KR200469155Y1 - The charger led lighting apparatus - Google Patents

Abstract

The present invention is a socket for electrically connecting to a receptacle for a light bulb to connect to a commercial power source, the upper housing is connected to the socket, the gripping groove is formed on one surface, the upper housing is connected, the LED module is a commercial power source or a battery PCB through which the circuit element for driving by mounting is inserted through the PCB board coupling guide and the battery is inserted through the battery coupling guide, the PCB through the main switch through hole formed on one side of the lower housing A main switch of a push button type mounted on a substrate to turn on / off operation of an LED module by a commercial power source and a battery, and the circuit element mounted on the PCB substrate includes an AC-DC converter for converting a commercial power source into direct current; When connecting current output from AC-DC converter to LED module The first switching element, a charger for charging the battery by receiving the converted DC power, an LED driving unit for driving the LED module to receive the power supplied from the battery, and when commercial power is input, in series with the LED module A second switching element connected to ground both ends of a second sensing resistor capable of sensing whether a constant current is flowing to the LED module when the battery is discharged, and the main switch turns on / off the LED driving unit and simultaneously It provides a rechargeable LED lighting device, characterized in that for controlling the operation of the switching element.
According to the present invention, when the LED module is driven by a commercial power supply, the second module is connected to the LED module in series, and both ends of the second sensing resistors capable of detecting whether a constant current flows through the LED module when the battery is discharged are grounded using a switch. It is advantageous to prevent power loss by preventing current from flowing through the sensing resistor.

Description

Rechargeable LED lighting device {THE CHARGER LED LIGHTING APPARATUS}

The present invention relates to an LED lighting device, and more particularly, to a rechargeable LED lighting device that can be connected to a commercial power source to operate the LED and at the same time to charge the built-in battery to operate the LED by the battery at the time of power failure will be.

In general, the lighting device is a device that can recognize the object even in the dark by converting electrical energy into light energy by being supplied with power. Currently, it is an environment-friendly, mercury-free, ultra-light, low-power and long-life LED lamp. Is preferred. LED lighting device can produce a variety of colors as compared to the lighting means such as incandescent or fluorescent lamps, there is a long advantage and less power consumption, as well as small size. Because of these advantages, in recent years, despite the relatively high price, lighting devices employing LEDs as light sources have been developed in various forms.

Korean Patent Registration No. 1012020 (light emitting diode lamp having a charging function), AC-DC converter having a function of a constant voltage and a constant current, a charger for charging a battery, a power supply for supplying power to a microprocessor, the micro It includes a power detector for determining whether the power is normally supplied to the processor, a low voltage detector for indicating the low voltage state of the battery to the microprocessor and a plurality of switches for driving the LED. However, although Patent No. 1012020 describes a technology for controlling an LED when the battery voltage is measured at a low voltage, the circuit is complicated and a specific method for improving power consumption is not described.

Meanwhile, the rechargeable LED driving device requires a sensing resistor for outputting a constant voltage and a constant current for driving the LED by the battery when the LED is driven by the commercial power and the commercial power is cut off. That is, a first sensing resistor connected in parallel or in series to the AC-DC converter to detect whether the output of the AC-DC converter converting commercial power to DC is output as a constant voltage and a constant current, and a constant current to the LED when the LED is operated by the battery. In order to detect whether or not is supplied, each of the second sensing resistors connected in series to the LED module is provided so that a stable current is supplied to the LED module.

However, when the LED module is driven by a commercial power source, current flows through the first sensing resistor and the second sensing resistor, so that the power of the second sensing resistor for sensing whether a constant current is supplied to the LED module by the battery. There is a problem that the power consumption is increased because the loss occurs. In addition, when supplying power to the LED module only by the battery separated from the commercial power, there is a problem that the battery is discharged because the push button-shaped main switch protruding to the outside is pressed by a random impact during the operation to operate the LED module.

The present invention has been made to solve the above problems, the purpose of providing a rechargeable LED lighting device that can minimize the power consumption when driving the LED module by the battery when the supply of commercial power or commercial power is interrupted. have.

In addition, the present invention is separated from the commercial power supply when the main switch (push button type) is pressed to stop the driving of the LED module when the power is supplied only by the battery, the end of the main switch is inserted into the housing and exposed to external contact It is an object of the present invention to provide a rechargeable LED lighting device that can prevent the battery from being discharged by pressing the main switch by a random external contact.

In order to solve the above problems, a rechargeable LED lighting device according to an embodiment of the present invention is a socket for electrically connecting to a light bulb receptacle to connect to a commercial power source, the upper housing is connected to the socket, the gripping groove is formed on one surface A lower housing connected to the upper housing and having a circuit board mounted thereon with a circuit element for driving an LED module by a commercial power source or a battery, through a PCB board joining guide, and a battery inserted through a battery joining guide; It is mounted on the PCB substrate through the main switch through hole formed in one side of the lower housing includes a push button type main switch to turn on / off the operation of the LED module by a commercial power source and a battery, which is mounted on the PCB substrate The circuit element is an AC-DC converter that converts commercial power into direct current, A first switching element connecting the current output from the AC-DC converter to the LED module, a charger for charging the battery by receiving the converted DC power, and an LED for driving the LED module by receiving the power supplied from the battery A second switching element connected to the LED module in series when the LED driving unit and the commercial power source are input to ground both ends of the second sensing resistors capable of detecting whether a constant current is flowing to the LED module when the battery is discharged; The switch may turn on / off the LED driver and control the operation of the first switching device.

delete

According to an aspect of an embodiment of the present invention, when the main switch is separated from the commercial power source and pressed by an external operation, the main switch is turned off to cut off the power supplied from the battery to the LED module, mechanically lower housing It is inserted into the and is pressed again by an external arbitrary operation to prevent the battery is discharged by turning on the LED drive.

According to the present invention as described above, when the LED module is driven by a commercial power source is connected in series with the LED module to ground both ends of the second sensing resistor that can detect whether a constant current is flowing to the LED module when the battery discharged using a switch By doing so, no current flows through the second sensing resistor, thereby preventing power loss.

In addition, when supplying power to LED module by battery separated from commercial power, circuit is configured to turn off LED when main switch is pressed to prevent unintentional battery discharge by pressing main switch protruding outward. At the same time, the end of the main switch is mechanically inserted into the housing, thereby preventing the main switch from being pressed again by a random external contact, thereby preventing the discharge of the battery.

1 is an assembly configuration of a rechargeable LED lighting apparatus according to an embodiment of the present invention.
2 is a cross-sectional view of a rechargeable LED lighting apparatus according to an embodiment of the present invention.
3 is a circuit block diagram of a rechargeable LED lighting apparatus according to an embodiment of the present invention.
4 is a view for explaining the operation of the main switch of the rechargeable LED lighting device according to an embodiment of the present invention and the discharge of the battery according to it.

The following detailed description is only illustrative, and merely illustrates an embodiment of the present invention. In addition, the principles and concepts of the present invention are provided as the most useful and easy to explain.

Therefore, the drawings are not intended to provide more detailed structure than necessary for the basic understanding of the present invention, as well as various forms that can be implemented by those skilled in the art through the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an assembly configuration of a rechargeable LED lighting apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the rechargeable LED lighting apparatus 1000 includes a socket 200 for connecting to a light bulb receptacle electrically connected to a commercial power source, and a socket connection portion 210 connected to the socket, and having a gripping groove on one surface thereof. Operation of the LED module 30 by the upper housing 220 in which the 211 is formed, the lower housing 230 in which the battery 300 and the PCB substrate 100 are inserted, and the commercial power or the battery power. It includes a main switch 430 to turn on / off.

The socket 200 is connected to a light bulb receptacle of a commercial power source and supplies commercial power to an AC-DC converter mounted on the PCB substrate 100 through the commercial power connection terminal 410, and is provided on the upper portion of the upper housing 220. It is connected to the socket connection portion 210 that is coupled may be mechanically connected to the upper housing. The upper housing 220 is connected to the upper portion of the lower housing 230, the gripping groove 211 is formed on one surface to accommodate the user's thumb in order to easily connect the rechargeable LED lighting device to the bulb receptacle. . Therefore, after the user inserts a finger into the gripping groove 211, when the socket is connected to the bulb receptacle can be easily inserted or removed without slipping.

The lower housing 230 may include a battery 300 that is charged while commercial power is supplied, and a circuit element capable of supplying commercial power or driving power supplied from the battery to the LED module 30 through the driving power connection terminal 420. The PCB substrate 100 is mounted therein. When the push button 430a inserted through the main switch through hole 231 formed on one side of the lower housing 230 is pressed by an external operation, the main switch 430 mounted on the PCB substrate 100. ) May turn off the rechargeable LED lighting device 1000 as a whole by preventing the driving power output from the commercial power source and the battery from being supplied to the LED module 30. On the other hand, the rechargeable LED lighting device 1000 can be used to drive the LED module by a battery that is separated from the light bulb receptacle of the commercial power source to use the lamp, in this case the main switch 430 is push button 430a once again external The enable signal may be input to the LED LED driver mounted by the manipulation and mounted on the PCB substrate 100. The on / off of the rechargeable LED lighting device 1000 according to the pushbutton operation of the main switch will be described in detail with reference to FIGS. 3 and 4.

Therefore, the rechargeable LED lighting device 1000 can be connected to the bulb receptacle without slipping by using a gripping groove formed in the upper housing, and when mechanically separated from commercial power, the rechargeable LED lighting device 1000 is easily supplied from the battery to the LED module. It can be used as a portable light by turning on / off the power.

2 is a cross-sectional view of a rechargeable LED lighting apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the interior of the lower housing 230 includes battery coupling guides 301a and 301b such that the battery 300 and the PCB substrate 100 on which the circuit elements are mounted can be easily inserted vertically in the vertical direction. ) And PCB board coupling guides 101a and 101b are formed. Therefore, the battery 300 or the PCB board 100 mounted inside the lower housing is pushed along the respective battery coupling guides 301a and 301b or PCB board coupling guides 101a and 101b through the lower opening of the lower housing. Can be inserted easily. On the other hand, the driving power connector for electrically connecting the PCB substrate 100 and the LED module may be made by connecting the connector drawn from the PCB board 100 and the connector drawn from the LED module.

Therefore, the battery and PCB substrate can be easily inserted into the lower housing through the respective coupling guides, thereby reducing productivity and improving productivity.

3 is a circuit block diagram of a rechargeable LED lighting apparatus according to an embodiment of the present invention.

As shown in FIG. 3, the circuit element mounted on the PCB substrate 100 of the rechargeable LED lighting device is an AC-DC converter 10 for converting an external commercial power source into a DC power source of rated power, and outputs from the AC-DC converter. A first sensing resistor 11 for detecting that the DC power supply is output at a constant voltage and a constant current, and a first switching element 12 connecting the current output from the AC-DC converter 10 to the LED module 30. The charger 21 for charging the battery 22 by receiving the converted DC power, the LED driving unit 23 for driving the LED module 30 by receiving the power supplied from the battery, and the commercial power is input. The second switching element 13 connected in series with the LED module to ground both ends of the second sensing resistor 24 capable of detecting whether a constant current is flowing to the LED module when the battery is discharged. And a main switch for turning on / off the LED driver 23 and controlling the operation of the first switching element 12. The charger 21 functions to charge a battery when the rechargeable LED lighting device is connected to a commercial power source regardless of the switching state of the main switch.

The operation of turning on the LED module 30 according to the application of commercial power or the commercial power is stopped to turn on the LED module 30 by the battery will be described.

First, referring to FIG. 4A, when the push button 430a is not pressed, the main switch 40 has an enable terminal and a ground terminal for turning on / off the LED driver 23. The battery is discharged by applying a HIGH signal to the enable terminal to enable the LED driver to discharge the battery to supply power to the LED module. Meanwhile, referring to FIG. 4B, when the push button 430a is pressed to be inserted into the lower housing, the main switch 40 for turning on / off the LED driver 23 may short the enable terminal and the ground terminal. By applying the LOW signal to the enable terminal to disable the LED driver (disable) by stopping the power supply to the LED module. Here, in the state in which the commercial power is stopped, when the power supply to the LED module is interrupted according to the main switch 40 off, the end of the push button 430a is mechanically inserted into the lower housing, thereby unintentionally by external contact. The LED module may be turned on to prevent the battery from being discharged.

Referring back to FIG. 3, when the commercial power is applied and the main switch 40 is opened to apply the HIGH signal to the enable terminal, the first switching element 12 is short-circuited and output from the AC-DC converter 10. At the same time as supplying the driving power to the LED module 30, the LED driver 23 receives the voltage output from the battery to boost the voltage to drive the LED module 30 to output. Herein, the voltage applied from the AC-DC converter 10 to the input terminal of the LED module 30 is referred to as Vdc, and the voltage of the output terminal of the LED driver 23 is referred to as Vbat. Since both terminals having the Vdc and Vbat voltages are connected by the diode 25, Vdc is higher than Vbat due to the diode's own resistance so that the current by the LED driver 23 is not supplied to the LED module 30. Only the current output from the AC-DC converter 10 is supplied to the LED module 30 so that the LED module is turned on by the commercial power supply.

Here, the second sensing resistor 24 is a resistor for detecting whether a constant current is supplied to the LED module 30 by the discharge of the battery 22, and is unnecessary when the LED module is driven by a commercial power supply. Therefore, when the LED module 30 is driven by a commercial power source, the second switching element 13 is shorted by using the voltage or current output from the AC-DC converter 10 to the second sensing resistor 24. By grounding both ends of the circuit, power loss can be prevented by preventing current from flowing in the second sensing resistor 24. The first switching element 12 and the second switching element 13 may be a switching element such as a field effect transistor or a thyristor.

On the other hand, when the supply of commercial power is interrupted due to a power failure, Vdc becomes 0, and the current is supplied to the LED module 30 by the output terminal voltage Vbat of the LED driving unit 23 by the battery 22 waiting at this moment. Can be supplied to immediately turn on the LED module. That is, even when the driving power is interrupted due to sudden power failure or malfunction of AC-DC converter when the LED module is driven by commercial power, the output voltage of the LED driving part is always in the standby state. LED module can be turned on by applying.

Therefore, the rechargeable LED lighting device can immediately turn on the LED module by the battery when the supply of commercial power is stopped, and minimize the power loss due to the second sensing resistor when the commercial power is supplied, and the main switch Unintentional LED operation due to external contact can be prevented by turning off the LED when the end of is inserted in the lower housing.

The present invention has been described in detail with reference to exemplary embodiments, but those skilled in the art to which the present invention belongs can make various modifications without departing from the scope of the present invention with respect to the above-described embodiment. I will understand.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

100: PCB board mounted with circuit elements 10: AC-DC converter
11: first sensing resistor 12: first switching element
13: second switching element 21: charger
22: battery 23: LED LED drive unit
24: second sensing resistor 30: LED module
40: main switch 101a, 101b: PCB board bonding guide
200: socket 210: socket connection
211: grip groove 220: upper housing
230: lower housing 231: main switch through hole
300: Battery 301a, 301b: Battery combination guide
410: commercial power supply terminal 420: driving power supply terminal
430: main switch 430a: push button
1000: rechargeable LED lighting device

Claims (3)

Socket for electrical connection to a light bulb receptacle for connection to commercial power;
An upper housing connected to the socket and having a gripping groove formed on one surface thereof;
A lower housing connected to the upper housing and having a PCB board mounted thereon with a circuit element for driving an LED module by a commercial power source or a battery, and the battery being inserted through a battery coupling guide;
It is mounted on the PCB substrate through the main switch through hole formed on one side of the lower housing includes a push button type main switch to turn on / off the operation of the LED module by a commercial power source and a battery,
The circuit device mounted on the PCB board
AC-DC converter that converts commercial power into direct current,
A first switching element connecting the current output from the AC-DC converter to an LED module,
Charger for charging the battery by receiving the converted DC power,
LED LED driving unit for receiving the power supplied from the battery to drive the LED module, and
When the commercial power is input, and connected in series with the LED module includes a second switching element for grounding both ends of the second sensing resistor that can detect whether a constant current is flowing to the LED module when the battery discharged,
The main switch turns on / off the LED driver and simultaneously controls the operation of the first switching element.
delete The method of claim 1,
When the main switch is separated from the commercial power source and pressed by an external operation, the main switch turns off the LED driving unit to cut off the power supplied from the battery to the LED module, and is mechanically inserted into the lower housing to be pressed again by an external arbitrary operation. Rechargeable LED lighting device, characterized in that to prevent the battery is discharged by turning on the drive.

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