JP3823648B2 - Lighting control apparatus and lighting apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting control device that contains electric consumption by promptly lighting on or putting out when a human is close nearby or leaves. SOLUTION: A lighting control device of a toilet room comprises a human detector 13 which detects a human being within the detecting area at the toilet bowl side and a human detector 14 which detects a human being at the door side partly overlapping with the former detector but in different area; whereby when a human detector 14 detects a human, an effective lighting time of 5 to 10 seconds is used and when a human detector 13, 14, detect a human, an effective lighting time of 5 to 10 minutes is used, and when a human detector 14 only detects a human, an effective lighting time of 5 to 10 seconds is used. A control circuit 16 of the device controls the lighting of light load 11 according to the effective lighting time as above used.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting control device and a lighting fixture with a human body detection function that are used in a toilet or the like and automatically turn on and off.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is a lighting control device that has a human body detection sensor as a human body detection unit that detects the presence of a human body, and that automatically turns on when a person is present in the vicinity and automatically turns off when a person moves away.
[0003]
In this type of lighting control apparatus, an ultrasonic sensor, a distance measuring sensor, a pyroelectric sensor (heat ray sensor, PIR), or the like is mainly used as a human body detection sensor.
[0004]
The ultrasonic sensor and the distance measuring sensor are active sensors (active type sensors), which output ultrasonic waves and infrared rays toward a human body or an object in a detection range, respectively, By measuring the reflection angle (trigonometry), the presence of the human body and the distance to the human body are detected. The advantage of this type of sensor is that it can reliably detect its presence even when the human body is completely stationary. On the other hand, the disadvantages are that the detection range (detection angle) is narrow, the power consumption during sensor operation is relatively large, and the cost including peripheral circuits is high.
[0005]
The pyroelectric sensor is a sensor that detects the movement of the human body by detecting the amount of change in far infrared rays generated by the body temperature of the human body, and is a passive sensor (passive type sensor) that does not output anything. The advantages of this sensor are that it provides a relatively wide detection range (detection angle), relatively low current consumption, low false detection with objects other than the human body such as walls, and cost including peripheral circuits. It is relatively inexpensive. On the other hand, the disadvantage is that the human body cannot be detected when the human body is completely stationary because it is a sensor that detects a change in the amount of heat.
[0006]
In recent years, in consideration of the characteristics of each sensor, active sensors have been used for lighting control devices such as mirror lights in bathrooms that can only detect the human body in front. Often used in lighting control devices for lighting fixtures provided in a space.
[0007]
In addition, there is a possibility that the human body may be stationary at places such as entrances and toilets, but in such places, a detection range (detection angle) above a certain level is required. For this reason, the lighting control device includes a pyroelectric sensor that is a passive sensor, and a timer circuit that operates for a range of several tens of seconds to several minutes for sensor non-operation when the human body is stationary. Uses a lighting control method that turns on when a human body is detected by the pyroelectric sensor, then maintains the lighting state if the timer circuit is operating, and turns off when the timer circuit stops operating and the time is up It has been. Hereinafter, the operation time of the timer circuit is referred to as a lighting holding time.
[0008]
In the object detection device described in Japanese Patent No. 2875638 and the human body detection device described in Japanese Patent Application Laid-Open No. 6-242258, both an active sensor and a passive sensor are used. For these, active sensors that can detect the human body reliably are used as the main sensors. In order to reduce the power consumption of the active sensors and improve the life of the elements, the active sensors can only be used within a predetermined time after detection by the passive sensors. It is characterized by operating the sensor.
[0009]
Japanese Patent Laid-Open No. 10-258062 discloses that a pyroelectric sensor and an ultrasonic sensor are used and lighting is started with respect to the logical sum of the human body detection signals, and a predetermined lighting holding time (off delay time) is set. A human body detection device is described that maintains lighting until it is up.
[0010]
Japanese Patent Application Laid-Open No. 7-12374 discloses a control device that uses two pyroelectric sensors and determines entry and exit from a toilet in the context of detection.
[0011]
Further, Japanese Patent Laid-Open No. 6-148346 discloses a countermeasure against non-operation of the main human body detection sensor when the second human body detection sensor is blocked by the user's hand like a manual switch. An applied human body detection device is disclosed.
[0012]
[Problems to be solved by the invention]
However, in conventional lighting control devices used at entrances and toilets, it is necessary to set a sufficient lighting holding time as a countermeasure for sensor malfunction when the human body is stationary, so after leaving the place (after leaving the toilet) Although the human body does not exist in the vicinity of the lighting control device, there is a problem that the lighting is wasted until the lighting holding time is up. This problem is also the same in the human body detection apparatus described in Japanese Patent Laid-Open No. 10-258062 that uses the logical sum of the human body detection signals of the pyroelectric sensor and the ultrasonic sensor as a trigger for lighting (lighting holding time is fixed).
[0013]
Further, in the object detection device described in Japanese Patent No. 2875638 and the human body detection device described in Japanese Patent Application Laid-Open No. 6-242258 using an active sensor and a passive sensor, the detection of the active sensor is always performed when the human body is stationary. Must be in range. In the latter human body detection device, there is a description that the passive type sensor is extinguished after the lighting holding time, but the active type sensor has no lighting holding time, so the detection operation must be performed substantially continuously. Conceivable. Therefore, measures to reduce power consumption and improve device life are insufficient.
[0014]
In addition, since the control device described in Japanese Patent Laid-Open No. 7-12374 is a method for determining whether to enter or leave the room based on the order of the detection signals of the two pyroelectric sensors, it cannot cope with the actions of two or more people. . Further, the human body detection device described in Japanese Patent Laid-Open No. 6-148346 has some inconvenience because the human body detection sensor is used like a manual switch.
[0015]
In addition, when using an active sensor, the number of detection operations should be minimized to reduce power consumption and improve the life of the element, make it possible to support the use of two or more people, and do not impair user convenience. Is desired.
[0016]
The present invention has been made in view of the above circumstances, and when a person leaves (for example, when a person leaves the room in the case of a toilet). , An object of the present invention is to provide a lighting control device and a lighting fixture that suppress power consumption due to unnecessary lighting by quickly turning off or dimming light.
[0017]
[Means for Solving the Problems]
To solve the above problems The invention described in claim 1 Illumination load, lighting control circuit for controlling lighting on / off or dimming of the lighting load, a first human body detection unit for mainly detecting the presence of a human body close to a stationary state, and the first human body detection After receiving a human body detection signal output by the second human body detection unit and the first and second human body detection units, which mainly detect the presence of a human body close to a moving state in a detection range different from the detection range of the part, A timer circuit unit for measuring a predetermined time; a control circuit unit for controlling the lighting control circuit unit according to an output signal of the first and second human body detection units and the timer circuit unit; When the lighting load is turned on for a predetermined time after the second human body detecting unit detects the human body and a new human body is detected during the lighting, the lighting is further maintained for a predetermined time, If no human body is detected The lighting control device for turning off or dimming the lighting load after the elapse of time, wherein the first lighting holding time for holding the lighting state after the first human body detecting unit detects the human body is the first lighting holding time. The second human body detection unit is set to be equal to or longer than the second lighting holding time for holding the lighting state after the human body is detected, and the first human body detection unit is configured to It is an active sensor that detects the presence of the human body by measuring the distance to the human body by using infrared rays and ultrasonic waves and using the reflection at intervals equal to or shorter than the lighting holding time, The output of infrared rays and ultrasonic waves is reduced to the minimum necessary according to the distance when the human body is detected.
[0018]
In this configuration, for example, when the first and second human body detection units are arranged so that the lighting load is turned off or dimmed after the second lighting holding time has elapsed when the person is away, By quickly turning off or dimming when separated, power consumption due to unnecessary lighting can be suppressed. When an active sensor is used, for example, if the number of detection operations is suppressed as much as possible by discretely executing detection operations at regular intervals, power consumption can be reduced and element lifetime can be improved. In addition, it can be used for two or more people such as living and dining. Furthermore, even if a failure occurs, it can be used by using the detection ranges of the first and second human body detection units. The effect which does not impair a user's convenience can be show | played. In addition, the first human body detection unit detects the presence of the human body by outputting infrared rays and ultrasonic waves and using the reflection at intervals of time equal to or shorter than the first lighting holding time. This is an active sensor that can measure the distance to the human body, and according to this configuration that reduces the output of infrared rays and ultrasonic waves to the minimum necessary according to the distance when the human body is detected, power consumption can be reduced.
[0019]
The invention according to claim 2 Illumination load, lighting control circuit for controlling lighting on / off or dimming of the lighting load, a first human body detection unit for mainly detecting the presence of a human body close to a stationary state, and the first human body detection After receiving a human body detection signal output by the second human body detection unit and the first and second human body detection units, which mainly detect the presence of a human body close to a moving state in a detection range different from the detection range of the part, A timer circuit unit for measuring a predetermined time; a control circuit unit for controlling the lighting control circuit unit according to an output signal of the first and second human body detection units and the timer circuit unit; When the lighting load is turned on for a predetermined time after the second human body detecting unit detects the human body and a new human body is detected during the lighting, the lighting is further maintained for a predetermined time, If no human body is detected The lighting control device for turning off or dimming the lighting load after the elapse of time, wherein the first lighting holding time for holding the lighting state after the first human body detecting unit detects the human body is the first lighting holding time. The second human body detection unit is set to be equal to or longer than the second lighting holding time for holding the lighting state after the human body is detected, and the first human body detection unit is configured to This is an active sensor that outputs infrared rays or ultrasonic waves at intervals equal to or shorter than the lighting holding time and uses the reflection thereof. The detection range of the first human body detection unit is the second sensor. The first human body detection unit performs a detection operation only when it is included in the detection range of the human body detection unit and the illumination load is lit.
[0020]
In this configuration, for example, when the first and second human body detection units are arranged so that the lighting load is turned off or dimmed after the second lighting holding time has elapsed when the person is away, By quickly turning off or dimming when separated, power consumption due to unnecessary lighting can be suppressed. When an active sensor is used, for example, if the number of detection operations is suppressed as much as possible by discretely executing detection operations at regular intervals, power consumption can be reduced and element lifetime can be improved. In addition, it can be used for two or more people such as living and dining. Furthermore, even if a failure occurs, it can be used by using the detection ranges of the first and second human body detection units. The effect which does not impair a user's convenience can be show | played. The first human body detection unit is an active sensor that outputs infrared rays, ultrasonic waves, and the like and uses the reflection at intervals equal to or shorter than the first lighting holding time. The detection range of the human body detection unit is included in the detection range of the second human body detection unit, and the first human body detection unit detects and operates only when the illumination load is lit. it can.
[0021]
further, The illumination control device according to claim 2, The brightness detection unit that compares the ambient illuminance with a predetermined illuminance value may be configured to detect that the illumination load is lit ( Claim 3 ). According to this configuration, for example, the power consumption can be reduced by controlling the operation of the first or second human body detection unit according to the detection result of the brightness detection unit.
[0022]

The lighting fixture of the invention of Claim 4 is in any one of the said Claims 1-3. This lighting control device is built in. According to this configuration, when a person is away or approaches, it is possible to suppress power consumption due to unnecessary lighting by quickly turning off or dimming.
[0023]
Here, the case where the detection range of the second human body detection unit includes the detection range of the first human body detection unit will be further described. When a person enters the detection range of the second human body detection unit, a detection signal is output from the second human body detection unit to the control circuit unit. The control circuit unit outputs a lighting signal to the lighting control circuit unit to light the lighting load. At the same time, the timer circuit unit starts measuring the second lighting holding time. For example, if the second lighting holding time is 5 to 10 seconds, the lighting holding time is updated whenever the human body detection signal is input to the control circuit unit. Continue to light as long as possible. If a person leaves the detection range of the second human body detection unit as it is, after the last detection, the lighting state is held for the second lighting holding time, and then the light is turned off.
[0024]
On the other hand, when a person moves from the detection range of the second human body detection unit to the detection range of the first human body detection unit, the detection range of the second human body detection unit changes the detection range of the first human body detection unit. In general, two human body detection units detect a human body at the same time. In the case of simultaneous detection, if the first lighting hold time has priority over the second lighting hold time, the lighting hold time shifts from the second lighting hold time to the first lighting hold time. If the first lighting holding time is set to a time sufficiently longer than the stationary time in the part to be used, for example, in the case of a toilet, the first lighting holding time is set to 5 to 10 minutes. Since the lighting holding time is sufficiently long, there is a low possibility that the illumination load is erroneously turned off even if the first human body detection unit is a passive sensor. When the person returns to the detection range of the second human body detection unit, the lighting holding time shifts from the first lighting holding time to the second lighting holding time when only the second human body detection unit detects. Thereafter, when the person leaves the detection range of the second human body detection unit, the light is turned off when the second lighting holding time has elapsed since the last human body detection. Since the second lighting holding time is a short time, the time during which the lighting is wasted is at a level with no problem.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
(Basic example)
FIG. 1 is a configuration diagram of a basic example of a lighting control device, FIG. 2 is a diagram showing a detection range of each human body detection unit shown in FIG. 1, and FIG. 3 is a time chart of operations performed by the lighting control device shown in FIG. A basic example of the illumination control device will be described below together with a basic example of a lighting fixture using these drawings.
[0026]
The lighting control device shown in FIG. 1 is used for a toilet as shown in the example of FIG.
[0027]
The lighting load 11 is an incandescent lamp, and the lighting control circuit unit 12 is configured by a triac or the like, and controls the lighting load 11 to be turned on and off.
[0028]
The human body detection unit 13 includes a pyroelectric sensor, an amplifier IC, or the like that is a passive sensor, and detects the presence of a human body that is mainly in a stationary state in the detection range A1 on the toilet TS side illustrated in FIG. The human body detection unit 14 includes a pyroelectric sensor, an amplifier IC, and the like, and detects the presence of a human body that is close to the moving state mainly in a detection range B1 on the door TD side that is different from the detection range A1 of the human body detection unit 13.
[0029]
The timer circuit unit 15 measures a predetermined time after receiving the human body detection signals output from the human body detection units 13 and 14. The control circuit unit 16 is composed of a microcomputer or the like, and controls the lighting control circuit unit 12 in accordance with output signals from the human body detection units 13 and 14 and the timer circuit unit 15. The timer circuit unit 15 may be constituted by a timer IC or the like, or may be constituted by a microcomputer constituting the control circuit unit 16.
[0030]
The power supply circuit unit 17 supplies power to the circuit units by stepping down and rectifying and smoothing the commercial power supply.
[0031]
Here, as a feature of this basic example, as shown in FIG. 2, the detection range A1 and the detection range B1 are set so as to partially overlap. As a result, when a person enters the toilet, the overlapping portion is passed through, so that the human body detection signals from the human body detection units 13 and 14 are output to the control circuit unit 16 at the same time.
[0032]
The lighting holding time T1 for holding the lighting state after the human body detection unit 13 detects the human body is set to 5 to 10 minutes, and the lighting holding for holding the lighting state after the human body detection unit 14 detects the human body. The time T2 is set to 5 to 10 seconds, and is set to a value satisfying T1 ≧ T2.
[0033]
Then, the control circuit unit 16 turns on the illumination load 11 after the human body detection units 13 and 14 detect the human body, and the lighting load 11 is lit. When the human body is newly detected during the lighting, The lighting is further held for an effective lighting holding time, and if the human body is not detected during the effective lighting holding time, the lighting load 11 is turned off after the effective lighting holding time elapses. When the signals are output at the same time, the lighting holding time T1 is prioritized over the lighting holding time T2, and this is switched to the effective lighting holding time. Thereafter, when the human body detection signal is output only from the human body detection unit 14. The process for switching the lighting holding time T2 to the effective lighting holding time is performed.
[0034]
That is, when a human body is detected by the human body detection unit 14, the lighting holding time T2 is used (shifted to) as the effective lighting holding time, and each time the human body detection is performed by the human body detecting unit 14, the lighting holding time T2 is used. The process of updating is performed. Thereafter, when the human bodies are simultaneously detected by the human body detection units 13 and 14, a process of switching the effective lighting holding time from the lighting holding time T2 to the lighting holding time T1 is performed. Thereafter, when the human body is detected only by the human body detection unit 14, a process of switching the effective lighting holding time from the lighting holding time T1 to the lighting holding time T2 is performed.
[0035]
Next, the operation of the illumination control device will be described. When a person enters the toilet, the person first enters the detection range B1, and a human body detection signal is output from the human body detection unit 14 to the control circuit unit 16. When this human body detection signal is taken into the control circuit unit 16, the timer circuit unit 15 starts to measure the lighting holding time T2, and the control circuit unit 16 turns on the lighting control of the lighting load 11 through the lighting control circuit unit 12. This is performed during the holding time T2. Thereby, the illumination load 11 is lighted at least for the lighting holding time T2 (see FIG. 3). In the example of FIG. 3, since the person enters the toilet and stops entering in the middle, the lighting holding time T <b> 2 elapses, and at that time, the lighting load 11 is turned off by the turn-off control. This is a time chart when the illumination load 11 is turned on again by lighting control.
[0036]
Thereafter, when a person passes through the overlapping portion of the detection ranges A1 and B1, human body detection signals are simultaneously output from the human body detection units 13 and 14 to the control circuit unit 16. At this time, the effective lighting holding time is switched from the lighting holding time T2 to the lighting holding time T1, and the timer circuit unit 15 starts measuring the lighting holding time T1.
[0037]
Thereafter, when a person enters the detection range A1, lighting maintenance control of the illumination load 11 is performed in the lighting holding time T1. As described above, when the lighting maintenance of the lighting load 11 is controlled by switching to the sufficiently long lighting holding time T1 of 5 to 10 minutes with respect to 5 to 10 seconds, the human body detection unit 13 is a passive sensor. However, the possibility that the lighting load 11 is turned off as a problem is reduced. In the example of FIG. 3, the lighting holding time T1 is updated at any time by the movement of a person before this elapses.
[0038]
Thereafter, when a person enters the detection range B1 through the overlapping portion of the detection ranges A1 and B1, a human body detection signal is simultaneously output from the human body detection units 13 and 14 to the control circuit unit 16, and then the human body detection unit. The human body detection signal is output to the control circuit unit 16 from only 14. At this time, the effective lighting holding time is switched from the lighting holding time T1 to the lighting holding time T2, and the timer circuit unit 15 starts measuring the lighting holding time T2.
[0039]
Thereafter, when the person goes out of the toilet and comes out of the detection range B1, the lighting load time 11 is passed by the control circuit unit 16 through the lighting control circuit unit 12 after the lighting holding time T2 has elapsed since the last time the human body was detected. Is turned off. As a result, the illumination load 11 is turned off. As described above, when the lighting load 11 is controlled to be turned off by switching to the sufficiently short lighting holding time T2 of 5 to 10 seconds with respect to 5 to 10 minutes, the useless lighting time becomes a short time without any problem. Become.
[0040]
In this basic example, the illumination load is an incandescent lamp, but it may be a fluorescent lamp or an LED.
[0041]
The effective lighting holding time may be automatically adjusted by a statistical method (average value) of the number of detections. For example, the control circuit unit may be provided with a learning function that lengthens the effective lighting holding time if the number of detections is small and shortens the effective lighting holding time if the number of detections is large.
[0042]
(First embodiment)
An embodiment according to the lighting fixture of the present invention will be described below based on the above basic example.
[0043]
FIG. 4 is a block diagram of the first embodiment according to the illumination control device of the present invention, FIG. 5 is a diagram showing a detection range of each human body detection unit shown in FIG. 4, and FIG. 6 is performed by the illumination control device shown in FIG. In the operation time chart, the lighting control device of the first embodiment will be described below together with the embodiment of the lighting fixture of the present invention using these drawings.
[0044]
This lighting control apparatus is used for a toilet as shown in the example of FIG. The human body detection unit 231 is a kind of active sensor, and detects the presence of a human body by measuring the distance from the human body from the reflection angle when infrared rays are emitted and reflected and returned. The sensor 23 is configured to transmit the human body detection signal to the lighting fixture 20 by separating the transmitter 23 including the human body detection portion 231 from the lighting fixture 20, and the detection operation of the human body detection portion 231 is performed. It is a basic example that it is performed discretely at intervals of time T3, that the human body detection unit 231 operates only when the illumination load 11 is lit, and that the brightness detection unit 232 determines whether the illumination load 11 is turned on. Different.
[0045]
Moreover, as shown in FIG. 5, the detection range B2 of the human body detection unit 14 is set to a range that substantially covers the entire toilet, the detection range A2 of the human body detection unit 231 is included in the detection range B2, and the toilet TS It is set in a range that crosses the door TD side.
[0046]
The lighting fixture 20 includes a lighting load 11, a lighting control circuit unit 12, a human body detection unit 14, a timer circuit unit 15, a control circuit unit 16, and a power supply circuit unit 17 in the same manner as the basic example, and is different from the basic example. As a point, a receiving circuit unit 230 for receiving a transmission signal from the transmitter 23 is provided.
[0047]
The transmitter 23 includes a human body detection unit 231, a brightness detection unit 232, a transmission timer circuit unit 233, a transmission circuit unit 234, a transmission control circuit unit 235, and a transmission power supply circuit unit 236. The human body detection unit 231 detects the human body by measuring the distance to the human body by triangulation according to the position where the infrared ray output from the LED is reflected and returned by the human body (object). . The brightness detection unit 232 includes an optical sensor element such as Cds and a photodiode, a comparator circuit, and the like, and detects that the illumination load 11 is turned on. The transmission timer circuit unit 233 includes a timer IC and the like, and measures the detection operation interval T3 of the human body detection unit 231. The transmission circuit unit 234 includes an infrared LED, a transistor, and the like, and transmits a transmission signal to the reception circuit unit 230 in the lighting fixture 20 in the same manner as a general infrared remote control transmitter. The transmission control circuit unit 235 includes a microcomputer and controls the transmitter 23. The transmission power supply circuit unit 236 is formed of a battery or the like, and supplies power to each of the above units.
[0048]
The transmission timer circuit unit 233 may be constituted by a microcomputer that constitutes the transmission control circuit unit 235. Further, the transmitter 23 may be provided with a setting switch that can manually set each lighting holding time.
[0049]
Next, the operation of the illumination control device will be described. When a person enters the toilet and is detected by the human body detection unit 14, the illumination load 11 is turned on. When the ambient illuminance becomes higher than the predetermined illuminance by this lighting, that is, when the output value of the optical sensor element in the brightness detection unit 232 exceeds the reference value of the comparator circuit, the detection signal that detects the lighting of the illumination load 11 is transmitted. From this point in time, the human body detection operation by the human body detection unit 231 is performed at every detection operation interval T3 of the transmission timer circuit unit 233. The human body detection result by the human body detection unit 231 is transmitted to the lighting fixture 20 through the transmission circuit unit 234 by the transmission control circuit unit 235 as a human body detection signal. A transmission signal from the transmitter 23 is received by the reception circuit unit 230 of the lighting fixture 20 and input to the control circuit unit 16 as a digital signal. The subsequent operations are the same as in the basic example. For example, when the lighting holding time T2 has elapsed since the last human body detection after the person left, the illumination load 11 is turned off. However, when the illumination load 11 is turned off, the detection operation of the human body detection unit 231 is also stopped.
[0050]
As described above, the active human body detection unit 231 is separated from the lighting fixture 20 and mounted on the transmitter 23, and the human body detection signal is wirelessly transmitted, so that the human body is most stationary. Since it can be installed near a place, it can be detected reliably even if the detection range is narrow, and the power consumption can be reduced by reducing the output of infrared rays and ultrasonic waves to the minimum necessary.
[0051]
Moreover, since infrared rays are output only when the illumination load 11 is lit, the number of human body detections can be reduced and power consumption can be reduced. Furthermore, since the human body detection operation is discrete rather than continuous, power consumption is reduced in this respect as well, and battery driving becomes possible.
[0052]
In the first embodiment, the transmitter 23 includes a distance measuring sensor that detects a human body from an infrared reflection angle. However, the transmitter 23 is not limited to this, and outputs an ultrasonic wave that is reflected back. The structure provided with the ultrasonic sensor which detects presence of a human body from the coming time may be sufficient.
[0053]
Further, when a human body is detected, the power consumption can be further reduced by adopting a configuration that lowers the output of the next infrared ray or ultrasonic wave to the minimum necessary according to the distance. That is, since the distance to the wall should be measured immediately after the light is turned off, the distance is stored, and then stored when the human body detecting unit 14 detects the human body and the illumination load 11 is turned on. If the distance is shorter than the distance, the distance should be the distance to the human body, so that the infrared output from the next time can be reduced to the minimum output that can measure the distance to the human body. As a result, power consumption can be reduced.
[0054]
( First reference example )
FIG. First reference example of lighting control device FIG. 8 is a diagram showing the detection range of each human body detection unit shown in FIG. First reference example Lighting control device, Reference examples of lighting fixtures It explains together.
[0055]
This illumination control apparatus is used for an inner entrance as shown in the example of FIG. And there are two human body detectors ( Reference example Then, two human body detection units 341 and 342 are provided on the side corresponding to the human body detection unit 14 in the basic example), and a failure notification unit 38 that lights an LED when the human body detection unit fails is provided. A difference from the basic example is that the control circuit unit 36 is configured to light the illumination load 11 with the effective lighting holding time T2 as the lighting holding time T2 when any one of the detection signals of the detection units 341 and 342 is input. That is, if the output signal of the OR logic circuit with respect to the detection signals of the human body detection units 341 and 342 is replaced with the detection signal of the human body detection unit 14 of the basic example, the operation is the same as that of the basic example, and the description thereof is omitted.
[0056]
Further, as shown in FIG. 8, the detection range B31 of the human body detection unit 341 is set to a range that covers the outside (door side) of the inner entrance, and the detection range B32 of the human body detection unit 342 overlaps the detection range B31. The detection range A3 of the human body detection unit 13 is interposed between the detection ranges B31 and B32 and covers a range that overlaps each of these parts. Set to range.
[0057]
Here, the principle of failure notification performed by the control circuit unit 36 through the failure notification unit 38 will be described. When human bodies are detected in the order of the human body detection units 13 and 342 in the light-off state, it can be determined that the human body detection unit 341 has failed. Similarly, when human bodies are detected in the order of the human body detection units 13 and 341 and the human body detection units 341 and 342 (342 and 341), it can be determined that the human body detection unit 342 and the human body detection unit 13 have failed. . In such a case, the failure notification is performed by the control circuit unit 36 through the lighting of the LED of the failure notification unit 38. This makes it possible to know the occurrence of a failure.
[0058]
And when performing failure alerting | reporting, when the human body detection part 13 fails, the process which makes the effective lighting holding time when the human body detection parts 341 and 342 detect longer than the lighting holding time T2 is performed. Conversely, when the human body detection units 341 and 342 fail, a process of starting continuous lighting with a manual switch (not shown) and switching the effective lighting holding time to the lighting holding time T1 when the human body detection unit 13 detects a human body. Done. Thereby, it is possible to minimize the convenience of the user.
[0059]
In addition, First reference example Then, the notification of failure is performed by turning on the LED, but it may be performed by an LCD or the like, or may be performed by a buzzer or the like. Or the structure which alert | reports a failure by blinking the illumination load 11 for a fixed time may be sufficient.
[0060]
( Second reference example )
FIG. 9 shows the lighting control device. Second reference example FIG. 10 is a diagram showing a detection range of each human body detection unit shown in FIG. 9, and FIG. 11 is a time chart of operations performed by the illumination control device shown in FIG. Second reference example The lighting control device will be described together with a reference example of a lighting fixture.
[0061]
This illumination control apparatus is used for a toilet as shown in the example of FIG. The difference from the basic example is that the timer circuit unit 45 is provided with a priority timer 451. Needless to say, the priority timer 451 may be provided in the same row as the timer circuit unit 45. Further, as shown in FIG. 10, the detection range B4 of the human body detection unit 14 is set to a range that substantially covers the entire toilet, the detection range A4 of the human body detection unit 13 is included in the detection range B4, and the toilet TS It is set to a circular range on the door TD side. Since other operations are the same as those in the basic example, description thereof is omitted.
[0062]
Here, the priority timer 451 is provided in order to solve the problem when a person is present in the overlapping area or the boundary area of the detection ranges A4 and B4. That is, when the human body detection signal of the human body detection unit 14 is input to the control circuit unit 46 alone, after the effective lighting holding time shifts to the lighting holding time T2, the lighting load 11 is changed after the lighting holding time T2 when the person stops. It will turn off. Normally, even if the human body detection unit 13 is a passive sensor, a lens and an amplifier are designed so as to be suitable for detection of a human body at rest, but the possibility of this problem occurring is not zero.
[0063]
In order to solve such a problem, a priority timer 451 for measuring time T6 is provided, and as shown in FIG. 11, the priority timer 451 measures time T6 every time a human body is detected by the human body detection unit 13, While the time T6 is being measured, the control circuit unit 46 is configured to prohibit the use of the human body detection signal of the human body detection unit 14. That is, the control circuit unit 46 operates so as to ignore the human body detection signal of the human body detection unit 14 while the time T6 is being measured. Thereby, the malfunction of the lighting load 11 being extinguished can be suitably prevented. The time T6 may be about 5 to 10 seconds like the lighting holding time T2.
[0064]
( Third reference example )
FIG. 12 shows the lighting control device. Third reference example FIG. 13 is a diagram showing a detection range of each human body detection unit shown in FIG. 12, and FIG. 14 is a time chart of operations performed by the illumination control device shown in FIG. Third reference example The lighting control device will be described together with a reference example of a lighting fixture.
[0065]
This illumination control apparatus is used for a toilet as shown in the example of FIG. The human body detection unit 54 is a sensor that transmits ultrasonic waves or the like from the back side of the toilet toward the door TD side and uses the difference in the frequency of the reflected wave (Doppler effect). The moving direction can be detected, and the effective lighting holding time when entering and exiting the detection range A5 of the human body detection unit 13 is switched between time T4 and time T5 (≦ T4) as shown in FIG. Is different from the basic example in that it is used by the control circuit unit 56. However, the detection range A5 of the human body detection unit 13 is set to a circular range including the toilet bowl TS and the vicinity thereof (particularly the door TD side). Note that, as shown in the example of FIG. 13, the human body detection unit 54 preferably has a configuration provided in the transmitter as in FIG. 4 of the first embodiment.
[0066]
In the above configuration, the operation is the same as that of the basic example except that the effective lighting holding time becomes T4 when a person enters the toilet and the effective lighting holding time becomes T5 when the person leaves the toilet. In the case of this configuration, it is possible to appropriately reduce power consumption by adjusting T5 to an appropriate value.
[0067]
In the direction of entering the detection range A5 of the human body detection unit 13, the configuration may be such that the continuous lighting, that is, the time T4 that is the effective lighting holding time is set to infinity. Further, when the human body is detected by the human body detection unit 13 during continuous lighting, the effective lighting holding time may be switched to the lighting holding time T1.
[0068]
( Fourth reference example )
FIG. 15 shows the lighting control device. Fourth reference example FIG. 16 is a diagram showing the detection range of each human body detection unit shown in FIG. Fourth reference example The lighting control device will be described together with a reference example of a lighting fixture.
[0069]
This illumination control apparatus is used for living and dining as shown in the example of FIG. The difference from the basic example is that a plurality of (three in the example of FIG. 16) human body detection units 631, 632, and 633 are provided on the side corresponding to the human body detection unit 13 of the basic example. Note that a plurality of human body detection units 14 may be provided.
[0070]
In the example of FIG. 16, the detection range A61 of the human body detection unit 631 is set to a range that covers a dining table and a chair, and the detection range A62 of the human body detection unit 632 is set to a range that covers a living table and a chair. The detection range A63 of the human body detection unit 633 is set to a range that covers the piano and the chair, and the detection range B6 of the human body detection unit 14 is set to a range that substantially covers the entire living / dining room. Yes.
[0071]
In this setting, when the person enters the detection range B6, the effective lighting holding time is switched to the lighting holding time T2, and when the person enters any of the detection ranges A61, A62, A63, the effective lighting holding time is changed to the lighting holding time. The control is switched to T1, and the lighting control of the lighting load 11 through the lighting control circuit unit 12 is executed by the control circuit unit 66.
[0072]
That is, when the person enters the detection range B6, the lighting control of the lighting load 11 is performed at the lighting holding time T2, and when the person enters any of the detection ranges A61, A62, A63, the person moves by sitting on the chair. Is close to the stationary state, and the lighting control of the lighting load 11 is performed in the lighting holding time T1.
[0073]
In the case of a living / dining room, the light may be dimmed instead of being turned off after the effective lighting holding time has elapsed. That is, the lighting control circuit unit 12 may have a dimming function.
[0074]
( Second embodiment )
In the first embodiment, a residential toilet is an application target, but the present invention can also be applied to a public toilet. An example of this application is shown in FIG. There is a lighting load (not shown) in the hand-washing area R1 and each of the individual rooms R2 to R6. Second reference example In the same manner as the above, there is another human body detection unit in the hand washing place R1. In this case, if there is a person in the detection range C of the human body detection unit of the hand washing place R1 and there is a person in the detection range of any one of the private rooms, the lighting load of the hand washing place R1 is turned on by interlock control, and the hand washing is performed. Even if a human body is detected in the field R1, if a human body is not detected in the private room, the power consumption due to unnecessary lighting can be suppressed if the lighting load of the private room is not turned on.
[0075]
( 5th reference example )
FIG. 5th reference example of lighting control device FIG. 19 is a diagram showing the detection range of each human body detection unit shown in FIG. 5th reference example Lighting control device, Reference examples of lighting fixtures It explains together.
[0076]
As shown in the example of FIG. 19, the present lighting control device is used in a bedroom, and has a configuration in which a transmitter 83 including a human body detection unit 831 and the like is separated from a lighting fixture 80 as in the first embodiment. Further, as shown in FIG. 19, the detection range A8 of the human body detection unit 831 is set to a range that covers the upper part of the bedside of the bed, and the detection ranges B81 and B82 of the human body detection unit 14 are doors that enter and exit the bedroom. It is set to a range that covers the inside and outside.
[0077]
The lighting fixture 80 includes the lighting load 11, the lighting control circuit unit 12, the human body detection unit 14, the timer circuit unit 15, the power supply circuit unit 17, and the reception circuit unit 230 in the same manner as in the first embodiment, and the first implementation. As a difference from the embodiment, a transmission circuit unit 830 for transmitting a signal to the transmitter 23 and a control circuit unit 86 are provided.
[0078]
The transmitter 83 includes a transmission timer circuit unit 233 and a transmission circuit unit 234 as in the first embodiment, and as a difference from the first embodiment, a human body including an ultrasonic sensor (active sensor) and the like. The detection unit 831 includes a reception circuit unit 834 for receiving a transmission signal from the lighting fixture 80, and a transmission control circuit unit 835 that performs control to transmit a detection result by the human body detection unit 831 as a human body detection signal.
[0079]
Here, the lighting holding time T1 for the human body detection unit 831 and the lighting holding time T2 for the human body detection unit 14 are set to values that satisfy T2 ≧ T1. Moreover, the human body detection part 14 detects entrance / exit by opening / closing a door. That is, when the human body detection unit 14 detects the detection ranges B82 and B81, the control circuit unit 86 determines that the room is entered, and when the human body detection unit 14 detects the detection ranges B81 and B82 in this order. Determined to leave. When the human body is detected by the human body detection unit 14, the effective lighting holding time is switched to the lighting holding time T2. This lighting holding time T2 is set to T4 (infinity) and Further subdivided into T5. On the other hand, when the human body is detected by the human body detector 831 after entering the room, the effective lighting holding time is switched to the lighting holding time T1.
[0080]
Next, the operation of the illumination control device will be described. When a person enters the bedroom, the lighting load 11 is continuously lit. At this time, a signal indicating that the illumination load 11 has been turned on is transmitted from the transmission circuit unit 830 to the transmitter 83, and the transmitter 83 that has received the signal activates the human body detection unit 831. Thereby, the operation | movement similar to the transmitter 23 of 1st Embodiment provided with the brightness detection part 232 is attained.
[0081]
Thereafter, for example, when a person lies on the bed for sleeping, the human body detection unit 831 detects the human body, and as a result, the effective lighting holding time is switched to the lighting holding time T1. Thereafter, when the lighting holding time T1 elapses without being detected by the human body detection unit 831, the illumination load 11 is turned off. Then, a signal indicating that the illumination load 11 is turned off is transmitted from the transmission circuit unit 830 to the transmitter 83, and the transmitter 83 that has received the signal stops the operation of the human body detection unit 831. On the other hand, when leaving the room without going to bed, the lighting load 11 is turned off after the lapse of T5.
[0082]
In addition, 5th reference example Then, once the lighting load 11 is turned off at bedtime, even if it gets up from the bed, the detection is not performed by the human body detection unit 831 that is not in an operating state, and the lighting load 11 is not turned on. It may be configured.
[0083]
In addition, since the communication form between the lighting fixture 80 and the transmitter 83 is bidirectional, the reception circuit unit and the transmission circuit unit are provided respectively, but communication uses infrared rays. The structure performed may be the structure performed using an ultrasonic wave.
[0084]
( Third embodiment )
In each of the above embodiments, at least one human body detection unit is installed so as to monitor the room from the ceiling. However, the present invention is not limited to this, and both human body detection units are set to monitor the room from the wall surface. May be. An example of this setting is shown in FIG. In this figure, A9 and B9 are wall-mounted lighting fixtures of the present invention. Third embodiment In the case of the configuration example of FIG. 1, for example, the detection ranges A9 and B9 are assumed to be by the human body detection units 13 and 14, respectively. In this case, when sitting or sleeping, it is detected in the detection range A9, and the effective lighting holding time is T1, and when standing or walking, it is detected in the detection ranges A9 and B9, and the effective lighting is performed. The holding time may be T2.
[0085]
According to each of the embodiments described above, it is possible to prevent malfunctions that are extinguished even when a passive sensor is used but a person is present. Unnecessary electric power consumption can be suppressed by shortening the time for which a person turns on wastefully after leaving the periphery of the lighting control device as much as possible. When an active sensor with high power consumption is used, the number of detection operations can be reduced as much as possible, and power consumption can be reduced. When an active human body detection unit is separated and a human body detection signal is transmitted wirelessly, it can be installed near the place where the human body is most stationary, so even if the detection range is narrow, it can be detected reliably and Power consumption can be reduced by reducing infrared and ultrasonic output to the minimum necessary. Even if one of the two human body detection units breaks down, it is possible to perform lighting control that does not impair the convenience of the user as much as possible.
[0086]
【The invention's effect】
According to invention of Claim 1, Illumination load, lighting control circuit for controlling lighting on / off or dimming of the lighting load, a first human body detection unit for mainly detecting the presence of a human body close to a stationary state, and the first human body detection After receiving a human body detection signal output by the second human body detection unit and the first and second human body detection units, which mainly detect the presence of a human body close to a moving state in a detection range different from the detection range of the part, A timer circuit unit for measuring a predetermined time; a control circuit unit for controlling the lighting control circuit unit according to an output signal of the first and second human body detection units and the timer circuit unit; When the lighting load is turned on for a predetermined time after the second human body detecting unit detects the human body and a new human body is detected during the lighting, the lighting is further maintained for a predetermined time, If no human body is detected The lighting control device for turning off or dimming the lighting load after the elapse of time, wherein the first lighting holding time for holding the lighting state after the first human body detecting unit detects the human body is the first lighting holding time. Since the second human body detection unit is set to a time equal to or longer than the second lighting holding time for holding the lighting state after the human body is detected, for example, when the person leaves, the lighting load is turned off. Alternatively, if the first and second human body detection units are arranged so that dimming is performed after the elapse of the second lighting hold time, unnecessary lighting is performed by quickly turning off or dimming when a person leaves. Power consumption due to can be suppressed. When an active sensor is used, for example, if the number of detection operations is suppressed as much as possible by discretely executing detection operations at regular intervals, power consumption can be reduced and element lifetime can be improved. In addition, it can be used for two or more people such as living and dining. Furthermore, even if a failure occurs, it can be used by using the detection ranges of the first and second human body detection units. The effect which does not impair a user's convenience can be show | played. In addition, the first human body detection unit outputs a distance to the human body by using infrared rays and ultrasonic waves and using the reflection at an interval of time equal to or shorter than the first lighting holding time. It is an active sensor that detects the presence of a human body by measuring, and the power consumption can be reduced because the output of infrared rays and ultrasonic waves is reduced to the minimum necessary according to the distance when the human body is detected.
[0087]
According to invention of Claim 2, Illumination load, lighting control circuit for controlling lighting on / off or dimming of the lighting load, a first human body detection unit for mainly detecting the presence of a human body close to a stationary state, and the first human body detection After receiving a human body detection signal output by the second human body detection unit and the first and second human body detection units, which mainly detect the presence of a human body close to a moving state in a detection range different from the detection range of the part, A timer circuit unit for measuring a predetermined time; a control circuit unit for controlling the lighting control circuit unit according to an output signal of the first and second human body detection units and the timer circuit unit; When the lighting load is turned on for a predetermined time after the second human body detecting unit detects the human body and a new human body is detected during the lighting, the lighting is further maintained for a predetermined time, If no human body is detected The lighting control device for turning off or dimming the lighting load after the elapse of time, wherein the first lighting holding time for holding the lighting state after the first human body detecting unit detects the human body is the first lighting holding time. Since the second human body detection unit is set to a time equal to or longer than the second lighting holding time for holding the lighting state after the human body is detected, for example, when the person leaves, the lighting load is turned off. Alternatively, if the first and second human body detection units are arranged so that dimming is performed after the elapse of the second lighting hold time, unnecessary lighting is performed by quickly turning off or dimming when a person leaves. Power consumption due to can be suppressed. When an active sensor is used, for example, if the number of detection operations is suppressed as much as possible by discretely executing detection operations at regular intervals, power consumption can be reduced and element lifetime can be improved. In addition, it can be used for two or more people such as living and dining. Furthermore, even if a failure occurs, it can be used by using the detection ranges of the first and second human body detection units. The effect which does not impair a user's convenience can be show | played. In addition, the first human body detection unit is an active sensor that outputs infrared rays, ultrasonic waves, and the like and uses the reflection at an interval equal to or shorter than the first lighting holding time, The detection range of the first human body detection unit is included in the detection range of the second human body detection unit, and the first human body detection unit performs a detection operation only when the illumination load is lit. Can be reduced.
[0088]
According to invention of Claim 3, in the illumination control apparatus of Claim 2, The brightness detection unit that compares the ambient illuminance with a predetermined illuminance value detects that the illumination load is lit. For example, the operation of the first or second human body detection unit is detected by the brightness detection unit. By controlling according to the result, power consumption can be reduced.
[0089]
According to a fourth aspect of the present invention, any one of the first to third aspects. Since the lighting control device is built in, when a person is away or approaches, it is possible to suppress power consumption due to unnecessary lighting by quickly turning off or dimming.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a basic example of a lighting control device of the present invention.
FIG. 2 is a diagram illustrating a detection range of each human body detection unit illustrated in FIG.
FIG. 3 is a time chart of an operation performed by the illumination control device shown in FIG.
FIG. 4 is a configuration diagram of a first embodiment according to the illumination control device of the present invention.
FIG. 5 is a diagram showing a detection range of each human body detection unit shown in FIG. 4;
6 is a time chart of operations performed by the illumination control device shown in FIG.
FIG. 7 shows a lighting control device according to the present invention. First reference example FIG.
8 is a diagram showing a detection range of each human body detection unit shown in FIG.
FIG. 9 shows a lighting control device according to the present invention. Second reference example FIG.
10 is a diagram showing a detection range of each human body detection unit shown in FIG.
FIG. 11 is a time chart of operations performed by the illumination control device shown in FIG. 9;
FIG. 12 shows a lighting control device according to the present invention. Third reference example FIG.
13 is a diagram showing a detection range of each human body detection unit shown in FIG.
FIG. 14 is a time chart of operations performed by the illumination control device shown in FIG.
FIG. 15 shows a lighting control device according to the present invention. Fourth reference example FIG.
16 is a diagram showing a detection range of each human body detection unit shown in FIG.
FIG. 17 shows an example of application of the present invention to a public toilet ( Second embodiment ).
FIG. 18 shows a lighting control device according to the present invention. 5th reference example FIG.
FIG. 19 is a diagram illustrating a detection range of each human body detection unit illustrated in FIG.
FIG. 20 shows an example of application of the present invention to a wall-mounted type lighting fixture ( Third embodiment ).
[Explanation of symbols]
11 Lighting load
12 Lighting control circuit
13,231,631-633,831 Human body detection part
14,341,342,54 Human body detection unit
15, 45 Timer circuit
16, 36, 46, 56, 66, 86 Control circuit section
17 Power supply circuit
230 Receiver circuit section
232 Brightness detector
233 Transmission timer circuit
234 Transmitter circuit
235, 835 Transmission control circuit section
451 priority timer
830 Transmitter circuit
834 Receiver circuit section

Claims (4)

Illumination load, lighting control circuit for controlling lighting on / off or dimming of the lighting load, a first human body detection unit for mainly detecting the presence of a human body close to a stationary state, and the first human body detection After receiving a human body detection signal output by the second human body detection unit and the first and second human body detection units, which mainly detect the presence of a human body close to a moving state in a detection range different from the detection range of the part, A timer circuit unit for measuring a predetermined time; a control circuit unit for controlling the lighting control circuit unit according to an output signal of the first and second human body detection units and the timer circuit unit; When the lighting load is turned on for a predetermined time after the second human body detecting unit detects the human body and a new human body is detected during the lighting, the lighting is further maintained for a predetermined time, If no human body is detected A lighting controller for turning off or dimming of the lighting load after a while,
  The first lighting holding time for holding the lighting state after the first human body detection unit detects the human body is the second lighting for holding the lighting state after the second human body detection unit detects the human body. Set to a time equal to or longer than the retention time,
  The first human body detection unit measures the distance to the human body by outputting infrared rays or ultrasonic waves and using the reflection at intervals of time equal to or shorter than the first lighting holding time. This is an active sensor that detects the presence of the human body, and reduces the output of infrared rays and ultrasonic waves to the minimum necessary according to the distance when the human body is detected.
  Lighting control device. Illumination load, lighting control circuit for controlling lighting on / off or dimming of the lighting load, a first human body detection unit for mainly detecting the presence of a human body close to a stationary state, and the first human body detection After receiving a human body detection signal output by the second human body detection unit and the first and second human body detection units, which mainly detect the presence of a human body close to a moving state in a detection range different from the detection range of the part, A timer circuit unit for measuring a predetermined time; a control circuit unit for controlling the lighting control circuit unit according to an output signal of the first and second human body detection units and the timer circuit unit; When the lighting load is turned on for a predetermined time after the second human body detecting unit detects the human body and a new human body is detected during the lighting, the lighting is further maintained for a predetermined time, If no human body is detected A lighting controller for turning off or dimming of the lighting load after a while,
  The first lighting holding time for holding the lighting state after the first human body detection unit detects the human body is the second lighting for holding the lighting state after the second human body detection unit detects the human body. Set to a time equal to or longer than the retention time,
  The first human body detection unit is an active sensor that outputs infrared rays, ultrasonic waves, and the like and uses reflection thereof at an interval equal to or shorter than the first lighting holding time,
  The detection range of the first human body detection unit is included in the detection range of the second human body detection unit, and the first human body detection unit performs a detection operation only when the illumination load is lit.
  Lighting control device. The illumination control apparatus according to claim 2, wherein a brightness detection unit that compares ambient illuminance with a predetermined illuminance value detects that the illumination load is lit. The lighting fixture which incorporates the lighting control apparatus in any one of the said Claims 1-3.

Images