KR100920294B1 - Switch with charger - Google Patents

Abstract

The present invention is a switch for charging the power supply when the light switch is off, and to display the on-off state of the light when the light switch is on, the power supply connected to both ends of the switch, and applied through the light load in accordance with the switch on and off An operation determination circuit which is driven by and outputs an operation determination signal for controlling the blinking operation; A charging circuit connected to both ends of the switch so as to be connected in parallel with the operation determination circuit, and for outputting a constant voltage after rectifying and smoothing the voltage applied through the light load when the switch is turned off; A secondary battery connected to the charging circuit to charge a voltage applied from the charging circuit and to discharge the charged voltage when the switch is turned on; Connected to the secondary battery and the operation determination circuit, respectively, driven by the operation determination signal of the operation determination circuit when the switch is turned on, and receiving a power supplied from the secondary battery to control the blinking operation according to the charge / discharge time constant Circuit; And an LED connected to the blinking circuit and blinking according to the control of the blinking operation of the blinking circuit.

Description

Switch with Charger {THE SWITCH HAVING THE BATTERY CHARGER}

1 is a configuration diagram of the initial switch.

2 is an improved switch configuration diagram.

3 is a schematic diagram of the present invention.

4 is a detailed circuit diagram of the present invention.

Explanation of symbols on the main parts of the drawings

12: power 13: switch

14: zener diode 15: flashing circuit

16: LED

102: power 103: switch

104: coil 105: rectifier circuit and constant voltage circuit

106: flashing circuit 107: LED

212: operation determination circuit 213: flashing circuit

214: secondary battery 215: charging circuit

The present invention is a switch for use in a place where the on or off state of the light from the outside, such as a toilet or a multi-purpose room, using the light-emitting diode that is on and off the same as the on and off state of the light to indicate the state of the light The present invention relates to a switch having a charger that prevents an uneven supply of power and performs a stable operation as the switch charges a voltage to supply power.

The switch indicating the state of the conventional light is shown in FIG. 1 is an initial switch configuration diagram.
The initial switch is a switch 13 for turning on and off a light, a zener diode 14, and a zener diode 14 connected in series with the switch 13 to drop the voltage passing through the light load from the power supply 12. It is composed of a flashing circuit 15 and the LED 16 flashing by the flashing circuit 15 to operate by receiving a voltage drop power supply by.
However, even if a small amount of current flows due to the use of the reverse breakdown voltage of the zener diode 14, the zener diode itself is a semiconductor and thus cannot be used because it is easily destroyed.

In order to eliminate this disadvantage, the improved switch is shown in FIG. 2 is an improved switch configuration.
As shown in FIG. 2, after passing the lamp from the power supply 102, the coil 104 is placed in series with the switch 103 to change the voltage drop generated in the reactance of the coil 104 to the alternating circuit and the constant voltage circuit 105. The light-emitting diode 107 is blinking by converting it into direct current and supplying it to the flashing circuit 106 and receiving the supplied power.

However, when the coil is used, the size of the light load on the primary side, that is, the current when the lamp uses the 220V 60W bulb and the current when the 220V 100W is used, and the current flowing according to the use of the fan is different. Because the induced voltage is different, the light on the secondary side is low when the light load on the primary side is low, and the light of the LED (light emitting diode) becomes dark, and on the secondary side when the light load on the primary side is large. Because of the high voltage, a large amount of heat is generated in the control portion of the constant voltage circuit because the voltage drop to be down in the constant voltage circuit increases.

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Accordingly, an object of the present invention is to use a high resistance circuit with a small current flow to supply a voltage directly supplied to a series circuit to compensate for the weakness of a semiconductor, which is a disadvantage of an initial switch, and an unbalance of voltage of an improved switch. The present invention provides a switch having a charger which minimizes current and charges a constant voltage so that a light emitting diode blinks.

The above object is a switch for charging the power when the light switch is turned off and displaying the on-off state of the light when the light switch is on, according to the present invention, connected to both ends of the switch to turn on and off the switch. An operation determination circuit driven by a power source applied via a light load according to the operation, and outputting an operation determination signal for controlling a blinking operation; A charging circuit connected to both ends of the switch so as to be connected in parallel with the operation determining circuit, and configured to rectify and smooth a voltage applied through a light load when the switch is turned off, and then output a constant voltage; A secondary battery connected to the charging circuit to charge a voltage applied from the charging circuit and to discharge the charged voltage when the switch is turned on; It is connected to the secondary battery and the operation determination circuit, respectively, and is driven by the operation determination signal of the operation determination circuit when the switch is turned on, and receives the power applied from the secondary battery and blinks according to the charge / discharge time constant. Flashing circuit for controlling the; And an LED connected to the blinking circuit and blinking according to the control of the blinking operation of the blinking circuit.
The operation determining circuit is connected to both ends of the switch and is not driven when the switch is turned on, but is driven by a power source applied through a light load when the switch is turned off. A voltage is applied across the light load by being connected between the photo coupler, which is a photo transistor which is driven and outputs an operation determination signal, and an anode of the light emitting diode and a switch terminal to which power is supplied through the light load. And a stability resistor R5 connected to be applied to the light emitting diode,
The charging circuit is connected to an output terminal of the bridge rectifying diode D1, which receives power supplied from the light load through the resistor R1 and rectifies alternating current into a pulse current, thereby removing the pulse and high frequency noise. A zener diode (Z1) connected to and outputting a constant constant voltage through a smoothing capacitor (C1) for smoothing with a direct current,
The blinker circuit includes an emitter connected to the secondary battery, a breather resistor (R6, R7) connected to the emitter to maintain a constant power applied from the secondary battery in sequence, and the breather resistor. A base is connected to a connection node of which is connected to an emitter of the phototransistor and is connected to a control transistor Q1 and a collector of the control transistor which are driven by an operation decision signal output from the phototransistor and sequentially The LED blinks in response to input of charge / discharge time constants from a connection node between the resistors R2 and R3 and the capacitor C2 and the resistors R2 and R3 for determining the charge / discharge time constant in series. Noise input from the outside by the multi-vibrator for controlling the control and the bypass capacitor (C3) connected between the multi-vibrator and the ground terminal And it is series-connected between said multivibrator and an LED preferably includes a protective ballast resistance (R4) to prevent the phenomenon wherein the LED is destroyed (Runaway).
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 3 is a schematic configuration diagram of the present invention.
The switch of the present invention is a switch for charging the power when the light switch is off, and to display the on-off state of the light when the light switch is on, the operation determination circuit 212, the charging circuit 215, the secondary battery 214 ), A flashing circuit 213 and an LED.
The operation decision circuit 212 is connected to both ends of the switch and is driven by a power source applied through a light load according to the on and off of the switch, and includes an photocoupler to determine an operation decision signal for determining whether to operate the flashing circuit 213. Output
The charging circuit 215 is connected to both ends of the switch so as to be connected in parallel with the operation determination circuit 212, rectifies and smoothes the voltage applied through the light load when the switch is turned off, and then outputs a constant voltage. ) Is connected to the charging circuit 215 to charge the voltage applied from the charging circuit 214 and discharges the charged voltage when the switch is turned on.
The flashing circuit 213 is connected to the secondary battery 214 and the operation determination circuit 212, respectively, and is driven by the operation determination signal of the operation determination circuit 212 when the switch is on, and in the secondary battery 214 Receiving the power applied to control the flashing operation of the LED according to the charge and discharge time constant, the LED is connected to the flashing circuit 213 is flashed under the control of the flashing circuit 213.

To describe in more detail, it will be described with reference to FIG. 4. 4 is a detailed circuit diagram of the present invention.
The operation decision circuit 212 of FIG. 3 includes a photo coupler and a stabilizer R5, and the photo coupler is connected to both ends of the switch and is not driven when the switch is turned on, but is applied via a light load when the switch is turned off. And a photo transistor driven by a light emitting operation of the light emitting diode and outputting an operation determination signal.
The stability resistor R5 is connected between the anode of the light emitting diode and the switch terminal to which the power applied through the light load is supplied so that the voltage applied through the light load is kept constant and is supplied to the light emitting diode.
The charging circuit 215 includes a resistor R1, a bridge rectifying diode D1, a coil L1, a smoothing capacitor C1, and a zener diode Z1.
The resistor R1 is connected between the switch terminals to which the power applied through the light load is applied to drop the applied power, and the bridge rectifying diode D1 rectifies the AC power supplied from the resistor R1 into a pulse current. .
The coil L1 is connected in series to the output terminal of the bridge rectifying diode D1 to remove the pulsation and high frequency noise of the rectified power, and the smoothing capacitor C1 connected to the coil L1 passes through the coil L1. Is smoothed to DC and then supplied to the charging power of the secondary battery 214.
The zener diode Z1 is connected to the smoothing capacitor C1 to supply a constant voltage of 5V to the flashing circuit 213.
The flashing circuit 213 includes breather resistors R6 and R7, control transistors Q1, resistors R2 and R3, capacitors C2, multivibrators, bypass capacitors C3 and protective stability resistors R3. do.
The emitter of the control transistor Q1 is connected to the secondary battery 214 and the breather resistors R6 and R7 are sequentially connected to the emitter to keep the power applied from the secondary battery 214 constant.
The control transistor Q1 is connected to a base of a connection node of the breather resistors R6 and R7, and the connection node is connected to an emitter of a photo transistor of the operation determination circuit 212 and is operated by an operation determination signal output from the photo transistor. Driven.
When switching off, the control transistor Q1 is set by the breather resistors R6 and R7 so that the photocoupler does not operate because no current flows to the stability resistor R5 when the switch is turned on. Since the operation of (R6, R7) is inclined toward the ground, the control transistor Q1 operates, the multivibrator is driven, and the LED blinks.
The resistors R2 and R3 and the capacitor C2, which are connected to the collector of the control transistor Q1 and are sequentially connected in series, are charge / discharge time constant circuits that determine the flashing time. The resistors R2 and R3 and the capacitor C2 The flashing time varies depending on the dose.
The multivibrator controls the blinking operation of the LED according to the charge / discharge time constant inputted from the connection node of the resistor R2 and the resistor R3. In this case, the multivibrator may use the NE555 company of the company. The NE555 was originally used as an integrated circuit for timers but as a multivibrator for blinking in the present invention.
The bypass capacitor C3 is connected between the multivibrator and the ground terminal to remove noise input from the outside, and the protective stability resistor R4 connected in series between the multivibrator and the LED prevents the LED from running out. prevent.

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The switch having a charger according to the present invention is attached to a light switch on a light switch in a place where the status of the internal light is turned on or off from the outside, such as a toilet or a utility room, the light emitting diode blinks the same when the light is turned on and off. This is a device that monitors the lights of toilets and utility rooms, which are often forgotten in everyday life, and prevents unnecessary power consumption, thereby saving power.
In addition, since the present invention uses the charged power when the switch is turned on by charging the power when the light switch is turned off, it is possible to prevent the inequality of the power supply and stabilize the operation.

Claims (3)

As a switch for charging the power supply when the light switch is off, and displaying the on-off state of the light when the light switch is on, An operation determination circuit connected to both ends of the switch, the operation determination circuit being driven by a power source applied through a light load according to the on / off of the switch, and outputting an operation determination signal for controlling a blinking operation; A charging circuit connected to both ends of the switch so as to be connected in parallel with the operation determining circuit, and configured to rectify and smooth a voltage applied through a light load when the switch is turned off, and then output a constant voltage; A secondary battery connected to the charging circuit to charge a voltage applied from the charging circuit and to discharge the charged voltage when the switch is turned on; It is connected to the secondary battery and the operation determination circuit, respectively, and is driven by the operation determination signal of the operation determination circuit when the switch is turned on, and receives the power applied from the secondary battery and blinks according to the charge / discharge time constant. Flashing circuit for controlling the; And And a LED connected to the blinking circuit and blinking according to the control of the blinking operation of the blinking circuit. The method of claim 1, The operation determination circuit, A light emitting diode connected to both ends of the switch and not driven when the switch is turned on, but driven by a power source applied through a light load when the switch is turned off, and driven by a light emitting operation of the light emitting diode to generate an operation determination signal; It is connected between the photo coupler which is composed of the photo transistor to output and the switch terminal to which the power applied through the anode of the light emitting diode and the light load is applied, and the voltage applied through the light load is kept constant and applied to the light emitting diode. Including a stable resistor (R5) connected to The charging circuit, Directly connected to the output terminal of the bridge rectifier diode D1, which receives the power applied from the light load through the resistor R1 and rectifies the alternating current into the pulsation, is connected to the coil L1 that removes the pulsation and the high frequency noise. Zener diode (Z1) for outputting a constant constant voltage through the smoothing capacitor (C1) to smooth, The flashing circuit, An emitter is connected to the secondary battery, and breather resistors R6 and R7 connected to the emitter to maintain a constant power applied from the secondary battery are sequentially connected and the base is connected to the connecting node of the breather resistor. Is connected to the emitter of the phototransistor and connected to the control transistor Q1 and the collector of the control transistor which are driven by an operation decision signal output from the phototransistor and are sequentially connected in series to charge / discharge. Multi-vibrator for controlling the blinking operation of the LED according to the input of the charge and discharge time constant from the resistor (R2, R3) and capacitor (C2) and the connection node of the resistor (R2) and resistor (R3) to determine the time constant And a noise input from the outside by a bypass capacitor C3 connected between the multivibrator and a ground terminal, Eve is connected in series between the radar and the LED switch having a charger, it characterized in that it comprises a protective ballast resistance (R4) to prevent the phenomenon wherein the LED is destroyed (Runaway). delete

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