KR101012020B1 - LED lamp - Google Patents

Abstract

According to the present invention, while the commercial power is normally supplied, the commercial power is supplied from the outside to turn on a plurality of light emitting diodes and simultaneously charge the battery. When the commercial power is cut off from the outside, the battery power is supplied at a low current. The present invention relates to a light emitting diode lamp having a charging function to protect the battery by automatically discharging when the voltage of the battery reaches a low voltage by allowing the lamp to emit light darker than usual and automatically discharging when the voltage of the battery becomes low.

The present invention described above,

AC-DC converter that outputs power from the outside with constant voltage and constant current, and outputs the rated DC voltage and the desired current value,

A charger for charging a DC power transmitted through the AC-DC converter through a backflow prevention diode to a battery;

A power supply unit receiving commercial power through the AC-DC converter and down to 5V to supply the operating power of the microprocessor through a constant voltage unit;

A power detector which determines whether commercial power is normally supplied in the state of the power input to the AC-DC converter and transmits the power to the microprocessor;

A plurality of light emitting diodes emitting light by receiving commercial power through the AC-DC converter;

A first switching device for selectively supplying the power charged in the battery while being turned on by the battery enable signal of the microprocessor;

A comparator that detects the temperature of the battery and cuts off the power charged from the charger when the temperature is high due to damage or the like;

A third switching element receiving power supplied to the constant voltage unit through the first switching element;

A booster for boosting the power supplied through the third switching device turned on by the power enable signal of the microprocessor and supplying the power to the plurality of light emitting diodes;

A fourth switching device configured to turn on the light emitting diodes by connecting the other side of the plurality of light emitting diodes to the ground by the lighting enable signal of the microprocessor;

The battery voltage is transferred from the battery to the third switching device via the first switching device. In the case of low voltage, the battery is notified of the low voltage state of the battery to stop the discharge, thereby automatically stopping the operation of lighting. And it is characterized by consisting of low voltage detectors to resume operation when the commercial power is normally applied again.

Lighting, Charger, Power Detection, Switching, Comparator, Step Up, Low Voltage

Description

Light emitting diode lamps with charging function {LED lamp}

The present invention relates to a light emitting diode lamp having a charging function, and in detail, while the commercial power is normally supplied to the commercial power from the outside to turn on a plurality of light emitting diodes at the same time to charge the battery, commercial from the outside When the power is cut off, the battery is supplied with low current and emits light darker than usual, enabling longer lighting time and automatically discharging when the voltage of the battery becomes low to protect the battery. A light emitting diode lamp having a function is provided.

In general, fluorescent lamps have been widely used because they have advantages such as longer life and lower power consumption than incandescent lamps.

In addition, by using the semiconductor device of the electronic ballast which has better power loss reduction effect than the glow starter type and the rapid type which are the choke coil type ballast, the commercial power source having the power frequency of 60Hz is converted into the high frequency of 20KHz ~ 50KHz in the inverter circuit. As soon as it is turned on, the lighting method is mainly used.

Therefore, the electronic ballast can reduce the size and weight of the inductor and capacitor as the frequency increases, and can also reduce the loss of about 25% than the choke coil type ballast by using semiconductor components. It is possible to reduce the power loss at the time of lighting due to flicker in the type ballast.

In addition to the above energy savings, the electronic ballast is comparable to the choke coil ballast with 120 flashes per second. Not only good quality of light is supplied, but also suitable for eyesight protection, and the unpleasant noise at the start of the choke coil ballast is eliminated, providing a better living lighting environment.

However, the shortage of oil supply is becoming a reality, and the price of oil continues to rise, and efforts to reduce carbon dioxide emissions as much as possible to prevent global warming are accelerating internationally. In addition, mercury is used in fluorescent lamps, which causes disadvantages such as environmental pollution.

Therefore, efforts have been made to install using high-brightness light emitting diodes instead of fluorescent lighting.

That is, Patent Application No. 10-2008-67386 (LED lighting and LED lighting device) of July 11, 2008 was proposed,

It is an LED unit having a plurality of LEDs connected in series,

A high frequency rectifier for rectifying and outputting an AC voltage having a frequency within a range of 20 KHz to 50 KHz to a DC voltage;

An LED driver for supplying a predetermined driving current to the LED unit by using the DC voltage output from the high frequency rectifying unit;

A circuit board part including at least one circuit board on which the LED part, the high frequency rectifying part, and the LED driving part are mounted;

The LED part, the high frequency rectifying part, the LED driving part, and a transparent material part for protecting the circuit board part are configured.

However, the conventional LED lamp and the LED lighting device as described above performs a stable operation in the normal power supply state receiving the AC power from the outside, but can not be used at all when the power supply is not smooth due to failure or the like. There was a problem.

Thus, on June 30, 1999, Utility Model Registration Application No. 20-1999-0012057 (Electrostatic Charge Cost Fluorescent Lamp Ballast) was proposed.

This is because a battery charging circuit, an electrostatic detection circuit, and an inverter are added to a lighting device including a power input unit, a fluorescent lamp, and an electronic ballast so that when the power is normally applied, the electronic ballast and the fluorescent lamp are connected and turned on, and the power is not applied. When the battery is connected to a power source charged in the battery, the lamp is turned on.

However, the conventional capacitive-cost fluorescent ballast as described above has a disadvantage in that the power supplied to the battery is directly supplied to the fluorescent lamp, so that it cannot be effectively used when the power failure continues for some time.

Accordingly, the present invention is to solve the conventional problems as described above, while the commercial power is normally supplied to receive a commercial power from the outside to turn on a plurality of light emitting diodes at the same time to charge the battery, commercial from the outside When the power is cut off, the battery is supplied with low current and emits light darker than usual, enabling longer lighting time and automatically discharging when the voltage of the battery becomes low to protect the battery. It is an object of the present invention to provide a light emitting diode lamp having a function.

Light emitting diode lamp having a charging function of the present invention for achieving the above object,

AC-DC converter that outputs power from the outside with constant voltage and constant current, and outputs the rated DC voltage and the desired current value,

A charger for charging a DC power transmitted through the AC-DC converter through a backflow prevention diode to a battery;

A power supply unit receiving commercial power through the AC-DC converter and down to 5V to supply the operating power of the microprocessor through a constant voltage unit;

A power detector which determines whether commercial power is normally supplied in the state of the power input to the AC-DC converter and transmits the power to the microprocessor;

A plurality of light emitting diodes emitting light by receiving commercial power through the AC-DC converter;

A first switching device for selectively supplying the power charged in the battery while being turned on by the battery enable signal of the microprocessor;

A comparator that detects the temperature of the battery and cuts off the power charged from the charger when the temperature is high due to damage or the like;

A third switching element receiving power supplied to the constant voltage unit through the first switching element;

A booster for boosting the power supplied through the third switching device turned on by the power enable signal of the microprocessor and supplying the power to the plurality of light emitting diodes;

A fourth switching device configured to turn on the light emitting diodes by connecting the other side of the plurality of light emitting diodes to the ground by the lighting enable signal of the microprocessor;

The battery voltage is transferred from the battery to the third switching device via the first switching device. In the case of low voltage, the battery is notified of the low voltage state of the battery to stop the discharge, thereby automatically stopping the operation of lighting. And it is characterized by consisting of low-voltage detectors to resume operation when the commercial power is normally applied again.

In the light emitting diode lamp having a charging function according to the present invention described above, while commercial power is normally supplied, commercial power is supplied from the outside to turn on a plurality of light emitting diodes and simultaneously charge the battery.

In the state that the commercial power source from the outside is cut off while supplying the battery power to the operating power supply to the light emitting diode with a low current to emit light darker than usual to enable longer time illumination,

When the discharge voltage of the battery becomes low due to excessive discharge of the battery or heat is generated due to the damage of the battery, the battery is automatically stopped to protect the battery.

When the battery voltage is measured and the low voltage is stopped, the operation for stopping the lighting of the lamp while the discharge is stopped, and when the commercial power is normally applied again, the operation is resumed.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Light emitting diode lamp having a charging function according to the present invention,

AC-DC converter (1) which outputs commercial power from the outside with constant voltage and constant current, and outputs the rated DC voltage and the desired current value,

A charger (2) which charges the battery (3) via a backflow prevention diode (D1) and direct current power transmitted through the AC-DC converter (1);

The power supply unit 6 receives the commercial power supply via the AC-DC converter 1 and lowers the voltage to 5V to supply the operating power of the microprocessor 5 through the backflow prevention diode D2 and the constant voltage unit 4. Wow,

A power detector 7 which determines whether commercial power is normally supplied in the state of the power input to the AC-DC converter 1 and transmits the power to the microprocessor 5;

A plurality of light emitting diodes 8 which emit light by receiving commercial power via the AC-DC converter 1;

First switching to supply the power charged in the battery 3 to the constant voltage unit 4 via the backflow prevention diode D3 while being turned on by the battery enable signal Bat-En of the microprocessor 5. Element 9,

The temperature of the battery 3 is detected by the temperature sensor 3a, and when the temperature is high due to damage or the like, the power supply to the battery 3 is cut off from the charger 2 through the second switching element 10. With a comparator 11,

A third switching element 12 which receives power supplied to the constant voltage unit 4 via the first switching element 9;

The plurality of light emitting diodes 8 are boosted by the power supplied through the third switching element 12 turned on by the power enable signal DC-En of the microprocessor 5 through the backflow prevention diode D4. A booster 13 for supplying

A fourth switching element 14 connecting the other side of the plurality of light emitting diodes 8 to the ground to light the light emitting diodes 8 by the lighting enable signal LED-En of the microprocessor 5;

The low voltage state of the battery 3 is measured by the microprocessor 5 when the voltage of the battery 3 is transferred from the battery 3 to the third switching element via the first switching element 9. The low voltage detector 15 is configured to inform and stop the discharge.

The microprocessor 5 may turn off the external switch in the office or the room through the external switch recognizing unit 16. However, as a result of the detection of the power detecting unit 7, even if the commercial power is not normally supplied, the microprocessor 5 may supply the battery to the first switching element 9. Do not output the enable signal Bat-En.

The first switching element 9, the third switching element 12, and the fourth switching element 14 use switching elements such as field effect transistors and thyristors.

The light emitting diode lamp having the charging function of the present invention configured as described above allows the light emitting diode to be turned on by a commercial power source from the outside in a normal state while supplying power charged to the battery at a low current during a power failure so that it can be turned on for a long time. As one,

The commercial power supply from the outside is supplied at the rated DC voltage and the desired current value via the AC-DC converter 1 having the functions of constant voltage and constant current.

The charger 2, which is supplied with the DC power transmitted through the AC-DC converter 1, charges the battery 3 via the backflow prevention diode D1.

The power supply unit 6, which is supplied with commercial power via the AC-DC converter 1, lowers the voltage to 5V and passes the reverse current prevention diode D2 and the constant voltage unit 4 as an operating power source of the microprocessor 5. Supply.

At this time, since the power discharged to the battery 3 continues to be supplied simultaneously through the first switching element 9, the operation of the microprocessor 5 does not stop even if a sudden power failure occurs.

Therefore, in the microprocessor 5 described above, it is determined whether the commercial power input to the AC-DC converter 1 through the power detector 7 is normally supplied.

In this state, when the lighting enable signal LED-En is output from the microprocessor 5, the light emitting diodes 8 normally turn on.

When the microprocessor 5 recognizes that the commercial power is not normally supplied via the AC-DC converter 1 as a result of the detection of the power detector 7 in the microprocessor 5 while the lighting is in progress, the microprocessor 5 may replace the battery 3. Is operated as a power source supplied to the constant voltage unit 4 via the first switching element 9.

The microprocessor 5 outputs a battery enable signal Bat-En to the first switching element 9 so that the power charged in the battery 3 passes through the backflow prevention diode D3 to the constant voltage unit 4. To be supplied to the second switching element 12 at the same time.

The microprocessor 5 is supplied with the commercial power supplied through the constant voltage unit 4 and the power of the battery 3 via a charging and discharging circuit not shown in the drawing, even if the supply of commercial power is momentarily interrupted. The battery enable signal Bat-En is output so that the power of (3) is supplied.

The third switching device 12 supplied with power through the first switching device 9 may be a battery that is supplied while being turned on and operated by the power enable signal DC-En of the microprocessor 5. The power of 3) is boosted through the booster 13 to be supplied to the plurality of light emitting diodes 8 through the backflow prevention diode D4 to enable continuous lighting.

At this time, the power supplied to the light emitting diode 8 supplies a power having a lower current than a normal power supply, so that the light can be turned on for a longer time even if the light of the light emitting diode is weakened.

In this case, the microprocessor 5 outputs a lighting enable signal LED-En to the fourth switching element 14 so that the other side of the plurality of light emitting diodes 8 is connected to the ground to light the light emitting diodes 8. Do it.

While the light emitting diode 8 is turned on by the power charged in the battery 3, the temperature of the battery 3 is detected by the temperature sensor 3a by the microprocessor 5, and the temperature is increased due to damage or the like. When the high state is recognized as the comparator 11, the second switching device 10 is turned on while the power supplied from the charger 2 to the battery 3 is cut off so that charging is not performed.

The low voltage detector 15 measures the voltage of the battery 3 transferred from the battery 3 through the first switching element 9 to the third switching element, so that the discharge time is long or low. The battery 5 is protected by informing the processor 5 of the low voltage state of the battery 3 so as to stop discharging and automatically stopping the operation for turning on the lamp and restarting the operation when commercial power is normally applied again. Do it.

When the external switch (not shown in the drawing) is turned off to turn off the room, the external switch recognition unit 16 recognizes the state according to the first switch element 9 even though the commercial power is not normally supplied as a result of the detection of the power detection unit 7. Do not output the battery enable signal (Bat-En).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a block diagram showing a configuration of the present invention.

Explanation of symbols on the main parts of the drawings

1: AC-DC converter 2: charger

5 microprocessor 7 power detector

9, 10, 12, 14: switching element 11: comparator

13: booster 15: low voltage detector

Claims (1)

AC-DC converter (1) for lighting a plurality of light emitting diodes (8) by outputting commercial power from the outside with functions of constant voltage and constant current at a rated DC voltage and a desired current value; A charger (2) which charges the battery (3) via a backflow prevention diode (D1) and direct current power transmitted through the AC-DC converter (1); A power supply unit 6 supplied with the commercial power via the AC-DC converter 1 and down to 5V and supplied to the microprocessor 5 through the reverse flow prevention diode D2 and the constant voltage unit 4; A power detector 7 which determines whether power input to the AC-DC converter 1 is normally supplied to the microprocessor 5 and transmits the same to the microprocessor 5; A power supply selectively supplied to the constant voltage unit 4 through the backflow prevention diode D3 while being turned on by the battery enable signal Bat-En of the microprocessor 5. 1 switching element 9, A comparator 11 which detects the temperature of the battery 3 and cuts off the power supplied from the charger 2 to the battery 3 via the second switching element 10 when the temperature is high; A third switching element 12 selectively receiving power supplied to the constant voltage unit 4 through the first switching element 9 and supplying the plurality of light emitting diodes 8 to the plurality of light emitting diodes 8 through a booster 13; )Wow, A fourth switching element 14 for connecting the other side of the plurality of light emitting diodes 8 to ground by turning on the light enable signal LED-En of the microprocessor 5 so that the light emitting diodes 8 are turned on; A low voltage detector that measures the voltage of the battery 3 transferred from the battery 3 to the third switching element via the first switching element 9 and informs the microprocessor 5 of the low voltage state of the battery 3. Light emitting diode illumination lamp having a charging function, characterized in that consisting of (15).

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