KR20100133726A - High-brightness led fluorescent lamp to have uninterrupted power supply device - Google Patents

Abstract

PURPOSE: A high intensity LED fluorescent lamp is provided to turn on a high intensity LED fluorescent lamp by using a charged battery power source part. CONSTITUTION: An on/off switch(11) switches power according to normal power. An AC-DC power converter(10) converts an AC voltage into a DC voltage when the switch is turned on. A battery receives the converted DC power when the switch is turned on. A battery is connected to a charger circuit(20). A changeover switch(50) is connected to the AC-DC power converter when the switch is turned on. The changeover switch is connected to the battery when the switch is turned on. A sensing circuit(30) senses whether power is disconnected and the switch is turned on. A control part(40) controls the location of the switch according to the signal of the sensing circuit. A high intensity LED fluorescent lamp(60) is connected to the changeover switch.

Description

High-brightness LED fluorescent Lamp to have Uninterrupted Power Supply device

The present invention relates to a high-brightness LED fluorescent lamp having an uninterruptible power supply, and more particularly, a built-in AC / DC converter, a charger, and a voltage sensing circuit, so that a switch has a constant voltage or more in a turn-on state. High brightness LED fluorescent lamp is turned on with charging of input voltage and high brightness LED fluorescent lamp is equipped with uninterruptible power supply that can respond quickly in case of power failure in home and office by lighting high brightness LED fluorescent lamp using battery charged inside. will be.

In general, the power used in the building is normal, regular power, emergency power supplied during power outages that are not normally supplied, and uninterrupted power system power supplied by batteries until emergency power is supplied after a power failure. This supply is a commonly known technique.

Conventional technologies have used a common fluorescent lamp during an uninterruptible power, and thus, in the case of a power failure, a general fluorescent lamp has a low luminance, so that it is difficult to quickly evacuate a fire.

In addition, in case of fire or various disasters, the luminance is too low to prepare various tools for disaster prevention, or there may be a problem that new disasters may occur due to careless handling due to low luminance.

In addition, in the case of a general fluorescent lamp, since the power consumption is large, there was a problem that it is inappropriate to use for a long time.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a high-brightness LED fluorescent lamp that is uninterrupted even during a power failure and can be used for a long time as compared to a general fluorescent lamp.

In order to achieve the above object, the present invention provides an ON / OFF switch 11 for opening and closing the power when the constant power is applied; An AC / DC converter 10 for converting an AC voltage into a DC voltage when the switch 11 is turned on; A charging circuit 20 for charging the battery 25 by receiving the DC power converted in the switch ON state and a battery 25 connected to the charging circuit; A switch 50 connected to the AC / DC converter 10 when the switch is in the ON state and the power is applied, and connected to the battery 25 in the switch ON state and in the power failure state; A detection circuit 30 for detecting whether the power is out of power and whether the ON / OFF switch is opened or closed; A controller 40 for controlling the position of the changeover switch 50 according to the signal of the sensing circuit 30; And a high brightness LED fluorescent lamp 60 connected to the switching switch 50 to be turned on or off; and providing a high brightness LED fluorescent lamp having an uninterruptible power supply.

The present invention can automatically respond to various disasters by lighting the high-brightness LED fluorescent lamp using the pre-charged battery power by automatically monitoring in case of power failure or power failure at home or company, and preparing tools or other equipments at the time of power failure, It has the advantage of being ready.

In addition, the present invention provides excellent safety for electric shocks that can occur in water or other leaks due to breakage and disaster due to careless handling. In particular, firefighting works without fear of electric shock of firefighters. If high-brightness LED fluorescent lamps are not damaged by fire, continuous lighting can be helpful for extinguishing work.

In addition, the present invention has the advantage that the normal fluorescent lamp can not be used for a long time because the power consumption is large, while low-power driving is possible, can be used for a long time, and meets environmentally friendly requirements because it uses a high-brightness LED fluorescent lamp.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, this is only to describe in detail enough to be able to easily carry out the invention by those skilled in the art, which does not mean that the technical spirit and scope of the present invention is limited.

1 is a block diagram of an embodiment according to the present invention, FIG. 2 is a schematic circuit diagram of an embodiment according to the present invention, and FIG. 3 is a flowchart of a controller of an embodiment according to the present invention.

An embodiment of the present invention will be described in detail with reference to the drawings. 1 and 2, a high-brightness LED fluorescent lamp having an uninterruptible power supply according to the present invention has an ON / OFF switch 11 for opening and closing the application of power, and an AC voltage applied when the switch 11 is in an ON state. AC / DC converter 10 for converting the DC voltage, a charging circuit 20 connected to the battery 25 for charging the battery 25 to the DC voltage applied through the converter 10, and the AC / A switching switch 50 connected to the DC converter 10 when the switch is turned on in a state where power is applied and connected to the battery 25 in a switched-on state while being outage with the battery 25, whether the ON / OFF switch is opened or closed and A sensing circuit 30 for detecting power failure, a control unit 40 for controlling the switching switch 50 in response to the signal detected by the sensing circuit 30, and a DC power applied through the switching switch. It consists of a high-brightness LED fluorescent lamp that lights up or goes out. In addition, the fuse 12 may be mounted to the power supply unit to prevent overvoltage or overcurrent.

The AC / DC converter 10 rectifies the AC input voltage using a bridge diode and converts the rectified voltage into a secondary voltage [12V or 9V] lower than the primary voltage using a transformer and a switching FET. do. The converted voltage is used to power a high-brightness LED fluorescent lamp while charging the battery.

The charging circuit 20 is configured to supply the output voltage of the AC / DC converter to the battery 25 and sense the voltage appearing at both ends of the battery to prevent overcharging while minimizing heat generated when charging the battery.

The power failure / switch opening / closing detection circuit 30 rectifies the voltage flowing into the AC line to convert it into a DC level, and distributes the converted voltage to a level (0V or 5V) that can be sensed by the control unit to transmit a signal. The opening and closing of the switch is determined by the change in the resistance value appearing at both ends of the switch. In the closed state the resistance will be near zero, and in the open state the resistance will be near infinity.

The controller 40 determines whether the switch is opened or closed while primarily maintaining the standby state when the power outage / switch open / close detection circuit 30 sends a power outage signal while monitoring whether there is a power failure. 50 is connected to battery 25, otherwise the state is maintained. After detecting whether the switch is continuously opened or closed in the power failure state, when the switch is turned on by the user, the detection signal is received at the moment to connect the switching switch 50 to the battery 25 to turn on the high-brightness LED fluorescent lamp 60. do. It is controlled by a digital control method using a general one-chip, and the overall flowchart is shown in FIG. 3. First, check whether there is a power failure, and if it is not a power failure, the changeover switch 50 is connected to the AC / DC converter 10, and again the switch is ON / OFF to check whether the switch is still ON. Is connected to the AC / DC converter 10. However, when the switch is turned off and the power is turned off, the switching switch 50 is connected to the battery 25 to turn on the LED fluorescent lamp 60 using the power of the battery. This process is continuously monitored through the control unit, and the position of the changeover switch is determined in response to a power failure or a power failure.

The changeover switch 50 is configured such that general power devices (BJTs, MOSFETs, IGBTs ...) or relays are configured in parallel to apply a control signal in a complementary form so that one device is turned on and the other is turned off. If the device or the relay is selected according to the amount of power consumed by the high-brightness LED fluorescent lamp, the switching switch unit can be easily configured.

The operation principle is as follows. When the switch 11 is turned on to light a room, a voltage of 100 to 240 VAC is applied to the AC / DC converter 10, and a DC level voltage is output through the converter 10. By using this voltage, the high brightness LED fluorescent lamp 60 is turned on and the charging circuit 20 is activated according to the charging state of the battery 25. When the battery is charged to a certain voltage, the current flowing by the charging circuit 20 is interrupted. Since there is no power failure in the initial state and the switch 11 is closed, the controller 40 controls the DC voltage from the AC / DC converter 10 according to a signal from the power failure / switch open / close detection circuit 30 to display the high-brightness LED fluorescent lamp (60). ) To supply power. When the high-brightness LED fluorescent lamp 60 is turned off in the lit state, a person may turn off the switch 11 or generate a power failure. At this time, when the high-brightness LED fluorescent lamp 60 is turned off, the controller 40 determines whether there is a power failure and whether the switch is open or closed. If the switch is turned on during power failure, the battery voltage is applied to the high-brightness LED fluorescent lamp to continuously supply power and turn on the light. Keep it. However, if the switch is turned off during power outages, the previous state remains as it is, keeping the high-brightness LED fluorescent light off. When the person turns on the switch in a situation that does not know that the power failure, the control unit 40 immediately detects the battery voltage applied to the high-brightness LED fluorescent light to operate the high-brightness LED fluorescent light to arrange tools or preparations for power failure and continue daily life. .

Although some embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof. Accordingly, the above-described embodiments should be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents shall be included within the scope of the present invention.

1 is a block diagram of an embodiment according to the present invention.

2 is a schematic circuit diagram of an embodiment according to the present invention.

3 is a flow chart of a controller of an embodiment according to the present invention.

Explanation of symbols on the main parts of the drawings

10: AC / DC converter 11: ON / OFF switch

12: fuse

20: charging circuit 25: battery

30: power failure / switch open / close detection circuit 40: control unit

50: switch 60: high brightness LED fluorescent lamp

Claims (1)

ON / OFF switch 11 for opening and closing the power when the constant power is applied; An AC / DC converter 10 for converting an AC voltage into a DC voltage when the switch 11 is turned on; A charging circuit 20 for charging the battery 25 by receiving the DC power converted in the switch ON state and a battery 25 connected to the charging circuit; A switch 50 connected to the AC / DC converter 10 when the switch is in the ON state and the power is applied, and connected to the battery 25 in the switch ON state and in the power failure state; A detection circuit 30 for detecting whether the power is out of power and whether the ON / OFF switch is opened or closed; A controller 40 for controlling the position of the changeover switch 50 according to the signal of the sensing circuit 30; And A high brightness LED fluorescent lamp 60 connected to the switching switch 50 to be turned on or off; High brightness LED fluorescent lamp having an uninterruptible power supply, characterized in that consisting of.

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