JP2004265794A - Illumination system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the consumption electricity necessary for receiving, and to make the operation for electric power saving for that purpose fit to each sort of mode. <P>SOLUTION: Communication parts 20 and 30 are provided on a parent machine 2 and a cordless extension unit 3 respectively in order to conduct receiving and transmitting of information necessary for control by wireless communication. At least either the parent machine 2 or the cordless extension unit 3 has a plurality of sorts of receiving patterns in order to conduct intermittent receiving by intermittently working the communication parts 20 and 30. Based on the prescribed conditions, the receiving patterns are switched to one of the plurality of sorts of receiving patterns. According to the receiving pattern, the communication parts 20 and 30 are made to intermittently work to conduct intermittent reception. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention includes a lighting device, and a master device and a slave device that control the lighting device and turn on or off at least the lighting device. Each of the master device and the slave device includes at least information necessary for the control. The present invention relates to a lighting system provided with a communication unit for performing transmission and reception by wireless communication.
[0002]
[Prior art]
FIG. 11 is a configuration diagram of a conventional lighting system compatible with a security mode, and FIG. 12 is a configuration diagram of a conventional lighting system compatible with a remote operation mode (see Patent Document 1 and the like).
[0003]
Some conventional lighting systems are compatible with a security mode, a remote control mode, and the like. When the lighting system of the house is set to the security mode, as shown in FIG. 11, a plurality of slaves 3PA monitor whether or not there are people around. When any of the slaves 3PA detects that a person is present, the detection information is wirelessly transmitted to the master 2PA. Master device 2PA, upon receiving the detection information, determines whether or not to report to a predetermined information terminal 4, and when reporting, determines that presence of a person via network N has been detected. Notify terminal 4.
[0004]
When the lighting system is set to the remote control mode, the base unit 3PA monitors the presence or absence of a mail from the network N as shown in FIG. Then, for example, when receiving a mail including a lighting command for turning on a lighting device (not shown) below the child device 3PA on the first floor from the information terminal 4, the base unit 3PA determines whether to turn on the lighting device and turns it on. In this case, a lighting command is wirelessly transmitted to the slave unit 3PA. Thereby, the child device 3PA on the first floor executes the lighting control of the lighting equipment, and the lighting equipment is turned on.
[0005]
Patent Document 2 discloses a configuration in which a signal is wirelessly transmitted and received between a control device and a wireless communication device. In the configuration, after a receiving unit of the wireless communication device receives a signal from the control device, a transmission unit of the wireless communication device is transmitted. A wireless remote control system to operate is described. According to such a system, power consumption can be reduced.
[0006]
[Patent Document 1]
JP 2001-273980 A
[Patent Document 2]
JP 2000-152352 A
[0007]
[Problems to be solved by the invention]
However, in the system of Patent Document 2, after the receiving unit of the wireless communication device receives a signal from the control device, the receiving unit of the wireless communication device always operates to operate the transmitting unit of the wireless communication device. Therefore, only the power consumption of the transmission unit of the wireless communication device can be reduced.
[0008]
The present invention has been made in view of the above circumstances, and provides a lighting system capable of reducing power consumption required for reception and adapting a power saving operation to various modes for the purpose. With the goal.
[0009]
[Means for Solving the Problems]
The invention according to claim 1 for solving the above problem includes a lighting fixture, a master unit and a slave unit that control the lighting unit and turn on or off at least the lighting unit. An illumination system including a communication unit for performing at least transmission and reception of information necessary for the control by wireless communication, wherein at least one of the master unit and the slave unit operates the communication unit intermittently. It has a plurality of types of reception patterns for intermittent reception, and switches to any of the plurality of types of reception patterns based on a predetermined condition, and intermittently operates the communication means according to the reception patterns to perform intermittent reception. It is characterized by the following.
[0010]
According to a second aspect of the present invention, in the lighting system according to the first aspect, the slave unit includes, as its own communication unit, a wireless first communication unit for communication with the master unit, An infrared-type second communication unit for communication with a lighting apparatus; and a human sensor for detecting presence or absence of a person in the surroundings, the detection result being one piece of information necessary for the control, and The device includes, as its own communication device, a wireless first communication device for communication with the slave device, and an infrared second communication device for communication with the lighting device, and a network connection. Interface means, and the lighting apparatus includes infrared communication means for communication with the master unit or the slave unit, and at least control of the master unit or the slave unit through the communication means. Turn on or off It is characterized in.
[0011]
According to a third aspect of the present invention, in the lighting system according to the second aspect, at least one of the master unit and the slave unit includes any one of the plurality of types of reception patterns based on a priority order of detection of the motion sensor. It is characterized by switching between crabs.
[0012]
According to a fourth aspect of the present invention, in the lighting system according to the second or third aspect, the plurality of types of reception patterns include a reception pattern that uses a detection result of the human sensor for security. The reception period is longer than the reception period based on another reception pattern.
[0013]
According to a fifth aspect of the present invention, in the lighting system according to any one of the first to fourth aspects, at least one of the master unit and the slave unit uses a battery as a power source, and It is characterized by switching to any one of the plurality of types of reception patterns.
[0014]
According to a sixth aspect of the present invention, in the lighting system according to the fifth aspect, the plurality of types of reception patterns include a pause period based on a reception pattern when the remaining amount of the battery is large, and a reception pattern when the remaining amount is small. Is set so as to be shorter than the idle period due to.
[0015]
According to a seventh aspect of the present invention, in the lighting system according to any one of the first to sixth aspects, at least one of the master unit and the slave unit operates the communication unit intermittently to perform transmission. Are switched to any one of the plurality of transmission patterns based on a predetermined condition, and the communication means is operated intermittently according to the transmission pattern to perform transmission.
[0016]
The invention according to claim 8 is the lighting system according to claim 7, wherein the plurality of types of transmission patterns are such that the number of transmission repetitions when the reception period of the communication partner's reception pattern is short is equal to the reception period of the communication partner's reception pattern. Is set to be larger than the number of transmission repetitions in the case where is long.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
1 and 2 are configuration diagrams of a lighting system according to a first embodiment of the present invention.
[0018]
As shown in FIGS. 1 and 2, the lighting system according to the first embodiment is provided in a house, and includes a plurality of lighting fixtures 1 and a parent unit that controls the plurality of lighting fixtures 1 to turn on or off at least the lighting fixtures 1. A configuration in which a communication device for wirelessly transmitting and receiving at least information necessary for the control is provided in each of the master device 2 and the plurality of slave devices 3. Has become.
[0019]
The luminaire 1 is for communication with at least one of the master unit 2 and the slave unit 3 installed within a line-of-sight communication range within a predetermined distance, and for example, an infrared communication unit ( (Not shown), and is configured to be turned on or off at least by controlling at least one of the master unit 2 and the slave unit 3 through the communication unit.
[0020]
The master unit 2 is used for communication with the slave unit 3 as its own communication means. The master unit 2 includes a wireless communication unit 20 including an antenna 21 and a wireless device 22 and has a line-of-sight communication range within a predetermined distance. And an infrared communication unit 23 composed of IrLED, an interface unit (I / F) 24 for connection to the network N, and control of the overall lighting system. And a control unit (CPU) 25 for performing processing such as the following.
[0021]
The handset 3 is used for communication with the base unit 2 as its own communication means. The handset 3 includes a wireless communication unit 30 including an antenna 31 and a wireless device 32 and has a line-of-sight communication range within a predetermined distance. And an infrared communication unit 33 composed of IrLED, and one piece of information necessary for the above control for detecting the presence or absence of a person in the surroundings. A human sensor (sensor) 34 and a control unit (CPU) 35 that performs processing such as control of the child device 3 overall.
[0022]
Here, information is transmitted and received between the luminaire 1 and the master unit 2 or the slave unit 3 by an infrared communication unit. When the data transmitted from the master unit 2 or the slave unit 3 is received by the infrared communication unit of the lighting apparatus 1, the lighting apparatus 1 turns on or off based on the data. In general, a brightness sensor for detecting the ambient illuminance is provided in, for example, the slave unit 3. When the ambient illuminance detected by the brightness sensor is equal to or less than a predetermined illuminance, the presence of a person by the sensor 34 of the slave unit 3. Is detected, lighting control of the lighting fixture 1 corresponding to the slave unit 3 is executed. Then, the detection state indicating the presence of a person is held for a predetermined time, and the counting of the predetermined time is reset every time the detection information is obtained, and at the elapse of the predetermined time, the corresponding lighting fixture 1 is turned off (or light control). ) The control is executed.
[0023]
On the other hand, information is transmitted and received between the parent device 2 and the child device 3 by the wireless communication section. When digital data is output from the control unit to the wireless device on the transmitting side, the digital data is transmitted from the antenna as radio waves through modulation in the wireless device. On the receiving side, when the radio wave is received by the antenna, data from the transmitting side is received through demodulation by the wireless device.
[0024]
The information transmitted and received between the parent device 2 and the child device 3 includes various information for security, remote control, and the like.
[0025]
For example, in the case of security, when the sensor 34 of the slave 3 outputs detection information indicating that a person is present to the surroundings to the controller 35, the controller 35 sets the transmission frequency of the wireless device 32, and The detection data is transmitted to the wireless device 32. As a result, the detection data is transmitted as a radio wave from the antenna 31 via the modulation by the wireless device 32, received by the antenna 21 of the master device 2, demodulated by the wireless device 22, and transmitted to the control unit of the master device 2. 25. Thereafter, the control unit 25 of the base unit 2 transmits detection information indicating that a person is present to the predetermined information terminal 4 through the interface unit 24. As a result, information related to security is transmitted to the holder of the information terminal 4.
[0026]
In the case of remote operation, the control unit 25 of the base unit 2 transmits a command for turning on the lighting fixture 1 attached to the slave unit 3 from the information terminal 4 through the interface unit 24 by e-mail or DTMF (Dial Tone Multi Frequency). , The transmission frequency of the wireless device 22 is set, and the command (“DATA” in FIG. 1) is transmitted to the wireless device 22. As a result, the command is transmitted from the antenna 21 as a radio wave after being modulated by the wireless device 22, received by the antenna 31 of the mobile device 3, and demodulated by the wireless device 32, and the control unit 35 of the mobile device 3 is controlled. Will be received. After that, the control unit 35 of the child device 3 transmits a lighting command to the lighting fixture 1 via the communication unit 33 and turns it on. The interface unit 24 is, for example, a network interface conforming to a predetermined LAN standard when receiving a command by mail, and is a line interface connected to a telephone line when receiving a command by DTMF.
[0027]
FIG. 3 is an explanatory diagram of an intermittent receiving function provided to the parent device and the child device of the present lighting system, and FIG. 4 is an operation explanatory diagram of the intermittent receiving function.
[0028]
As a first feature, the master unit 2 and the slave unit 3 of the present lighting system have on / off or on / standby / off (on / off) regulators 224 and 324 in the wireless devices 22 and 32, respectively, as shown in FIG. In one embodiment, it is configured to have an intermittent reception function including ON / OFF.
[0029]
That is, the wireless devices 22 and 32 respectively include PLL ICs (PLLICs) 221 and 321, reception VCOs (reception VCOs) 222 and 322, transmission VCOs (transmission VCOs) 223 and 323, It is composed of regulators 224 and 324 for supplying power to each unit, and receives signals from incoming radio waves at all times, and intermittently receives signals from incoming radio waves by intermittent reception control of CPUs 25 and 35.
[0030]
Here, the operation by the intermittent reception function will be described. In the case of intermittently receiving a signal from an incoming radio wave, as shown in FIGS. 3 and 4, the CPU performs on-control of the regulator as a start of intermittent reception, and power is supplied from the regulator to each unit.
[0031]
After this (5 ms after the start time), the CPU transmits data (“PLLDATA” in FIG. 4) to the PLL IC, so that the PLL IC oscillates at a frequency based on the data and receives the data. Of the VCO is set. At this time, it takes time until the frequency to be set is stabilized, and when the frequency is stabilized, a low-level lock (LOCK) detection signal is output from the PLL IC to the CPU.
[0032]
When the lock detection signal is output (after 10 ms from the start time), an incoming radio wave is detected based on the oscillation frequency of the receiving VCO, and data ("reception DATA" in FIG. 4) is obtained from the incoming radio wave to be received. A containing signal is received. In this reception state, a reception waveform appears as an output (RxDATA) of the wireless device.
[0033]
Thereafter (after 50 ms from the start time), the CPU performs the OFF control of the regulator, so that power is not supplied from the regulator to the respective units, and a transition is made to a suspension period in which reception is suspended.
[0034]
After this (100 ms after the start time), the CPU controls the regulator to be turned on as a new start of the intermittent reception, whereby power is supplied from the regulator to each unit, and the same operation as described above is repeatedly executed.
[0035]
By providing such a discontinuous reception function to the master unit 2 and the slave unit 3 of the present lighting system, power is not consumed when the wireless units 22 and 32 are turned off. In the example, the power consumption of the wireless devices 22 and 32 is apparently reduced to half. Also, for transmission, the radios 22 and 32 are turned on at the time of transmission, similarly to reception.
[0036]
FIG. 5 shows an example of a reception pattern of the parent device and the child device using the above-mentioned intermittent reception function, and FIG. 6 shows an example of a transmission pattern which can always receive even intermittent reception.
[0037]
As a second feature, as shown in FIG. 5, the master unit 2 and the slave unit 3 operate their own wireless communication units 20 and 30 constantly or intermittently to perform a plurality of reception patterns for normal or intermittent reception. It has a kind and switches to any of a plurality of types of reception patterns based on predetermined conditions, and operates its own wireless communication units 20 and 30 constantly or intermittently according to the reception patterns to perform normal or intermittent reception. Is configured.
[0038]
As a third feature, the master unit 2 and the slave unit 3 continuously transmit the same data a plurality of times so that the data to be transmitted is reliably received, regardless of which of the plurality of types of reception patterns is switched. It is configured to transmit.
[0039]
In the example of FIG. 5, four types of reception patterns RP1 to RP4 are shown. The reception pattern RP1 is a pattern for constant reception. The reception pattern RP2 is a pattern for intermittent reception using the above-described intermittent reception function, in which a reception period of 750 ms and a pause period of 250 ms are alternately repeated. The reception pattern RP3 is a pattern for intermittent reception in which a reception period of 500 ms and a pause period of 500 ms are alternately repeated. The reception pattern RP4 is a pattern for intermittent reception in which a reception period of 250 ms and a pause period of 750 ms are alternately repeated.
[0040]
On the other hand, SP is a transmission pattern, which is a pattern for transmitting the same data four times continuously in each transmission period of 50 ms. Here, as shown in the example of FIG. 6, when the reception pattern is RP3, “DATA-A” is received, but “DATA-B” is not received. As described above, when the communication partner is performing intermittent reception, the transmitted data may not be received by the communication partner. Therefore, in the first embodiment, data to be transmitted is reliably received by preventing the data from being missed. In this way, the same data is continuously transmitted a plurality of times. In the example of FIG. 6, by continuously transmitting "DATA-1" to "DATA-3", one of the data is always received. In the second embodiment, since there are four types of reception patterns, RP1 to RP4, the transmission pattern of the SP shown in the example of FIG. used. In other words, the number of transmissions of RP1 to RP4 and the SP in FIG. 5 is merely an example, and even if the transmission timing of the SP is actual, at least one data at the time of transmission is always included in the reception pattern RP4. The number of transmissions of the SP is set so as to be received.
[0041]
In such a configuration, one of the master unit 2 and the slave unit 3 continuously transmits the same data in accordance with the transmission pattern SP four times in the example of FIG. 5, and the other reception side receives the data. become.
[0042]
When the reception pattern is RP1, although the power consumption cannot be reduced, all data transmitted four times consecutively by the transmission pattern SP is received, so that the communication reliability is the highest. Become. On the other hand, when the reception patterns are RP2 to RP4, communication (reception) performance of at least the minimum (data can be received at least once at the time of transmission by the SP) or higher can be ensured, and consumption can be improved. The power reduction efficiency can be increased.
[0043]
Next, a predetermined condition for switching to any one of these four types of reception patterns will be described. First, in the first embodiment, it is assumed that the parent device 2 and the child device 3 have a plurality of control modes such as a home mode, a long absence mode, a security mode, and a safety confirmation mode.
[0044]
In the home mode, when the presence of a person is detected by the sensor 34, both the master unit 2 and the slave unit 3 transmit a lighting command to the luminaire 1 when the surroundings are dark (when the surrounding illuminance is equal to or less than a predetermined illuminance). . Master device 2 stops communication with the outside via interface unit 24, and does not accept external remote control of lighting fixture 1.
[0045]
In the long absence mode, the lighting device 1 is not turned on regardless of the detection result of the sensor 34 in both the master unit 2 and the slave unit 3. The base unit 2 stops communication to the outside via the interface unit 24, but accepts remote control of the lighting fixture 1 from outside.
[0046]
In the security mode, when the presence of a person is detected by the sensor 34, both the parent device 2 and the child device 3 transmit a lighting command to the lighting fixture 1, and the parent device 2 transmits the information terminal 4 via the interface unit 24. Report that there is a person (penetration of a person).
[0047]
In the safety confirmation mode, when the presence of a person is detected by the sensor 34, both the master unit 2 and the slave unit 3 transmit a lighting command to the lighting fixture 1 when the surroundings are dark. The master unit 2 transmits the safety information to the information terminal 4 via the interface unit 24 at once, for example, once every hour, instead of every time when the sensor 34 detects the sensor 34. Not accepted.
[0048]
The four types of reception patterns are switched according to which of the four types of modes is set. When set to the long-term absence mode, the communication frequency between the master unit 2 and the slave unit 3 is low, and therefore, the reception pattern having the lowest communication performance among the reception patterns RP2 to RP4 that can ensure the minimum or higher communication performance. The pattern is switched to pattern RP4. When the security mode is set, since the communication frequency between the master unit 2 and the slave unit 3 is the highest and urgency is required, the reception pattern RP1 having the highest communication performance is switched. When the safety mode is set, transmission to the external information terminal 4 is performed, but the remote control of the lighting fixture 1 is not received from the outside, so that the reception pattern RP2 having the second highest communication performance is switched. When the home mode is set, the communication is switched to the third highest reception pattern RP3 to stop communication with the outside.
[0049]
According to the first embodiment, the master unit 2 and the slave unit 3 have a plurality of types of reception patterns for constantly or intermittently operating the communication units 20 and 30 and performing intermittent or intermittent reception. By switching to any one of a plurality of types of reception patterns and operating the communication units 20 and 30 constantly or intermittently according to the reception patterns to perform constant or intermittent reception, the power consumption required for reception can be reduced, and The power saving operation for that purpose can be adapted to various modes.
[0050]
(2nd Embodiment)
FIG. 7 is a configuration diagram of a lighting system according to a second embodiment of the present invention, and FIG. 8 is an operation explanatory diagram of the lighting system.
[0051]
The lighting system according to the second embodiment shown in FIG. 7 includes a plurality of lighting fixtures 1 and a base unit 2 in the same manner as the first embodiment, and differs from the first embodiment in that a battery 36 is provided. The control unit 35A drives the power source, switches to one of a plurality of types of reception patterns based on the remaining amount of the battery 36, and controls the communication unit 30 to perform intermittent reception according to the reception pattern to perform intermittent reception. 3A is provided.
[0052]
Since the sensor 34 has directivity and its detection range is limited, it is desirable that the degree of freedom of installation of the sensor 34 is not limited. For this reason, in the second embodiment, the sensor 34 can be freely installed at an appropriate place by being driven by a battery. Then, as shown in FIG. 8, when the remaining amount of the battery 36 is equal to or more than the predetermined reference remaining amount, the control unit 35A switches to the reception pattern RP3, operates the communication unit 30 intermittently according to the reception pattern RP3, and performs the intermittent operation. The reception is performed, and if the remaining amount is lower than the reference remaining amount, the reception pattern is switched to the reception pattern RP4 and the communication unit 30 is operated intermittently according to the reception pattern RP4 to perform the intermittent reception. Here, the reception pattern RP3 is a pattern for intermittent reception in which a reception period of 500 ms and a pause period of 500 ms are alternately repeated. This is a pattern for intermittent reception.
[0053]
Further, when switching to reception pattern RP4, control unit 35A notifies base unit 2 that battery 36 has a low remaining amount, causes base unit 2 to display the notification, or sounds a buzzer (not shown). Prompt the user to replace the battery.
[0054]
According to the second embodiment, the pause period according to the reception pattern RP3 when the remaining amount of the battery 36 is large is set to be shorter than the pause period according to the reception pattern RP4 when the remaining amount is small. It is possible to prevent the battery from running out before the battery is replaced.
[0055]
In the second embodiment, the slave unit is driven by a battery, but similarly, the base unit may be driven by a battery.
[0056]
(Third embodiment)
FIG. 9 is an operation explanatory diagram of the master unit and the slave unit in the lighting system according to the third embodiment of the present invention.
[0057]
The lighting system according to the third embodiment is different from the first embodiment in that the master unit 2 and the slave unit 3 operate the communication units 20 and 30 intermittently for transmission as shown in FIG. It has a plurality of types of transmission patterns, switches to any of a plurality of types of transmission patterns based on a predetermined condition, performs intermittent operation of the communication means 20 and 30 according to the transmission patterns, and performs transmission. It is characterized in that the number of transmission repetitions when the reception period according to the reception pattern of the communication partner is short is larger than the number of transmission repetitions when the reception period according to the reception pattern of the communication partner is long.
[0058]
In the example of FIG. 9, in the long absence mode, the reception pattern is RP4 and the transmission pattern is SP4. In the security mode, the reception pattern is RP1 and the transmission pattern is SP1. In the safety confirmation mode, the reception pattern is RP2. The transmission pattern is SP2, and in the case of the home mode, the reception pattern is RP3 and the transmission pattern is SP2.
[0059]
Then, when the transmission pattern is SP4, the same data is transmitted four times continuously, similarly to the transmission pattern SP of the first embodiment. On the other hand, when the transmission patterns are SP1, SP2, and SP3, the same data is respectively transmitted 1, 2, and 3 times continuously.
[0060]
As described above, as the reception time becomes longer, the number of transmission repetitions based on the transmission pattern can be reduced, the communication volume of the entire lighting system can be reduced, and the power consumption for transmission can be reduced. Thereby, the base unit 2 can be driven by a battery.
[0061]
The features of the third embodiment are also applicable to the second embodiment in which the slave unit 3 is driven by a battery. For example, in FIG. 10, assuming that a plurality of slaves 3A are operating in the reception pattern RP1 at normal times, the master 2 only needs to operate in the transmission pattern SP1. When the base unit 2 receives a notification of switching to the reception pattern RP4, for example, due to the shortage of the battery 36 from one of the plurality of slave units 3A, the master unit 2A sends the notification to the one slave unit 3A. On the other hand, communication may be performed with the transmission pattern SP4, and communication with the other slave unit 3A may be performed with the transmission pattern SP1.
[0062]
【The invention's effect】
As is apparent from the above description, the invention according to claim 1 includes a lighting device, a master device and a slave device that control the lighting device and turn on or off at least the lighting device. A lighting system comprising, in each of the units, a communication unit for performing at least transmission and reception of information necessary for the control by wireless communication, wherein at least one of the master unit and the slave unit includes the communication unit. It has a plurality of types of reception patterns for intermittent reception by intermittent operation, switches to any of the plurality of types of reception patterns based on predetermined conditions, and operates the communication means intermittently according to the reception pattern to perform intermittent reception. Therefore, the power consumption required for reception can be reduced, and the power saving operation for that can be adapted to various modes.
[0063]
According to a second aspect of the present invention, in the lighting system according to the first aspect, the slave unit includes, as its own communication unit, a wireless first communication unit for communication with the master unit, An infrared-type second communication unit for communication with a lighting apparatus; and a human sensor for detecting presence or absence of a person in the surroundings, the detection result being one piece of information necessary for the control, and The device includes, as its own communication device, a wireless first communication device for communication with the slave device, and an infrared second communication device for communication with the lighting device, and a network connection. Interface means, and the lighting apparatus includes infrared communication means for communication with the master unit or the slave unit, and at least control of the master unit or the slave unit through the communication means. Turn on or off And than, in this configuration, it is possible to reduce the power consumption necessary for reception, the power saving operation therefor can be adapted to various modes.
[0064]
According to a third aspect of the present invention, in the lighting system according to the second aspect, at least one of the master unit and the slave unit includes any one of the plurality of types of reception patterns based on a priority order of detection of the motion sensor. The power saving operation can be adapted to the priority of detection by the human sensor.
[0065]
According to a fourth aspect of the present invention, in the lighting system according to the second or third aspect, the plurality of types of reception patterns include a reception pattern that uses a detection result of the human sensor for security. Since the reception period is longer than the reception period of other reception patterns, the communication frequency between the master unit and the slave unit is the highest, and in the security mode requiring urgency, switch to the reception pattern with the highest communication performance. Can be.
[0066]
According to a fifth aspect of the present invention, in the lighting system according to any one of the first to fourth aspects, at least one of the master unit and the slave unit uses a battery as a power source, and Switching to any one of the plurality of types of reception patterns makes it possible to prevent the battery from running out before the battery is replaced, for example.
[0067]
According to a sixth aspect of the present invention, in the lighting system according to the fifth aspect, the plurality of types of reception patterns include a pause period based on a reception pattern when the remaining amount of the battery is large, and a reception pattern when the remaining amount is small. Is set so as to be shorter than the idle period, the battery can be prevented from running out before the battery is replaced.
[0068]
According to a seventh aspect of the present invention, in the lighting system according to any one of the first to sixth aspects, at least one of the master unit and the slave unit operates the communication unit intermittently to perform transmission. , And switches to any one of the plurality of transmission patterns based on a predetermined condition, and intermittently operates the communication means in accordance with the transmission pattern to perform transmission. For example, power consumption required for transmission is reduced. It is possible to adapt the power saving operation for that to various modes.
[0069]
The invention according to claim 8 is the lighting system according to claim 7, wherein the plurality of types of transmission patterns are such that the number of transmission repetitions when the reception period of the communication partner's reception pattern is short is equal to the reception period of the communication partner's reception pattern. Is set to be greater than the number of transmission repetitions in the case where is long, the power consumption required for transmission can be reduced, and the power saving operation for that can be adapted to various modes.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a lighting system according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram of the lighting system.
FIG. 3 is an explanatory diagram of an intermittent reception function provided to a master unit and a slave unit of the lighting system.
FIG. 4 is a diagram illustrating the operation of the intermittent reception function.
FIG. 5 is a diagram showing an example of a reception pattern of a parent device and a child device using the intermittent reception function.
FIG. 6 is a diagram illustrating an example of a transmission pattern that can always receive even intermittent reception.
FIG. 7 is a configuration diagram of a lighting system according to a second embodiment of the present invention.
FIG. 8 is an explanatory diagram of the operation of the lighting system.
FIG. 9 is an operation explanatory diagram of a master unit and a slave unit in a lighting system according to a third embodiment of the present invention.
FIG. 10 is an explanatory diagram in a case where the features of the third embodiment are applied to a second embodiment in which a child device is driven by a battery.
FIG. 11 is a configuration diagram of a conventional lighting system compatible with a security mode.
FIG. 12 is a configuration diagram of a conventional lighting system compatible with a remote operation mode.
[Explanation of symbols]
1 lighting equipment
2 parent machine
20 Communication unit
21 Antenna
22 Radio
23 Communication unit (IrLED)
24 Interface (I / F)
25 Control unit (CPU)
3,3A slave unit
30 Communication unit
31 antenna
32 radio
33 Communication unit (IrLED)
34 Human Motion Sensor (Sensor)
35, 35A control unit (CPU)
36 batteries
4 Information terminal

Claims (8)

A lighting device, and a master unit and a slave unit that control the lighting unit and turn on or off at least the wireless unit. Each of the master unit and the slave unit transmits and receives at least information necessary for the control by wireless. A lighting system provided with communication means for performing communication,
At least one of the master unit and the slave unit has a plurality of types of reception patterns for performing intermittent reception by operating the communication unit intermittently, and switches to any of the plurality of types of reception patterns based on a predetermined condition. An intermittent operation of the communication means according to the reception pattern to perform intermittent reception. The slave unit includes, as its own communication unit, a wireless first communication unit for communication with the master unit, and an infrared second communication unit for communication with the lighting fixture, A human sensor for detecting the presence or absence of a person in the surroundings and the detection result is one piece of information necessary for the control,
The master unit includes, as its own communication unit, a wireless first communication unit for communication with the slave unit, and an infrared second communication unit for communication with the lighting fixture, Interface means for network connection,
The lighting device includes an infrared communication unit for communication with the master unit or the slave unit, and is turned on or off at least under control of the master unit or the slave unit through the communication unit. The lighting system according to claim 1. The lighting system according to claim 2, wherein at least one of the master unit and the slave unit switches to one of the plurality of types of reception patterns based on a priority order of detection by the human sensor. The plurality of types of reception patterns include a reception pattern that uses the detection result of the human sensor for security, and a reception period according to this reception pattern is longer than a reception period according to another reception pattern. The lighting system according to claim 2 or 3, wherein: 5. The apparatus according to claim 1, wherein at least one of the master unit and the slave unit uses a battery as a power source and switches to one of the plurality of types of reception patterns based on the remaining amount of the battery. The lighting system according to any one of the above. The plurality of types of reception patterns are characterized in that a pause period according to the reception pattern when the remaining amount of the battery is large is set to be shorter than a suspension period according to the reception pattern when the remaining amount of the battery is small. The lighting system according to claim 5, wherein At least one of the master unit and the slave unit has a plurality of types of transmission patterns for performing transmission by intermittently operating the communication unit, and switches to any of the plurality of types of transmission patterns based on a predetermined condition. The lighting system according to any one of claims 1 to 6, wherein the transmission is performed by intermittently operating the communication means according to the transmission pattern. The plurality of types of transmission patterns are set such that the number of transmission repetitions when the reception period of the communication partner is short is longer than the number of transmission repetitions when the reception period of the communication partner is long. The lighting system according to claim 7, wherein:

Images