JP6265616B2 - Power failure detection device - Google Patents

Description

  The present invention relates to a power failure detection device suitable for use at home and the like.

  A technique for detecting a power failure at home and lighting a lighting fixture installed in a room with a built-in battery is known (for example, Patent Document 1).

  This known document is composed of a luminaire and a remote control transmitter for controlling the power supply of the luminaire. The luminaire is equipped with an emergency battery and a receiver for controlling the battery and the luminaire itself. ing. On the other hand, the remote control transmitter is provided with a power failure detection means in addition to a power supply control unit for controlling the lighting fixture.

  When a power failure occurs when the remote control transmitter is plugged into a power outlet, a lighting control signal is transmitted from the remote control transmitter with the detected output. The built-in battery turns on the lighting fixture, and the indoor lighting fixture can be used as an emergency light.

Japanese Patent Laid-Open No. 10-92586

  By the way, even in the normal operation of controlling the power supply of the lighting fixture, when using the remote control transmitter, it is removed from the outlet. It is often left on the table after use.

  If the remote control transmitter is disconnected from the outlet, the critical power outage cannot be detected. Therefore, when the lighting fixture is controlled by the remote control transmitter, the remote control transmitter cannot be used as a power failure detection means unless it is customary to plug the remote control transmitter into an outlet after use. This must be done especially at bedtime.

  In order to control the illumination of the luminaire in this way, the remote control transmitter is usually removed from the outlet. This is because it is difficult to use the remote control transmitter while it is plugged in.

  The remote control transmitter detects the presence or absence of a power supply state, but the built-in battery is not used in the normal specification mode in which the remote control transmitter is removed from the outlet. Use the built-in battery only when a power failure actually occurs. However, unless the remote control transmitter is removed from the outlet and when a power failure occurs, the lighting fixtures cannot be controlled correctly, but it is difficult to distinguish them.

  The remote control transmitter can control only the lighting fixtures in the same room where the remote control transmitter is installed, so it can control multiple specific lighting fixtures installed in each room at the time of emergency such as a power failure. Can not. This is because they are not always in a room with a power outage function.

  In addition, power failure may occur due to internal factors such as overcurrent. At that time, recovery work is required to operate the lever of the safety breaker, but the safety breaker is often installed on a wall such as a dressing room. If a power outage occurs, the flow line to the dressing room is dark, so it takes time to recover. It's hard to find a flashlight or even a candle.

  Further, in the above-mentioned document, since the remote control transmitter and the lighting fixtures that can be controlled by this remote control transmitter have a (1: 1) relationship, only the lighting fixtures in the room where the remote control transmitter is placed can be controlled. It is not possible to illuminate lighting fixtures attached to other rooms, such as a room with a safety breaker (such as a dressing room) during a power failure.

  Power outages are considered to be power outages due to internal factors such as electric leakage or short circuit, and external factors due to instantaneous power failure or other causes. In the case of external factors, there are many power outages that can be predicted, such as a typhoon, in addition to instantaneous power failure, and in that case, restoration processing in the home cannot be performed. On the other hand, when the power failure is caused by an internal factor such as a power failure due to overuse, the power failure can be recovered by operating the safety breaker. As mentioned above, the safety breaker is installed in a room different from the room where the remote control transmitter is located. Therefore, even if the remote control transmitter is lit, it can be used effectively as power for power failure recovery processing. Can not do it.

  Therefore, the present invention solves such a problem, and it is a dedicated power failure detection device, and it is possible to secure the light of the place where the safety breaker is installed. Is devised so that can be implemented quickly.

In order to solve the above-mentioned problem, the power failure detection device according to the present invention described in claim 1 is:
A plug connected to an AC power outlet,
A plug detection means for detecting the insertion state of the plug into the outlet,
A power failure detecting means for detecting a power failure condition of the power supplied from the plug,
A control circuit to which the output of the power failure detection means and the output of the plug detection means are supplied;
And informing means for output of the control circuit is supplied,
It consists of a transmission means for transmitting a lighting instruction signal and / or a lighting release signal for a receiving device for emergency light control installed near a safety breaker,
When the plug detection is detected by the control circuit in the control circuit, the notification means operates to notify the plug disconnection,
When a power failure recovery of the AC power supply is detected, a lighting release signal for an emergency light provided in the receiving device is transmitted from the transmitting means.
The power failure detection device according to the present invention described in claim 2 is:
In addition to the notification means, an indicator lamp is provided,
When a power failure of the AC power supply is detected, the indicator lamp is controlled to blink, and the power failure state is notified by voice from the notification means.
A receiving apparatus according to a third aspect of the present invention is a receiving unit for the lighting control signal;
A control circuit to which a reception output is supplied; and
It consists of a power supply unit for the emergency light,
When the lighting instruction signal is received from the transmission means, the emergency light is turned on with the power supply from the power supply section, and when the lighting release signal is received from the transmission means, the power supply from the power supply section is stopped. It is characterized by that.

When plug disconnection is detected by the plug detection means, the notification means is driven to notify the user of plug disconnection. This power failure detection device is a dedicated device that is always plugged into an outlet, so it should not be used with the plug unplugged except in special cases. The user is warned with a buzzer or the like. This alarm allows the user to know that the plug has been accidentally unplugged. You can return to normal power failure detection mode by plugging it in immediately.
When a power failure recovery of the AC power supply is detected, a lighting release signal for an emergency light provided in the receiving device is transmitted from the transmitting means.

  Although the number of transmission systems is one, the number of reception systems is not limited to one, and the installation location is not limited as long as the lighting control signal is within the reachable range (can be received). Therefore, a power failure detection device of (1: many) can be realized. For this reason, the receiving system is not limited to the place where the safety breaker is installed, but can be installed in a favorite place such as a hall (usually a living room), such as a hallway or a kitchen. The reception system of the power failure detection device is driven by a driving battery. However, when an LED is used as an emergency light, the power consumption is small, and there is an advantage that the driving battery can be used for a long period of time.

  In the power failure detection apparatus according to the present invention, the transmission system and the reception system can adopt a (1: many) configuration. Therefore, in addition to being installed in the reception system near the safety breaker, the living room where the power failure detection apparatus is installed, etc. By installing or externally installing this receiving system in the lighting fixtures, it is possible to secure the light of the most easily gathered place in the home. Also helps to wipe out.

  Since the power failure state can be notified by voice in addition to the display by the indicator lamp, since the power failure can be recognized more reliably, the next operation can be performed quickly.

  The power failure detection device is equipped with an indicator light that can brightly illuminate the surroundings of the power failure detection device in the event of a power failure, so you can quickly get an emergency LED light (pencil-type small flashlight) and restore the power failure Processing can be performed more quickly.

The power failure detection device according to the present invention is dedicated to power failure detection. When the plug provided in the transmission system body is inadvertently pulled out of the outlet, it will not be possible to detect a power failure. Therefore, according to the present invention, it is possible to detect the plug detachment and immediately issue a warning to the user when the plug detachment is detected. As a result, the power failure detection device is always plugged into the outlet, so that the power failure state can always be reliably monitored.

In the case of a power failure based on internal factors, the light around the installation of the safety breaker can be secured, so that the safety breaker can be reached quickly. As a result, the power failure recovery operation can be performed quickly and reliably.
When plug disconnection (detachment / removal) is detected by the plug detection means, the notification means is driven and the user is informed of plug disconnection by a buzzer. Can know. You can return to normal power failure detection mode by plugging it in immediately.
When recovery from a power failure of the AC power supply is detected, a lighting release signal for an emergency light provided in the receiving device is transmitted from the transmitting means, thereby extending the life of the battery.

It is a systematic diagram of the principal part which shows an example of the transmission system among the power failure detection apparatuses which concern on this invention. It is a systematic diagram of the principal part which shows an example of the receiving system among the power failure detection apparatuses which concern on this invention. It is a side view which shows the plug insertion state of a transmission type | system | group housing | casing among power failure detection apparatuses. It is a rear view of the said transmission type | system | group housing | casing. It is a layout view showing the usage state of the receiving system of the power failure detection apparatus according to the present invention. It is the figure which looked at the safety breaker and the receiving system housing from the side. It is a timing chart which shows an example of the state transition of the power failure detection apparatus which concerns on this invention. It is a figure which shows the state transition of a power failure detection apparatus. It is a general-view figure which shows an example when the receiving system of the power failure detection apparatus is attached to the lighting fixture.

FIG. 1 shows a configuration diagram of a power failure detection apparatus 10 according to the present invention. FIG. 1 shows an example of a transmission system (transmission device) 10A having a detection function and a function of transmitting a lighting instruction signal for an emergency light during a power failure. FIG. 2 shows a reception system (reception device) for controlling the above-mentioned emergency light. An example of 10B is shown.
The presence or absence of a power failure is detected on the transmission system 10A side, and an emergency light provided on the reception system 10B side is controlled to be turned on based on the detection output. If the receiving system 10B is used in the home, it can be used by being attached to a lighting device such as a living room in addition to the installation location of the safety breaker. In the home, the housing of the receiving system 10B is installed on a wall of a changing room or a dressing room where a safety breaker is installed.

  This is often the case when a power outage occurs due to a cause on the user side (internal factor). A power failure occurs due to electric leakage, short circuit, or excessive use of home appliances. Considering such a power failure due to internal factors, it is necessary to restore the safety breaker to its original state in order to restore the power failure, and therefore it is most important to light the place where the safety breaker is installed.

The lighting control signal, which is a transmission signal from the transmission unit, is a transmission output that sufficiently reaches the room where the safety breaker is installed.
In FIG. 1, the transmission system 10 </ b> A of the power failure detection device 10 has a plug 12 that is plugged into an outlet. An AC power source (commercial AC source) is supplied to an outlet 70 (see FIG. 3) installed on the wall of the room.

  The AC power supplied by the plug 12 is converted into a DC voltage in the bridge circuit 22, and the DC voltage is supplied to a constant voltage circuit 26 formed into an IC in this example through a resistance voltage dividing circuit 24 to be a constant DC voltage. Stabilized. The stabilized DC voltage is supplied as a driving voltage for the control circuit 30 constituted by an IC circuit while being charged by the charging capacitor 28.

  The capacitor 28 is a large-capacitance capacitor such as an electric double layer capacitor, and can supply a driving voltage for a predetermined time even if a power failure occurs. The divided voltage obtained at the connection midpoint p of the voltage dividing circuit 24 is supplied to the control circuit 30 as a power failure detection signal (voltage) Sa.

  The transmission system 10A is further provided with a micro switch 40 in this example that functions as the plug detection means 40. The micro switch 40 used in this example is composed of a main body 40a and an operation element 40b provided on the main body 40a, and the operation element 40b which can be moved forward and backward is provided so as to protrude on the same side as the insertion piece 12a of the plug 12.

  The output from the micro switch 40, that is, the plug detection signal Sd accompanying the advance / retreat of the operation element 40b, is supplied to the plug detection input terminal side of the control circuit 30. It is assumed that a plug detection signal Sd that is at a high level (“1”) when the operation element 40b is pressed and is at a low level (“0”) otherwise is obtained.

  The control circuit 30 generates a transmission control signal for the subsequent transmission unit 42, and the lighting control signal is transmitted from the transmission unit 42 via the antenna 44. In this example, a lighting control signal that is either a lighting instruction signal or a lighting cancellation signal is transmitted toward the receiving system 10B.

  The transmitter 42 can be used as a weak radio station that does not require a license, and the transmission frequency can use a frequency band of 100 kHz to 100 MHz. If it is in the home, the transmission output is selected so as to sufficiently cover the reception range including the floor.

  The control circuit 30 further controls the notification means 50 and the indicator lamp 52. As the notification means 50, a notification means having a voice function is used, and switching control between voice output and buzzer (continuous or intermittent) is performed. In this example, the sound output or the buzzer is switched depending on the detection mode. The audio output is used as an alarm due to a power failure. The buzzer is used as an alarm sound (for example, intermittent intermittent sound) when the plug 12 is inadvertently pulled out from the outlet 70.

  When the power failure state is detected, the indicator lamp 52 is controlled to be turned on (blink control in the following example). However, as will be described later, it is caused by the plug 12 being unplugged from the outlet 70 whether the power failure is the original power failure. In this example, the flashing control is performed only in the former case in order to distinguish whether the power is out.

  The control circuit 30 distinguishes between an electric power failure and a power failure from the input power failure detection signal Sa, and detects insertion and removal (detachment) of the plug 12 from the plug detection signal Sd. Then, the notification means 50 and the indicator lamp 52 are controlled including the transmitter 42 depending on the presence or absence of the power failure detection signal Sa and the plug detection signal Sd.

  The charging voltage of the large-capacitance capacitor 28 is used for each power source of the transmission unit 42, the notification unit 50, and the indicator lamp 52. Details of the control operation in the control circuit 30 will be described later.

  FIG. 2 is a schematic configuration diagram of the receiving system 10B in the power failure detection apparatus 10 according to the present invention. The receiving system 10B is for controlling lighting of an emergency light at the time of a power failure. Therefore, the receiving system 10B is installed at a place where the power failure recovery work is most likely to be performed. If it is in the home, it is necessary to restore the power failure due to internal factors, so it is installed near the safety breaker in the sense of securing the light near the safety breaker.

  In FIG. 2, the lighting control signal received from the antenna 62 is received by the receiving unit 60 provided in the housing 54. The lighting control signal received by the receiving unit 60 is supplied to the control circuit 66 to determine whether the lighting control signal is a lighting instruction signal or a lighting release signal. If it is a lighting instruction signal, lighting power from the control circuit 66 to the emergency lamp 68 is supplied. An LED is used as the emergency light 68 from the viewpoint of energy saving.

  Each driving power source of the receiving unit 60 and the control circuit 66 described above is supplied with power from a battery 64 as a power source unit. The receiving unit 60 is always supplied with an operating voltage from a built-in battery 64. Driving power is indirectly supplied from the battery 64 to the emergency light 68. When the lighting control signal is received, the control circuit 66 enters an operating state. The control circuit 66 can always be set to the sleep mode. By using an LED as the emergency light 68, the life of the built-in battery 64 is extended.

  FIG. 3 shows a specific configuration example of one transmission system 10A constituting the power failure detection apparatus 10 described above. In this example, the housing 11 has a substantially rectangular parallelepiped shape, and the insertion piece 12a of the plug 12 is provided on the back surface 11b side so as to protrude from the back surface 11b. As is well known, the pair of insertion pieces 12a is used in a state of being inserted into the insertion port of the outlet 70.

  On the back surface 11b side, the above-mentioned operation element 40b of the micro switch 40 is further provided so as to freely advance and retract. The operating element 40b is for turning on and off the micro switch 40. When the plug 12 is inserted into the outlet 70, the operating element 40b comes into contact with the wall surface in which the outlet 70 is embedded or the case surface of the outlet 70 and is pressed. Thus, it is attached to the back surface 11b side. In this example, a double connection type is used as the outlet 70. Therefore, when the plug 12 is inserted, the operation element 40b comes into contact with the case surface of the outlet 70.

  As shown in FIG. 3, an indicator lamp 52 that is turned on at the time of a power failure is provided on the front surface 11a side of the housing 11 so that the lighting state can be discriminated at a glance. The notification means 50 is also arranged so as to face the front surface 11a side, and is configured to be able to quickly notify the notification of a power failure state or a plug 12 insertion / removal state.

  Since the operator 40b is pushed by inserting the plug 12 into the outlet 70, it can be determined whether or not the casing 11 is correctly inserted into the outlet 70. If the plug 12 is inadvertently pulled out from the outlet 70, the above-described notification means 50 operates to generate an alarm sound (intermittent sound).

  A dome-shaped or flat light diffusing plate 14 is attached to the front surface of the indicator lamp 52. This makes it possible to sense the lighting state in a wide range even with weak light.

  A hook 74 as shown in FIG. 4 is provided on one side of the housing 11. This hook 74 can be used, for example, to suspend an emergency flashlight 76 as a standing light. Recently, since a pencil type small flashlight using an AA battery using an LED is commercially available, such a small flashlight 76 is used as a standing light.

  The flashlight 76 with a built-in battery is used for safely guiding to a target place (a dressing room where a safety breaker is installed or another room) at the time of a power failure. Since the light in the room suddenly disappears during a power outage at night, it becomes dark, but this is the only light because the indicator light 52 is lit. Since the flashlight 76 is prepared on the housing 11 side, if the installation location of the housing 11 can be reliably grasped by relying on the light of the indicator light 52, the flashlight 76 can reach the power failure recovery location. .

  FIG. 5 shows an example of the reception system 10 </ b> B in the power failure detection device 10. The receiving system 10B is installed near the safety breaker 82. This is for use as an emergency light for power failure recovery processing. When the safety breaker 82 is attached to a wall surface such as a changing room as shown in FIG. 5, the casing 54 constituting the receiving system 10 </ b> B is attached to the same wall surface 84 in the vicinity of the safety breaker 82. FIG. 5 illustrates a case where a safety breaker 82 is provided as one of the circuit breakers (earth leakage breaker) 86.

  As a means for attaching the housing 54 to the wall surface 84, a hook-and-loop fastener 78 is used in this example as shown in FIG. For example, a female hook-and-loop fastener 78a is attached to the rear surface of the housing 54, and a male hook-and-loop fastener 78b is attached to the wall surface 84 side. As a result, the casing 54 can be attached to the target wall surface 84 relatively easily. Depending on the weight and size of the housing 54, whether the surface fastener 78 is used singly or plurally is selected.

  An emergency light 68 is arranged so as to face the front surface of the housing 54. In order to secure a certain amount of light as the emergency light 68, in this example, the emergency light 68 is composed of one (or two) LEDs. As shown in FIG. 6, a light diffusing plate 56 having a dome shape or a flat plate shape is attached to the front surface of the emergency light 68 as necessary, and is designed so as to widen the visible range.

  By installing the casing 54 in the vicinity of the safety breaker 82 in this way, a certain range of light including the safety breaker 82 can be secured, so that the operation lever 82a (see FIG. 5) provided on the safety breaker 82 can be secured. The recovery operation shown in FIG. 6) can be performed quickly and reliably. More preferably, the position of the emergency light 68 is directed to the safety breaker 82 side.

  Since the power failure recovery operation is only an operation of returning the operation lever 82a of the safety breaker 82 to the original position, it is not necessary to illuminate the periphery of the safety breaker 82 so brightly. Rather than ensuring brightness, it is designed so that it can be used with a single power source (battery 64 built in the housing 54) for a longer period of time. When a battery is used as a driving power source, it is preferable to provide a notification means (a buzzer or indicator lamp) that notifies the battery life (consumption). When an indicator lamp is used as the notification means, the emergency lamp 68 can also be used as an indicator lamp for notification. In this case, when prompting the replacement of the battery, for example, a blinking display is performed so that the user is notified of the power outage and the battery replacement.

  FIG. 7 is a timing chart showing an example of power failure detection and lighting instruction signal transmission / reception processing in the power failure detection device 10.

  In the state where the plug 12 is inserted into the outlet 70, when a power failure due to an external factor, for example, a power failure occurs, the power supply is detected by the control circuit 30 configured by a microcomputer (FIG. 7A). In the case of a momentary power failure, since no power failure is determined, no particular processing is performed.

  A power outage may be due to external factors or internal factors. External factors are often brought about by disasters such as typhoons. On the other hand, a power failure due to an internal factor is caused by an electric leakage, a short circuit, or an overcurrent caused by the simultaneous use of home appliances. Among these, in the case of overcurrent, a power failure can be recovered by performing a recovery operation for returning the lever 82a of the safety breaker 82 to the original state.

  In the following example, a power failure that occurs when an overcurrent occurs will be described. First, when a power failure occurs, a divided voltage cannot be obtained from the voltage dividing circuit 24, so that a power failure detection signal Sa is generated (B in the figure). When the power failure detection signal Sa is obtained, a control signal (drive voltage) is supplied from the control circuit 30 to the notification means 50 and the indicator lamp 52, respectively.

  In the examples of FIGS. 7C and 7D, a blinking signal (lighting voltage) is first supplied, and the indicator lamp 52 blinks for a certain time. Immediately thereafter, a control signal is supplied to the notification means 50 this time. In this example, the notification means 50 is used as voice notification. For example, an alarm such as “Power outage” is output by voice. By repeating this blinking display and audio output as a pair, the power failure is notified to the resident.

  Since only one pair cannot be said to be sufficient notification, for example, by repeating this three times, a power failure is more reliably notified. In this example, blinking is set to 5 seconds and sound output is set to 2 seconds, and this is repeated three times to end the power failure notification mode. Therefore, the power failure notification period T is about 21 to 23 seconds (see FIG. 7).

  When a power outage occurs at night, particularly when lighting is required, it is known that a power outage has occurred by voice, and the light of the indicator light 52 is used to reach the housing 11, where the flashlight 76 is used to change clothes. Go to the room.

  If the recovery process by the safety breaker 82 is performed by the power failure notification, the power failure due to overcurrent is recovered. If the cause of the leakage or short circuit is removed, the power failure will eventually be restored by operating the safety breaker 82. In any case, the power failure will be restored by operating the safety breaker 82. To do.

  On the other hand, when the power failure detection signal Sa is obtained, the control circuit 30 generates a control signal for the transmission unit 42. When the control signal is obtained, a lighting instruction signal Sb is sent from the transmitting unit 42 to the receiving system 10B (F in the figure).

  When the receiving unit 60 of the receiving system 10B receives this lighting instruction signal Sb, a control signal to the control circuit 66 is generated. When the control circuit 66 receives this control signal, a drive voltage is applied to the emergency lamp 63 at the subsequent stage, and therefore the emergency lamp 63 is lit using the built-in battery 64 (H in the figure). Since the lighting of the emergency light 63 is shortly after the power failure is detected, the changing room is brightened by the lighting of the emergency light 63 by the time the person stays in the changing room. In particular, since the vicinity of the safety breaker 82 is illuminated most brightly, there is no problem with the power failure recovery process.

  By performing the power failure recovery process, the AC power is supplied to the outlet 70 again, so that the divided voltage of the voltage dividing circuit 24 returns to a predetermined voltage (B in the figure). When the power failure detection signal Sa due to this power recovery is detected by the control circuit 30, the control circuit 30 determines that the power failure has been restored. As a result, the control signal is sent again to the transmission unit 42 in the control circuit 30. In the transmission unit 42, the lighting release signal Sc is transmitted by receiving the control signal again (G in the figure).

  When the receiving unit 60 receives the lighting release signal Sc, the control signal is supplied to the control circuit 66 at the subsequent stage, and the application of the drive voltage to the emergency lamp 68 is stopped. As a result, the emergency light 68 is turned off. That is, the emergency light 68 provided on the safety breaker 82 side continues to be lit until the power failure is restored.

  In some cases, it may be controlled to automatically turn off when a predetermined time elapses without waiting for the lighting release signal Sc to arrive. This is because it is considered that the power failure recovery process is not performed for a long time when the resident is absent.

  When the power failure is detected and the power failure detection device 10 is removed from the outlet 70, the following operation is performed. When the plug 12 is removed, the power failure detection signal Sa is obtained as in the case where the AC power supply is stopped. At this time, the plug detection means 40 is operated, and the micro switch 40 as the plug detection means is turned from on to off ( Alternatively, the plug detection signal Sd is obtained anyway (FIG. 7I). In FIG. 7, the high level changes to the low level.

  From the plug detection signal Sd and the power failure detection signal Sa, the control circuit 30 determines that the plug 12 has been inadvertently pulled out from the outlet 70 and supplies a warning signal to the notification means 50. The notifying means 50 issues an alarm with a buzzer sound instead of a voice based on this control signal (FIG. E).

  The power failure detection device 10 must be plugged into the outlet 70 at all times. When a home-career unintentionally pulls out the plug 12, an alarm (intermittent sound) sounds immediately, and the user is prompted to insert the plug 12 into the outlet 70.

  In this example, the notification means 50 is driven until the plug 12 is correctly inserted into the outlet 70. As a result, the person at home notices an operation error. When the plug 12 is inserted, the plug detection signal Sd is inverted to a high level, so that the control circuit 30 determines that the normal state is restored from the level relationship between the plug detection signal Sd and the power failure detection signal Sa, and the notification means 50 A notification stop process is performed. This restores the normal power failure detection state.

  When both the plug detection signal Sd and the power failure detection signal Sa are obtained, the indicator lamp 52 is kept off and the lighting instruction signal Sb is not output, so the emergency lamp 68 is not lit. Even in the case of instantaneous electric power, the control signal to the transmission unit 42 is not output, so that the lighting instruction signal is not sent (A and F in the figure).

  The above operation state transitions are arranged as shown in FIG. In this example, when the plug 12 is unplugged from the outlet 70 regardless of the presence or absence of a power failure, the buzzer is driven and an alarm with an intermittent sound is generated.

  FIG. 9 shows another example of the receiving system 10B. As described above, particularly in the reception system 10B of the power failure detection device 10, it can be said that it is preferable to arrange the reception system 10B near the safety breaker 82 in consideration of the frequency of power failure.

  In the present invention, the transmission system 10A and the reception system 10B are not constrained by the (1: 1) relationship. (1: Many) can be used. In that case, the reception system 10B can be built in one of the lighting fixtures attached to the same room (usually a living room) where the transmission system 10A is installed, or can be attached near the lighting fixture.

  The example of FIG. 9 is a case where it integrates with a lighting fixture, and is a case where it applies to the lighting fixture which used many LED as a lighting fixture. In the straight tube lighting fixture 90, metal fittings 91A and 91B are attached to both sides of the tube body 92, an LED substrate 94 is disposed inside the tube body 92, and a number of LEDs 96 are mounted on the LED substrate 94. ing. Reference numeral 98 denotes an insertion pin.

  One metal fitting In this example, the above-described receiving system 10B is detachably fitted and fixed to the left metal fitting 91A. The emergency light 68 is attached so as to face the lower surface. The reason why the receiving system 10B is detachable from the metal fitting 91A is to allow the built-in battery 64 built in the receiving system 10B to be replaced.

  By integrating the receiving system 10B with the lighting fixture 90, an emergency light can be lit in place of the lighting fixture 90 when a power failure occurs. A safe flow line can be secured.

  The present invention can be used by installing it in a general household, office, factory or the like.

DESCRIPTION OF SYMBOLS 10 ... Power failure detection apparatus 10A ... Transmission system 10B ... Reception system 12 ... Plug 70 ... Outlet 30 ... Control circuit 40 with power failure detection function ... As plug detection means Micro switch 42 ... Transmitter 50 ... Notification means 52 ... Indicator lamp (LED)
60 ... Receiver 64 ... Built-in battery 66 ... Control circuit 68 ... Emergency light (LED)

Claims (3)

A plug connected to an AC power outlet,
Plug detecting means for detecting the plug inserted into the outlet;
A power failure detection means for detecting a power failure state of the power supplied from the plug;
A control circuit to which the output of the power failure detection means and the output of the plug detection means are supplied;
Notification means to which the output of the control circuit is supplied;
It consists of a transmission means for transmitting a lighting instruction signal and / or a lighting release signal for a receiving device for emergency light control installed near a safety breaker,
In the control circuit, the when the missing plug is detected in the plug detection unit, adapted to plug missing the notification means is operated is informed Rutotomoni,
A power failure detection device characterized in that when a power failure recovery of the AC power supply is detected, a lighting release signal for an emergency light provided in the receiving device is transmitted from the transmission means . In addition to the notification means, an indicator lamp is provided,
The power failure detection device according to claim 1, wherein when the power failure of the AC power supply is detected , the indicator lamp is controlled to blink, and the power failure state is notified by voice from the notification means. . The receiving device includes a receiving unit for the lighting control signal,
  A control circuit to which a reception output is supplied; and
  It consists of a power supply unit for the emergency light,
  When the lighting instruction signal is received from the transmission means, the emergency light is turned on with the power supply from the power supply section, and when the lighting release signal is received from the transmission means, the power supply from the power supply section is stopped.
  The power failure detection device according to claim 1.

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