JP3440559B2 - Lighting control system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting control system for controlling a lighting load by remote control, human body detection and illuminance detection.

[0002]

2. Description of the Related Art Conventionally, there are illumination control systems as shown in FIGS. 12 to 14 for controlling an illumination load by remote control, human body detection and illuminance detection. The lighting control system shown in FIG. 13 has a plurality of lighting fixtures 60 provided in a certain area, each of which has a human body detection unit 61 for detecting a human body as shown in FIG. 12 and an illuminance detection unit 62 for detecting ambient illuminance. In each of the lighting fixtures 60, when the human body detection unit 61 detects a human body, it lights up.
Further, the illuminance detecting section 62 detects the illuminance of the surroundings, and the lighting fixture 60 is dimmed so that the surroundings have a predetermined illuminance. When a person enters the area, the lighting fixture 6 that detects the human body among the plurality of lighting fixtures 60.
0, that is, only the lighting fixtures 60 arranged in the vicinity of a person are turned on, and only the required lighting fixtures 60 among the plurality of lighting fixtures 60 are turned on to save energy and perform efficient lighting. I was doing.

Further, the lighting control system shown in FIG. 14 is used in a large-scale office or the like, and a plurality of lighting fixtures 70, a human body detecting device 71, an illuminance detecting device 72, etc. are connected to the transmission line Ls. It is connected to the transmission control device 73 via. Individual addresses are set for each lighting fixture 70, human body detection device 71, and illuminance detection device 72, and each address is managed by the transmission control device 73 so that each lighting fixture 70, human body detection device 71, and illuminance detection device 72. Were to be controlled individually.

[0004]

However, in the former conventional configuration described above, it is necessary to provide the human body detection unit 61 and the illuminance detection unit 62 in all of the plurality of lighting fixtures 60, which is very high in cost. There was a problem. Further, in the latter conventional configuration described above, since the transmission control device 73 controls the plurality of lighting fixtures 70, it is necessary to set addresses for all the lighting fixtures 70, the human body detection device 71, and the like. Since all the lighting fixtures 70, the human body detection device 71 and the like have to be connected to the transmission control device 73 by the transmission line, there is a problem that the connection is troublesome and a great labor and cost are required for the construction.

The present invention is intended to solve the above problems, and an object of the present invention is to provide an illumination control system having a simple structure and easy construction.

[0006]

In order to achieve the above object, the invention of claim 1 is a remote control signal receiving section for receiving a lighting remote control signal and a wireless remote control signal, and a remote control received by the remote control signal receiving section. A plurality of lighting fixtures having a load control unit that controls the lighting load based on signals, a human body detection unit that detects a human body, an illuminance detection unit that detects ambient illuminance, and a wireless remote control signal transmitted to the lighting fixtures. remote control signal transmission unit, remote control unit for transmitting a remote control signal based on the detection output or the detection output and the detection output of the detection output and the illumination detection unit of the human body detection unit from a remote control signal transmitting unit, a human body is detected in the human body detection unit Not be
When there is a delay from when the lighting load of the lighting equipment is turned off
A portable remote controller having a setting unit for setting the distance, and the reachable range of the remote control signal transmitted from the remote control signal transmission unit to an arbitrary part of the illumination depending on the positional relationship with each lighting fixture. The feature is that the remote control signal reaches only the equipment.

According to a second aspect of the present invention, in the first aspect of the present invention, the human body detecting section is provided in the setting section of the remote controller.
The human body detection function of the
After a certain period of time after the control signal is no longer obtained
The mode in which the load control unit turns off the lighting load and
Lighting load is a load control unit even not detect the human body knowledge unit
When the setting part is set to turn off without turning off
In addition to the mode in which the load control unit turns off the lighting load,
Both are characterized by being set .

[0008]

According to the invention of claim 1, the lighting load, the remote control signal receiving section for receiving the wireless remote control signal, and the load control section for controlling the lighting load based on the remote control signal received by the remote control signal receiving section. A plurality of lighting fixtures including, a human body detection unit that detects a human body, an illuminance detection unit that detects ambient illuminance, a remote control signal transmission unit that transmits a wireless remote control signal to the lighting device, a detection output of the human body detection unit, and If the human body is detected in the remote control control section or the human body detection section that causes the remote control signal transmission section to transmit the detection output of the illuminance detection section or the detection output or the detection output of these detection outputs.
The lighting load on the luminaire goes off after it is no longer detected
A remote controller having a portability setting unit for setting a delay time up to, and a reachable range of the remote control signal transmitted from the remote control signal transmission unit is set to an arbitrary range depending on the positional relationship with each lighting fixture. Since the range is such that the remote control signal can reach only the luminaires of some parts, even if a plurality of luminaires are provided, a human body detection means is provided for each luminaire, or a plurality of luminaires are detected based on human body detection. It is not necessary to connect each lighting fixture with a signal line or set an address for transmission control for each lighting fixture to control the lighting fixture, which simplifies the configuration of the lighting fixture and facilitates construction and cost reduction. Also, when a person moves while carrying the remote controller, carry the remote controller among multiple lighting fixtures. Only luminaire close to the human can be lit, it is possible to achieve energy-saving lighting control systems, frequently the human body detection unit in the detection area
Even when people often come and go, the lighting fixtures are complicated
It is possible to avoid repeating lighting and extinguishing, lighting control
The usability of the system can be improved .

According to the second aspect of the invention, in the remote controller,
The human body detection function of the human body detection unit in the setting part of the tracker
On / off setting and remote control signal
After a certain period of time after the
A mode in which the light load is turned off and the human body detection unit detects the human body
Even if it does not turn off, the load control unit does not turn off the lighting load.
If the load control section is set to turn off the light by the control section,
At least one of the modes to turn off the light load
Since the setting is made , the human body detection function can be turned off to control the lighting fixture irrespective of human body detection, and more detailed control can be performed in the lighting control system.

[0010]

EXAMPLES (Basic Example) An example of construction of a lighting control system of a basic example of the present invention is shown in FIG. The lighting control system includes a lighting fixture 1 and a remote controller (hereinafter, abbreviated as remote controller) 10.

The lighting fixture 1 includes a lighting load 2 and a remote controller 1.
The remote control signal receiving unit 3 receives a remote control signal wirelessly transmitted from 0, and the load control unit 4 controls the lighting load 2 based on the received remote control signal. On the other hand, the remote controller 10 includes a human body detection unit 11 that detects the presence of a human body in a certain area, an illuminance detection unit 12 that detects the ambient illuminance, and a remote control signal transmission unit that wirelessly transmits a remote control signal to the lighting fixture 1. 13 and the detection output of the human body detection unit 11 and the detection output of the illuminance detection unit 12, and outputs the detection output and the detection output or a remote control signal (hereinafter, abbreviated as a remote control signal) based on these detection output and the detection output. The remote controller controller 14 to be transmitted from the signal transmitter 13 is integrally housed in, for example, a portable case.

Here, the human body detecting section 11 is for detecting heat generated from the human body by, for example, a pyroelectric heat sensitive sensor, and the illuminance detecting section 12 is, for example, a cadmium sulfide cell or cadmium selenide. The amount of incident light is detected by using a photoconductive element such as a cell, and the human body detection unit 11 and the illuminance detection unit 12 are not particularly limited to the above, and the detection of the human body detection unit 11 and the illuminance detection unit 12 is performed. Means and detection means are not the subject of the present invention.

Next, the operation of the lighting control system of this basic example will be described. First, when a person carries the remote controller 10 and approaches the luminaire 1, the human body detection unit 11 of the remote controller 10 detects the person carrying the remote controller 10 and gives a detection output to the remote controller control unit 14 for remote controller control. Part 14
Causes the remote control signal transmission unit 13 to periodically transmit this detection output to the lighting fixture 1 as a remote control signal. The remote control signal transmitted from the remote control signal transmitter 13 is
It is received by the remote control signal receiving unit 3 of the lighting fixture 1 and sent to the load control unit 4, and the load control unit 4 controls the lighting load 2 to perform lighting.

Further, the illuminance detecting section 12 of the remote controller 10 detects the ambient illuminance due to the illumination of the lighting fixture 1 and gives a detection output to the remote controller controlling section 14. Based on the detection output, the remote controller control unit 14 causes the remote control signal transmitter 13 to transmit a dimming signal for lowering the illuminance to the lighting fixture 1 as a remote controller signal when the detected ambient illuminance is higher than a predetermined illuminance. . The lighting fixture 1 which receives this dimming signal dimming controls the lighting load 2 by the load control unit 4 to reduce the illuminance.

On the other hand, when a person moves away from the remote controller 10 without carrying the remote controller 10, if the person moves out of the detection area of the human body detecting section 11, the detection output cannot be obtained. Therefore,
If the detection output from the human body detection unit 11 is no longer obtained, the remote control control unit 14 outputs a remote control signal for performing control such as stopping (turning off) the illumination by the lighting fixture 1 or reducing the illuminance. The transmission unit 13 causes the lighting device 1 to transmit. Then, the load control unit 4 of the lighting fixture 1 which receives the remote control signal controls the lighting load 2 to stop the lighting or reduce the illuminance.

According to the above configuration, it is not necessary to provide the human body detection unit and the illuminance detection unit in the lighting fixture 1, the human body detection unit 11 included in the remote controller 10 detects the human body, and the remote controller 10 is the lighting fixture. The lighting load 2 of the luminaire 1 can be operated to perform lighting or dimming only when it is within the reachable range of the remote control signal of 1. Therefore, the structure of the lighting control system is simplified and the cost is reduced. Can be planned. Further, since the illuminance detection unit 12 provided in the remote controller 10 detects the ambient illuminance and controls the lighting load 2 of the lighting fixture 1 based on the detected illuminance, the illuminance at the place where the remote controller 10 is present is finely controlled. There is an advantage that can be done.

(Embodiment 1) An example of construction of a lighting control system of this embodiment is shown in FIG. This lighting control system uses the lighting fixture 1 and the remote controller 10 described in the basic example, and uses a plurality of lighting fixtures 1a to 1a.
d (four units in this embodiment) are arranged.
It is needless to say that the number of the lighting fixtures 1 used is not limited to four and may be more or less. Further, the four lighting fixtures 1a to 1d are arranged independently of each other, and no signal line for transmitting and receiving a control signal or the like is used among the respective lighting fixtures 1a to 1d. Furthermore, the reachable range of the remote control signal transmitted from the remote control signal transmission unit 13 of the remote control 10 is set to the respective lighting fixtures 1.
Any one of the lighting fixtures 1a depending on the positional relationship with a to 1d
The range is such that the remote control signal reaches only to 1d.

Next, the operation of this lighting control system will be described. Here, the person carrying the remote controller 10 is shown in FIG.
The transmission range of the remote control signal when it is located at the point P or the point Q is shown by a dotted line in the figure. Now, assuming that the person carrying the remote controller 10 comes to the position of the point P, the detection output of the human body detection unit 11 of the remote controller 10 is transmitted from the remote control signal transmission unit 13 to the lighting fixture 1. However, this remote control signal is transmitted to the lighting fixtures 1a, 1 which are within the above transmission range.
b, but the luminaires 1c, 1 that are outside the transmission range
Since the remote control signal does not reach d, the remote control signal is received only by the remote control signal receiving unit 3 of the lighting fixtures 1a and 1b within the transmission range.
Only the lighting fixtures 1a and 1b illuminate.

Further, the illuminance detector 12 of the remote controller 10 detects the ambient illuminance and gives a detection output to the remote controller controller 14. Based on the detection output, for example, when the detected ambient illuminance is lower than a predetermined illuminance, the remote control control unit 14 outputs from the remote control signal transmission unit 13 a dimming signal for raising the illuminance to an appropriate value as a remote control signal. Lighting equipment 1
a, 1b. The lighting fixtures 1a and 1b that have received the dimming signal are controlled by the load control units 4a and 4b.
The illuminance is adjusted by controlling the dimming of a and 2b.

At this point, the person carrying the remote control 10 points to point P.
When moving from the position of to the position of the point Q, the luminaires 1a, 1
b goes out of the remote control signal transmission range of the remote control 10, and the remote control signal does not reach the lighting fixtures 1a and 1b. As a result, the load control unit 4 of the lighting fixtures 1a and 1b
Does not send a remote control signal from the remote control signal receiving unit 3 and controls the lighting load 2 after a certain time to turn off the light.

On the other hand, the detection output of the human body detection unit 11 of the remote controller 10 reaches the lighting fixtures 1c and 1d.
The three lighting fixtures 1c and 1d are turned on to illuminate, and control is performed according to the ambient illuminance as in the case of the lighting fixtures 1a and 1b. Further, if a person moves away from the remote controller 10 without carrying the remote controller 10, detection output cannot be obtained if the person moves out of the detection area of the human body detecting section 11, so the remote controller controlling section 14 controls the lighting equipment 1c, The illumination by 1d is turned off after a certain period of time.

According to the above configuration, when the person is present, only the place where the person is present can be illuminated with an appropriate illuminance to save energy, and a lighting control system capable of finely controlling the illumination is realized. In addition, in such a lighting control system, it is not necessary to connect the plurality of lighting fixtures 1a to 1d with a signal line, and the human body detection unit 11 can be connected to the remote controller 10.
It can be constructed with a simple configuration including only the illuminance detection unit 12 and the construction becomes easy.

(Embodiment 2) FIG. 3 shows an example of construction of a lighting control system of this embodiment. The lighting fixture 1 used in this lighting control system is the first embodiment.
The remote controller 10 ′ has the same basic configuration as the remote controller 10 of the first embodiment.
That is, the remote controller 10 ′ according to the present embodiment is different from the remote controller 10 according to the first embodiment in that the remote controller 10 ′ according to the present embodiment is provided with the setting unit 15 that performs various settings described below.

The setting unit 15 is actually set after the human body detection function of the human body detection unit 11 is turned on and off, and when the human body detection unit 11 cannot obtain a detection output when the human body detection function is turned on. In addition, the delay time until the lighting fixture 1 is turned off is set. The operation of the above lighting control system will be described with reference to the flowchart shown in FIG. First, the remote controller control unit 14 determines whether or not there is some kind of setting input from the setting unit 15 (S1), and if there is a setting input, the input is read (S2), and the setting state of the setting unit 15 is set. A lighting device 1 sends a corresponding remote control signal.
(S3). On the other hand, if there is no setting input from the setting unit 15, the change in the detection output from the human body detection unit 11 is determined (S4), and if there is no change in the detection output, the process returns to the first step S1. Conversely, if there is a change in the detection output,
The ON / OFF setting state of the human body detection function in the setting unit 15 is determined (S5), and if the setting is OFF, the setting input indicating another setting state in the setting unit 15 is read (S5).
6) Then, a remote control signal for turning off the lighting device 1 is transmitted according to the setting state (S7). On the contrary, if the human body detection function is set to ON, the other setting input in the setting unit 15 is similarly determined (S8), and the remote control signal for lighting the lighting fixture 1 is output according to the setting state of the setting unit 15. Transmission is started (S9). Next, when the lighting fixture 1 is turned on, the illuminance detection unit 12 detects the illuminance (S10),
The detection output is set by the setting unit 15 in the remote controller control unit 14.
Is compared with the predetermined illuminance level set in (S1
1). Then, when the detected illuminance level is higher than the predetermined illuminance level, a dimming down signal for lowering the illuminance is transmitted to the lighting fixture 1 as a remote control signal (S12), and conversely the detected illuminance level is the predetermined illuminance level. If it is lower than the above, a dimming up signal for increasing the illuminance is transmitted to the luminaire 1 as a remote control signal (S13), and the illuminance of the illumination by the luminaire 1 is controlled to approach the illuminance set by the setting unit 15. Of.

According to the above configuration, when the function of the human body detection unit 11 is set to OFF in the setting unit 15, the lighting state of the lighting fixture 1 does not change due to movement of a person,
For example, even when a person carrying the remote controller 10 ′ moves to a place where a plurality of lighting fixtures 1a to 1d are arranged as in the lighting control system of the first embodiment, a lighting fixture that performs lighting according to the movement of the person. It is possible to prevent 1a to 1d from changing one after another. Further, by setting the delay time in the setting unit 15, the remote controller 10 '
Even when a person is away from the lighting fixture 1, the lighting of the lighting fixture 1 can be turned on for the delay time. Therefore, the lighting of the lighting fixture 1 that the person is leaving is turned on for the delay time without being immediately turned off. You can prevent things from happening. Therefore, if necessary, lighting can be performed without depending on human body detection, or a delay time from when the human body is no longer detected until the light is turned off can be set, and fine lighting control can be performed. The usage of such a lighting control system can be expanded and the usability can be improved.

In the setting unit 15, when the remote control signal transmitted from the remote controller 10 'does not reach the lighting fixture 1, the load control unit 4 of the lighting fixture 1 immediately controls the lighting load 2 to turn it off. Instead, the lighting load 2 may be set to a mode in which the lighting load 2 is controlled and turned off after a certain period of time after the remote control signal is not obtained. That is, the setting unit 15 sets the mode as described above in advance, and transmits the remote control signal indicating the setting state to the lighting fixture 1. This makes it possible to prevent the lighting device 1 from being immediately turned off even if a person leaves the lighting device 1 while carrying the remote controller 10 ′.

Alternatively, it is possible not to turn off the lighting device 1 that has been turned on once, unless the lighting device 1 receives a signal based on the state set by the setting unit 15. That is, the human body detection unit 1 of the remote controller 10 '
Even if the human body is no longer detected in 1, the luminaire 1 does not turn off, and the luminaire 1 is turned off only when the setting unit 15 of the remote controller 10 'is set to turn off the luminaire 1.

Further, as described in the first embodiment,
The setting illuminance that is compared with the illuminance detected by the illuminance detector 12 may be set by the setting unit 15. That is, the illuminance of the luminaire 1 is feedback-controlled so that the illuminance set by the setting unit 15 of the remote controller 10 'is obtained, and a desired set illuminance can be obtained.

By the way, in a space such as an office,
In order to save energy, it is important to obtain the required illumination level when needed by detecting the human body and to reduce the illumination level when unnecessary. However, it is not always preferable to make the illumination level variable only by human body detection. For example, in the office,
It is assumed that the presence of a person is detected, and the illumination device is illuminating at an arbitrary illumination level that is set as being necessary when the person is present and set in advance. However, it is common that the required lighting level varies depending on the type of work performed by the person in the area. In other words, the illumination level required for a work that requires fine hand work or precision must be different from the illumination level required for a normal work other than the above work.

Therefore, the human body detection is used to control the turning on / off of the lighting equipment to save energy, and the human body detection function is turned off as necessary to use a remote controller or the like to set an arbitrary illumination level according to work or the like. If the adjustment is performed by using the adjustment, a more efficient and comfortable lighting environment can be obtained. Therefore, as shown in FIG.
A lighting device 22 including a lamp, a lighting circuit, a human body detection unit 23 that detects a human body, and the lighting device 22 based on a human body detection signal from the human body detection unit 23 and a remote control signal from the remote control signal reception unit 21. In the lighting fixture 20 including the control unit 24 that controls and illuminates, the remote controller 30
State holding means for holding a state in which lighting control is performed by a remote control signal transmitted from the device, and state releasing means for releasing the state and returning to a state in which lighting control is performed based on human body detection by the human body detection unit 23. By configuring the control unit 24 and operating the remote controller 30, it is possible to freely set an arbitrary illumination level and create an illumination environment without depending on human body detection.

For example, as shown in FIGS. 6 and 7, when a person enters the room in which the lighting fixture 20 is installed on the ceiling, the human body detecting section 23 of the lighting fixture 20 detects the person. The lighting unit 22 is controlled by the control unit 24, and the lighting level in the room rises from the lighting level when there is no person to the preset lighting level when there is a person. Here, the set illumination level of the manned person is the illumination device 2
The lighting level is 80% when 100% is set when all 2 are turned on. It is also assumed that the 80% illumination level is sufficiently bright for normal work.

Here, when a person who enters the room wants to perform detailed work in the room, he / she operates the remote controller 30 as shown in FIG. If the state is changed to the state of lighting control by the remote controller 30 and the state is maintained in the control unit 24 of the lighting fixture 20, the remote controller 30 is used for the lighting level (for example, 100% of all lighting) required for the above detailed work. Can be adjusted freely. After the work is finished, the remote controller 30 is operated again to release the above state,
When the lighting fixture 20 is returned to the state where the lighting control is performed by the human body detection, the lighting is performed by the original human body detection.

FIG. 8 is a flow chart for explaining the above-mentioned operation. The remote control 30 switches the lighting control mode by the human body detection to the lighting fixture 20 and the lighting control mode (manual mode) by the remote control 30 (SS1) to detect the human body. In the lighting control mode by
When the human body is detected in the control unit 24 (SS2), if the human body is detected, the lighting device 22 is controlled to perform lighting at the illumination level of a manned person (SS3), and if the human body is not detected, the human body is unattended. Lighting at the lighting level (SS
4). On the other hand, when the remote controller 30 is switched to the manual mode, the control unit 24 waits for the transmission of the dimming signal from the remote controller 30 (SS5), and if the dimming signal is input, the lighting device 22 is turned on based on the dimming signal. It is controlled to perform illumination at a predetermined illumination level (SS6). If the dimming signal is not transmitted, the current illumination level is held (SS7). Here, if the dimming signal is not transmitted, the lighting level in the lighting control mode based on human body detection changes in a complicated manner in a place where people often come and go, which rather causes an unpleasant feeling to the person. There is a possibility that the manual mode is set to prevent such a complicated change of the illumination level.

Further, as shown in FIG. 9, the four luminaires 40 can be collectively controlled by a control device 50 having a human body detecting section 51 and a remote control signal receiving section 52. For example, such four lighting fixtures 40 are arranged on the ceiling of a conference room or the like, and the control device 50 also arranged on the ceiling switches the lighting control mode for human body detection as described above and the manual mode to perform lighting. It may be performed. That is, as shown in FIG. 10, when an illumination control mode by human body detection is normally set, and when, for example, an OHP is used indoors, the remote control 53 is switched to the manual mode to set the indoor illumination level appropriately. The light is adjusted to the darkness.

Further, as shown in FIG. 11, a large number of lighting fixtures 20 each having the remote control signal receiving section 21, the lighting device 22, the human body detecting section 23, and the control section 24 are arranged in a large room as described above. In this case, the human body detection area of the human body detection unit 23 of one lighting fixture 20 is only the range shown in FIG. A, but if a wide range of illumination areas shown in FIG. , be switched luminaire 20 ₁ to 20 ₉ within the range B in the manual mode by the remote controller 30, it is possible to obtain an illumination area independently range B in the presence of a range B Uchinohito.

[0036]

According to the first aspect of the present invention, the lighting load, the remote control signal receiving section for receiving the wireless remote control signal, and the load control section for controlling the lighting load based on the remote control signal received by the remote control signal receiving section. A plurality of lighting fixtures including, a human body detection unit that detects a human body, an illuminance detection unit that detects ambient illuminance, a remote control signal transmission unit that transmits a wireless remote control signal to the lighting device, a detection output of the human body detection unit, and The human body is detected by the remote control control section and the human body detection section that cause the remote control signal transmission section to transmit the detection output of the illuminance detection section or the detection output or the remote control signal based on the detection output.
Until the lighting load of the luminaire turns off after it is no longer known.
A remote controller having portability and a setting unit for setting a delay time, and the reachable range of the remote control signal transmitted from the remote control signal transmission unit is set to an arbitrary range depending on the positional relationship with each lighting fixture. Since the range is such that the remote control signal can reach only the luminaires of some parts, even if a plurality of luminaires are provided, a human body detection means is provided for each luminaire, or a plurality of luminaires are detected based on human body detection. It is not necessary to connect each lighting fixture with a signal line or set an address for transmission control to each lighting fixture to control the lighting fixture, which simplifies the configuration of the lighting fixture and facilitates construction and cost reduction. ,
Also, when a person moves while carrying the remote controller, only the lighting equipment near the person carrying the remote controller can be turned on among multiple lighting equipment, which saves energy in the lighting control system. In addition to being able to achieve this , the
Even when people go in and out, lighting fixtures light up intricately
・ It is possible to avoid repeatedly turning off the lights,
This has the effect of improving the usability of the system.

The invention of claim 2 is a remote controller
The human body detection function of the human body detection section is turned on / off in the setting section of
And the remote control signal is obtained.
The load control unit reduces the lighting load after a certain period of time
The mode to turn off the light and the human body detection unit to not detect the human body.
Even if the load control unit does not turn off the lighting load,
The load control section reduces the lighting load
Set at least one of the mode to turn off
As a result , the human body detection function can be turned off to control the lighting fixture regardless of human body detection, and finer control can be performed in the lighting control system, improving the usability of the lighting control system. There is an effect that the usage can be expanded.

[Brief description of drawings]

FIG. 1 is a diagram showing a construction example of a lighting control system in a basic example .

FIG. 2 is a diagram showing an example of construction of a lighting control system in the first embodiment.

FIG. 3 is a diagram showing an example of construction of a lighting control system in a second embodiment.

FIG. 4 is a flowchart for explaining the operation of the above.

FIG. 5 is a diagram for explaining the same as above.

FIG. 6 is a diagram for explaining the same as above.

FIG. 7 is a diagram for explaining the same as above.

FIG. 8 is a diagram for explaining the same as above.

FIG. 9 is a diagram for explaining the same as above.

FIG. 10 is a diagram for explaining the same as above.

FIG. 11 is a diagram for explaining the same as above.

FIG. 12 is a diagram showing a construction example of a lighting control system in a conventional example.

FIG. 13 is a diagram showing a construction example of a lighting control system in another conventional example.

FIG. 14 is a diagram showing a construction example of a lighting control system in still another conventional example.

[Explanation of symbols]

1 lighting equipment 2 Lighting load 3 Remote control signal receiver 4 Load control unit 10 remote control 11 Human body detector 12 Illuminance detector 13 Remote control signal transmitter 14 Remote control unit

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Mikako Iwai 1048 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (56) Reference JP-A-6-109864 (JP, A) JP-A-57-165998 ( JP, A) Actual development 5-36986 (JP, U) Actual development 5-90887 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) H05B 37/02

Claims (2)

(57) [Claims] 1. A plurality of lighting fixtures comprising: a lighting load; a remote control signal receiving section for receiving a wireless remote control signal; and a load control section for controlling a lighting load based on the remote control signal received by the remote control signal receiving section. And a human body detection unit that detects a human body, an illuminance detection unit that detects ambient illuminance, a remote control signal transmission unit that transmits a wireless remote control signal to a lighting fixture, a human body detection unit detection output and an illuminance detection unit detection output, or Whether the human body is no longer detected by the remote control control unit or the human body detection unit that causes the remote control signal transmission unit to transmit the detection output and the remote control signal based on the detection output .
Set the delay time until the lighting load of the lighting fixture is turned off
A remote controller having a portability setting unit and a portable remote controller is provided, and the reachable range of the remote control signal transmitted from the remote control signal transmitting unit is limited to only some of the lighting devices depending on the positional relationship with each lighting device. A lighting control system characterized by having a range within which a remote control signal can reach. 2. In the setting section of the remote controller
When the human body detection function of the human body detection unit is turned on / off,
, After the remote control signal is no longer obtained
Mode in which the load control unit turns off the lighting load after a certain period of time
Even if the human body detection unit no longer detects the human body, the load control unit
Setting to turn off the lighting load by the setting unit without turning it off
When the load control section turns off the lighting load when
The lighting control system according to claim 1 , wherein at least one of the following is set .