KR102275665B1 - Power supply device for sensor lamp providing emergency lamp function - Google Patents

Abstract

The present invention relates to a power supply device for sensors, etc., which is implemented in the form of a single device, converts regular AC power to DC power and supplies it as driving power for sensors, etc., and converts emergency AC power to DC power in case of emergency It relates to a technology that enables the sensor light to be driven as an emergency light.
The power supply device for a sensor light providing an emergency light function according to the present invention is a power input unit comprising a generator power terminal for receiving emergency AC power from a generator during a power outage, and a regular power terminal for receiving constant AC power from an external power source A second bridge circuit that delivers the emergency AC power applied from the generator power terminal to the power supply, and an operating unit such as a sensor that outputs constant AC power applied from the regular power terminal when motion is detected while the illuminance value is below a certain level and a power relay unit including a third bridge circuit configured to transmit constant AC power applied from an operation unit such as the sensor to a power supply unit, and a second bridge connected in common between the output terminals of the second bridge circuit and the third bridge circuit A power supply unit that converts AC power applied from one of the circuit or the third bridge circuit into DC power and outputs it to a sensor, etc. is configured as a single device, and the power relay unit includes the “+” terminal and the third It is characterized in that the "+" terminal of the bridge circuit is common, and the "-" terminal of the second bridge circuit and the "-" terminal of the third bridge circuit are connected in common.

Description

Power supply device for sensor lamp providing emergency lamp function

The present invention relates to a power supply device for sensors, etc., which is implemented in the form of a single device, converts AC power to DC power at normal times and supplies driving power to perform the original functions of sensors, etc., and emergency AC power in case of emergency It is related to the technology of supplying driving power to perform the emergency light function of the sensor light by converting it into DC power.

The sensor light is provided with a human body detection sensor and is installed in the entrance hall of a home, an elevator, a staircase, or a hallway of an apartment, and turns on for a preset time when a human body is detected by the human body sensor in a dark place.

Recently, sensor lights have been implemented as LED lights with low power consumption and long lifespan, and sensor lights of LED lights are operated with a power supply that supplies stable power, such as SMPS.

A power supply device such as such an SMPS is for supplying power to a load, and generally supplies constant power applied from the outside to the load.

However, regular power is commercial power that is directly supplied to facilities, and the supply may be temporarily stopped depending on the power supply and demand situation.

Accordingly, there has been proposed a device for using as a sensor or the like when the constant power is supplied, and for supplying the emergency power applied from the generator to the sensor or the like in an emergency such as a power outage so that it can be used as an emergency light.

1 shows a schematic configuration of a conventional emergency light combined sensor light system, as shown in FIG. 1, applied from the generator 1 to the front end of the SMPS 20 that supplies DC power to the sensor light 3 It is configured with a relay box 10 for selectively supplying emergency power or constant power applied from an external power source 2 to the SMPS 20 .

At this time, the relay box 10 transmits the regular power applied from the external power source 2 to the SMPS 20 in normal times, and transmits the emergency power applied from the generator 1 to the SMPS 20 during a power outage, It enables the SMPS 20 to stably supply power to the sensor 3 even in the event of a power failure.

However, the relay box 10 and the SMPS 20 are configured as separate devices, and they are configured to be electrically connected to each other through cables, etc. As such, the relay box 10 and the SMPS 20 are Since it is configured in the form of an independent device, there is a limitation in the installation space, and there is a disadvantage in that the manufacturing cost of the device is increased.

In addition, the conventional emergency light combined sensor light system is configured to switch regular AC power and emergency AC power using a relay, which is a semi-permanent switch. Due to the use of such a relay, an arc occurs at a contact inside the relay. is generated, and there is a problem in that the contact does not come off due to the arc generation, or the contact is oxidized, resulting in malfunction or failure of the product.

1. Domestic Registered Utility Model No. 20-0490046 (Name: Sensor, etc. driving device using 3-contact relay) 2. Domestic Laid-Open Patent No. 10-2014-0100233 (Name: Sensor light for emergency light)

Accordingly, the present invention was created in consideration of the above circumstances, and implemented in the form of a single device, converts AC power to DC power at normal times to supply driving power to perform its original function such as a sensor, and to supply driving power in an emergency. An emergency light function that converts emergency AC power to DC power to turn the sensor light into an emergency light function, but allows one of the regular AC power and emergency AC power to be stably used as the driving power for the sensor light through a simple circuit configuration Its technical purpose is to provide a power supply device for sensors, etc. that provides

According to one aspect of the present invention for achieving the above object, a power input unit comprising a generator power terminal for receiving emergency AC power from a generator during a power outage, and a regular power terminal for receiving constant AC power from an external power source; An operating unit such as a sensor for outputting constant AC power applied from the regular power terminal when a motion is detected while the illuminance value is below a certain level, and a second bridge circuit for transferring the emergency AC power applied from the generator power terminal to the power supply unit; A third bridge circuit that delivers constant AC power applied from an operation unit such as the sensor to a power supply unit, the "+" end of the second bridge circuit and the "+" end of the third bridge circuit are common, A power relay unit in which the "-" terminal of the second bridge circuit and the "-" terminal of the third bridge circuit are commonly connected, and the second bridge circuit and the output terminal of the third bridge circuit are connected in common to the second A power supply unit that converts AC power applied from one of the bridge circuit or the third bridge circuit into DC power and outputs it to a sensor is configured as a single device, and the generator power terminal is a first and second generator power terminal In a state in which the regular power terminal is configured to include a live terminal and a neutral terminal, in the second bridge circuit, a 22nd terminal is connected to the first generator power terminal, and a 23rd terminal facing the 22nd terminal is a second bridge circuit. 2 The generator power terminal is connected, and the "+" terminal between the 22nd and 23rd terminals is connected to the "+" terminal of the third bridge circuit while being connected to one end of the power supply unit, and the "+" terminal between the 22nd and 23rd terminals is connected to the "+" terminal of the third bridge circuit. The "-" end is connected to the other end of the power supply unit and connected to the "-" end of the third bridge circuit, and the third bridge circuit has a 32 end connected to a live terminal of an operating unit such as a sensor, and faces the 32nd end terminal 33 is connected to the neutral terminal of the sensor operation unit, and the “+” terminal between the 32nd and 33rd terminals is connected to one end of the power supply and connected to the “+” terminal of the second bridge circuit. And, the "-" terminal between the 32nd and 33rd terminals is connected to the other end of the power supply unit and connected to the "-" terminal of the second bridge circuit. A power supply for a sensor light providing an emergency light function, characterized in that it is configured is provided

delete

In addition, when a first level signal is applied from both the motion sensor and the illuminance sensor, a control unit that always outputs a control signal for supplying AC power, and an NPN transistor that switches to an off state according to a control signal applied from the control side, the collector SCR is connected to the neutral terminal, the base is connected to the control side, the emitter is a grounded second transistor, is biased between the neutral terminal and the collector terminal of the second transistor, and is operated when the second transistor is turned off And, the 12th terminal is connected to the live terminal of the external power source, the 13th terminal is connected to the 32nd terminal of the third bridge circuit, the "-" terminal and the "+" terminal are connected through the ground, the "+" terminal and There is provided a power supply for a sensor light providing an emergency light function, characterized in that it includes a first bridge circuit in which the SCR is connected between the ground and the output of the "+" terminal is intermittent depending on whether the SCR operates or not.

In addition, it is an NPN transistor that is switched to an on state based on a control signal applied from the control unit, the collector is connected to the neutral terminal, the base is connected to the control unit, and the emitter is configured to further include a grounded first transistor , There is provided a power supply for a sensor light providing an emergency lighting function, characterized in that the base of the second transistor is biased between the neutral terminal and the collector terminal of the first transistor.

According to the present invention, in normal times when power is applied through a power supply device configured in the form of a single device, the sensor lamp performs its original sensor lamp function, and in an emergency such as a power outage, the emergency lamp function is continuously turned on. Power can be supplied to perform

In addition, by selectively supplying one of the emergency AC power supplied from the generator or the regular AC power supplied through an external power line as the driving power of the sensor through a simple configuration using a bridge circuit, It is possible to solve the problem, and it is possible to further reduce the manufacturing cost of the power supply device for a sensor light providing an emergency light function.

1 is a view showing a schematic configuration of a conventional uninterruptible lighting system.
2 is a view for explaining a schematic configuration of a power supply device for a sensor light providing an emergency light function according to the first embodiment of the present invention.
3 is a diagram illustrating a detailed circuit diagram of a power supply device for a sensor light providing an emergency light function shown in FIG. 2 .

The configuration shown in the embodiments and drawings described in the present invention is only a preferred embodiment of the present invention, and does not express all the technical ideas of the present invention, so the scope of the present invention is the embodiment and drawings described in the text should not be construed as being limited by That is, since the embodiment may have various changes and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects, it should not be understood that the scope of the present invention is limited thereby.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Terms defined in a commonly used dictionary should be interpreted as being consistent with the meaning of the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning not explicitly defined in the present invention.

2 is a view showing a schematic configuration of a power supply device for a sensor light providing an emergency light function according to the first embodiment of the present invention.

Referring to FIG. 2 , the power supply device for a sensor light providing an emergency light function according to the present invention includes a power input unit 100 , a constant power operation unit 200 , a power relay unit 300 , and a power supply unit 400 . consists of including

The power input unit 100 includes a generator power terminal 110 for receiving emergency AC power from the generator 1 and a regular power terminal 120 for receiving constant AC power from the external power source 2 . At this time, AC power is supplied to the normal power terminal 120 in normal times, and AC power is introduced to the generator power terminal 110 in case of a power failure. That is, the power input unit 100 receives AC power through one of the generator power terminal 110 or the regular power terminal 120 .

The constant power operation unit 200 outputs constant AC power for driving the sensor 3 only when a condition in which motion is detected in a state in which the illuminance is low below a certain level is satisfied. At this time, the constant power operation unit 200 primarily rectifies the constant AC power applied from the constant power terminal 120 of the power input unit 100 and supplies it to the power relay unit 300 .

The power relay unit 300 primarily rectifies the emergency AC power applied from the generator power terminal 110 of the power input unit 100 , and the primary rectified pulsating current applied from the constant power operation unit 200 . The continuous AC power in the form of an emergency AC power in the form of a primary rectified pulsating current is selectively supplied to the power supply unit 400 .

The power supply unit 400 converts the rectified AC power supplied through the power relay 200 into DC power and supplies it as driving power of the sensor 3 .

That is, the power supply for a sensor light providing an emergency light function according to the present invention is implemented in the form of a single device, and when AC power is always applied from the external power source 2, power is supplied to perform the function of the sensor light, and a generator When emergency AC power is applied from (1), power is supplied to operate as an emergency light.

3 is a diagram illustrating a detailed circuit diagram of a power supply device for a sensor light providing an emergency light function shown in FIG. 2 .

Referring to FIG. 3 , the power input unit 100 includes first and second generator power terminals G1 and G2 for connecting to the power line of the generator 1, and a live terminal for connecting to the external power source 2 ( L), a neutral terminal N, and a ground terminal FG.

The constant power operation unit 200 includes a motion detection sensor 210 , an illuminance sensor 220 , a voltage converter 230 , a switching unit 240 , and a constant power control unit 250 .

The motion detection sensor 210 and the illuminance sensor 220 are connected to the input terminals (2 and 3 of U20) of the constant power control unit 250, and provide corresponding detection signals to the constant power control unit 250, respectively.

The voltage converter 230 is connected to the neutral terminal N and includes a voltage regulator U22 that converts and outputs the constant AC power applied from the neutral terminal N to a predetermined level. The voltage regulator U22 supplies driving power to each element including the detection sensor 210 and the illuminance sensor 220 constituting the constant power operation unit 200 , and the constant power control unit 250 .

The switching unit 240 is a first bridge circuit (D1) connected to the live terminal (L), which is a constant power terminal, and a thyristor (thyristor) for controlling the output of the constant AC power output through the first bridge circuit (D1) , hereinafter referred to as "SCR") (Q3) and first and second transistors Q1 and Q2 for turning on/off the state of the SCR (Q3) under the control of the constant power control unit 250 .

The first bridge circuit D1 outputs the constant AC power applied from the live terminal L to the power relay unit 300 when the SCR Q3 is turned on.

At this time, the "-" terminal of the first bridge circuit D1 is grounded, the "+" terminal is grounded through the SCR (Q3), and the "-" terminal and the "+" terminal of the first bridge circuit D1 are grounded. is connected through, a twelfth terminal between the "+" terminal and the "-" terminal is connected to the live terminal L, and a thirteenth terminal opposite to the 12th terminal is connected to the power relay unit 300 . At this time, the SCR (Q3) is connected to the signal line between the neutral terminal (N) and the collector (2) of the second transistor (Q2).

In addition, the first and second transistors Q1 and Q2 are NPN transistors, the base 2 of the first transistor Q1 is connected to the output terminal of the constant power control unit 250, and the collector 3 is a neutral terminal ( N) and the emitter (2) is grounded. At this time, the collector 3 of the first transistor Q1 is connected to the neutral terminal N through the resistor 21 (R21), and the signal line between the neutral terminal N and the collector 3 is connected to the second transistor Q2 ) is connected to the base of

That is, the first transistor Q1 is switched to an on state when an output signal of a predetermined level, for example, a “High” level signal, is applied from the constant power control unit 250 .

In addition, the base 2 of the second transistor Q2 is connected to the signal line between the neutral terminal N and the collector 3 of the first transistor Q1, and the collector 3 connects the resistor 23 (R23). It is connected to the neutral terminal (N) through the emitter (2) is grounded.

That is, the first transistor Q1 is turned on when a “High” signal is applied from the constant power control unit 250 , and as the first transistor Q1 is turned on, the second transistor Q2 is turned off. do. And, as the second transistor Q2 is turned off, the constant AC power of the neutral terminal N is applied to the SCR(Q3), so that the "+" terminal of the first bridge circuit D1 through the SCR(Q3) The output constant AC power is output to the power relay unit 300 through the "-" terminal of the first bridge circuit D1.

The power relay unit 300 includes a second bridge circuit D2 connected to the generator power terminals G1 and G2, and a third bridge circuit D3 connected to the first and second bridge circuits D1 and D2. include

At this time, the generator power terminals G1 and G2 are respectively connected to the 22nd and 23rd terminals of the second bridge circuit D2, and the "+" terminal of the second bridge circuit D2 is connected to the third bridge circuit D3. ) is common with the "+" end, and the "-" end of the second bridge circuit D2 is common with the "-" end of the third bridge circuit D3.

In addition, power between the “+” common line of the second and third bridge circuits D2 and the “−” common line of the second and third bridge circuits D2 is applied to the power supply unit 400 .

In addition, the 32nd terminal between the "+" terminal and the "-" terminal of the third bridge circuit D3 is connected to the 13th terminal of the first bridge circuit D1, and the 33rd terminal opposite to the 32nd terminal is always It is connected to the neutral terminal (N), which is the power terminal.

Accordingly, the regular AC power output from the first bridge circuit D1 and the emergency AC power output from the second bridge circuit D2 are stably applied to the power supply unit 400 through the third bridge circuit D3.

The power supply unit 400 converts the AC power output through the power relay unit 300 into DC power and outputs it, and the protection circuit 410, the primary side rectification circuit 420, the transformer 430, and the secondary side rectification It includes a circuit 440 and a PWM control circuit 450 .

The protection circuit 410 includes a fuse F1 for overcurrent protection and a varistor VA1 for overvoltage protection, and the fuse F1 is serially coupled to the + output terminal of the power relay unit 300, and the varistor ( VA1) is coupled in parallel between the + output terminal and the - output terminal of the power relay unit 300 .

The primary-side rectification circuit 420 full-wave rectifies the AC power through the bridge circuit D4, stabilizes it through the capacitor C2, and outputs it.

The transformer 430 includes a transformer T1 that obtains a constant voltage from the power applied from the primary side rectifier circuit 420 and outputs the induced power thereto to the secondary side circuit 440 .

The secondary side circuit 440 obtains the induced power formed in the secondary side coil of the transformer T1, rectifies it, and outputs it. In the secondary circuit 440 , the diode D2, the resistor R10, and the capacitors C7 and C8 are connected in parallel to minimize the ripple of the output power and transmit it to the sensor lights 3, LED-, and LED+.

The PWM control circuit 450 generates a PWM control signal corresponding to the DC power level for driving the sensor 3 and inputs it to the transformer T1. The PWM control unit 160 includes a pulse width modulation (PWM) drive IC to control ON/OFF of the transformer T1 in a PWM manner.

Next, the operation of the power supply device for a sensor light having an emergency light function configured as described above will be described according to the type of AC power supplied to the power input unit 100 .

1. Constant AC power supply

When the constant AC power is supplied from the external power source 2 to the regular power terminal 120, the generator 1 is in a charged power state, and AC power is not input to the generator power terminal 110 connected to the generator 1 becomes

In the above state, when an AC “+” voltage is applied to the live terminal L1 of the regular power terminal 120 and an AC “-” voltage is applied to the neutral terminal N, the current is generated from the live terminal L 1 is applied to the twelfth terminal of the bridge circuit D1 and outputted to the "+" terminal. At this time, the neutral terminal N is connected to the 33rd terminal of the third bridge circuit D3.

In addition, the SCR (Q3) is connected to the output line of the "+" terminal of the first bridge circuit D1, and the output from the "+" terminal of the first bridge circuit D1 is outputted according to the operating state of the SCR (Q3). Always AC power is applied to or cut off from the 32 terminal of the third bridge circuit D3.

On the other hand, the constant AC power output from the neutral terminal (N) is converted to a constant voltage level through the voltage converter 230 and supplied to the motion detection sensor 210, the illuminance sensor 220 and the constant power control unit 250. Operate each element.

When motion is detected, the motion sensor 210 outputs a detection signal of a predetermined level, for example, a “High” level, to the second terminal of the constant power control unit 250 .

When the illuminance sensor 220 is equal to or less than a preset illuminance value, the illuminance sensor 220 outputs a detection signal of a predetermined level, for example, an “H” level, to the third terminal of the constant power control unit 250 . The illuminance sensor 220 outputs a "High" level detection signal to the constant power control unit 250 when it is sensed that it is night (NIGHT).

When the "High" level signal is inputted through the motion detection sensor 210 and the illuminance sensor 220 , the constant power control unit 250 provides a control signal for constantly supplying AC power to the sensor 3 , for example, "High". By outputting a level signal and applying a predetermined voltage to the base 2 of the first transistor Q1, the first transistor Q1 is turned on. Accordingly, the output of the neutral terminal N connected to the collector 3 of the first transistor Q1 is grounded through the first transistor Q1.

When the first transistor Q1 is turned on, the second transistor Q2 biased to the collector 3 of the first transistor Q1 is turned off. That is, the first transistor Q1 is turned on and the constant AC power of the neutral terminal N flows to the first transistor Q1, so that the second transistor Q1 is biased to the collector 3 of the first transistor Q1. AC power is not always applied to the base 2 of the transistor Q2.

When the second transistor Q2 is turned off, the output of the neutral terminal N connected to the collector 3 of the second transistor Q2 is biased with the collector 3 of the second transistor Q2 SCR ( Q3) to set the SCR (Q3) to the operating state.

When the SCR (Q3) is switched to the operating state, the constant AC power output from the "+" terminal of the first bridge circuit D1 is applied to the "-" terminal of the first bridge circuit D1 through the ground, -" is output through the 13th stage and is input to the 32nd stage of the third bridge circuit D3. At this time, the constant AC power input to the 32nd terminal of the third bridge circuit D3 is applied to the "+" terminal of the second bridge circuit D2 through the "+" terminal of the third bridge circuit D3, The "-" terminal is output to the "-" terminal of the second bridge circuit D2 and applied to the "-" terminal of the third bridge circuit D3, thereby being common between the second and third bridge circuits D2 and D3. The input power is supplied to the power supply unit 400 that is connected between and between the “+” terminals common between the second and third bridge circuits D2 and D3.

In addition, in a state in which the SCR (Q3) is switched to the operating state and the output of the live terminal (L) is connected to the 32nd of the third bridge circuit (D3), AC is connected to the live terminal (L) of the constant power terminal (120) When a "-" voltage is applied and an AC "+" voltage is applied to the neutral terminal (N), the current is output from the neutral terminal (N) to the "+" terminal of the third bridge circuit D3 and the second bridge circuit ( It is applied to the "+" terminal of D2), is output to the "-" terminal of the second bridge circuit D2, and is applied to the "-" terminal of the third bridge circuit D3, whereby the second and third bridge circuits ( The input power is supplied to the power supply unit 400 connected between the "-" terminal common between D2 and D3 and the "+" terminal common between the second and third bridge circuits D2 and D3.

That is, the first bridge circuit D1 converts the constant AC power into a pulsating current and outputs it to the third bridge circuit D3.

On the other hand, if the "High" level signal is not input to the constant power control unit 250 from one or more of the motion detection sensor 210 or the illuminance sensor 220 in a state in which AC power is supplied at all times, the constant power control unit 250 ) outputs a “Low” level signal to the first transistor Q1, and accordingly, the first transistor Q1 is turned off.

When the first transistor Q1 is turned off, the constant AC power of the neutral terminal N connected to the collector 3 of the first transistor Q1 is applied to the base of the second transistor Q2 and the second transistor Q2 ) is turned on.

When the second transistor Q2 is turned on, the constant AC power of the neutral terminal N connected to the collector 3 of the second transistor Q2 flows through the second transistor Q2. AC power does not always flow to the SCR (Q3) biased to the collector 3 of the second transistor Q2, so that the SCR (Q3) does not operate.

As the SCR (Q3) is in an inoperative state, the connection between the first bridge circuit (D1) and the third bridge circuit (D3) is cut off, so that the regular power supply to the power supply unit 400 is cut off.

That is, when AC power is always supplied, a certain level of direct current power (DC) is supplied to the sensor etc. 3 only when motion is detected and the illuminance value is below a certain level, and no movement is detected or the illuminance value In a state where this constant level is not below, the power supply to the sensor light 3 is cut off, so that the sensor light 3 performs the original function of the sensor light being lit only under a certain condition.

2. In case of emergency AC power supply

When AC power is not supplied to the external power source 2 due to the occurrence of a power outage, the emergency AC power charged in the generator 1 is applied to the generator power terminal 110 . At this time, AC power is not applied to the regular power terminal 120 .

In the above state, when the AC "+" voltage is applied to the first generator terminal G1 of the generator power terminal 110 and the AC "-" voltage is applied to the second generator terminal G2, the current is the first generator It is output to the “+” terminal of the second bridge circuit D2 through the 22nd terminal of the terminal G1 and applied to the “+” terminal of the third bridge circuit D3, and the “+” terminal of the third bridge circuit D3 The second and third bridges and the second and third bridges between the "-" terminal common between the second and third bridge circuits D2 and D3 by being output to the "-" terminal and being applied to the "-" terminal of the second bridge circuit D2 The input power is supplied to the power supply unit 400 connected between the "+" terminals common between the circuits D2 and D3.

In addition, when the AC "-" voltage is applied to the first generator terminal (G1) of the generator power terminal 110 and the AC "+" voltage is applied to the second generator terminal (G2), the current is the second generator terminal (G1) ) is outputted to the “+” terminal of the second bridge circuit D2, applied to the “+” terminal of the third bridge circuit D3, and outputted to the “-” terminal of the third bridge circuit D3 and the second By being applied to the "-" terminal of the bridge circuit D2, the common between the "-" terminals common between the second and third bridge circuits D2 and D3 and between the second and third bridge circuits D2 and D3. The input power is supplied to the power supply unit 400 connected between the "+" terminals.

That is, when emergency AC power is applied from the generator power terminal 110, the emergency AC power is converted to DC power through the power supply unit 400 and continuously supply power to the sensor, etc. 3, so that the sensor, etc. 3 ) will provide an emergency light function.

100: power input unit, 200: constant power operation unit,
300: power relay unit, 400: power supply unit,
110: generator power terminal, 120: regular power terminal
210: motion sensor, 220: illuminance sensor,
230: voltage converter, 240: switching unit,
250: constant power control unit, 410: power protection circuit,
420: primary side rectifier circuit, 430: transformer,
440: secondary side rectification circuit, 450: PWM control circuit
1: generator, 2: external power,
3: sensor, etc.

Claims (4)

A power input unit comprising a generator power terminal for receiving emergency AC power from the generator during a power outage, and a regular power terminal for receiving constant AC power from an external power source;
An operation unit such as a sensor that outputs the constant AC power applied from the constant power terminal when the illuminance value is below a certain level and motion is detected;
A second bridge circuit for transmitting emergency AC power applied from the generator power terminal to a power supply unit, and a third bridge circuit for transmitting constant AC power applied from an operation unit such as the sensor to a power supply unit, a second bridge circuit A power relay unit in which the "+" terminal of the '+' and the "+" terminal of the third bridge circuit are common, and the "-" terminal of the second bridge circuit and the "-" terminal of the third bridge circuit are connected in common and;
A power supply that is commonly connected between the output terminals of the second bridge circuit and the third bridge circuit to convert AC power applied from one of the second bridge circuit or the third bridge circuit into DC power and output it to a sensor is one It is in the form of a device,
In a state in which the generator power terminal includes first and second generator power terminals, and the regular power terminal includes a live terminal and a neutral terminal, the second bridge circuit has a 22nd end of the first generator power terminal and the 23rd stage facing the 22nd stage is connected to the second generator power terminal, and the "+" terminal between the 22nd and 23rd stages is connected to one end of the power supply unit and the "+" of the third bridge circuit It is connected to the "end, and the "-" terminal between the 22nd and 23rd terminals is connected to the other end of the power supply unit and connected to the "-" terminal of the third bridge circuit, and the third bridge circuit has the 32nd terminal. The sensor light is connected to the live terminal of the operating unit, and the 33rd terminal facing the 32nd terminal is connected to the neutral terminal of the sensor light operating unit, and the "+" terminal between the 32nd and 33rd terminals is connected to the one end of the power supply unit 2 An emergency light characterized in that it is connected to the "+" terminal of the bridge circuit, and the "-" terminal between the 32nd and 33rd terminals is connected to the other end of the power supply and connected to the "-" terminal of the second bridge circuit. A power supply for a sensor light that provides a function.
delete According to claim 1,
A control unit for outputting a control signal for always supplying AC power when a first level signal is applied from both the motion sensor and the illuminance sensor;
An NPN transistor that is switched to an off state according to a control signal applied from the control side, the collector is connected to a neutral terminal, the base is connected to the control side, and the emitter is a grounded second transistor;
The SCR is biased between the neutral terminal and the collector terminal of the second transistor, and is operated when the second transistor is turned off;
The 12th terminal is connected to the live terminal of the external power source, the 13th terminal is connected to the 32nd terminal of the third bridge circuit, and the "-" terminal and the "+" terminal are connected through the ground, and between the "+" terminal and the ground A power supply for a sensor light providing an emergency light function, characterized in that it comprises a first bridge circuit in which the SCR is connected to and the output of the "+" terminal is intermittent depending on whether the SCR operates.
4. The method of claim 3,
An NPN transistor that is switched to an on state based on a control signal applied from the control unit, the collector is connected to a neutral terminal, the base is connected to the control unit, and the emitter is configured to further include a grounded first transistor,
The base of the second transistor is biased between the neutral terminal and the collector terminal of the first transistor.

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