KR101916578B1 - Emergency lighting apparatus - Google Patents

Abstract

The emergency lighting apparatus includes an AC power source unit, an AC / DC converter unit for receiving the AC power source from the commercial power source unit through a distributor switch and an indoor power source switch and converting the AC power source to DC power source, An emergency switch for switching the power output from the emergency battery, an emergency stop switch for switching the emergency switch between the emergency switch and the switch, And outputs a direct current voltage at the time of power interruption of the commercial power source unit, the sub distribution switch or the indoor power switch, and outputs the direct current voltage to the AC / DC conversion switching unit Switch for turning on / off (ON / OFF) the switch to control the light emission of the light emitting unit And an output circuit. Therefore, the emergency lighting apparatus can stably drive using the DC voltage.

Description

[0001] EMERGENCY LIGHTING APPARATUS [0002]

Embodiments of the present invention relate to emergency lighting devices. More particularly, the present invention relates to an emergency lighting apparatus that can be driven by an emergency light in emergency such as a failure of a power failure or a power distribution box, while being driven by normal illumination.

In the emergency light source for driving the conventional emergency lighting apparatus, when there is a commercial power source, the emergency battery circuit is always in a standby state, and when a power failure occurs, a relay is connected to the emergency battery circuit to supply electricity to the emergency light, . In addition, most products do not operate emergency lights when there is a fire or a short circuit in the presence of a commercial power supply and the distribution box switch in each household is cut off. The emergency light using the power source described above can not be used as a general light.

On the other hand, the emergency light source converts AC into DC through an AC-DC converter to charge the emergency battery. When a power failure occurs, the relay connects the emergency battery and supplies electricity to the emergency light. In the case of such an emergency light source, there are several problems as follows.

First, the emergency light using the conventional power supply device can be used only as an emergency light (that is, the emergency light is turned on only when the commercial electric power is out of power) and can not be used as a general light.

Second, because it can not be used as a general public, emergency lights using conventional power sources can be installed only in some public places such as airports and bus stops, and may not be suitable for public places such as homes and housing complexes.

Third, the detection circuit for detecting the power failure of the emergency power source and the switching circuit for switching the emergency power source to the emergency battery include devices having high energy consumption such as relays. Therefore, the conventional power supply apparatus has an uneconomical problem due to the component cost.

Fourth, the emergency light using the conventional emergency light power source device can be used only as a emergency light, that is, when the commercial electric power is supplied only during power failure, the emergency light is turned on. However, in the event of a fire or a short circuit, if the distribution box switch within the household is shut off, it may not act as an emergency light.

The embodiments of the present invention can automatically identify three different situations of power switch interception, power distribution interruption, commercial power interruption, and so on, so that a normal emergency light or emergency light can be normally driven to suppress the occurrence of malfunction, Device.

According to an aspect of the present invention, there is provided an emergency lighting apparatus comprising: a commercial power source; an AC / DC converter connected to the AC / DC converter, DC converter, an emergency switching unit connected to the AC / DC converter through a charge management circuit and controlled to be charged by the charge management circuit, an electrostatic / switch interrupting switching unit switching the power output from the emergency battery, A light emitting unit connected directly to the AC / DC converter, and a DC voltage output from the commercial power unit when the power supply is turned off, the sub distribution switch or the indoor power switch is interrupted, When the switch of the electrostatic / switch cut-off switching circuit unit is turned on / off by using the DC voltage And an electrostatic / switch disconnecting detection circuit unit for controlling the light emission of the light emitting unit.

In one embodiment of the present invention, the electrostatic / switch-off detection circuit includes a first input terminal and a second input terminal,

The first and second input terminals are connected to an AC commercial power supply through a first reference resistance R1 for detecting a reference potential and second and third resistors R2 and R3 for AC input voltage detection, The output terminal of the circuit is connected to the input terminal of the electrostatic / switch interrupting switching circuit, and the output terminal of the electrostatic / switch interrupting switching circuit can be connected to the emergency electronic circuit through the eleventh resistor R11 for current limitation.

In one embodiment of the present invention, the electrostatic / switch-off switching circuit portion includes a MOS transistor Q1, a gate electrode of the MOS transistor Q1 is connected to an output terminal of the electrostatic / switch-off detection circuit, The drain electrode of the MOS transistor Q1 may be connected to the anode of the emergency electrification unit, and the source electrode of the MOS transistor Q1 may be connected to the light emitting unit.

In one embodiment of the present invention, the electrostatic / switch-off detection circuit includes first and second operational amplifiers U1A and U1B and peripheral devices R4, R5, R6, R7, R8, R9, R10, R11, C1, D1, D2)

The eighth resistor R8 of the peripheral elements constitutes an amplification control circuit together with the first operational amplifier U1A,

The sixth, seventh and ninth resistors R6, R7 and R9 of the peripheral elements constitute a reference voltage at the opposite phase inputs of the operational amplifiers U1A and U1B,

The positive input terminal of the first operational amplifier U1A is connected to the fourth and fifth resistors R4 and R5 of the peripheral elements and the capacitor C1, the rectifier diode D1, the constant voltage diode D2, And the output terminals of the first and second operational amplifiers U1A and U1B are connected to the emergency battery through the tenth and eleventh resistors R11 and R12, And

The output terminal of the second operational amplifier U1B may be connected to the input terminal of the electrostatic / switch interrupting switching circuit as an output terminal of the electrostatic / switch interrupting detection circuit.

According to the embodiments of the present invention as described above, the electrostatic / switch-off detection circuit applies the DC voltage to the electrostatic-discharge / switch-off switching circuit part so that the DC voltage can stably turn on / off the electrostatic- Can be controlled. Therefore, malfunction of the emergency lighting device can be suppressed.

Furthermore, the power failure / switch-off detection circuit is not affected by the normal power switch circuit, that is, the cutoff or connection of the indoor switch button. Therefore, even if the power distribution unit switch in itself is cut off in the event of a fire or a short circuit, the emergency lighting apparatus can act as an emergency light.

Meanwhile, the emergency lighting apparatus according to the present invention can be applied to large-scale applications wherever lighting is required. In addition, it is possible to directly replace the general lighting apparatus without changing the present electric supply circuit, greatly simplifying the emergency lighting circuit, saving the cost, increasing the socio-economic effect, saving resources, and simplifying the operation.

In addition, the electrostatic / switch switching circuit unit of the present invention does not use a device consuming a large amount of energy, such as a relay, so that miniaturization can be realized. Further, by using a MOS transistor, the environment is advantageous and energy saving effect is obtained.

1 is a block diagram for explaining an emergency lighting apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention should not be construed as limited to the embodiments described below, but may be embodied in various other forms. The following examples are provided so that those skilled in the art can fully understand the scope of the present invention, rather than being provided so as to enable the present invention to be fully completed.

In the embodiments of the present invention, when one element is described as being placed on or connected to another element, the element may be disposed or connected directly to the other element, . Alternatively, if one element is described as being placed directly on another element or connected, there can be no other element between them. The terms first, second, third, etc. may be used to describe various items such as various elements, compositions, regions, layers and / or portions, but the items are not limited by these terms .

The terminology used in the embodiments of the present invention is used for the purpose of describing specific embodiments only, and is not intended to be limiting of the present invention. Furthermore, all terms including technical and scientific terms have the same meaning as will be understood by those skilled in the art having ordinary skill in the art, unless otherwise specified. These terms, such as those defined in conventional dictionaries, shall be construed to have meanings consistent with their meanings in the context of the related art and the description of the present invention, and are to be interpreted as being ideally or externally grossly intuitive It will not be interpreted.

Embodiments of the present invention are described with reference to schematic illustrations of ideal embodiments of the present invention. Accordingly, changes from the shapes of the illustrations, e.g., changes in manufacturing methods and / or tolerances, are those that can be reasonably expected. Accordingly, the embodiments of the present invention should not be construed as being limited to the specific shapes of the regions described in the drawings, but include deviations in the shapes, and the elements described in the drawings are entirely schematic and their shapes Is not intended to describe the exact shape of the elements and is not intended to limit the scope of the invention.

1 is a block diagram for explaining an emergency lighting apparatus according to an embodiment of the present invention.

1, an emergency lighting apparatus according to an exemplary embodiment of the present invention includes a commercial power source 110, an AC / DC converter 130, an emergency charge unit 150, an electrostatic / A light emitting portion 180, and an electrostatic / switch-off detection circuit portion 190.

The commercial power supply unit 110 provides commercial AC power. For example, the commercial power supply unit 110 supplies a 60-Hz frequency. The commercial power supply unit 110 supplies the commercial power from the electric power generating station to the emergency lighting device through the repeater.

The AC / DC converter 130 receives the AC power from the commercial power supply 110 through the distributor switch 121 and the indoor power switch 123, and converts the AC power to DC power.

The input terminal of the AC / DC converter 130 is connected to the commercial power source unit 110 through the switches 121 and 123. The output terminal of the AC-DC converter 130 is connected to the input terminal of the light emitting unit 180 and the charge management circuit 140, respectively.

The emergency electrification unit 150 is connected to the charge management circuit 140 connected to the AC / DC conversion unit 130. The charge management circuit 140 controls the charging of the emergency charge section 150. That is, the output terminal of the charge management circuit 140 is connected in parallel with the emergency charge section 150.

The electrostatic / switch cut-off switching circuit unit 170 controls the power output from the emergency electrification unit 150. The electrostatic / switch cut-off switching circuit unit 170 may include, for example, a MOS transistor Q1.

The light emitting unit 180 is connected to the emergency electrification unit 150 through the electrostatic / switch interrupting switching circuit unit 170 and directly connected to the AC / DC converting unit 130. An example of the light emitting unit 180 is an LED bulb.

The electrostatic / switch-off detection circuit unit 190 outputs a DC voltage at the time of power failure of the commercial power supply unit 110 or when the sub power distributing switch 121 or the indoor power switch 123 is interrupted. That is, the output of the electrostatic / switch cut-off switching circuit unit 190 can be more accurately controlled by outputting the DC voltage instead of the sinusoidal wave. As a result, the electrostatic / switch-off switching circuit unit 190 can switch the electrostatic / switch-off switching circuit unit 190 more accurately by outputting a DC voltage instead of a sinusoidal wave.

The electrostatic / switch-off detection circuit unit 190 controls the light emission of the light-emitting unit 180 by turning on / off the switch of the electrostatic / switch-off switching circuit unit 170 using the DC voltage .

More specifically, the two input terminals of the electrostatic / switch-off detection circuit unit 190 are connected to a commercial power supply unit (not shown) through a first reference resistor R1 for detecting a reference potential and second and third resistors R2 and R3 for detecting AC input voltage 110). On the other hand, the output terminal of the electrostatic / switch cutoff detection circuit unit 190 is connected to the input terminal of the electrostatic / switch cutoff switch circuit unit 170. The power terminal of the electrostatic / switch cut-off switching circuit unit 190 is connected to the emergency electric power unit 150 through a current limiting resistor R12. The output terminal of the electrostatic / And is connected to the light emitting portion 180.

In one embodiment of the present invention, the electrostatic / switch cut-off switching circuit portion 170 includes a MOS transistor Q1. Here, the gate electrode of the MOS transistor Q1 is connected to the output terminal of the electrostatic / switch-off detection circuit unit 190, and the drain electrode of the MOS transistor Q1 is connected to the anode of the emergency electrification unit 150 And a source electrode of the MOS transistor Q1 is connected to the light emitting unit 180. [

In one embodiment of the present invention, the electrostatic / switch-off detection circuit 190 includes first and second operational amplifiers U1A and U1B and peripheral devices R4, R5, R6, R7 and R8 , R9, R10, R11, C1, D1, D2).

Here, the eighth resistor R8 of the peripheral elements constitutes an amplification control circuit together with the first operational amplifier U1A. Meanwhile, the sixth, seventh and ninth resistors R6, R7 and R9 of the peripheral devices apply a reference voltage to the opposite phase input terminals of the operational amplifiers U1A and U1B.

The positive phase input terminal of the first operational amplifier U1A is connected to the fourth and fifth resistors R4 and R5 of the peripheral elements and the capacitor C1 and the rectifying diode D1 and the constant voltage diode D2, And is connected to the electric wire drawn from the commercial power source through the limiting resistor R2. The output terminals of the first and second operational amplifiers U1A and U1B are connected to the emergency power section 150 through the tenth and eleventh resistors R11 and R12.

The output terminal of the second operational amplifier U1B is connected to the input terminal of the electrostatic / switch cut-off switching circuit unit 170 as an output terminal of the electrostatic / switch cutoff detection circuit unit 190. [

The power supply of the illumination device in the emergency state will be described in detail as follows.

The commercial power supply unit 110 supplies electricity to the emergency power supply unit 150 through a power line provided with a distributor switch 121 or an indoor power switch 123. That is, the commercial power supply unit 110 is connected to the electrostatic / switch-off detection circuit unit 190 through a smoothing circuit including a second resistor R2, a rectifier diode D1 and a capacitor C1.

More specifically, in the first situation in which the commercial power supply unit 110, the distributor box switch 121 and the indoor power switch 123 are turned on, the high level, the commercial power supply unit 110 and the distributor box switch 121 are turned on and the indoor switch 123 There are three situations corresponding to a low level in the second situation that is turned off and no signal in the third situation in which the commercial power supply unit 110 is damaged or the power distribution switch is turned off.

The first to third states are transmitted to the positive phase input of the first operational amplifier U1A included in the electrostatic / switch-off detection circuit unit 190. [

For example, in the case of the first situation, the AC-DC converting unit 130 outputs power, supplies power to the light emitting unit 180, and simultaneously charges the emergency battery unit 150. That is, the entire emergency light power supply device operates in a normal mode.

In the second situation, the remaining fine line power is detected through the smoothing circuit of the second resistor (R2), the rectifying diode (D1) and the capacitor (C1) and the power is amplified by the eighth resistor (R8) 2 operational amplifier U1B and controls the connection of the MOS transistor Q1 to the output of the DC voltage of the first operational amplifier U1B. In this case, since an electric field signal of 50 Hz or 60 Hz exists around the indoor power switch 123, the signal is transmitted to the electrostatic / switch-off detection circuit unit 190 through the smoothing circuit. The output of the electrostatic / switch detection circuit unit 190 controls the gate electrode of the MOS transistor Q1 so that the circuit connection between the emergency electrification unit 150 and the light emitting unit 180 is cut off. The emergency battery section 150 does not supply electricity to the bulb.

In the case of the third situation, there is no electric field signal of 50 Hz or 60 Hz in the circuit, and the outputs of the first and second operational amplifiers U1A and U1B output the low level power and the electric power to the MOS transistor Q1 And a circuit composed of the emergency electrification unit 150 and the light emitting unit 180 is connected to generate the emergency light.

The driving method of the above-mentioned emergency lighting apparatus will be described in detail as follows.

The first situation is a case where the normal commercial power supply unit, the distributing box switch, and the indoor power switch are turned on. In this case, the AC power is rectified by the rectifier diode D1 and the smoothing capacitor C1, the overvoltage is not input to the input terminal of the operational amplifier U1A by the constant voltage diode D2, and the input terminal of the first operational amplifier U1A A high-level commercial power supply signal is input to the high- The high level commercial power supply signal is connected to the positive phase input terminal of the first operational amplifier U1A by a voltage having a constant level as the fourth and fifth resistors R4 and R5. The reference voltage is input to the inverse phase input of the first operational amplifier U1A by the sixth and seventh resistors R6 and R7 and the signal is amplified by using the eighth resistor R8, The amplified signal is transferred from the output terminal of the first operational amplifier U1A to the positive phase input terminal of the second operational amplifier U1B. When the voltage of the positive phase input terminal of the second operational amplifier U1B becomes higher than the reverse phase voltage of the first operational amplifier U1B, DC power near the voltage of the emergency battery is outputted from the output terminal of the second operational amplifier U1B. Thus, the direct current power supply cuts off the power supply to the light emitting portion by the commercial power supply portion by shutting off the electrostatic / switch cut-off switching circuit portion (that is, the MOS transistor Q1)

Meanwhile, the second situation corresponds to a case where the normal commercial power supply unit and the distribution box switch are turned on and the indoor power switch is turned off. In this case, the AC power is rectified by the rectifier diode D1 and the smoothing capacitor C1, the overvoltage is not input to the input terminal of the first operational amplifier U1A by the constant voltage diode D2, A low commercial power supply signal is input to the input terminal of the microcomputer. The low commercial power supply signal is connected to the positive input terminal of the first operational amplifier U1A with a voltage of a constant level as the fourth and fifth resistors R4 and R5. The reference voltage is input to the inverse phase input of the first operational amplifier with the sixth and seventh resistors R6 and R7 and the amplified signal is amplified by the eighth resistor R8 which is a configured amplification control circuit, Is transmitted from the output terminal of the first operational amplifier U1A to the positive phase input terminal of the second operational amplifier U1B. When the voltage of the positive phase input terminal of the second operational amplifier U1B becomes higher than the reverse phase voltage of the second operational amplifier U1B, the output of the second operational amplifier U1B outputs a DC voltage close to the voltage of the emergency battery, The DC voltage cuts off the circuit constituted by the electrostatic / switch cut-off switching circuit, that is, the MOS transistor Q1, that is, the circuit composed of the emergency electric power unit and the light emitting unit, so that power is cut off to the LED bulb when the indoor power switch is turned off.

On the other hand, at the same time as the third situation, when a signal is not input to the input terminal of the first operational amplifier U1A and the positive phase of the first operational amplifier U1A composed of the fourth and fifth resistors R4 and R5 When the input terminal has a reference potential, the output terminal of the first operational amplifier outputs a low level direct current power source, which is a reference potential, and the direct current signal is applied with a reference potential to the positive phase input terminal of the second operational amplifier U1B, The operational amplifier output also outputs a DC voltage of "0" V, which is the reference potential. The direct current voltage causes electric power to flow through the electrostatic / switch interrupting switching circuit, that is, the MOS transistor Q1, that is, a circuit composed of the emergency electric power unit and the light emitting unit, thereby supplying electricity to the light emitting unit from the emergency electric power unit.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It will be understood.

110: commercial power supply unit 130: AC / DC conversion unit
150: Emergency electric unit 170: Power interruption / switch-off switching circuit
180: light emitting portion 190: electrostatic / switch-off detection circuit

Claims (4)

Commercial power supply;
An AC / DC converter for receiving the AC power from the commercial power unit through the distributor switch and the indoor power switch and converting the AC power to DC power;
An emergency charge unit connected to the AC / DC converter through a charge management circuit, the charge being controlled by the charge management circuit;
An electrostatic / switch interrupting switching circuit unit for switching a power output from the emergency battery;
A light emitting unit connected to the emergency electrification unit through the electrostatic / switch interchange circuit unit and directly connected to the AC / DC converter; And
A switch for turning on / off (turning on / off) the switch of the electrostatic / switch-off switching circuit unit by using the DC voltage to output a DC voltage when the commercial power supply unit is turned off or when the sub switch switch or the indoor power switch is turned off, And an electrostatic / switch-off detection circuit unit for controlling the electro-
The electrostatic / switch-off detection circuit includes first and second operational amplifiers U1A and U1B and peripheral elements R4, R5, R6, R7, R8, R9, R10, R11, C1, D1 and D2 ),
The eighth resistor R8 of the peripheral elements constitutes an amplification control circuit together with the first operational amplifier U1A,
The sixth, seventh and ninth resistors R6, R7 and R9 of the peripheral elements constitute a reference voltage at the opposite phase inputs of the operational amplifiers U1A and U1B,
The positive input terminal of the first operational amplifier U1A is connected to the fourth and fifth resistors R4 and R5 of the peripheral elements and the capacitor C1, the rectifier diode D1, the constant voltage diode D2, And the output terminals of the first and second operational amplifiers U1A and U1B are connected to the emergency battery through the tenth and eleventh resistors R11 and R12, And
Wherein the output terminal of the second operational amplifier (U1B) is connected to the input terminal of the electrostatic / switch interrupting switching circuit as an output terminal of the electrostatic / switch interrupting detection circuit. The apparatus of claim 1, wherein the electrostatic / switch-off detection circuit includes a first input terminal and a second input terminal,
The first and second input terminals are connected to the AC commercial power source through a first reference resistance R1 for detecting a reference potential and second and third resistors R2 and R3 for AC input voltage detection,
An output terminal of the electrostatic / switch-off detection circuit is connected to an input terminal of the electrostatic / switch cut-off switching circuit,
And an output terminal of the electrostatic / switch cut-off switching circuit is connected to the emergency electric power unit through an eleventh resistor (R11) for current limitation. 2. The semiconductor memory device according to claim 1, wherein the electrostatic / switch interchange circuit section includes a MOS transistor (Q1), a gate electrode of the MOS transistor (Q1) is connected to an output terminal of the electrostatic / Wherein the drain electrode of the transistor Q1 is connected to the anode of the emergency electrification unit, and the source electrode of the MOS transistor Q1 is connected to the light emitting unit. delete

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