JP2014086184A - Illumination control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illumination control system capable of appropriately preventing the problem that a luminaire is undesirably left activated even when a radio transmitter gets a problem.SOLUTION: A radio receiver 7 records control addresses each of which is a piece of address information of a luminaire 9 as a control target of plural radio transmitters 8 and a piece of information on ON/OFF status of the control addresses. When the radio receiver 7 determines that no discrimination signal is received over a predetermined period on the basis of a discrimination signal periodically received from one of the radio transmitters 8 to check for any problem on the radio transmitter 8, the radio receiver 7 sets the status of the control address of the radio transmitter 8 to OFF. When all control addresses of the plural radio transmitters 8 are OFF status, the radio receiver 7 transmits a piece of control data to a transmission unit 2 for controlling the luminaire 9 to turn OFF. With this configuration, even when a problem occurs on the radio transmitters 8, the luminaire 9 is appropriately prevented from being left activated undesirably.

Description

  The present invention relates to a wireless transmitter including a heat ray sensor, and a lighting control system that controls a lighting fixture using a wireless receiver wirelessly connected to the wireless transmitter.

  Conventionally, lighting control systems that control the ON / OFF and dimming status of multiple lighting fixtures individually or collectively in cooperation with sensors such as brightness sensors and human sensors in homes and buildings have been introduced. Has been. In this illumination control system, the ON / OFF of the lighting fixture can be appropriately controlled according to the brightness of external light and the presence of a person, so that energy saving can be achieved.

  Also known is a lighting control system in which multiple wireless transmitters with hot-wire sensors are installed in a layout-free manner so that accurate human detection is possible even in high-ceiling warehouses and spaces with many obstacles such as racks. Yes.

  An example of such an illumination control system is shown in FIG. The illumination control system 100 includes a plurality of wireless transmitters 101a and 101b having a heat ray sensor and an illuminance sensor, and a wireless receiver 102 that wirelessly communicates with the wireless transmitters 101a and 101b. The distribution board further includes a transmission unit 103, a relay control terminal 104, and a remote control relay 105, and a lighting fixture 107 is connected to the remote control relay 105. The transmission unit 103 is connected to the wireless receiver 102, the relay control terminal 104, and the switch 106 via a two-wire signal line.

  The operation of the illumination control system 100 will be described with reference to FIGS. First, as shown in FIG. 11A, when the input from the heat ray sensor exceeds the threshold and the person is detected, the wireless transmitter 101a sends an ON notification for ON control of the lighting device 107 having a predetermined address. Transmit to the wireless receiver 102. At this time, the internal state of the wireless transmitter 101a is maintained as the ON state. On the other hand, the wireless receiver 102 includes a memory unit and stores different ON / OFF states for each control address corresponding to the plurality of wireless transmitters 101a and 101b having a registration relationship.

  When the wireless receiver 7 receives the ON notification from any one of the plurality of wireless transmitters 101a and 101b within the radio wave arrival area and has a registration relationship, the recognition state becomes “OR ON”, and the ON control request Is transmitted to the transmission unit 2.

  The transmission unit 103 identifies the lighting fixture 107 to be controlled and the control state based on the ON control request from the wireless receiver 102. Further, the transmission unit 103 transmits the address information of the lighting fixture 107 and its ON control state as a control command signal to the relay control terminal 104 corresponding to the lighting fixture 107 to be controlled.

  Based on the transmission signal from the transmission unit 103, the relay control terminal 104 sends an ON control signal to the remote control relay 105 corresponding to the lighting fixture 107 to be controlled among the remote control relays 105 connected to itself. . As a result, the state of the remote control relay 105 is controlled to be ON. The switch 106 receives a control signal from the transmission unit 103, and changes the LED display of the button unit corresponding to the lighting fixture 107 that is ON-controlled from OFF display (green) to ON display (red).

  Next, as shown in FIG. 11 (b), when an input from the heat ray sensor exceeds another threshold in another wireless transmitter 101b, the wireless transmitter 101b turns on the lighting device 107 of the control address. An ON notification for control is transmitted to the wireless receiver 102. In this case, the wireless receiver 102 sets the control address of the wireless transmitter 101b to the ON state, and “OR ON” continues as the internal recognition state.

  As shown in FIG. 12A, the wireless transmitter 101a sends an OFF notification for turning off the lighting fixture 9 after a predetermined operation holding time has elapsed since the person was detected in the detection area. Send to. Here, the wireless receiver 102 sets the control address of the wireless transmitter 101a to the OFF state, but “OR ON” is still established in the internal recognition state.

  Next, as illustrated in FIG. 12B, when the operation holding time of the wireless transmitter 101 b expires, an OFF notification is transmitted to the wireless receiver 102. Here, the wireless receiver 102 turns off the control address of the wireless transmitter 101b. Then, the wireless receiver 102 recognizes that “AND OFF”, which is an operation state in which all OFF notifications corresponding to the ON notifications received from the plurality of wireless transmitters 101a and 101b are received, is established. This “AND OFF” becomes a trigger for making an OFF control request to the transmission unit 103.

  And the transmission unit 103 which received the OFF control request | requirement specifies the lighting fixture 107 used as a control object, or a control state. And the transmission unit 103 carries out OFF control of the lighting fixture 107 through the relay control terminal 104 and the remote control relay 105 by the control similar to the above.

  By the way, there is disclosed an illumination control system that can prevent the lighting device from being turned off or malfunctioning even if the number of sensors that are mounted on the illumination and operate normally is zero (for example, Patent Documents). 1).

JP 2010-176912 A

  However, in the lighting control system shown in FIG. 10, before the OFF notification is received after the operation holding time has elapsed, the wireless transmitter 101a may have problems such as a failure, a battery exhaustion, or being carried out of the radio wave coverage area. It is done. In particular, the small wireless transmitter 101a may be easily carried because it may be fixed to a rocker wall surface using a magnet on the back surface.

  In this case, as shown in FIG. 13A, the OFF notification scheduled to be transmitted from the wireless receiver 102 after the operation holding time has elapsed does not reach the wireless receiver 102, and the wireless receiver 102 The control address of 101a cannot be changed from the ON state to the OFF state. As a result, as shown in FIG. 13B, the operation holding time of the wireless transmitter 101b expires, the OFF notification is accurately transmitted to the wireless receiver 102, and there are no people in the detection area of the wireless transmitter 101a. Even after this, the internal recognition state “OR ON” continues. In this case, there arises a problem that the lighting fixture 107 cannot be turned off even if there are no people.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a lighting control system that appropriately prevents a lighting fixture from being lit in error even when a malfunction occurs in a wireless transmitter. And

  In order to achieve the above object, the present invention includes a plurality of wireless transmitters having a heat ray sensor for detecting a heat ray radiated from a human body in a detection area and controlling the operation of an illumination load, and the wireless transmitter and the wireless transmitter. A lighting control system comprising: a wireless receiver to be communicated; and a transmission unit that is connected to the wireless receiver via a signal line and transmits and receives control data. The wireless receiver includes the plurality of wireless transmitters. The control address, which is the address information of the lighting load to be controlled, and the ON / OFF state of the control address are recorded, and the wireless receiver periodically checks to check the malfunction state of the wireless transmitter. Based on the determination signal received from the wireless transmitter, if the determination signal cannot be received for a predetermined period or longer, the control address of the wireless transmitter is turned OFF, One of the plurality of control address of the wireless transmitter is when all turned OFF, and transmits the control data to OFF controlling the lighting load to the transmission unit.

  In this lighting control system, the wireless receiver periodically transmits a survival confirmation signal to the plurality of wireless transmitters in order to confirm a malfunction state of the wireless transmitter, and the wireless transmitter transmits the survival confirmation signal. When a signal is received, it is preferable that a response signal as the determination signal is returned to the wireless receiver.

  In this illumination control system, it is preferable that the wireless transmitter periodically transmits a survival notification signal as the determination signal to the wireless receiver.

  In this lighting control system, when a person is detected by the heat ray sensor, the wireless transmitter transmits an ON notification for ON control of the lighting load of the control address to the wireless receiver, and the wireless transmitter , Further comprising a timer unit for measuring a predetermined operation holding time after the ON notification is transmitted, and the wireless transmitter is configured to perform a predetermined operation after transmitting the ON notification based on the measurement by the timer unit. After the operation holding time elapses, an OFF notification for controlling OFF the illumination load of the control address is transmitted to the wireless receiver, and the wireless receiver receives the OFF notification after the operation holding time has elapsed, The control address of the wireless transmitter that is the transmission source of the OFF notification is set to the OFF state, and during the period from when the ON notification is received until the OFF notification is received. Tenomi, it is preferable to check the failure state of the radio transmitter.

  In this lighting control system, when a person is detected by the heat ray sensor, the wireless transmitter transmits an ON notification for ON control of the lighting load of the control address to the wireless receiver, and the wireless receiver When the control address of the wireless transmitter that is the transmission source of the ON notification is turned on and at least one of the control addresses of the plurality of wireless transmitters is turned on when the ON notification is received Furthermore, it is preferable to transmit control data for ON-controlling the lighting load to the transmission unit.

  According to the illumination control system of the present invention, the wireless receiver periodically receives a determination signal for determining a malfunction state of the wireless transmitter from the wireless transmitter. When the wireless receiver cannot receive the determination signal for a certain time or longer, the wireless receiver turns off the control address corresponding to the wireless transmitter. For this reason, even when a malfunction occurs in the wireless transmitter, it is possible to appropriately prevent the lighting fixture from being continuously turned on by mistake.

It is a system block diagram of the illumination control system which concerns on Embodiment 1 of this invention. It is a functional block diagram of the radio transmitter with which a lighting control system same as the above is equipped. It is a functional block diagram of the radio | wireless receiver with which a lighting control system same as the above is equipped. It is a flowchart which shows the operation | movement procedure of a lighting control system same as the above. It is a sequence diagram of a lighting control system same as the above. (A) And (b) It is a figure for demonstrating the control state of a radio | wireless transmitter, a radio | wireless receiver, and a lighting fixture with which an illumination control system same as the above is equipped. It is a figure for demonstrating the control state of a radio | wireless transmitter, a radio | wireless receiver, and a lighting fixture with which an illumination control system same as the above is equipped. It is a sequence diagram of the illumination control system which concerns on Embodiment 2. FIG. FIG. 10 is a sequence diagram of a lighting control system according to a modification of the second embodiment. It is a system block diagram of the conventional illumination control system. (A) And (b) It is a figure for demonstrating the control action at the time of a radio transmitter detecting a person in a lighting control system. (A) And (b) It is a figure for demonstrating the control action after operation holding time expiration in a lighting control system same as the above. (A) And (b) It is a figure for demonstrating the control operation | movement when a malfunction generate | occur | produces in a radio transmitter in the illumination control system same as the above.

  An illumination control system according to an embodiment of the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 shows a configuration of a lighting control system 1 according to the first embodiment. The lighting control system 1 includes a transmission unit 2, a relay control terminal 3, a remote control relay 4, a remote control transformer 5, a remote control switch 6, a wireless receiver 7, and wireless transmitters 8a and 8b (generically named 8) and a lighting fixture (lighting load) 9 are provided.

  The relay control terminal 3, the remote control switch 6, and the wireless receiver 7 are connected to the transmission unit 2 via a two-wire signal line, and exchange of information with the transmission unit 2 is performed using a signal line. The transmission signal is transmitted through a multiplex transmission method. In this lighting control system 1, wireless communication is performed between the wireless receiver 7 and the wireless transmitter 8, and the on / off state of the lighting fixture 9 and the illuminance in the room are automatically controlled.

  Based on the transmission signal from the remote control switch 6 or the wireless receiver 7, the transmission unit 2 specifies the lighting fixture 9 to be controlled from the address information included in the transmission signal, and specifies the control state for the lighting fixture 9. . Then, the transmission unit 2 sends the address information of the lighting fixture 9 and its control state (ON, OFF, dimming level, etc.) to the relay control terminal 3 corresponding to the lighting fixture 9 to be controlled. Transmit as a control command signal.

  The lighting fixture 9 existing in the lighting control system 1 can be uniquely specified by the load address. Specifically, a unique identifier called a load channel (Ch) is assigned to the relay control terminal 3, and a load number (Nm) is assigned to the remote control relay 4 connected to the relay control terminal 3. A unique identifier called is assigned. The load address (Ch-Nm) is configured by combining the load channel (Ch) and the load number (Nm).

  The relay control terminal 3 has a function as a load control terminal that controls the state of the lighting fixture 9 according to the control state of the relay. Based on the transmission signal from the transmission unit 2, the relay control terminal 3 sends a control signal to the remote control relay 4 corresponding to the lighting fixture 9 to be controlled among the remote control relays 4 connected to the relay control terminal 3. Thus, the state of the remote control relay 4 is controlled. The individual relays of the remote control relay 4 are controlled by the relay control terminal 3 to turn on / off the commercial AC from the breaker power source (AC 100 or 200 V) 10 or the like, thereby turning the lighting fixture 9 on or off. To.

  The remote control transformer 5 supplies driving power to the relay control terminal 3 and the remote control relay 4.

  The remote control switch 6 has a function as an input terminal for outputting a control command for controlling the lighting fixture 9. Specifically, the remote control switch 6 is a terminal device that is installed on an arbitrary wall surface such as a room, for example, and can be pushed by a user using the lighting fixture 9. In response to any of the operation switches being operated, the remote control switch 6 transmits the address information associated with the operation switch and the operation state of the operation switch to the transmission unit 2 as a control command.

  The wireless receiver 7 is embedded in the ceiling surface, wirelessly transmits / receives control information to / from the wireless transmitter 8, and is connected to a two-wire signal line to transmit / receive control data to / from the transmission unit 2. The radio receiver 7 has different radio wave arrival areas A and B when the places where the radio receiver 7 is arranged are different.

  In this wireless receiver 7, for example, radio wave type wireless address setting device 10 is used, and address information for transmitting and receiving a wireless signal to and from wireless transmitter 8 is also registered. This address information includes a unique device ID of each of the plurality of wireless transmitters 8 in the radio wave arrival area of the wireless receiver 7 and a lighting fixture 9 to be controlled by the wireless transmitter 8 of the device ID. The control address is registered. As this control address, an individual address, a pattern address, a group address, or the like is set. The individual address is information for specifying the lighting fixture 9 to be subjected to individual control, and corresponds to a load address (individual “0-1” or the like). The group address is information for specifying a group subject to group control in order to collectively control a plurality of lighting fixtures 9 to the same control state, and is a number assigned to each preset group. ("G-1" etc.) corresponds to this. The pattern address is information for specifying a pattern for collectively controlling a plurality of lighting fixtures 9 to a predetermined control state predetermined for each lighting fixture 9. It is a number assigned (such as “P-1”).

  The radio transmitters 8a and 8b are installed on a wall surface in a layout-free manner, and include an illuminance sensor that detects illuminance around the detection area and a heat ray sensor that detects heat rays emitted from the human body in the detection area. On the back side of the radio transmitters 8a and 8b, an address setting selection knob operated by the user, an operation holding time setting knob, and the like are provided.

  The heat ray sensor detects a heat ray emitted from a human body and monitors a human body detection signal output according to the presence or absence of a person in the detection area. The wireless transmitter 8 can transmit address information and control information for automatic ON / OFF control and automatic dimming of the lighting fixture 9 to the wireless receiver 7 when a movement of a person in the detection area is detected. And In addition, the wireless transmitter 8 transmits an OFF notification for turning off the lighting fixture 9 to the wireless receiver 7 after a predetermined operation holding time has elapsed since the person was detected in the detection area by the heat ray sensor.

  The illuminance sensor detects the brightness of the detection area (illuminance detection range of 5 to 1000 lux, etc.). The wireless transmitter 8 can transmit control information for controlling the lighting fixture 9 to the wireless receiver 7 based on the illuminance detected by the illuminance sensor. By illumination control using this illuminance sensor, it is possible to control the light by keeping the average illuminance constant according to the external light such as lighting after sunset, and energy saving can be achieved while maintaining the comfort of the illumination environment. Further, since the wireless transmitter 8 includes an illuminance sensor in addition to the heat ray sensor, it is possible to control lighting only when it is dark and there is a person.

  Next, the functional configuration of the wireless transmitter 8 provided in the illumination control system 1 will be described with reference to FIG. The wireless transmitter 8 includes a CPU 80, a power supply unit 81, a buzzer 82, a sub clock unit 83, a heat ray detection unit 84, an LED display unit 85, an address switching unit 86, a wireless transmission / reception unit 87, an illuminance measurement unit 88, and a brightness setting unit 89. The operation holding time setting unit 90 and the address registration setting unit 91 are provided.

  The power supply unit 81 corresponds to the specific low-power radio and supplies internal power from a dedicated lithium ion secondary battery. The buzzer 82 generates a confirmation sound and a warning sound, and the sub clock unit 83 generates the operating frequency of the CPU 80 by a crystal resonator or the like.

  The heat ray detector 84 includes a heat ray sensor such as a pyroelectric element that detects changes in the heat ray, amplifies the output of the heat ray sensor, and outputs the amplified output to the CPU 80. The CPU 80 determines the presence / absence of a person in the detection area by comparing the level of the output of the heat ray detection unit 84 with the stored predetermined threshold value. Further, the CPU 80 controls communication information performed with the wireless receiver 7 based on a predetermined program.

  The LED display unit 85 blinks or emits light when a person is detected by the heat ray sensor, when an address is set, or when a power supply is insufficient. The wireless transmitter 8 is a value of a setting item (for example, set illuminance value, operation holding time or address data) input by the operation input unit 93, an ON state in which ON notification is internally given, or an OFF state in which OFF notification is given. Keep another. The wireless transmission / reception unit 87 is configured by connecting a dedicated ASIC to an antenna, and realizes transmission / reception of control information wirelessly with the wireless receiver 7.

  The illuminance measurement unit 88 includes an illuminance sensor such as CdS, a photodiode, or a phototransistor that detects ambient brightness, amplifies the output of the illuminance sensor, and outputs the amplified output to the CPU 80. The CPU 80 compares the output of the illuminance measuring unit 88 with the brightness of the held predetermined brightness level (setting level).

  The operation input unit 93 that is a knob unit provided on the back surface of the wireless transmitter 8 includes a brightness setting unit 89, an operation holding time setting unit 90, and an address registration setting unit 91. The brightness setting unit 89 is a change-over switch for changing the illuminance setting value for controlling the lighting fixture 9. The operation holding time setting unit 90 is a changeover switch for changing the time during which the lighting fixture 9 is kept on, and selects the operation holding time from 30 seconds, 3 minutes, 10 minutes, 30 minutes, and the like. The address registration setting unit 91 transmits / receives data to / from a separate radio wave address setter and receives radio signals. The address switching unit 86 is a knob unit that selects an address from numbers 1 to 16 and the like.

  The timer unit 80a is provided in the CPU 80 and has a timer function for knowing the elapse of a predetermined time by counting clocks, and interrupts the CUP 80 at periodic signal transmission / reception or when the operation holding time of the radio transmitter 8 is detected. Is generated.

  Next, the functional configuration of the wireless receiver 7 provided in the illumination control system 1 will be described with reference to FIG. The wireless receiver 7 includes CPUs 70a and 70b (collectively 70), wireless transmission / reception units 71a and 71b, a switch 72, a multiplexed transmission signal transmission / reception unit 73, a power supply unit 74, an LED display unit 75, a memory unit 76, and a timer unit. 77.

  The wireless transmission / reception units 71a and 71b are configured by connecting a dedicated ASIC to an antenna, and control information with the wireless transmitter 8 via a switch 72 that performs path switching with the plurality of wireless transmitters 8a and 8b. Realize transmission and reception. When receiving the control signal from the wireless transmitter 8, the wireless transmission / reception units 71a and 71b output detection signals to the CPUs 70a and 70b.

  A multiplex transmission signal transmission / reception unit 73 as a transmission communication unit transmits / receives transmission signals to / from the transmission unit 2 by a multiplex transmission method via a signal line Ls connected to the pair of terminals T1 and T1. The multiplex transmission signal transmission / reception unit 73 converts the transmission signal input via the signal line Ls and outputs it to the CPUs 70a and 70b, converts the signals output from the CPUs 70a and 70b into transmission signals, and converts them into signal lines. Send to Ls.

  The power supply unit 74 obtains an internal power supply by full-wave rectifying a transmission signal input via the signal line Ls by a full-wave rectifier and further converting the transmission signal to a constant voltage by a constant voltage unit.

  In the CPUs 70a and 70b, when the address data included in the transmission signal received via the multiplex transmission signal transmission / reception unit 73 matches the address data stored in the memory unit 76, the control data of the transmission signal is received, and the control data according to the control data To work. Further, the CPU 70 processes communication information performed with the wireless transmitter 8 based on a predetermined program.

  The LED display unit 75 blinks or emits light when an address is set. The memory unit 76 is a non-volatile memory, the value of a setting item (for example, address), the device ID of the wireless transmitter 8, the control address set for each device ID, the ON / OFF state of the control address, and wireless reception The recognition states “OR ON” and “AND OFF” of the device 7 are stored.

  The timer unit 77 is provided in the CPU 70 and has a timer function for knowing the passage of a predetermined time by counting clocks, and generates an interrupt to the CUP 70a at the time of periodic signal transmission / reception.

  Next, the operation procedure of the illumination control system 1 according to the first embodiment will be described with reference to the flowchart of FIG. First, an operation procedure when a survival confirmation signal is transmitted from the wireless receiver 7 to the wireless transmitters 8a and 8b will be described.

  First, the memory unit 76 of the wireless receiver 7 stores “wireless transmitters 8a and 8b: survival” (S20). When the predetermined survival confirmation transmission timing is reached in the timer unit 77 (Y in S21), the wireless receiver 7 transmits a survival confirmation signal to the wireless transmitter 8a (S22). This survival confirmation signal is a signal for the wireless receiver 7 to confirm the state of the wireless transmitter 8a. The radio receiver 7 confirms that the radio transmitter 8a exists normally by receiving ACK (determination signal) which is a response signal to the survival confirmation signal (Y in S23). “Wireless transmitter 8a: survival” is held (S24).

  On the other hand, when ACK (discrimination signal) cannot be received (N in S23) and when a predetermined time (t1: for example, 30 minutes) has elapsed (Y in S25), the memory unit 76 stores “wireless transmitter 8a: "Non-survival" is stored (S26). If the predetermined time has not elapsed (N in S25), the processing from S21 is repeated again.

  Further, the wireless receiver 7 performs the same operation as that of S21 to S26 for the wireless transmitter 8b. That is, when a predetermined survival confirmation transmission timing is reached in the timer unit 77 (Y in S27), a survival confirmation signal is transmitted to the wireless transmitter 8b (S28). When an ACK (determination signal) is received for this (Y in S29), it can be confirmed that the wireless transmitter 8b exists normally, and "wireless transmitter 8b: survival" in the memory unit 76 is held (S30). . On the other hand, if the ACK (discrimination signal) cannot be received (N in S29), and the predetermined time (t1) has elapsed (Y in S31), “wireless transmitter 8b: non-survival” is displayed in the memory unit 76. Store (S32). If the predetermined time has not elapsed (N in S31), the processing from S21 is repeated again.

  Next, the operation procedure when the wireless receiver 7 receives the ON notification from the wireless transmitters 8a and 8b will be described with reference to FIG.

  First, the memory unit 76 of the wireless receiver 7 stores “control addresses of the wireless transmitters 8a and 8b: OFF state” (S40). Next, when receiving the ON notification from the wireless transmitter 8a (Y in S41), the wireless receiver 7 stores “control address of the wireless transmitter 8a: ON state” in the memory unit 76 (S42). On the other hand, if the ON notification has not been received (N in S41), the "control address of the wireless transmitter 8a: OFF state" which is a record in the memory unit 76 is held (S43).

  Further, the wireless receiver 7 performs the same operation as that of S41 to S43 for the wireless transmitter 8b. That is, when the ON notification is received from the wireless transmitter 8b (Y in S44), “control address of the wireless transmitter 8b: ON state” is stored in the memory unit 76 (S45). On the other hand, if the ON notification has not been received (N in S44), “control address of wireless transmitter 8b: OFF state” in the memory unit 76 is held (S46).

  Next, the operation procedure of “OR ON” or “AND OFF” in the wireless receiver 7 will be described with reference to FIG.

  First, when the memory unit 76 stores “control address of the wireless transmitter 8a: ON state” (Y in S50), the wireless receiver 7 transmits an ON control signal to the lighting fixture 9 ( S52). In addition, the wireless receiver 7 does not store “control address of the wireless transmitter 8a: ON state” in the memory unit 76 (N in S50), but does not store “control address of the wireless transmitter 8b: ON state”. There is a case where it is stored (Y in S51). Even in this case, an ON control signal is transmitted to the luminaire 9 (S52).

  In this way, the wireless receiver 7 recognizes that “OR ON” is established when a lighting notification 9 is turned off and an ON notification is received from any one of the plurality of wireless transmitters 8a and 8b. The wireless receiver 7 uses “OR ON” as a trigger for transmitting an ON control request to the transmission unit 2.

  Next, the recognition state “AND OFF” in the wireless receiver 7 will be described. The wireless receiver 7 stores “control address of wireless transmitter 8a: OFF state” (Y in S53), and stores “control address of wireless transmitter 8b: OFF state” (Y in S55). Then, an OFF control request for the luminaire 9 is transmitted to the transmission unit 2 (S57).

  Further, not “control address of wireless transmitter 8a: OFF state” (N in S53) but “wireless transmitter 8a: non-surviving” is stored in the memory unit 76 (Y in S54), and “wireless transmitter 8b” is stored. Is stored as “control address: OFF state” (Y in S55). In this case, the wireless receiver 7 transmits an OFF control request for the lighting fixture 9 to the transmission unit 2 (S57).

  Further, it is not “control address of the wireless transmitter 8a: OFF state” (N in S53) and “wireless transmitter 8a: non-survival” is not stored (N in S54), and “control of the wireless transmitter 8b” Address: OFF state ”may be stored (Y in S55). Also in this case, the wireless receiver 7 transmits an OFF control request for the lighting fixture 9 to the transmission unit 2 (S57).

  Next, an operation sequence of the illumination control system 1 according to the first embodiment will be described with reference to FIGS.

  First, as shown in FIG. 5, when the input from the heat ray sensor exceeds a threshold value and a person is detected, the wireless transmitter 8 a receives an ON notification for ON-controlling the lighting device 9 at a predetermined address. 7 (S301). At this time, when the wireless receiver 7 receives the ON notification from any one of the wireless transmitters 8a and 8b when the ON notification in S301 is received, the ON control request is made as control data. Is transmitted to the transmission unit 2 (S302), and the lighting fixture 9 is turned on.

  The wireless transmitter 8b transmits an ON notification to the wireless receiver 7 when the input from the heat ray sensor exceeds the threshold and a person is detected (S303). Here, since “OR ON” has already been established at S301 and the ON control request is transmitted to the transmission unit 2, the ON control request is not transmitted to the transmission unit 2.

  Next, the radio receiver 7 periodically transmits a survival confirmation signal, which is a signal for confirming whether the radio transmitters 8a and 8b are present, periodically (for example, every 5 minutes) in a radio wave detection area. Broadcast to all the radio transmitters 8a and 8b (S304). Then, the radio transmitters 8a and 8b that have received this survival confirmation signal return an ACK (determination signal) for indicating the normal existence to the radio receiver 7 (S305, S306).

  Next, when a problem such as running out of the battery or carrying outside the radio wave arrival area occurs in the wireless transmitter 8a (S307), the wireless transmitter 8a cannot return an ACK (S305) for the survival confirmation signal (S304). Here, as shown in FIG. 6A, the wireless receiver 7 has its own recognition state “OR ON”, the control address “ON state” of the wireless transmitter 8a, and the control address “ON state” of the wireless transmitter 8b. Is remembered.

  On the other hand, since the wireless transmitter 8b is operating normally, an OFF notification is transmitted to the wireless receiver 7 when the operation holding time has elapsed (S308). Here, as shown in FIG. 6B, the wireless receiver 7 has its own recognition state “OR ON”, the control address “ON state” of the wireless transmitter 8a, and the control address “OFF state” of the wireless transmitter 8b. Is memorized.

  When the ACK (S305) for the survival confirmation notification (S304) does not respond for a predetermined period or longer (for example, 30 minutes), the wireless receiver 7 sets the control address of the wireless transmitter 8a to the OFF state (S309). That is, as shown in FIG. 7, the wireless receiver 7 stores its own recognition state “AND OFF”, the control address “OFF state” of the wireless transmitter 8a, and the control address “OFF state” of the wireless transmitter 8b. . Then, “AND OFF” becomes a trigger for making an OFF control request (S310) from the wireless receiver 7 to the transmission unit 2, and finally the lighting fixture 9 is controlled to be OFF.

  As described above, in the first embodiment, the wireless receiver 7 monitors the existence of a communicable state with the wireless transmitter 8 using the survival confirmation signal that is periodically transmitted. When the ACK (discrimination signal) of the survival confirmation signal cannot be received from the wireless transmitter 8 for a certain period or longer, the control address of the wireless transmitter 8 is turned off. For this reason, even when a malfunction occurs in the wireless transmitter, the wireless receiver 7 can surely recognize that “AND OFF” has been established, and can appropriately prevent the lighting fixture from being lit continuously.

  In the first embodiment, the ON notification transmitted from the wireless transmitter 8 to the wireless receiver 7 is not an essential step. That is, the wireless receiver 7 can verify the failure of the wireless transmitter 8 simply by periodically transmitting a survival confirmation signal and confirming the presence or absence of the ACK (discrimination signal).

(Embodiment 2)
Hereinafter, Embodiment 2 of the illumination control system according to the present invention will be described with reference to FIG. The same components as those in the illumination control system 1 according to Embodiment 1 are given the same reference numerals, and detailed descriptions thereof are omitted.

  The illumination control system 1 according to the second embodiment is characterized in that a survival notification signal (discrimination signal) is periodically transmitted from the wireless transmitters 8a and 8b to the wireless receiver 7. First, as shown in FIG. 8, when the input from the heat ray sensor exceeds the threshold value and the person is detected, the wireless transmitter 8 a receives an ON notification for ON-controlling the lighting device 9 with the control address. 7 (S301). At this time, since “OR ON” is established, the wireless receiver 7 transmits an ON control request to the transmission unit 2 (S302), and the lighting fixture 9 is turned on.

  The wireless transmitter 8b transmits an ON notification to the wireless receiver 7 when the input from the heat ray sensor exceeds the threshold and a person is detected (S303). Here, since “OR ON” has already been established at S301 and the ON control request is transmitted to the transmission unit 2, the ON control request is not transmitted to the transmission unit 2.

  Next, the wireless transmitters 8a and 8b periodically send a survival notification signal (determination signal), which is a signal for notifying the wireless receiver 7 that the wireless transmitter 8 is operating normally, to the wireless receiver 7 ( For example, every 5 minutes (S801, S803). Then, the wireless receiver 7 that has received the survival notification signal returns an ACK indicating that the survival notification signal has been normally received to the wireless transmitters 8a and 8b (S802, S804). This ACK reply operation (S802, S804) is not an essential step.

  Next, when a problem such as running out of the battery or being carried out of the radio wave arrival area occurs in the wireless transmitter 8a (S307), the wireless transmitter 8a cannot transmit a survival notification signal (S801) that is a determination signal. . On the other hand, since the wireless transmitter 8b is operating normally, it periodically transmits a survival notification signal (discrimination signal) (S803), and when the operation holding time has elapsed since the ON notification was transmitted, the OFF notification is wirelessly transmitted. The data is transmitted to the receiver 7 (S308).

  Then, when the survival notification signal (S801) of the wireless transmitter 8a is not received for a predetermined period or longer (for example, 30 minutes), the wireless receiver 7 turns off the control address of the wireless transmitter 8a (S309). Then, the wireless receiver 7 becomes the control address “OFF state” of the wireless transmitter 8a and the control address “OFF state” of the wireless transmitter 8b at the time of S309, and its own recognition state “AND OFF” is established. This “AND OFF” becomes a trigger for making an OFF control request (S310) from the wireless receiver 7 to the transmission unit 2, and finally the lighting fixture 9 is controlled to be OFF.

  As described above, the wireless transmitter 8 according to the second embodiment transmits the ON notification after the ON notification and before transmitting the OFF notification, and periodically transmits the survival notification signal to the wireless receiver 7. Send. The wireless receiver 7 can confirm the malfunction state of the wireless transmitter 8 by this survival notification signal. For this reason, in the second embodiment, as in the first embodiment, the wireless receiver 7 can reliably recognize the establishment of “AND OFF” even when a failure occurs in the wireless transmitter. It can prevent appropriately that a lighting fixture continues being lit. Moreover, useless communication between the wireless receiver 7 and the wireless transmitter 8 can be reduced, and battery consumption of the wireless transmitter 8 can be reduced.

(Modification)
A modification of the second embodiment will be described with reference to FIG. In this modification, the radio transmitter 8a always transmits a survival notification signal (determination signal) regularly regardless of whether or not the radio receiver 7 has been turned ON (S901). The wireless receiver 7 returns an ACK for the survival notification signal to the wireless transmitter 8a (S902). If a problem occurs in the wireless transmitter 8a at the time of S903, the wireless transmitter 8a cannot transmit a survival notification signal (S901) that is a determination signal. Therefore, the wireless receiver 7 does not receive the survival notification signal (S901) of the wireless transmitter 8a for a predetermined period or longer (for example, 30 minutes), sets the control address of the wireless transmitter 8a to the OFF state, and “AND OFF”. Is established (S904). Further, this “AND OFF” becomes a trigger for making an OFF control request (S905) to the transmission unit 2, and the lighting fixture 9 is finally controlled to be OFF. Therefore, in this modification, compared with the second embodiment, more communication processing is imposed between the wireless receiver 7 and the wireless transmitter 8, but even when a problem occurs in the wireless transmitter 8, It is possible to appropriately prevent the lighting fixture 9 from being continuously turned on by mistake.

  The present invention is not limited to the configuration of each of the embodiments described above, and various modifications can be made without departing from the spirit of the invention. For example, the number of radio transmitters 8 is not limited to two, and the same control can be realized with three or more radio transmitters.

DESCRIPTION OF SYMBOLS 1 Illumination control system 2 Transmission unit 3 Relay control terminal 4 Remote control relay 5 Remote control transformer 6 Remote control switch 7 Wireless receiver 70 CPU
76 Memory unit 77 Timer unit 8, 8a, 8b Wireless transmitter 80 CPU
80a Timer section 86 Memory section 9 Lighting equipment (lighting load)
10 Radio type wireless address setter

Claims (5)

A plurality of wireless transmitters having a heat ray sensor for detecting a heat ray radiated from a human body in a detection area and controlling the operation of a lighting load, a wireless receiver wirelessly communicating with the wireless transmitter, and a signal line In a lighting control system comprising: a transmission unit connected to the wireless receiver via and transmitting and receiving control data;
In the wireless receiver, a control address that is address information of a lighting load to be controlled by each of the plurality of wireless transmitters and an ON / OFF state of the control address are recorded,
If the wireless receiver cannot receive the determination signal for a predetermined period or longer based on the determination signal periodically received from the wireless transmitter to confirm the malfunction state of the wireless transmitter, When the control address is in the OFF state and all the control addresses of the plurality of wireless transmitters are in the OFF state, control data for controlling the illumination load to be OFF is transmitted to the transmission unit. Lighting control system. The wireless receiver periodically transmits a survival confirmation signal to the plurality of wireless transmitters in order to check the malfunction state of the wireless transmitters,
The lighting control system according to claim 1, wherein the wireless transmitter returns a response signal as the determination signal to the wireless receiver when the survival confirmation signal is received.   The illumination control system according to claim 1, wherein the wireless transmitter periodically transmits a survival notification signal as the determination signal to the wireless receiver. The wireless transmitter, when a person is detected by the heat ray sensor, transmits an ON notification for controlling the lighting load of the control address to the wireless receiver,
The wireless transmitter further includes a timer unit for measuring a predetermined operation holding time after transmitting the ON notification,
The wireless transmitter transmits an OFF notification for controlling the illumination load of the control address to OFF after a predetermined operation holding time has elapsed since the ON notification was transmitted based on the measurement by the timer unit. To the receiver,
When the wireless receiver receives the OFF notification after the operation holding time has elapsed, the wireless receiver sets the control address of the wireless transmitter that is the transmission source of the OFF notification to an OFF state and receives the ON notification. The lighting control system according to any one of claims 1 to 3, wherein a failure state of the wireless transmitter is confirmed only during a period until the OFF notification is received. The wireless transmitter, when a person is detected by the heat ray sensor, transmits an ON notification for controlling the lighting load of the control address to the wireless receiver,
When the wireless receiver receives the ON notification, the wireless receiver turns on the control address of the wireless transmitter that is the transmission source of the ON notification, and at least one of the control addresses of the plurality of wireless transmitters is The lighting control system according to any one of claims 1 to 4, wherein control data for ON-controlling the lighting load is transmitted to the transmission unit when the lighting load is turned on.