KR101331662B1 - Control circuit for led emergency lamp - Google Patents

Abstract

The present invention relates to an LED emergency light control circuit capable of automatically switching between lighting of an LED emergency light in normal times and extinguishing of an LED emergency light in an emergency by using an electrical contact method.
The present invention provides a power input unit for inputting commercial power, a voltage drop unit for dropping a voltage according to power input through the power input unit, a power failure detector for detecting whether a power failure of commercial power inputted through the power input unit, When a power failure is detected by the power failure detecting unit, an automatic switching unit for automatic switching to emergency power, a charging unit for charging an emergency power storage battery with a voltage dropped by the voltage dropping unit, and a rectified power source for driving LEDs. It includes a converter unit for converting to a voltage.
According to the present invention, it is possible to eliminate contact defects and to reduce the overall circuit and to obtain a high cost reduction effect.

Description

LED emergency light control circuit {CONTROL CIRCUIT FOR LED EMERGENCY LAMP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an LED emergency light control circuit, and more particularly, to an LED emergency light control circuit capable of automatically switching between turning on a normal LED emergency light and turning off an LED emergency light in an emergency by using an electrical contact method.

In general, emergency induction lamps are installed in emergency stairs or emergency doors of buildings, parking lots, public places, etc. to ensure safe and smooth evacuation activities by allowing evacuators to easily find the location and direction of evacuation in case of fire or disaster. Is common.

Such an emergency lamp is configured such that a fluorescent lamp serving as a light source is installed in a housing and the display panel installed outside the case is illuminated by the light source so that it can be easily recognized from the outside. The light source is normally turned on by commercial AC power, and when a power failure occurs in an emergency, the light source is turned on by DC power of a built-in battery.

However, these emergency lights have a problem that causes considerable power consumption because the relevant regulations stipulate that they must be kept on for 24 hours in a continuous light level over a certain illuminance according to the related laws.

In addition, since the fluorescent light acting as a light source is deteriorated over time, there is a need to replace the fluorescent lamp as well as the maintenance cost accordingly.

In order to solve this problem, LEDs, which consume less power than fluorescent lamps and have a longer lifetime, have been adopted as the light source. In other words, when a commercial power supply is interrupted due to the built-in emergency power storage battery, the lamp is turned on as a 'general use LED' and then automatically converted to an emergency power and lit as an 'emergency use LED'.

However, in the prior art, since the contact method is configured as a relay, a large number of contact defects or malfunctions occur due to deterioration that is commonly seen in mechanical contacts, and the cost of products increases.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to drastically reduce contact defects and malfunctions that are a problem in the conventional machine contact method. In addition, by reducing the size of the product by reducing the overall circuit to reduce the unit price of the product to increase the market competitiveness.

In order to achieve the above technical problem, the LED emergency light control circuit according to the present invention comprises a power input unit to which commercial power is input; A voltage drop unit connected in series to the power input unit, the voltage drop unit for dropping the voltage of the commercial power source input through the power input unit and full-wave rectifying; A power failure detector connected in series with the voltage drop unit and detecting a power failure of commercial power input through the power input unit; A charging unit connected in series with the voltage drop unit and charging an emergency power storage battery with a voltage dropped by the voltage drop unit; And an input terminal is commonly connected to the output terminal of the power failure detection unit and the output terminal of the charging unit, when the power failure is detected by the power failure detection unit, an automatic switching unit for supplying the voltage charged to the charging unit to the LED driving voltage; The automatic switching unit includes a control means having a Schmitt trigger function in which the input terminal is connected to the output terminal of the power failure sensing unit and the output terminal of the charging unit in common, a plurality of resistors connected in parallel to the input terminal and the output terminal of the control unit, A capacitor commonly connected to the input of the control means with the plurality of resistors, and an input of which is connected to an output of the control means, an output of which is connected to the LED, and an output of the control means, in common with the input of the transistor. And a Zener diode to be connected.

According to the LED emergency light control circuit according to the present invention, it is possible to solve the contact failure and reduce the overall circuit, as well as high cost reduction effect.

1 is a block diagram of an LED emergency light control circuit according to the present invention.
Figure 2 is a detailed view of the LED emergency light control circuit according to the present invention.

The configuration and operation of the LED emergency light control circuit according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an LED emergency light control circuit according to the present invention, Figure 2 is a detailed view of the LED emergency light control circuit according to the present invention.

As shown in FIG. 1, the LED emergency light control circuit according to the present invention includes a power input unit 10, a voltage drop unit 20, a converter unit 30, a power failure detection unit 40, an automatic switching unit 50, And the charging unit 60.

Commercial power to be supplied to the emergency light is input through the power input unit 10. When an overcurrent flows into the power input unit 10, the built-in replaceable fuse F2 is melted to protect the power supply PSU.

The commercial power input from the power input unit 10 is stepped down by the voltage drop unit 20.

To this end, the voltage drop 20 includes a transformer T2, a capacitor C17, and a diode D10. The input AC 220V voltage is stepped down to AC 12V by the transformer T2, and the stepped down voltage is full-wave rectified by the diode D10 and the capacitor C17, such as an electrostatic detection unit 40 and an automatic switching unit. 50 is used for supplying power to the charging unit 60.

The power passing through the voltage drop unit 20 is converted into the LED driving voltage by the converter unit 30.

On the other hand, by the power outage detection unit 40 is detected whether the power failure of the commercial power input through the power input unit 10. To this end, the power failure detecting unit 40 includes a resistor (R26) (R27), and a capacitor (C19).

When a power failure is detected by the power failure detecting unit 40, the automatic switching unit 50 switches to an emergency power source.

In the conventional LED emergency light control circuit is driven in the same way as the relay in connection with the automatic switching function, there were many malfunctions, including contact failure, resulting in a rise in the unit cost of the finished product.

However, in the present invention, not only the circuit itself is reduced but also the size of the entire finished product is reduced by developing the automatic switching circuit part by an electrical contact method rather than a mechanical contact.

To this end, the automatic switching unit 50 according to the present invention includes a control means (U3), a plurality of resistors (R29, R30, R31), a capacitor (C18), a zener diode (D9), and a transistor (Q3). Can be.

Here, the input terminal of the control means (U3) is commonly connected to the output terminal of the power failure detection unit 30 and the output terminal of the charging unit 50, and may have a Schmitt trigger function.

In addition, among the plurality of resistors R28, R29, R30, and R31, the first resistors R29 and R30 are connected in parallel to the input terminal and the output terminal of the control means U3, and the second resistor R31 is the control means U3. It may be connected between the output terminal of the () and the input terminal of the transistor (Q3).

The capacitor C18 may be commonly connected to the first resistors R29 and R30 at the input terminal of the control means U3, and the zener diode D9 is common to the input terminal of the transistor Q3 at the output terminal of the control means U3. Can be connected.

In addition, the input terminal of the transistor Q3 may be connected to the output terminal of the control means U3, and the output terminal of the transistor Q3 may be connected to the LED.

Looking at a specific operation, the control means U3 having the Schmitt trigger function detects the voltage converted into DC through the voltage drop unit 20. Normally, the control means changes the voltage at the high state to the low state, and the transistor Q3 of the automatic switching unit 50 is not triggered so that the emergency LED does not operate. On the contrary, in an emergency, the control means changes the voltage dropped to the low state to the high state. Then, the transistor Q3 is triggered by the high signal so that the emergency LED is turned on. At the time of emergency release, the transistor Q3 is not triggered again and the emergency LED is turned off.

Meanwhile, the voltage converted to DC by the voltage drop unit 20 charges the emergency power storage battery through the charging unit 60. This is done through the diode D8 and the resistor R28 provided in the charging unit 60.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art without departing from the spirit and scope of the present invention described in the claims In the present invention can be carried out by various modifications or variations.

Claims (5)

A power input unit to which commercial power is input;
A voltage drop unit connected in series to the power input unit, the voltage drop unit for dropping the voltage of the commercial power source input through the power input unit and full-wave rectifying;
A power failure detector connected in series with the voltage drop unit and detecting a power failure of commercial power input through the power input unit;
A charging unit connected in series with the voltage drop unit and charging an emergency power storage battery with a voltage dropped by the voltage drop unit; And
An input terminal is commonly connected to an output terminal of the power failure detecting unit and an output terminal of the charging unit, and when the power failure is sensed by the power failure detecting unit, an automatic switching unit for supplying a voltage charged to the charging unit to an LED driving voltage; and,
The automatic switching unit
A control means having a Schmitt trigger function in which the input terminal is connected to the output terminal of the power failure detecting unit and the output terminal of the charging unit in common;
A plurality of resistors connected in parallel to the input and output terminals of the control means,
A capacitor commonly connected to the plurality of resistors at an input of the control means, and
A transistor having an input terminal connected to an output terminal of the control means and an output terminal connected to the LED;
A Zener diode connected to an output terminal of the control unit in common with an input terminal of the transistor,
LED emergency light control circuit comprising a. The method of claim 1,
And the power input unit includes a replaceable fuse for overcurrent protection of the commercial power supply. The voltage drop circuit according to claim 1,
LED emergency light control circuit comprising a transformer (T2), a diode (D10) and a capacitor (C17) connected to the secondary side of the transformer (T2). The method of claim 1, wherein the power failure detection unit,
LED emergency light control circuit comprising a resistor (R26) (R27) connected in series with each other and a capacitor (C19) connected to a connection point of the resistor (R26) (R27). The method of claim 1, wherein the charging unit,
LED emergency light control circuit comprising a diode (D8), a resistor (R28), and a battery.

Images