KR100428943B1 - An emergency light without trams former and relay - Google Patents

Abstract

The present invention relates to an emergency lamp excluding a transformer and a relay, wherein the power supply of AC220V is lowered to the power supply of AC110V by the first voltage drop unit.

The power of the AC110V is to be converted to DC power by the rectifier after the voltage is dropped again by the second voltage drop,

The power supply flows to an appropriate current value via the current control unit,

The power is turned on / off by a switch to be supplied to one side of the lamp via the third voltage drop,

The voltage control unit, which is supplied with the rated power via the constant voltage unit, turns on the lamp by the transistor and the relay IC of the driving unit only when the user turns on the switch.

The power via the switch is charged to the battery of the charging unit, so that when there is no power supply from the outside, the charged DC power is supplied to the lamp to be turned on to use a transformer and a relay to lower the voltage. Not only does this reduce production costs, but it also eliminates the noise generated when the relay is operating.

Description

An emergency light without trams former and relay}

The present invention relates to an emergency lamp excluding a transformer and a relay, and in detail, an AC power source is input to a rectifying unit after the first and second voltage drops, and converted into a DC power source. When the switch is turned on by supplying it to the voltage control part through the voltage drop part and the constant voltage part, the lamp is turned on through the transistor of the driver part and the relay IC so that the relay for supplying the voltage and the relay for supplying power are not used. In addition to the reductions in production costs that follow, it also relates to emergency lighting without transformers and relays to eliminate the noise generated when the relays operate.

In general, it is well known that emergency lamps are designed to light a lamp with power supplied from the outside while the battery is built-in, and to turn on the power stored in the battery when the power from the outside is cut off in an emergency. to be.

The lantern, which is a part of the emergency light, was stored in an easy-to-find place where it could not be turned on or in a situation where it could not be turned on.

The present applicant charges power to a battery of a lantern which is an emergency light according to a preliminary application including Korean Patent Publication No. 1993-199 (lantern attached to a recovery capacity checker for over-discharge of a battery). Has proposed a technique for lighting a lamp.

This allows the user to turn on the AC power switching switch of 110V / 220V, and select the charging mode when the power switch is turned off.

When the applied AC power of 110V / 220V is applied to the primary side of the transformer, AC voltage stepped down to a predetermined voltage is induced on the secondary side thereof to be applied to the bridge circuit composed of rectifying diodes,

The rectification bridge circuit is to convert the stepped AC voltage to full-wave rectification and convert to DC voltage,

As the storage battery is charged, the current supplied gradually decreases. When the charging is completed, the charging current is not supplied by the operation of the zener diode and the transistor so that no further charging is performed.

When the charging is completed and the lantern is to be operated, when the user turns on the power switch, the voltage charged in the battery is applied to the light through the transistor and the relay to be turned on.

However, according to the structure of the conventional lantern as described above, the use of a transformer for dropping the voltage and a relay for selectively supplying the operating voltage requires a device such as a resistor or a capacitor to increase production costs. Since the size of the transformer or the relay is large, there is a disadvantage in that the board of the circuit becomes large, and there is a problem such that noise is generated when the relay is turned on to supply power after some use.

The present invention for solving the conventional problems as described above to the AC power source from the outside while the first and second voltage drop through the voltage drop of the appropriate value is input to the rectifier to be converted into DC power, the current control unit DC power supply through and switch is supplied to the voltage control part through the third voltage drop part and the constant voltage part. When the switch is turned on, the transformer and the relay are used to lower the voltage by turning on the lamp through the transistor and the relay IC of the driving part. Its purpose is to provide an emergency light that excludes transformers and relays, as well as reducing the production cost of not doing so, as well as eliminating the noise generated when the relays are operating.

Emergency light excluding the transformer and relay of the present invention for achieving the above object is to drop the supply power of AC220V to the power supply of AC110V by the split resistor and the capacitor of the first voltage drop,

The power supplied to the AC 110V is to cause the voltage to fall again by the division resistor and the capacitor of the second voltage drop,

The voltage drop of the AC power flows only in the normal direction defined by the diodes of the rectifier, and is converted into DC power by rectification.

The DC power source is allowed to flow at an appropriate current value while passing through the current control unit.

The DC power supply is controlled by the switch to control the state flowing in the direction to charge the battery or to light the lamp,

The DC power supply via the switch is supplied to one side of the lamp through the divided resistance of the third voltage drop section again,

The voltage control unit which receives the power rated at the third voltage drop section via the constant voltage section of the constant voltage diode receives the DC power supply via the transistor by turning on the transistor of the driver only when the user selects lighting of the lamp through the switch. The lamp is turned on by the relay IC,

The DC power supply via the switch is supplied to the battery of the charging unit, and when there is no supply of power from the outside, the DC power supply is charged to the lamp to turn on the transformer and the relay to lower the voltage. In addition to reducing the production cost of not using it, the noise generated when the relay is operated is eliminated.

1 is a circuit diagram showing the overall configuration of the present invention.

Explanation of symbols on the main parts of the drawings

1, 2, 8: voltage drop 3: rectifier

4: current control unit 5: switch

6: battery 7: lamp

9: constant voltage unit 10: voltage control unit

11 drive unit

Hereinafter, an embodiment of the present invention will be described in detail.

1 shows a configuration according to an embodiment of the present invention,

The supply power of AC220V supplied from the outside is lowered to the power of AC110V by the division resistors R1 (R2) and capacitors C1 (C2) of the first voltage drop unit 1,

The power supplied to the AC110V is again proportional to the magnitude of the two split resistors R3 and R4 by the split resistors R3 and R4 and the capacitor C3 and C4 of the second voltage drop unit 2. To lower the voltage,

The voltage dropped AC power flows only in the normal direction defined by the diodes D1, D2, D3, and D4 of the rectifier 3, and is converted into DC power by full-wave rectification.

The DC power supply flows at an appropriate current value while passing through the resistors R5 and R6, the capacitor C5, and the current control IC 4a of the current control unit 4,

The DC power is controlled by the switch 5 to control the state flowing in the direction of charging the battery 6a of the charging section 6 or turning on the lamp 7,

The DC power supply via the switch 5 is supplied to one side of the lamp 7 through the division resistors R7 and R8 of the third voltage drop unit 8 again.

In the third voltage drop unit 8, the voltage control unit 10, which is supplied with the rated power via the constant voltage unit 9 of the constant voltage diodes ZD1 and ZD2, lights up a lamp through the switch 5. Only when is selected, the transistor TR of the driving unit 11 is turned on so that the lamp 7 is turned on by the relay IC 11a receiving the DC power supply via the transistor TR.

The DC power supply via the switch 5 is supplied to the battery 6a of the charging unit 6, and when no power is supplied from the outside, the DC power charged in the battery 6a is supplied to the lamp 7 above. To turn on the lamp.

In the emergency lamp excluding the transformer and the relay of the present invention configured as described above, the AC220V supply power supplied from the outside passes through the split resistors R1 and R2 and the capacitors C1 and C2 of the first voltage drop 1. The voltage drops to the AC110V power supply by the size of the two split resistors R1 and R2.

The power dropped to AC110V or directly supplied to AC110V is divided into two split resistors R3 and R4 by the split resistors R3 and R4 and the capacitors C3 and C4 of the second voltage drop unit 2. Let the voltage drop to a value proportional to the magnitude of).

The voltage dropped AC power is converted into DC power by full-wave rectification while flowing only in the normal direction defined by the diodes D1, D2, D3, and D4 of the rectifier 3.

The DC power source is used to turn on the lamp 7 or charge the battery 6a while passing through the resistors R5, R6, the capacitor C5, and the current control IC 4a of the current control unit 4. Make sure that it flows at the proper current value.

The state in which the above DC power is charged in the direction of charging the battery 6a of the charging section 6 or turning on the lamp 7 by the switch 5 is controlled.

The DC power supply via the switch 5 is lowered to a voltage value of an appropriate magnitude for internal operation while passing through the divided resistors R7 and R8 of the third voltage drop section 8 again. Supply to one side of (7).

The DC power supply via the switch 5 is supplied to one side of the lamp 7 through the divided resistors R7 and R8 of the third voltage drop 8 again, and then through the other side of the lamp 7. When the closed circuit is formed, it is turned on by the supplied DC power.

In the third voltage drop unit 8, the voltage control unit 10, which is supplied with the rated power via the constant voltage unit 9 of the constant voltage diodes ZD1 and ZD2, lights up a lamp through the switch 5. Only when is selected, the transistor TR of the driving unit 11 is turned on.

As the transistor TR is turned on, the relay IC 11a receiving the DC power supply through its collector-emitter is operated and the power is supplied to the lamp 7 to light up.

The DC power supply via the switch 5 is supplied to and charged from the battery 6a of the charging section 6 when the lamp 7 is not turned on, so that the battery 6a is not supplied from the outside. The charged DC power is supplied to the lamp 7 through the switch 5 in place of the external power and lights up.

Therefore, by the emergency lamp excluding the transformer and the relay of the present invention, the supply power of AC220V is dropped to the power supply of AC110V by the first voltage drop and then is supplied to the second voltage drop again to provide the necessary power without a separate transformer. To be supplied,

The power converted into DC power by the rectifier is supplied to one side of the lamp via the third voltage drop when the switch is turned on to the proper current value via the current control unit,

The voltage control unit, which is supplied with the rated power via the constant voltage unit, turns on the lamp by the transistor and the relay IC of the driving unit only when the user turns on the switch. To avoid the noise generated during operation,

The power via the switch is charged to the battery of the charging unit, so that when there is no power supply from the outside, the charged DC power is supplied to the lamp to be turned on to use a transformer and a relay to lower the voltage. Not only does it reduce production costs, but it also eliminates noise.

Claims (1)

And a rectifying part for converting a battery-containing charging part and an external AC power source into a predetermined DC power source, and configured to selectively turn on a predetermined lamp by the DC power source converted from the rectifying unit and the DC power source charged in the battery. In the emergency light, The first and second voltage dropping parts formed of a combination of a plurality of split resistors R1 to R4 and capacitors C1 to C4 to drop the supply power of AC110 / 220V to a predetermined AC power even without a separate transformer ( 1) (2); A current control unit (4) for flowing the DC power converted by the rectifier receiving the AC power dropped from the first and second voltage drop units (1) and (2) to a proper current value; A switch (5) for controlling the DC power converted from the rectifying unit to be selectively supplied to the battery or the lamp according to a user's operation; A third voltage drop unit (8) for dropping the DC power converted from the rectifying unit to an appropriate voltage value according to the selection of the switch (5); A constant voltage unit (9) for supplying a supply power supply dropped from the third voltage drop unit (8) to a rated power source; The drive unit 11 for driving the lamp stably even without a separate relay and Emergency voltage excluding the transformer and the relay, characterized in that it comprises a voltage control unit for controlling the drive unit 11 receives the rated power from the constant voltage unit (9).