JP2009289453A - Lighting device, luminaire and lighting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reliably inform users of the life of a lighting device. <P>SOLUTION: The lighting device 102 comprises a working time measuring part 131, a life determining part 132, a life informing part 133, a life information determining part 141, an a life announcing part 170. The working time measuring part 131 measures a working time for the lighting device 102. The life determining part 132 compares the working time measured by the working time measuring part 131 with a predetermined life time and determines the end of the life when the working time is longer than the life time. The life informing part 133 informs another lighting device 102 of life determination when the life determining part 132 determines the end of the life. The life information determining part 141 determines whether another lighting device 102 informs it of the life determination or not. The life announcing part 170 announces the end of the life to users when the life information determining part 141 determines that another lighting device 102 does not inform it of the life determination and the life determining part 132 determines the end of the life. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a technique for notifying a user of the lifetime of a lighting device.

There is a technique for accumulating the usage time of the lighting device and informing the user of the lifetime of the lighting device by turning off the illumination when the accumulated usage time reaches a predetermined time.
JP 2000-340378 A

When a plurality of lighting fixtures are installed in one room, the same type of lighting fixtures may be installed at the same time, and in this case, usage times of the plurality of lighting fixtures may be substantially equal. When the lights are turned off to inform the life of the lighting device built in the lighting fixtures, multiple lighting fixtures are turned off almost all at once, and nights, basements, rooms behind buildings where the outside light does not enter, etc. become dark. May end up.
The present invention has been made, for example, in order to solve the above-described problems, and in a place where a plurality of lighting fixtures are installed, the life of a lighting device built in the lighting fixtures is reliably notified to the user. For the purpose.

  The lighting device according to the present invention compares the usage time measured by the usage time measurement unit with a predetermined lifetime for the usage time measurement unit that measures the usage time of the lighting device, and the predetermined usage time. A life determination unit that determines that it is a lifetime when it is longer than the lifetime, and a lifetime notification unit that notifies the lifetime determination to other lighting devices when it is determined that the lifetime determination unit is a lifetime, The life notification determination unit that determines whether or not another lighting device has notified the life determination, and the life notification determination unit determines that the other lighting device has not notified the life determination, and the life determination unit determines the life. When it determines with it being, it has a lifetime alerting | reporting part which alert | reports that the lifetime of the said lighting device came.

  According to the lighting device according to the present invention, the lighting device that first determines the lifetime among the plurality of lighting devices notifies the user of the end of the lifetime. To prevent inconveniences such as turning off the lamp, turning off the lamps all at once, or buzzing the buzzers all at once, even when adopting a notification method that can notify the user of the end of the service life. Can do.

Embodiment 1 FIG.
The first embodiment will be described with reference to FIGS.

FIG. 1 is a system configuration diagram showing the overall configuration of an illumination system 800 in this embodiment.
The lighting system 800 includes a plurality of lighting fixtures 100. The plurality of lighting fixtures 100 are connected in series with each other in series or in parallel, and are connected to an AC power supply AC via a switch SW. The plurality of lighting fixtures 100 are simultaneously turned on and off by the operation of the switch SW.

FIG. 2 is a side view showing the external appearance of the lighting fixture 100 in this embodiment.
The lighting fixture 100 includes a fixture main body 101, a lighting device 102, a reflector 103, and a socket 104.
The appliance main body 101 includes a lighting device 102. The socket 104 removably connects the lamp LA. The lighting device 102 inputs power from an AC power source or the like and lights the lamp LA connected to the socket 104. The reflector 103 reflects light emitted from the lamp LA.

FIG. 3 is a block configuration diagram showing a functional block configuration of the lighting device 102 according to this embodiment.
The lighting device 102 includes a terminal block 110, a power supply circuit 121, a lighting circuit 122, a communication circuit 123, a usage time measurement unit 131, a lifetime determination unit 132, a lifetime notification unit 133, a lifetime notification determination unit 141, and a lifetime notification unit 170.
The terminal block 110 has a power input terminal 111 and a power output terminal 112. The power input terminal 111 is connected to the AC power supply AC or the front lighting apparatus 100, and inputs power supplied from the AC power supply AC. The power output terminal 112 is connected to or opened from the rear lighting apparatus 100. When the rear lighting apparatus 100 is connected, power input from the power input terminal 111 is supplied to the rear lighting apparatus 100. Supply. The terminal block 110 has a current capacity of, for example, 20 A. When the input current value per lighting fixture 100 is 0.5 A, about 40 lighting fixtures 100 can be connected in series.
The power supply circuit 121 generates a voltage for driving the lighting circuit 122 from the power input by the terminal block 110.
The lighting circuit 122 generates a voltage to be applied to the lamp LA.
The communication circuit 123 is connected to the front and rear lighting apparatuses 100 via the terminal block 110. The communication circuit 123 is a power line communication circuit, and communicates with the lighting device 102 built in the front-stage and rear-stage lighting fixtures 100 via a power line.
The communication circuit 123 is not limited to the power line communication circuit, and may be another wired communication circuit or a wireless communication circuit using radio waves, infrared rays, light, ultrasonic waves, or the like.

The usage time measuring unit 131 (timer unit) measures the usage time of the lighting device 102. The usage time measuring unit 131 receives the voltage generated by the power supply circuit 121 and measures the time during which the power supply circuit 121 generates the voltage. When the measured time reaches a predetermined time (for example, 1 hour), the usage time measuring unit 131 reads the usage time measured until the previous time from a nonvolatile memory (not shown) and adds 1 to the nonvolatile time. Write to memory. For example, the usage time measuring unit 131 accumulates the energization time of the lighting device 102 in this way to obtain the usage time.
Note that the usage time measured by the usage time measurement unit 131 is used to determine the life of the lighting device 102 and does not necessarily have to be the energization time. For example, if a part that deteriorates over time even if it is not energized becomes a bottleneck that determines the life of the lighting device 102, the usage time measurement unit 131 measures the elapsed time from the time of manufacturing the lighting device 102. , And use time. For example, the lighting device 102 has a built-in backup battery, and the usage time measuring unit 131 measures the usage time by operating with the power of the battery from the time when the lighting device 102 is manufactured. In addition, when a component that deteriorates under a load exceeding a predetermined level is a bottleneck that determines the life of the lighting device 102, the usage time measurement unit 131 detects and detects the load applied to the component. The time during which the load is equal to or greater than the predetermined time (for example, the lighting time of the lamp LA) is measured and used as the usage time.

The lifetime determination unit 132 determines whether or not the lighting device 102 has a lifetime based on the usage time measured by the usage time measurement unit 131. Specifically, when the usage time exceeds a predetermined time (hereinafter referred to as “lifetime”), it is determined that the lighting device 102 is determined to have a lifetime, and the usage time measurement unit 131 The usage time measured by the usage time measuring unit 131 is compared with a predetermined lifetime, and if the usage time is longer than the lifetime, it is determined that the lighting device 102 has a lifetime.
The lifetime is set to a time that can ensure that the lighting device 102 operates safely. This is because the lighting device 102 is replaced or repaired before the lighting device 102 fails due to its life. Thereby, it is possible to prevent the lighting device 102 from being broken and to be in a dangerous state, and it is also possible to collect and reuse components that are still usable.

When the life determination unit 132 determines that the lighting device 102 is at the end of its life, the life notification unit 133 uses the communication circuit 123 to compare the lighting device 102 with respect to the lighting device 102 built in another lighting fixture 100. The life determination unit 132 notifies that it is a life (hereinafter referred to as “life determination”).
Since the plurality of lighting fixtures 100 constituting the lighting system 800 are connected to the same power supply line, the energization time of the lighting device 102 built in each lighting fixture 100 is substantially equal. However, the life determination timing differs for each lighting device 102 due to factors such as a measurement error of the usage time measurement unit 131. For this reason, among the plurality of lighting devices 102, when the lifetime notification unit 133 of the lighting device 102 that first determines the lifetime notifies the lifetime determination, the lifetime determination units 132 of the other lighting devices 102 do not determine the lifetime. .

The life notification determination unit 141 uses the communication circuit 123 to determine whether or not the lighting device 102 included in another lighting apparatus 100 has notified the life determination. The life notification determination unit 141 stores a determination result using a nonvolatile memory.
If the life notification determining unit 141 determines that another lighting device 102 has notified the life determination based on the determination result stored in the nonvolatile memory, the use time measuring unit 131 stops the measurement of the use time. As a result, the usage time measured by the usage time measurement unit 131 of the lighting device 102 that has received the notification of the lifetime determination remains unchanged from the lifetime, and the lifetime determination unit 132 continues to determine that the lighting device 102 is not at the lifetime. It will be.
When the life notification determination unit 141 determines that another lighting device 102 has notified the life determination, the life determination unit 132 does not stop the measurement of the use time but the life determination unit 132 does not stop the life notification. Based on the determination result of the determination unit 141, even if the usage time measured by the usage time measurement unit 131 is longer than the lifetime, the lighting device 102 may not be determined to have a lifetime.

When the lifetime notification unit 170 determines the lifetime (hereinafter referred to as “self-determination”), the lifetime notification unit 170 notifies the user that the lifetime of the entire lighting system 800 has been reached. Specifically, the life notification unit 170 generates, for example, a control signal for controlling the lighting circuit 122, and the lighting circuit 122 turns off the connected lamp LA based on the control signal generated by the life notification unit 170. Blinks or blinks. Alternatively, the life notification unit 170 may turn on an LED that notifies the end of the life, sound a buzzer that notifies the end of the life, or output a guidance sound that notifies the end of the life.
In addition, the life notification unit 170 (second life notification unit) is called when the life notification determination unit 141 determines that the lighting device 102 of another lighting fixture 100 has notified the life determination (hereinafter referred to as “other determination”). In addition, the end of life is notified to the user.

The notification method for self-determination and the notification method for other determinations may be the same or different.
However, when the notification method in the self-determination is to turn off the lamp LA, it is desirable that the notification method in the other determination is a different notification method. This is because, in the case of other determinations, if the lamp LA is turned off, all the luminaires 100 constituting the lighting system 800 are turned off, which may cause inconveniences such as the area becoming completely dark.
In addition, when the notification method in the case of self-determination is a notification method that appeals to hearing, such as a buzzer or guidance voice, the notification method in the case of other determination is a method that appeals to a sense other than hearing (for example, changing the lighting state of the lamp LA, etc.) ) Is desirable. If the notification method in other determinations also appeals to the auditory sense, all the lighting fixtures 100 that make up the lighting system 800 will ring out, which may cause inconvenience.
In addition, it is good also as a structure which alert | reports a lifetime end to a user only in the case of self-judgment, and does not alert | report in case of other judgment, but in that case, a user may misunderstand that only the lighting fixture 100 self-determined has failed. Therefore, it is desirable to have a configuration for notifying in the case of other determinations.

FIG. 4 is a flowchart showing the flow of a life determination process in which the lighting device 102 in this embodiment determines the life.
In the life notification determination step S511, the life notification determination unit 141 determines whether another lighting device 102 has notified the life determination. When it determines with the other lighting device 102 having notified the lifetime determination, it progresses to 2nd lifetime notification process S572. When it determines with the other lighting device 102 not notifying lifetime determination, it progresses to use time measurement process S512.

In the usage time measurement step S <b> 512, the usage time measurement unit 131 measures the usage time of the lighting device 102.
In the lifetime determination step S513, the lifetime determination unit 132 determines whether or not the lighting device 102 has a lifetime based on the usage time measured by the usage time measurement unit 131 in the usage time measurement step S512. When it determines with the lighting device 102 being a lifetime, it progresses to lifetime notification process S514. When it determines with the lighting device 102 not being a lifetime yet, it returns to lifetime notification determination process S511.

In the life notification step S <b> 514, the life notification unit 133 notifies the other lighting device 102 of the life determination using the communication circuit 123.
In the first life notification step S571, the life notification unit 170 notifies the user of the arrival of the entire life of the lighting system 800.
Thereafter, the life determination process ends.

In the second life notification step S572, the life notification unit 170 notifies the user of the arrival of the entire life of the lighting system 800.
Thereafter, the life determination process ends.

  The lighting device 102 in this embodiment compares the usage time measured by the usage time measuring unit 131 with a predetermined lifetime for the usage time measuring unit 131 that measures the usage time of the lighting device 102. When the time is longer than the predetermined lifetime, the lifetime determination unit 132 determines that the lifetime is the lifetime, and when the lifetime determination unit 132 determines that the lifetime is the lifetime, the lifetime determination is performed on the other lighting devices 102. The life notification unit 133 to notify, the life notification determination unit 141 for determining whether or not the other lighting device 102 has notified the life determination, and the above-mentioned life notification determination if the other lighting device 102 has not notified the life determination. A life notification unit 170 that notifies that the lighting device 102 has reached the end of its life when the unit 141 determines that the life determination unit 132 determines that the life is over. Runode, among the plurality of lighting device 102, first life determination and lighting device 102 notifies the lifetime incoming to the user. Since a plurality of lighting devices 102 cooperate to notify the user of the end of life, even if a notification method that can reliably notify the user of the end of life, such as turning off the lamp LA, is used. It is possible to prevent inconvenience that the device 102 turns off the lamps LA all at once or sounds the buzzer all at once.

  The lighting device 102 in this embodiment is a second lifetime that notifies that the lifetime of the lighting device 102 has arrived when the lifetime notification determination unit 141 determines that another lighting device 102 has notified the lifetime determination. Since the notification unit (life notification unit 170) is provided, not only the lighting device 102 that has initially determined the lifetime but also other lighting devices 102 notify the user of the end of the lifetime. Since a plurality of lighting devices 102 cooperate with each other to notify the user of the end of life, the individual lighting devices 102 are compared with the case where only the lighting device 102 that first determines the life reaches the user. Thus, the user can be surely notified that the lifetime of the entire lighting system 800 is not reached.

  Since the lighting fixture 100 in this embodiment includes the lighting device 102, a plurality of lighting fixtures can be used even when a notification system capable of reliably informing the user of the end of life, such as turning off the lamp LA, is employed. It is possible to prevent inconveniences such as 100 turning off all at once or buzzing all at once.

  Since the lighting system 800 in this embodiment includes a plurality of the lighting devices 102, the lighting devices 800 can notify the user of the end of the life by the plurality of lighting devices 102 in cooperation with each other to notify the user of the end of the life. Can be notified.

  As described above, in a lighting system 800 in which a plurality of lighting fixtures 100 are connected, when one lighting fixture 100 determines the life, the plurality of lighting fixtures 100 are turned off or dimmed in a coordinated manner. It is possible to send a signal of the service life reliably. Thereby, it is possible to prevent the user from using the lighting apparatus after the end of its life, and to promote replacement of the lighting apparatus.

  Each functional block of the luminaire 100 described above may be configured by an analog circuit or a digital circuit, or the microcomputer executes a program stored in advance using a storage device such as a ROM. It may be realized by.

Embodiment 2. FIG.
The second embodiment will be described with reference to FIGS.
Note that portions common to the illumination system 800 described in Embodiment 1 are denoted by the same reference numerals, and description thereof is omitted.

FIG. 5 is a block configuration diagram showing a functional block configuration of the lighting device 102 in this embodiment.
The lighting device 102 includes a terminal block 110, a power supply circuit 121, a lighting circuit 122, a communication circuit 123, a usage time measurement unit 131, a lifetime determination unit 132, a lifetime notification unit 133, a lifetime notification determination unit 141, a response notification unit 142, and a distance acquisition. Unit 143, response acquisition unit 151, distance calculation unit 152, distance notification unit 153, and life notification unit 170.

  The life notification unit 133 generates a life determination notification message including an identification code (for example, a manufacturing number of the lighting device 102) for identifying the lighting device 102 itself when the life determination is notified. The identification code is stored in advance in, for example, a non-volatile memory (appliance identification information unit), and the life notification unit 133 reads the identification code from the non-volatile memory and generates a life determination notification message. The life notification unit 133 uses the communication circuit 123 to broadcast the generated life determination notification message to other lighting devices 102.

The life notification determination unit 141 (life determination acquisition unit) uses the communication circuit 123 to receive a life determination notification message transmitted by another lighting device 102. When the life notification determination unit 141 receives the life determination notification message, the life notification determination unit 141 determines that another lighting device 102 has notified the life determination.
The response notification unit 142 generates a response message including an identification code for identifying the lighting device 102 itself, and uses the communication circuit 123 to generate the response message as a response to the life determination notification message received by the life notification determination unit 141. Send.

The response acquisition unit 151 of the lighting device 102 whose life has been determined receives a response message transmitted by another lighting device 102 using the communication circuit 123.
The distance calculation unit 152 (appliance position specifying unit) measures the elapsed time from the time when the life notification unit 133 transmits the life determination notification message to the time when the response acquisition unit 151 receives the response message. The distance calculation unit 152 calculates the distance to the other lighting device 102 that has transmitted the response message based on the measured elapsed time.

Assuming that the time from when the life notification determination unit 141 receives the life determination notification message to when the response notification unit 142 transmits the response message is the same, the elapsed time measured by the distance calculation unit 152 is the life determination notification message. And the response message propagation delay time. In the case of communication using an electrical signal, the propagation speed of the message is the speed of light, and thus the propagation delay time depends on the length of the power supply line that connects between the luminaires 100. The distance calculation unit 152 calculates the distance to the other lighting device 102 from the measured elapsed time based on this dependency relationship.
Note that the distance to the other lighting device 102 calculated by the distance calculation unit 152 need not be an accurate distance. For example, the distance calculation unit 152 assigns numbers in order from the closest distance to the other lighting devices 102 according to the order in which the response acquisition unit 151 receives the response messages, and regards the numbers as the distances to the other lighting devices 102. May be.

  The distance notification unit 153 notifies the other lighting device 102 that has transmitted the response message received by the response acquisition unit 151 of the distance to the lighting device 102 calculated by the distance calculation unit 152. The distance notification unit 153 generates a distance notification message including data representing the distance to the lighting device 102 calculated by the distance calculation unit 152, and transmits the generated distance notification message using the communication circuit 123.

  The distance acquisition unit 143 of the lighting device 102 to which the response notification unit 142 has transmitted the response message uses the communication circuit 123 to receive the distance notification message transmitted by the lighting device 102 whose life has been determined. The distance acquisition unit 143 acquires the distance to the lighting device 102 for which the lifetime has been determined based on the received distance notification message.

  In the case of other determination, the life notification unit 170 (second life notification unit) notifies the user of the arrival of the life from a plurality of predetermined notification methods based on the distance acquired by the distance acquisition unit 143. Select the notification method to be used. The life notification unit 170 notifies the user of the arrival of the life according to the selected notification method.

FIG. 6 is a flowchart showing the flow of a life determination process in which the lighting device 102 in this embodiment determines the life.
In the life notification determination step S511, when the life notification determination unit 141 determines that another lighting device 102 has notified the life determination, the process proceeds to a response notification step S521.

In the response notification step S521, the response notification unit 142 transmits a response message to the other lighting device 102 that has notified the life determination.
In the distance acquisition step S525, the distance acquisition unit 143 receives the distance notification message transmitted by the other lighting device 102 that has notified the life determination, and acquires the distance to the lighting device 102.
In the second life notification step S572, the life notification unit 170 selects a notification method based on the distance acquired by the distance acquisition unit 143 in the distance acquisition step S525, and notifies the user of the arrival of the life by the selected notification method. .
Thereafter, the life determination process ends.

After the life notification step S514, the process proceeds to a response acquisition step S522.
In the response acquisition step S522, the response acquisition unit 151 uses the communication circuit 123 to receive a response message transmitted from another lighting device 102.
In the distance calculation step S523, the distance calculation unit 152 calculates the distance to the other lighting device 102 that has transmitted the response message, based on the time when the response message is received in the response acquisition step S522.
In the distance notification step S524, the distance notification unit 153 uses the communication circuit 123 to compare the other lighting device 102 that has transmitted the response message with the lighting device 102 calculated by the distance calculation unit 152 in the distance calculation step S523. Notify the distance to.
Then, it progresses to 1st lifetime alerting | reporting process S71.

FIG. 7 is a diagram illustrating an example of a notification method in which the illumination system 800 in this embodiment notifies the user of the end of life.
In this example, the distance calculation unit 152 regards the number assigned according to the order in which the response messages are received as the distance to the lighting device 102.
The lighting device 102 turns off the lamp LA in the case of self-determination. In the other determination, the lamp LA is turned on or dimmed if the distance acquired by the distance acquisition unit 143 is an odd number, and the lamp LA is turned off if the distance is an even number.

  In this way, in the case of other determinations, by changing the notification method based on the distance from the lighting device 102 whose life has been determined, a plurality of lighting devices 102 illuminate every other lamp LA, and so on. Since it is possible to create a pattern that is clearly different from the case in which the failure of the lighting system 102 occurs, the user can be surely notified that the plurality of lighting devices 102 are reporting the arrival of the lifetime of the lighting system 800 in cooperation. Can do.

  The second life notification unit (life notification unit 170) in this embodiment notifies that the lifetime of the lighting device 102 has arrived based on the distance from the other lighting device 102 determined to be the lifetime. Since the system is selected, and it is notified that the lifetime of the lighting device 102 has arrived based on the selected notification method, the arrival of the lifetime of the lighting system 800 is reported in cooperation with the other lighting devices 102. The user can be surely notified.

  The lighting device 102 in this embodiment acquires a communication circuit 123 that communicates with another lighting device 102 and a life determination (life determination notification message) that the other lighting device 102 notifies using the communication circuit 123. When the life determination acquisition unit (life notification determination unit 141) and the life determination acquisition unit (life notification determination unit 141) have acquired the life determination, the communication circuit 123 is used for the other lighting device 102. A response notification unit 142 that notifies a life determination response (response message), a response acquisition unit 151 that acquires a life determination response notified by the other lighting device 102 using the communication circuit 123, and the response acquisition. When the unit 151 acquires the life determination response, the life notification unit 133 notifies the life determination until the response acquisition unit 151 acquires the life determination response. The distance calculation unit 152 calculates the distance to the other lighting device 102 based on the elapsed time, and the distance calculation unit 152 calculates the distance to the other lighting device 102 using the communication circuit 123. A distance notifying unit 153 that notifies the distance; and a distance acquiring unit 143 that acquires a distance notified by the other lighting device 102 using the communication circuit 123, and the second life notifying unit (life notifying unit 170). ), When the distance acquisition unit 143 acquires the distance, the method of notifying the arrival of the lifetime is selected based on the distance acquired by the distance acquisition unit 143, so that the entire configuration of the lighting system 800 is not known in advance. However, the distance to the other lighting device 102 can be calculated, and the user is notified that the lighting system 800 has reached the end of its life in cooperation with the other lighting device 102. It can be quite advised of.

Embodiment 3 FIG.
A third embodiment will be described with reference to FIGS.
Note that portions common to the illumination system 800 described in Embodiment 1 are denoted by the same reference numerals, and description thereof is omitted.

FIG. 8 is a block configuration diagram showing a functional block configuration of the lighting device 102 according to this embodiment.
The lighting device 102 includes a terminal block 110, a power supply circuit 121, a lighting circuit 122, two communication circuits 124 and 125, a usage time measurement unit 131, a life determination unit 132, a life notification unit 133, a life notification determination unit 141, and two lifespans. The determination acquisition units 161 and 162, the two life notification relay units 163 and 164, and the life notification unit 170 are included.
In the first embodiment, the power input terminal 111 and the power output terminal 112 are connected in the terminal block 110. However, in this embodiment, the power input terminal 111 and the power output terminal 112 are connected to the terminal block 110. There is no connection. The power input from the power supply input terminal 111 is input by the power supply circuit 121, and the power output by the power supply circuit 121 is supplied to the subsequent lighting apparatus 100 via the power supply output terminal 112.
Similar to the communication circuit 123 described in the first embodiment, the communication circuits 124 and 125 are power line communication circuits. The communication circuit 124 is connected to the power input terminal 111, and the communication circuit 125 is connected to the power output terminal 112. Both signals are separated. For this reason, the communication circuit 124 (first communication circuit) communicates only with the lighting device 102 (first other lighting device) incorporated in the front lighting apparatus 100, and the communication circuit 125 (second communication circuit). Communicates only with the lighting device 102 (second other lighting device) incorporated in the subsequent lighting apparatus 100.

  When the life determination unit 132 determines that the lighting device 102 has a lifetime, the life notification unit 133 generates a lifetime determination notification message including data representing the number of relays. The life determination notification message generated by the life notification unit 133 includes data representing the number of relays 0. The lifetime notification unit 133 transmits the generated lifetime determination notification message to the preceding lighting device 102 using the communication circuit 124, and generates the generated lifetime determination notification message to the subsequent lighting device 102 using the communication circuit 125. Send a lifetime judgment notification message.

The life determination acquisition unit 161 uses the communication circuit 124 to receive the life determination notification message transmitted by the lighting device 102 in the previous stage.
The life notification relay unit 163 adds 1 to the number of relays represented by the data included in the life determination notification message received by the life determination acquisition unit 161, updates the life determination notification message, and uses the communication circuit 125 to An updated lifetime determination notification message is transmitted to the lighting device 102.

The life determination acquisition unit 162 uses the communication circuit 125 to receive the life determination notification message transmitted by the lighting device 102 at the subsequent stage.
The life notification relay unit 164 updates the life determination notification message by adding 1 to the number of relays represented by the data included in the life determination notification message received by the life determination acquisition unit 162, and uses the communication circuit 124. An updated lifetime determination notification message is transmitted to the lighting device 102.

The life notification determination unit 141 determines whether the other lighting devices 102 are in either case when the life determination acquisition unit 161 receives the life determination notification message or when the life determination acquisition unit 162 receives the life determination notification message. It is determined that the life determination has been notified.
The lifetime notification unit 170 (second lifetime notification unit) receives the lifetime received by the lifetime determination acquisition unit 161 or the lifetime determination acquisition unit 162 when the lifetime notification determination unit 141 determines that another lighting device 102 has notified the lifetime determination. The number of relays represented by the data included in the determination notification message is regarded as the distance to the lighting device 102 for which the life has been determined, and the life has come to the user from among a plurality of predetermined notification methods based on the number of relays. A notification method for notifying the user is selected.

FIG. 9 is a flowchart showing the flow of a life determination process in which the lighting device 102 according to this embodiment determines the life.
In the life notification determination step S511, when the life notification determination unit 141 determines that another lighting device 102 has notified the life determination, the process proceeds to the life notification relay step S531.

In the life notification relay step S531, the life notification relay unit 163 or the life notification relay unit 164 adds 1 to the number of relays represented by the data included in the life determination notification message received by the life determination acquisition unit 161 or the life determination acquisition unit 162. . The life notification relay unit 163 or the life notification relay unit 164 generates a life determination notification message in which the number of relays is updated, and generates the life determination notification message for the lighting device 102 at the subsequent stage or the front stage using the communication circuit 125 or the communication circuit 124. Send a lifetime judgment notification message.
In the second life notification step S572, the life notification unit 170 acquires the relay number represented by the data included in the life determination notification message received by the life notification relay unit 163 or the life notification relay unit 164, and based on the acquired relay number. Then, a notification method for notifying the user of the end of the life is selected, and the end of life is notified to the user based on the selected notification method.
Thereafter, the life determination process ends.

FIG. 10 is a diagram illustrating an example of a notification method in which the illumination system 800 in this embodiment notifies the user of the end of life.
In this example, the lighting device 102 turns off the lamp LA in the case of self-determination. In another determination, the lamp LA is turned on or dimmed if the number of relays is an even number, and the lamp LA is turned off if the number of relays is an odd number.

  In this way, in the case of other determinations, by changing the notification method based on the number of relays of the life determination notification message, a plurality of lighting devices 102 illuminate every other lamp LA, etc. Since it is possible to create a pattern that is clearly different from that in the case of a failure, it is possible to make the user surely know that the plurality of lighting devices 102 are reporting the end of life of the lighting system 800 in cooperation. .

  The lighting device 102 in this embodiment includes a first communication circuit 124 that communicates with a first other lighting device (the preceding lighting device 102) among the plurality of other lighting devices 102, and the plurality of other lighting devices. The second communication circuit 125 that communicates with the second other lighting device (the subsequent lighting device 102) different from the first other lighting device in the device 102, and the first communication circuit 124, The lifetime determined by the second other lighting device using the first lifetime determination acquisition unit 161 that acquires the lifetime determination and the number of relays notified by the first other lighting device and the second communication circuit 125. When the second lifetime determination acquisition unit 162 that acquires the determination and the number of relays and the first lifetime determination acquisition unit 161 acquire the lifetime determination, the number of relays acquired by the first lifetime determination acquisition unit 161 is 1 and the second communication circuit 1 When the first life notification relay unit 163 that notifies the second other lighting device of the life determination and the number of relays using 5 and the second life determination acquisition unit 162 acquires the life determination In addition, 1 is added to the number of relays acquired by the second lifetime determination acquisition unit 162, and the lifetime determination and the number of relays are notified to the first other lighting device using the first communication circuit 124. A second life notification relay unit 164, and the life notification unit 133, when the life determination unit 132 determines that it is a life, the first communication circuit 124 and the second communication circuit 125, notifies the first other lighting device and the second other lighting device of the life determination and the relay number 0, and the second life notification unit (life notification unit 170) When one lifetime determination acquisition unit 161 acquires the lifetime determination When the second life determination acquisition unit 162 acquires a life determination based on the number of relays acquired by the first life determination acquisition unit 161, a method for notifying the arrival of the life is selected. Based on the number of relays acquired by the lifetime determination acquisition unit 162, a method for notifying the arrival of the lifetime is selected, so the distance to the other lighting devices 102 can be calculated without knowing the overall configuration of the lighting system 800 in advance. It is possible to make the user surely know that the lighting system 800 has been notified of the end of its life in cooperation with the other lighting devices 102.

1 is a system configuration diagram illustrating an overall configuration of a lighting system 800 according to Embodiment 1. FIG. FIG. 3 is a side view showing the appearance of lighting apparatus 100 according to Embodiment 1. FIG. 3 is a block configuration diagram illustrating a functional block configuration of a lighting device 102 according to Embodiment 1. The flowchart figure which shows the flow of the lifetime determination process in which the lighting device 102 in Embodiment 1 determines a lifetime. FIG. 6 is a block configuration diagram showing a functional block configuration of a lighting device 102 according to a second embodiment. The flowchart figure which shows the flow of the lifetime determination process in which the lighting device 102 in Embodiment 2 determines a lifetime. The figure which shows the example of the alerting | reporting system which the illumination system 800 in Embodiment 2 alert | reports lifetime arrival to a user. FIG. 9 is a block configuration diagram showing a functional block configuration of a lighting device in Embodiment 3. The flowchart figure which shows the flow of the lifetime determination process in which the lighting device 102 in Embodiment 3 determines a lifetime. The figure which shows the example of the alerting | reporting system in which the illumination system 800 in Embodiment 3 alert | reports lifetime arrival to a user.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 100 Lighting fixture, 101 Appliance main body, 102 Lighting apparatus, 103 Reflector, 104 Socket, 110 Terminal block, 111 Power input terminal, 112 Power output terminal, 121 Power circuit, 122 Lighting circuit, 123-125 Communication circuit, 131 Usage time Measurement unit, 132 Life determination unit, 133 Life notification unit, 141 Life notification determination unit, 142 Response notification unit, 143 Distance acquisition unit, 151 Response acquisition unit, 152 Distance calculation unit, 153 Distance notification unit, 161, 162 Life determination acquisition Section, 163, 164 Life notification relay section, 170 life notification section, 800 lighting system, AC AC power supply, LA lamp, SW switch.

Claims (7)

In the lighting device that lights the lamp,
A usage time measuring unit for measuring the usage time of the lighting device;
A life determination unit that compares the use time measured by the use time measurement unit with a predetermined life time and determines that it is a life when the use time is longer than the predetermined life time, and
When it is determined that the lifetime determination unit is a lifetime, a lifetime notification unit that notifies the lifetime determination to other lighting devices, and
A life notification determination unit that determines whether other lighting devices have notified the life determination;
When the life notification determination unit determines that another lighting device has not notified the life determination, and when the life determination unit determines that the life has been reached, a notification is made that the life of the lighting device has been reached. A lighting device comprising a life notification unit.   The lighting device includes a second life notification unit that notifies that the life of the lighting device has arrived when the life notification determination unit determines that another lighting device has notified the life determination. The lighting device according to claim 1.   The second life notification unit selects a notification method for notifying that the life of the lighting device has arrived, based on a distance from another lighting device determined to be a life, and based on the selected notification method The lighting device according to claim 2, wherein the lighting device notifies the end of the life of the lighting device. The lighting device includes a first communication circuit that communicates with a first other lighting device among a plurality of other lighting devices;
A second communication circuit communicating with a second other lighting device different from the first other lighting device among the plurality of other lighting devices;
Using the first communication circuit, a first life determination acquisition unit that acquires the life determination and the number of relays notified by the first other lighting device,
Using the second communication circuit, a second life determination acquisition unit that acquires the life determination and the number of relays notified by the second other lighting device;
When the first lifetime determination acquisition unit acquires the lifetime determination, 1 is added to the number of relays acquired by the first lifetime determination acquisition unit, and the second communication circuit is used to add the second other A first life notification relay unit for notifying the lighting device of the life determination and the number of relays,
When the second lifetime determination acquisition unit acquires the lifetime determination, 1 is added to the number of relays acquired by the second lifetime determination acquisition unit, and the first communication circuit is used to And a second life notification relay unit for notifying the lighting device of the life determination and the number of relays,
The life notification unit uses the first communication circuit and the second communication circuit when the life determination unit determines that the life is a life, and uses the first other lighting device and the second communication device. Notify other lighting devices of life judgment and number of relays 0,
The second life notification unit selects a method for notifying the arrival of the life based on the number of relays acquired by the first life determination acquisition unit when the first life determination acquisition unit acquires the life determination. When the second lifetime determination acquisition unit acquires the lifetime determination, a method for notifying that the lifetime of the lighting device has arrived is based on the number of relays acquired by the second lifetime determination acquisition unit. The lighting device according to claim 3, wherein the lighting device is selected. The lighting device includes a communication circuit that communicates with other lighting devices;
Using the communication circuit, a life determination acquisition unit for acquiring a life determination notified by the other lighting device,
When the lifetime determination acquisition unit acquires the lifetime determination, a response notification unit that notifies the lifetime determination response to the other lighting device using the communication circuit;
Using the communication circuit, a response acquisition unit that acquires a life determination response notified by the other lighting device;
When the response acquisition unit acquires a life determination response, the other lighting device is based on an elapsed time from when the life notification unit notifies the life determination until the response acquisition unit acquires the life determination response. A distance calculation unit for calculating the distance between
A distance notification unit that notifies the distance calculated by the distance calculation unit to the other lighting device using the communication circuit;
A distance acquisition unit that acquires the distance notified by the other lighting device using the communication circuit,
When the distance acquisition unit acquires a distance, the second lifetime notification unit selects a method for notifying that the lifetime of the lighting device has arrived based on the distance acquired by the distance acquisition unit. The lighting device according to claim 3.   A lighting apparatus comprising the lighting device according to any one of claims 1 to 5.   An illumination system comprising a plurality of lighting devices according to any one of claims 1 to 5.

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