KR100975480B1 - Heat ray wireless transmitter and wireless receiver - Google Patents

Abstract

When the presence of a person is detected by the human sensor 12, the control unit 14 in the wireless transmitter 10 may determine the ambient brightness based on the sensing signal supplied from the brightness sensor 13. Generates and outputs a control signal consisting of an illuminance signal indicative of ambient lightness and an illumination time signal indicative of the lighting time of lighting the lighting fixture, and outputs the control signal and starts the internal timer of the control unit itself. By doing so, the lighting time indicated by the lighting time signal is counted. Then, immediately after the internal timer ends counting, the control unit 14 acquires the ambient brightness sensed by the brightness sensor 13.

According to this invention, the luminaire which is lit by the radio transmitter itself is prevented from becoming inoperative by the fact that the surrounding environment is erroneously determined to be brighter than the preset illuminance level.

Control signal, lighting fixture, internal timer

Description

Heated Radio Transmitters and Wireless Receivers {HEAT RAY WIRELESS TRANSMITTER AND WIRELESS RECEIVER}

The present invention relates to a hot wire wireless transmitter that transmits a control signal for controlling a lighting fixture installed in a place where people, such as stairs and hallways, detects a hot wire emitted from a human body, and transmits from a wireless transmitter. The present invention relates to a wireless receiver for receiving a radio signal and controlling the lighting device.

Up to now, the lighting device has controlled the lighting device by detecting people present in the detection area and transmitting a control signal such as a detection signal obtained therefrom from the transmitter to the lighting device via a preset (wireless) communication line. . This type of lighting device has the advantage of being very high in communication reliability, and thus can reliably transmit a control signal. However, such lighting devices have suffered from the need for construction work to connect all the transmitters and all the lighting fixtures to each other via communication lines, thus consuming too much time and labor.

In order to solve the above problems, there has been proposed a lighting device for controlling the lighting fixture by transmitting a control signal from the transmitter to the lighting fixture by simple radio communication or wireless communication using infrared rays or the like. Such a lighting device has the advantage of saving time and labor since the associated device does not require construction to connect the transmitter and the lighting fixture to each other via a communication line.

In addition, as a wireless communication method for a lighting device, in addition to communication using infrared rays, A lighting device using a radio wave has been proposed (see, for example, Japanese Patent Laid-Open No. 2006-93049). Communication using radio waves can reduce problems associated with directivity by the performance of the antenna and can pass through a block screen such as a wall.

Incidentally, in the conventional radio transmitter according to the radio communication described above, the brightness of the surroundings is sensed at a predetermined time interval, for example every 5 seconds, and on / off control of the lighting fixture based on the detection result. Is to run The lighting apparatus including the conventional radio transmitter described above erroneously determines that the surrounding environment is dark even when the surrounding environment is brighter than the preset illuminance level by the lighting fixture lit by the radio transmitter itself. Even after the luminaire is turned off, the luminaire retains its determination. For these reasons, conventional lighting devices sometimes cause the lighting fixtures to be inoperative.

In order to explain in detail what has been described above, as shown by reference symbol (a) of FIG. 6, it is considered that the case where the wireless transmitter senses that the ambient brightness is lower than the preset illuminance level is considered.

In this case, as shown by the reference sign b of FIG. 6, upon detecting the presence of a person, the radio transmitter transmits an illuminance signal indicating that the ambient lightness is lower than a preset illuminance level. A control signal composed of a "dark" signal as an illuminance signal and a lighting time signal indicating a lighting time for lighting the lighting fixture is transmitted to the receiver, for example, 10 seconds. In response to this control signal, the receiver turns on the lighting fixture by raising the load output to a high level and starts counting the lighting time by starting the internal timer. As indicated by the lighting time signal, the receiver “lights” as an illuminance signal indicating that the ambient brightness is equal to or higher than the preset illuminance level until the lighting time counted by the internal timer has elapsed. Even if a signal is being received, the lighting fixture is continuously turned on. Thereafter, as shown by the reference symbols (c, d) of FIG. 6, the wireless transmitter detects the ambient brightness at a preset time interval, so that the ambient environment is a luminaire that is lit by the wireless transmitter itself. Determines higher than illuminance level.

Thereafter, as shown by the reference sign (e) in FIG. 6, in the case of detecting the presence of a person, the lighting time counted by the internal timer has elapsed, as indicated by the lighting time signal in the receiver. Afterwards, the luminaire is turned off and before the ambient brightness is sensed, the wireless transmitter transmits a "light" signal to the receiver along with the lighting time signal as a brightness determination just before sensing the presence of a person. Thus, based on the "light" signal, the receiver maintains the turned-off state of such a luminaire without turning on the luminaire.

As described above, even in a situation where a conventional lighting device needs to light up a lighting device as a result of sensing the presence of a person, the lighting device is turned on until the next time the lighting device is detected by the radio transmitter. I had a problem that this was impossible.

In this regard, the present invention has been made to solve the problems described above. It is an object of the present invention to provide a heated radio transmitter which can prevent the lighting device from becoming inoperative due to the fact that the lighting device lit by the radio transmitter itself is incorrectly determined that the ambient environment is brighter than a predetermined illuminance level, and It is to provide a radio receiver for receiving a radio signal transmitted from a radio transmitter and controlling a lighting fixture.

The hot wire radio transmitter according to the present invention achieves the above-described object by the following method. In particular, when the presence of a person is detected by a human sensor, the radio transmitter has an illuminance signal representing the ambient brightness based on a sensing signal supplied from a lightness sensor and a lighting time for lighting the lighting fixture. It generates and outputs a control signal consisting of a lighting time signal, which indicates that the lighting time indicated by the lighting time signal is counted by operating the internal timer of the radio transmitter itself simultaneously with the output of the control signal. Then, immediately after the internal timer ends counting, the wireless transmitter acquires the ambient brightness sensed by the brightness sensor.

Moreover, the radio receiver according to the present invention achieves the above-described object by the following method. In particular, upon receiving a control signal consisting of a lighting time signal indicative of a lighting time for lighting the lighting fixture, the wireless receiver controls the lighting fixture based on the lighting time signal and the sensing signal supplied from the brightness sensor, and simultaneously with the reception of the control signal. By operating the internal timer of the radio receiver itself, the lighting time indicated by the lighting time signal is counted. Then, immediately after the internal timer ends counting, the wireless receiver acquires the ambient brightness sensed by the brightness detector.

Moreover, the radio receiver according to the present invention achieves the above-described object by the following method. In particular, the wireless receiver controls the lighting fixture based on the lighting time set by the setting unit and the sensing signal supplied from the brightness detector, and simultaneously starts the internal timer of the wireless receiver itself upon reception of the detection signal. By doing so, the lighting time set by the setting unit is counted. Then, immediately after the internal timer ends counting, the wireless receiver acquires the ambient brightness sensed by the brightness detector.

According to the hot wire radio transmitter according to the present invention, immediately after the internal timer finishes counting, the ambient brightness sensed by the brightness sensor is acquired by the control unit. Therefore, even when the presence of a person is detected by the person detector immediately after the internal timer finishes counting, the lighting device can be reliably turned on.

Moreover, according to the radio receiver according to the present invention, a brightness sensor is supplied, and the ambient brightness sensed by the brightness sensor is obtained immediately after the internal timer has finished counting. Therefore, since only the lighting time signal needs to be transmitted by the radio transmitter, the lighting fixture can be surely turned on without performing complicated operation.

Furthermore, according to the wireless receiver according to the present invention, not only the brightness sensor but also a setting unit such as a manual switch for setting the lighting time for lighting the lighting fixture is provided, and the ambient brightness detected by the brightness sensor is provided. Is obtained immediately after the internal timer has finished counting. Thus, since the necessity of transmitting both the illuminance signal and the lighting time signal by the radio transmitter is eliminated, the luminaire can be reliably lit in the state where the signal is simplified and the power consumption is reduced.

Embodiments of the present invention will be described in detail below with reference to the drawings.

For example, as shown in FIG. 1, the present embodiment is a lighting device that controls a plurality of lighting devices installed in each room, corridor, and the like. In the present lighting device, each radio transmitter 10 senses the ambient brightness at a predetermined time interval. As soon as the presence of a person is detected in the detection area, the lighting device is provided with an illumination signal indicating the ambient brightness and a lighting time signal indicating a lighting time for lighting each lighting device through wireless communication using infrared light. The made control signal is transmitted to the receiver 20. In this way, the lighting device controls the associated luminaire.

1 shows a state where two radio transmitters 10a and 10b are installed. In the case of this installation mode, for example, a radio transmitter installed in the hallway when a person goes out through the entrance from a living room, dining room and kitchen (hereinafter abbreviated as "LDK"). 10a senses the presence of a person. In this manner, the radio transmitter 10a turns on the lighting fixture of the LDK and then outputs a control signal to smoothly turn on the lighting fixture of the entrance. In addition, for example, when a person who enters the porch from the outside moves to LDK, in FIG. 1, the radio transmitter 10b installed in the porch senses the presence of a person. In this manner, the radio transmitter 10b lights up the lighting fixture of the front door, and then outputs a control signal to smoothly light up the lighting fixture of the LDK.

As shown in FIG. 2, the wireless transmitter 10 includes a power source 11 that supplies driving power, a person detector 12 that detects the presence of a person, a brightness detector 13 that detects ambient brightness, and a control signal. And a control unit 14 for generating a switch, a switch 15 for operating based on the control signal generated by the control unit 14, and an infrared light emitting diode (LED) for emitting infrared rays. The power supply is made of a battery, for example. This power supply 11 supplies drive power to the associated radio transmitter 10.

The human detector 12 is made of, for example, a pyroelectric element and the like, and detects the presence or absence of a person by detecting a hot wire emitted from a human body existing in the detection area. When the presence of a person is detected by the person detector 12, the generated detection signal is supplied to the control unit 14.

 The brightness detector 13 is made of, for example, a phototransistor and senses ambient brightness. The detection signal by the brightness detector 13 is supplied to the control unit 14.

The control unit 14 consists of a microcomputer etc., for example. The sense signal is supplied from the person detector 12 to the control unit 14. When the detection signal is supplied from the human detector 12, the control unit 14 turns on the lighting time indicating the illumination time indicating the ambient brightness and the lighting time for lighting each lighting fixture based on the detection signal supplied from the brightness sensor 13. Generate a control signal consisting of a time signal. Thereafter, the control unit 14 supplies the generated control signal to the switch 15.

In addition, although not shown separately, the control unit 14 includes a timer that counts time. The control unit 14 outputs a control signal and starts a timer. The timer counts up the lighting time indicated by the lighting time signal.

Furthermore, after the output of the detection signal supplied from the person detector 12 or the detection signal based on the detection signal supplied from the person detector 12 and the brightness detector 13 respectively, the control unit 14 is a control signal. An extension signal is generated to extend the lighting time of each lighting fixture. Specifically, in the case of a lighting device of the type for continuously lighting the lighting fixture when there is a person regardless of the ambient brightness, the control unit 14 generates an extension signal based only on the detection signal supplied from the human detector 12. do. In addition, for example, when the ambient brightness is lower than a predetermined illuminance level, such as at night, and is a type of lighting device for continuously lighting the luminaire only when a person is present, the control unit 14 is the person detector 12. And an extension signal based on the sense signal supplied from the brightness detector 13, respectively. Thereafter, the control unit 14 supplies the extension signal generated by the switch 15.

The switch 15 consists of a switching element, for example a transistor. This switch 15 causes the infrared LED 16 to light up based on the control signal generated by the control unit 14.

The infrared LED 16 emits infrared light, in accordance with the drive of the switch 15 based on the control signal generated by the control unit 14. In this way, the infrared LED 16 outputs a control signal in the infrared. Each control signal emitted by the infrared LED 16 reaches the receiver 20 by infrared communication. In this way, the infrared LED 16 controls the luminaire.

A lighting device comprising a wireless transmitter 10 as described above is immediately attenuated by the brightness sensor 13 in the associated wireless transmitter 10 immediately after the internal timer of the control unit 14 has finished counting. Sensing the brightness prevents the luminaire from becoming inoperative.

Specifically, as shown by the reference symbol (a) of FIG. 3, after the brightness sensor 13 detects that the ambient brightness is lower than the preset illuminance level, the reference symbol (b) of FIG. 3 is used. As shown, the wireless transmitter 10 detects the presence of a person with a person detector 12. At this time, under the control of the control unit 14, the radio transmitter 10 has a "dark" signal as an illuminance signal indicating that the ambient brightness is lower than a preset illuminance level, for example, 10 Like the second, a control signal composed of a lighting time signal indicating a lighting time for lighting the associated lighting fixture is transmitted to the receiver. In response to this control signal, the receiver 20 turns on the lighting fixture by raising the load output to a high level and starts counting the lighting time by starting the internal timer. As indicated by the turn-on time signal, until a turn-on time counted by the internal timer has elapsed, the receiver 20 as a light intensity signal indicating the same as the surroundings are pre-set illumination level, or higher, "light ( light, "even if it is receiving a" light "light continuously.

On the other hand, as shown by reference symbols c and d in FIG. 3, under the control of the control unit 14, the radio transmitter 10 is, for example, 5 seconds at a predetermined time interval. Each time, the ambient light is sensed by the brightness sensor 13 and the lighting fixture lit by the radio transmitter 10 itself determines that the ambient environment is brighter than the preset illuminance level.

Thereafter, as shown by the reference symbol e in FIG. 3, under the control of the control unit 14, the radio transmitter 10 immediately after the internal timer finishes counting, the brightness sensor ( 13) to detect the ambient brightness. The current state is after the internal timer has finished counting, and since the luminaire lit by the radio transmitter 10 itself is turned off, in this case, the radio transmitter 10 is connected to the brightness sensor 13. By detecting that the ambient brightness is lower than the preset illuminance level. Thereafter, as shown by reference symbol f in FIG. 3, as soon as the person detector 12 detects the presence of a person, under the control of the control unit 14, the radio transmitter 10 is connected to the A control signal composed of a "dark" signal and a lighting time signal representing a lighting time for lighting the lighting fixture is transmitted to the receiver 20 as a brightness determination value immediately before detecting the presence. In response to this control signal, the receiver 20 turns on the lighting fixture by raising the load output once again to a high level, and starts counting the lighting time by starting the internal timer.

As described above, the lighting device immediately transmits the ambient brightness detected by the brightness sensor 13 to the control unit 14 immediately after the internal timer of the control unit 14 in the radio transmitter 10 has finished counting. Acquire by In this way, immediately after the internal timer finishes counting (for example, within 1 second), even when the presence sensor detects the presence of a person, the lighting device can reliably turn on the lighting fixture. Can be.

Here, the lighting device has a possibility of causing an error between the internal timer of the radio transmitter 10 and the internal timer of the receiver 20. Therefore, in the lighting apparatus, due to the error, despite the time that the lighting fixture should be turned off in accordance with the internal timer of the radio transmitter 10, in accordance with the internal timer of the receiver 20, the lighting fixture is still lit. If so happens. In this case, within the lighting device, while the lighting device is being turned on, the lighting device is properly controlled by the fact that the lighting device senses the ambient brightness with the brightness sensor 13 and incorrectly outputs "light" as an illuminance signal. There is a possibility that a case that cannot be done will occur.

Thus, for example, within one second from immediately after the control unit 14 finishes counting, the radio transmitter 10 provides a preset time as an error elimination time for eliminating an error. Then, in the case where the radio transmitter 10 detects the presence of a person within the range of the error elimination time, it is preferable to maintain standby without transmitting a control signal, and then, After detecting the brightness by the brightness detector 13, a control signal is transmitted.

Specifically, as shown by the reference symbol (a) of FIG. 4, after the brightness sensor 13 detects that the ambient brightness is lower than the preset illuminance level, the reference symbol (b) of FIG. 4 is used. As shown, the wireless transmitter 10 detects the presence of a person with a person detector 12. Then, under the control of the control unit 14, the radio transmitter 10 is a "dark" signal as an illuminance signal indicating that the ambient brightness is lower than a preset illuminance level, for example, 10 seconds, A control signal consisting of a lighting time signal indicating a lighting time for lighting the lighting fixture is transmitted to the receiver. In response to this control signal, the receiver 20 turns on the luminaire by raising the load output to a high level, and starts counting by starting the internal timer. As indicated by the turn-on time signal, until a turn-on time counted by the internal timer has elapsed, the receiver 20 as a light intensity signal which indicates that the same as the surroundings are pre-set illumination level, or higher, "Light even if it is receiving a "light" signal, the lamp is steadily lit.

On the other hand, by the reference symbols (c, d) of FIG. As shown, under the control of the control unit 14, the radio transmitter 10 detects the ambient brightness by the brightness sensor 13 at preset time intervals, eg every 5 seconds. By means of the luminaire illuminated by the radio transmitter 10 itself, it is determined that the ambient environment is brighter than the preset illuminance level.

Then, the radio transmitter 1 does not sense the ambient brightness by the brightness sensor 13 immediately after the internal timer finishes counting, but as shown by the reference symbol e of FIG. After 1 second as the error elimination time elapses under the control of the unit 14, the brightness is detected by the brightness sensor 13. The present state is after the internal timer of the control unit 14 has finished counting, and since the lighting device turned on by the radio transmitter 10 itself is turned off, in this case, the radio transmitter 10 has a brightness. The detector 13 detects that the ambient brightness is lower than the preset illuminance level. Within the error elimination time range, when detecting the presence of a person by the person detector 12, the radio transmitter 10 is determined as a brightness determination value at the time indicated by the reference symbol e of FIG. Control signal to the receiver 20 consisting of a dark " signal and a lighting time signal representing a lighting time for lighting the lighting fixture under the control of the control unit 14, as shown by the reference symbol f in FIG. Send. In response to this control signal, the receiver 20 turns on the lighting fixture by raising the load output to a high level, and starts counting the lighting time by starting the internal timer of the receiver 20 itself.

As described above, the lighting device supplies the preset error removal time after the internal timer of the control unit 14 in the radio transmitter 10 has finished counting. Then, in the case of detecting the presence of a person within the range of the error elimination time, the lighting device maintains a standby without transmitting a control signal, and then the ambient sensed by the brightness sensor 13. After the brightness is obtained, a control signal is sent. Even in the case where an error occurs between the internal timer of the radio transmitter 10 and the internal timer of the receiver 20, the lighting apparatus can properly control the lighting fixture in this manner.

Note that when this method is adopted, a time lag of up to approximately 1 second occurs at maximum, and the lighting device gives a disgusting feeling to the user.

In this regard, when the internal timer of the radio transmitter 10 starts counting according to the "dark" signal as the illuminance signal, and the presence of a person within the range of the error removal time is detected by the person detector 12. When detected, the radio transmitter 10 may transmit an illuminance signal to the receiver 20 in which the brightness determination value is rewritten as "dark".

Specifically, as shown by the reference symbol (a) of FIG. 5, after the brightness sensor 13 detects that the ambient brightness is lower than the preset illuminance level, the reference symbol (b) of FIG. 5 is used. As shown, the wireless transmitter 10 detects the presence of a person with a person detector 12. Then, under the control of the control unit 14, the radio transmitter 10 is a " dark " signal as an illuminance signal indicating that the ambient brightness is lower than a preset illuminance level and, for example, 10 seconds, A control signal consisting of a lighting time signal indicating a lighting time for lighting the lighting fixture is transmitted to the receiver. In response to this control signal, the receiver 20 turns on the lighting fixture by raising the load output to a high level, and starts counting the lighting time by starting the internal timer. As indicated by the turn-on time signal, until a turn-on time counted by the internal timer has elapsed, the receiver 20 as a light intensity signal indicating the same as the surroundings are pre-set illumination level, or higher, "light ( light, "even if it is receiving a" light "light continuously.

On the other hand, by the reference symbols (c, d) of FIG. As shown, under the control of the control unit 14, the radio transmitter 10 detects the ambient brightness by the brightness sensor 13 at preset time intervals, eg every 5 seconds. By means of the luminaire illuminated by the radio transmitter 10 itself, it is determined that the ambient environment is brighter than the preset illuminance level.

Then, as shown by the reference symbol e of FIG. 5, when the internal timer of the radio transmitter 10 finishes counting, and by the human detector 12 within the range of the error removal time. When the presence of a person is detected, the radio transmitter 10 has an illuminance signal whose brightness determination value is forcibly rewritten to "dark", and a lighting time signal indicating a lighting time for lighting the lighting fixture under the control of the control unit 14. The control signal is transmitted to the receiver 20. In response to this control signal, the receiver 20 turns on the lighting fixture by raising the load output once again to a high level, and starts counting the lighting time by turning on the internal timer once again.

As described above, when the presence of a person is detected within a range of error elimination time, the lighting device transmits an illuminance signal to the receiver 20 in which the brightness determination value is rewritten as "dark". In this manner, even after automatically turning off the lighting fixture, the lighting device can immediately turn on the lighting fixture with little time delay and enhance the user's feeling of safety. If it is not necessary to flexibly change the place where the brightness is detected, the lighting device has a function similar to that of the brightness sensor 13 on the receiver 20 side, not the radio transmitter 10 side. Note that you may provide. Specifically, the receiver 20 receives from the radio transmitter 10 a control signal composed of a lighting time signal indicating a lighting time for lighting the lighting fixture. Then, under the control of a control unit (not shown) of the receiver 20, the receiver 20 controls the lighting fixture based on the lighting time signal and the detection signal supplied from the brightness sensor, and simultaneously receives the control signal. By activating the internal timer, the lighting time indicated by the lighting time signal is counted. Then, under the control of the control unit, the receiver 20 acquires the ambient brightness sensed by the brightness sensor immediately after the internal timer finishes counting.

Since the lighting device needs to transmit only the lighting time signal by the radio transmitter 10 in the case of using the receiver 20 as described above, it is necessary to perform a complicated operation as described above. There will be no.

In addition, on the receiver 20 side, the lighting device may provide a manual switch or the like with a brightness sensor as a setting unit for setting the lighting time. Specifically, under the control of a control unit (not shown), the receiver 20 controls the luminaire based on the lighting time set by the detection signal supplied from the manual switch and the brightness sensor, and receives the detection signal and at the same time the internal timer. By operating, the lighting time set by the manual switch is counted. Then, under the control of the control unit, the receiver 20 acquires the ambient brightness sensed by the brightness sensor immediately after the internal timer finishes counting.

In the case of using the receiver 20 as described above, there is no need to transmit both the illuminance signal and the lighting time signal by the radio transmitter 10, so that the lighting device can simplify the signal, Power consumption can be reduced. Furthermore, even when the radio transmitter 10 is installed on a large number of spots, the lighting device can greatly reduce the situation in which these signals overlap each other, and the receiver 20 is unable to recognize the associated signal. do.

In addition, in the case of providing a manual switch for setting the lighting time and the like together with the brightness sensor on the receiver 20 side, the lighting apparatus is used when lighting the lighting fixture based on the control signal transmitted from the radio transmitter 10. The lighting time and the lighting time set by the manual switch and the lighting time at the time of lighting the lighting fixture based on the detection signal supplied from the brightness sensor can be set separately. In this manner, the lighting apparatus can set the lighting time for temporarily lighting the lighting fixture by the radio transmitter 10 and the lighting time for temporarily lighting the lighting fixture by the receiver 20 (manual switch) separately. In addition, the usability can be increased.

As described in detail above, in the lighting device according to the embodiment of the present invention, when the presence of a person is detected by the person detector 12 under the control of the control unit 14, the radio transmitter 10 is provided. Generates and outputs a control signal consisting of an illuminance signal representing the ambient brightness based on the sensing signal supplied from the brightness detector 13 and a lighting time signal representing the lighting time for lighting the lighting fixture. Furthermore, at the same time as outputting the control signal, the radio transmitter 10 starts its internal timer and counts the lighting time indicated by the lighting time signal. Then, under the control of the control unit 14, the transmitter 10 acquires the ambient brightness sensed by the brightness sensor 13 immediately after the internal timer finishes counting.

In this way, according to the lighting apparatus, the lighting fixture can be reliably turned on even when the presence of a person is detected by the person detector 12 immediately after the internal timer of the radio transmitter 10 has finished counting.

Furthermore, in the radio transmitter 10, after the internal timer of the control unit 14 finishes counting, when the presence of a person is detected by the person detector 12 within a preset time range, the control unit (14) may hold | maintain standby without outputting a control signal, and may output a control signal after ambient brightness is sensed by the brightness sensor 13. In this way, according to the lighting apparatus, the lighting apparatus can be properly controlled even when an error occurs between the internal timer of the radio transmitter 10 and the internal timer of the receiver 20.

In addition, in the radio transmitter 10, after the internal timer of the control unit 14 finishes counting, when the presence of a person is detected by the person detector 12 within a preset time range, the control unit (14) outputs an illuminance signal in which the brightness determination value is forcibly rewritten. In this way, even after the luminaire is automatically turned off, the radio transmitter 10 can immediately turn on the luminaire with little time delay and enhance the user's feeling of safety.

Furthermore, according to the lighting device, a brightness sensor may be provided on the receiver 20 side. In this case, upon receiving a control signal consisting of a lighting time signal representing a lighting time for lighting the lighting fixture from the radio transmitter 10, the receiver 20 illuminates based on the lighting time signal and the sensing signal supplied from the brightness sensor. To control the instrument. At the same time as receiving the control signal, the receiver 20 starts the internal timer to count the lighting time indicated by the lighting time signal. Then, immediately after the internal timer finishes counting, the receiver 20 acquires the ambient brightness sensed by the brightness sensor.

In this way, according to the lighting device, only the lighting time signal needs to be transmitted by the radio transmitter 10, so that the need for performing complicated operation can be eliminated.

Furthermore, not only the brightness sensor but also a setting unit such as a manual switch for setting the lighting time for lighting the lighting fixture on the receiver 20 side may be provided. In this case, the receiver 20 controls the luminaire based on the lighting time set by the setting unit and the detection signal supplied from the brightness sensor, receives the detection signal and starts the internal timer at the same time, thereby causing the setting unit to operate. Counts the set lighting time. Then, immediately after the internal timer finishes counting, the receiver 20 acquires the ambient brightness sensed by the brightness sensor.

In this manner, since there is no need to transmit both the illuminance signal and the lighting time signal by the radio transmitter 10, the lighting apparatus can simplify the signal and reduce the power consumption. Furthermore, even when the radio transmitter 10 is installed on a large number of spots, the lighting device can greatly reduce the situation in which these signals overlap each other, and the receiver 20 is unable to recognize the associated signal. do.

Moreover, the receiver 20 is configured to turn on the lighting time based on the lighting time based on the control signal transmitted from the radio transmitter 10, the lighting time set by the setting unit and the sensing signal supplied from the brightness sensor. The lighting time can be set separately for lighting. In this way, the receiver 20 can greatly increase its usability.

Note that the embodiment described above is one example of the present invention. Therefore, the present invention is not limited to the above-described embodiments, and even in the case of using the embodiments except the above-described embodiments, various designs and the like may be made within the scope not departing from the technical idea according to the present invention. Of course, change is possible.

1 is a plan view for explaining a specific example of the lighting apparatus shown as an embodiment of the present invention.

Fig. 2 is a circuit diagram showing the structure of a radio transmitter provided in the lighting apparatus shown as an embodiment of the present invention.

3 is a chart for explaining in detail the operation of the radio transmitter and receiver provided in the lighting apparatus shown as an embodiment of the present invention.

FIG. 4 is a chart for explaining in detail the operation of the radio transmitter and receiver provided in the lighting apparatus shown as an embodiment of the present invention for explaining the operation in the case of providing an error absorption time. to be.

Fig. 5 shows the operation of the radio transmitter and the receiver provided in the lighting apparatus shown as an embodiment of the present invention for explaining the operation in the case of transmitting to the receiver an illuminance signal whose brightness determination value is "dark". It is a chart for demonstrating concretely.

6 is a view for explaining the operation of the radio transmitter and receiver provided in the conventional lighting device.

Claims (6)

A heat ray wireless transmitter for transmitting a radio signal to a lighting device, The hot wire wireless transmitter, A human sensor for detecting the presence or absence of a human by sensing heat emitted from a human body present in the detection region; A lightness sensor for detecting ambient lightness at a preset time interval; And When the presence of a person is detected by the person detector, an illuminance signal representing the ambient brightness based on a detection signal supplied from the brightness detector, and a lighting time signal representing a lighting time for lighting a lighting device. A control unit which generates and transmits a control signal, outputs the control signal and simultaneously starts its own internal timer to count the lighting time indicated by the lighting time signal, The control unit acquires the ambient brightness sensed by the brightness sensor immediately after the internal timer finishes counting, and after the internal timer finishes counting the human unit within a preset time range. When the presence is detected by the person detector, the standby signal is maintained without outputting the control signal, and the control signal is transmitted after acquiring the ambient brightness detected by the brightness detector. Heated wireless transmitter. delete A heat ray wireless transmitter for transmitting a radio signal to a lighting device, The hot wire wireless transmitter, A human sensor for detecting the presence or absence of a human by sensing heat emitted from a human body present in the detection region; A lightness sensor for detecting ambient lightness at a preset time interval; And When the presence of a person is detected by the person detector, an illuminance signal representing the ambient brightness based on a detection signal supplied from the brightness detector, and a lighting time signal representing a lighting time for lighting a lighting device. A control unit which generates and transmits a control signal, outputs the control signal and simultaneously starts its own internal timer to count the lighting time indicated by the lighting time signal, The control unit acquires the ambient brightness sensed by the brightness sensor immediately after the internal timer finishes counting, and after the internal timer finishes counting the human unit within a preset time range. And a illuminance signal forcibly re-recording the determined value of brightness when the presence is detected by the human detector. A wireless receiver for controlling a lighting device by receiving a wireless signal transmitted from a preset wireless transmitter, The wireless receiver, A brightness detector for detecting ambient brightness at a preset time interval; And Upon receiving a control signal consisting of a lighting time signal representing a lighting time for lighting the lighting fixture from the wireless transmitter, controlling the lighting fixture based on the lighting time signal and a sensing signal supplied from the brightness sensor, And a control unit for counting the lighting time indicated by the lighting time signal by operating the internal timer itself upon receiving the control signal. And the control unit acquires the ambient brightness sensed by the brightness sensor immediately after the internal timer finishes counting. A wireless receiver for controlling a lighting device by receiving a wireless signal transmitted from a preset wireless transmitter, The wireless receiver, A brightness detector for detecting ambient brightness at a preset time interval; A setting unit for setting a lighting time for lighting the lighting fixture; And Control the luminaire based on the lighting time set by the setting unit and the sensing signal supplied from the brightness sensor,  And a control unit for counting the lighting time set by the setting unit by starting its own internal timer while receiving the detection signal, And the control unit acquires the ambient brightness sensed by the brightness sensor immediately after the internal timer finishes counting. 6. The method of claim 5, A lighting time when the lighting apparatus is turned on based on the radio signal transmitted from the radio transmitter, The lighting time at the time of lighting a lighting fixture based on the lighting time set by the said setting unit and the said detection signal supplied from the said brightness sensor, Separately configurable wireless receiver.

Images