = X / H
Y = Htanθ1-L1
tan {2θ3 + (90 ° −θ1)} = H / (Htanθ1−L1)
2θ3 + (90 ° −θ1) = tan^-1(H / (Htanθ1-L1)
θ3 = {tan^-1(H / (Htanθ1-L1)) − (90 ° −θ1)} / 2
It becomes.
[0050]
Therefore, if the transmission range E2 of the remote control device is conical and the angle formed with the center line in the transmission direction is θ2,
θ2 <{tan^-1(H / (Htanθ1-L1)) − (90 ° −θ1)} / 2
By doing so, it is possible to prevent the wireless signals from being simultaneously received by the two luminaires 1 adjacent in the transmission direction of the wireless signal.
[0051]
Further, as shown in FIG. 9, when operating by a remote control device that transmits a wireless signal having a transmission range E2 having a conical shape from a direction orthogonal to the adjacent lighting fixture 1 and an angle with the center line in the transmission direction being θ4. ,
sinθ4 = (L1 / 2) / Htanθ1
θ4 = sin^-1((L1 / 2) / Htanθ1)
It becomes.
Therefore, θ2
θ2 <sin^-1((L1 / 2) / Htanθ1)
By doing so, it is possible to prevent the wireless signals from being simultaneously received by the two lighting fixtures 1 adjacent to each other along the direction orthogonal to the transmission direction of the wireless signals.
[0052]
In this embodiment,
θ2 <{tan^-1(H / (Htanθ1-L1)) − (90 ° −θ1)} / 2
and
θ2 <sin^-1((L1 / 2) / Htanθ1)
By setting θ2 so as to satisfy the following two conditions, even when the detection ranges E1 of the light receiving units 7 between the adjacent lighting fixtures 1 overlap, the desired lighting fixture 1 is aligned along the transmission direction. A wireless signal can be prevented from being received by the adjacent lighting device 1, and the wireless signal can be prevented from being received by the lighting device 1 adjacent to the desired lighting device 1 in the direction orthogonal to the transmission direction. There is a possibility that it is possible to control the lighting state of only one desired lighting fixture 1 or set the operation mode using the remote control device 9 without setting an address, a channel or the like for each lighting fixture 1. The remote control device 9 or the operator of the remote control device 9 does not need to store addresses and channels, and the operation of the operator (user) and the configuration of the remote control device become complicated. Usability is well without. Moreover, since there is no need to set an address, it is not necessary to connect the lighting fixtures 1 with transmission signal lines, so that construction is easy, and special consideration is given to how to connect the transmission signal lines even if they are connected with transmission signal lines. Construction is easy without the need for
[0053]
In the above description, θ1 is set by setting the mounting height of the lighting fixture 1 (height from the floor of the light receiving unit 7) as H, but θ1 is set as H from the operation position of the remote control device. May be set.
[0054]
  (Embodiment6)
  By the way, the above embodimentOf states 4 and 5As described above, by restricting (specifying) the detection range E1 of the light receiving unit 7 of the lighting fixture 1 and the transmission range E2 of the remote control device 9, a wireless signal is transmitted only to a desired lighting fixture 1 among the lighting fixtures 1 installed adjacent to each other. However, there is a possibility that the wireless signal may be reflected by the ceiling, the floor surface, etc. and reach the luminaire 1 other than the desired luminaire 1.
[0055]
Therefore, in this embodiment, in order to solve this type of problem, when the maximum reachable distance of the wireless signal is R,
R ≦ H / cosθ1
The maximum reach distance R is set so as to satisfy the following condition.
[0056]
Thus, in the present embodiment, it is possible to prevent the wireless signal transmitted from the remote control device 9 from being received by the light receiving unit 7 after being reflected on the floor surface or ceiling.
[0057]
Note that the maximum reachable distance R of the wireless signal is determined by the infrared light emitting diode LED and the transistor that transmit the wireless signal using the current limiting resistor R and infrared as a medium, as shown in FIG. By adjusting the magnitude of the current flowing in the infrared light-emitting diode LED by appropriately setting the characteristics of the infrared light-emitting diode LED and the resistance value of the current limiting resistor R. Can be set. Further, an infrared transmissive filter may be provided in front of the light emitting surface of the infrared light emitting diode LED, and the maximum reachable distance R and transmission range may be defined by this filter.
[0058]
  By the way, the above embodiment3-6Configuration and embodiment1, 2By combining with the above configuration, it is possible to more reliably control the lighting state of only one desired lighting fixture 1 or set the operation mode.
[0059]
【The invention's effect】
  The invention of claim 1 includes: a remote control device that instructs a lighting apparatus to perform a predetermined process using a wireless signal; a wireless receiver that receives a wireless signal; and a controller that performs a predetermined process based on an output of the wireless receiver. A plurality of lighting fixtures, each having a communication unit that transmits signals between the lighting fixtures, and controlling the lighting fixtures that have received wireless signals by the wireless receiving unitWire after a specified timeControl of the luminaire that sends out a notification signal to notify that it has received the response signal via the communication unit and receives the notification signalIn the departmentEven when a wireless signal has been received, a predetermined process based on the wireless signalNotification within the above specified timeWhen a signal is received, predetermined processing based on the wireless signal is performed.A human body detection sensor that detects the presence or absence of a person in the detection area, and the control unit increases the number of human body detections by the human body detection sensor per unit time in the vicinity of the reception of the wireless signal. The control unit of the lighting fixture that has received the notification signal has received the notification signal within a specified time before a predetermined process based on the wireless signal, even when the wireless signal is received. When the predetermined processing based on the wireless signal is not performed,Since it is possible to perform predetermined processing such as control of the lighting state of only one desired lighting fixture and setting of an operation mode using the remote control device without setting an address, a channel, or the like in the fixture. Or, it is not necessary for the operator of the remote control device to memorize the address and channel, the operation of the remote control device and the configuration of the remote control device are not complicated, and it is easy to use and there is no need to set the address. There is an effect that the degree of freedom of the installation location of the lighting fixture is high and the construction is easy without requiring special consideration in the way of connecting the transmission lines.
[0062]
  Each lightingThe appliance includes a human body detection sensor that detects the presence or absence of a person in the detection area, and the control unit performs human body detection by a human body detection sensor per unit time near the time of reception of the wireless signal.Many timesShorten the above specified timeSo RimoWhen the operator of the control apparatus approaches the desired lighting fixture and operates it, there is an effect that the desired lighting fixture can be controlled and the operation mode can be reliably set by the wireless signal.
[0064]
  Claim2InventionIn the invention of claim 1,When the attachment height is H, the minimum mounting pitch between the wireless receivers is L1, the detection range of the wireless receiver is conical, and the maximum detection range is θ1 with respect to the normal to the floor surface,
θ1 ≦ tan^-1(L1 / 2H)
The wireless reception of each lighting fixtureDetection rangeSince there is no overlap between adjacent lighting fixtures, it is possible to control the lighting state of only one desired lighting fixture and set the operation mode using a remote control device without setting an address or channel for each lighting fixture. The remote control device or the operator of the remote control device does not need to memorize the address and channel, the operation of the operator and the configuration of the remote control device are not complicated, and it is easy to use. Since the address setting is unnecessary, there is an effect that the construction is facilitated without requiring special consideration in the way of connecting the transmission lines.
[0065]
  Claim3The invention of claim2In this invention, when the transmission range of the wireless signal is conical and the angle with the center line in the transmission direction is θ2, the condition of θ2 <θ1 is satisfied, so only one desired lighting fixture is used using the remote control device. There is an effect that there is a high possibility that wireless signals can be transmitted.
[0066]
  Claim4The invention of claim3In the present invention, when the maximum reachable range of the wireless signal is R,
R ≦ H / cosθ1
Therefore, there is an effect that it is possible to prevent the wireless signal from being received by the wireless receiver after being reflected on the floor or ceiling.
[0067]
  Claim5InventionIn the invention of claim 1,The attachment height is H, the minimum mounting pitch between the wireless receivers is L1, the detection range of the wireless receiver is conical, the maximum detection range is θ1 with respect to the perpendicular to the floor, and the remote control signal transmission range is When it is conical and the angle with the center line in the transmission direction is θ2,
θ2 <{tan^-1(H / (Htanθ1-L1)) − (90 ° −θ1)} / 2
and
θ2 <sin-1((L1 / 2) / Htanθ1)
Even when the detection ranges of the wireless receiving units overlap each other between adjacent lighting devices, the wireless signal is transmitted to the lighting device adjacent to the desired lighting device along the transmission direction. It is possible to prevent reception, and it is possible to prevent a wireless signal from being received by a lighting device adjacent to a desired lighting device in a direction orthogonal to the transmission direction. Without setting the above, there is a high possibility that the remote controller can be used to control the lighting state of only one desired lighting fixture or to set the operation mode. There is no need to memorize the channel, the operation of the operator and the configuration of the remote control device are not complicated, and it is easy to use, and the address is set. There is an effect that the construction is facilitated without the need for special consideration to connecting way of the transmission line by unnecessary.
[0068]
  Claim6The invention of claim5In the present invention, when the maximum reachable range of the wireless signal is R,
R ≦ H / cosθ1
Therefore, there is an effect that it is possible to prevent the wireless signal from being received by the wireless receiver after being reflected on the floor or ceiling.
[Brief description of the drawings]
[Figure 1]Reference example 1(A) is a schematic block diagram, (b) is a block diagram of a lighting fixture.
FIG. 2 is an operation explanatory diagram of the above.
FIG. 31FIG.
FIG. 4 Embodiment2FIG.
FIG. 53It is explanatory drawing of.
FIG. 6 is an explanatory diagram of the above.
FIG. 74It is explanatory drawing of.
FIG. 85It is explanatory drawing of.
FIG. 9 is an explanatory diagram of the above.
FIG. 10 is an embodiment.6It is explanatory drawing of.
FIG. 11 is a system configuration diagram of an illumination system showing a conventional example.
FIG. 12 is a system configuration diagram of an illumination system showing another conventional example.
[Explanation of symbols]
  1₂~ 1₅  lighting equipment
  2 Lighting load
  4 Control unit
  5 Communication Department
  7 Light receiver
  9 Remote control device
  L₁₂ ,L₂₃, L₃₄, L₄₅  Transmission signal line

Claims (6)

A remote control device that instructs a lighting device to perform predetermined processing using a wireless signal, and a plurality of lighting devices having a wireless reception unit that receives a wireless signal and a control unit that performs predetermined processing based on an output of the wireless reception unit provided, the communication unit is provided in each lighting fixture for performing signal transmission between luminaires, notification for notifying that the control unit of the lighting apparatus that has received the wireless signal is received the wireless signal after the specified time by the wireless receiver Even when the control unit of the luminaire that has transmitted the signal via the communication unit and received the notification signal has received the wireless signal, within the specified time before the predetermined processing based on the wireless signal human body when it receives a notification signal is not performed a predetermined processing based on the wireless signal, detects the presence or absence of human in the detection area Comprising a knowledge sensor, the control unit, the illumination device characterized by shortening the higher the specified time the number of times of human body detection by the human body detection sensor per unit time during reception vicinity of the wireless signal. When the mounting height of the lighting fixture is H, the minimum mounting pitch between the wireless receivers is L1, the detection range of the wireless receiver is conical, and the maximum detection range is θ1 with respect to the perpendicular to the floor surface,
θ1 ≦ tan ⁻¹ (L1 / 2H)
The lighting device according to claim 1 , wherein the following condition is satisfied . 3. The lighting device according to claim 2, wherein a wireless signal transmission range is conical and an angle with a center line in a transmission direction is θ2, and satisfies a condition of θ2 <θ1 . When the maximum reachable range of the wireless signal is R,
R ≦ H / cos θ1
The lighting device according to claim 3 , wherein the following condition is satisfied . The mounting height of the luminaire is H, the minimum mounting pitch between the wireless receivers is L1, the detection range of the wireless receiver is conical, and the maximum detection range is θ1 perpendicular to the floor, θ1 When the transmission range is conical and the angle with the center line in the transmission direction is θ2,
θ2 <{ tan ⁻¹ (H / (H tan θ1−L1)) − (90 ° −θ1)} / 2
and
θ2 < sin ⁻¹ ((L1 / 2) / H tan θ1)
Lighting apparatus according to claim 1, wherein the two conditions of. When the maximum reachable range of the wireless signal is R,
R ≦ H / cos θ1
Lighting device to that according to claim 5, characterized in that satisfies the conditions.

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