KR840002084Y1 - Emergency service circuit - Google Patents

Abstract

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Description

Automatic blackout emergency light lighting circuit

The accompanying drawings are the circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

A: charging circuit B: power failure detection circuit

R ₁ , R ₂ , R ₃ , R ₄ , R ₅ , R ₆ , R ₇ : Resistor TR ₁ , TR ₂ : Transistor

Ry: Relay ry: Relay Contact

ZD ₁ , ZD ₂ : Zener Diode BATT: Battery for Charge

LP ₁ , LP ₂ : DC emergency lamp T: Transformer

The present invention relates to a simple automatic blackout emergency light lighting circuit that can turn on the emergency light at the same time as power failure, and when AC power is normally supplied, the SCR is turned on and off according to the charging voltage, so that the case of overcharge and discharge And the DC emergency lamp or emergency exit indicator lights up by the voltage charged in the battery at the same time as the power failure to fully cope with the power failure situation according to the emergency situation such as safety accidents and fire occurrences, etc. It is very simple to manufacture a small power outage emergency light so that it can be easily installed and used at a low cost even in homes.

In general, in the case of the automatic power outages that are currently appearing, the circuits are generally complicated and large, so the manufacturing cost is very expensive and the installation cost is high.Therefore, there are factors that cannot be generally used in ordinary homes except for special cases. Not only did the safety accidents occur frequently and they could not cope with the emergency quickly, but also the inconvenience of having emergency lighting such as a flashlight or a candle to prepare for a separate power outage. there was.

In order to solve the above problems, the present invention operates SCR on normal AC power supply to charge the rechargeable battery and prevents overcharging by turning on SCR when the rechargeable battery is fully charged. In addition, it is possible to illuminate the emergency exit or the room by lighting the DC emergency light with the charged voltage immediately in case of power failure, and to detect the emergency light in case of excessive discharge and to turn off the DC emergency light. Referring to the drawings in detail as follows.

Connecting the diode (D ₁₎ and resistor (R ₁₎ (R ₂₎ and a transistor (TR ₁₎ to the gate terminal of the SCR connected to the second connection point of the primary winding side of the transformer (T) (a) and the transistor (TR ₁ ) Is connected to the Zener diode (ZD ₁ ), a control circuit that detects the voltage of the battery for charging and discharging (BATT) and turns the transistor (TR ₁ ) on and off, so that the charging voltage of the battery for charging and discharging (BATT) is low. when to be conductive to shuts off the transistor (TR ₁₎ triggers the SCR ₁ and the secondary side voltage of the transformer (T) applied to the gate signal of the AC half-wave through a resistor (R ₁₎ and a diode (D ₁₎ meter ( Am PM) is charged to the battery for charging and discharging (BATT), and when the charge of the battery for charging and discharging (BATT) is completed and the voltage at both ends becomes high, the charge completion voltage is detected by the variable resistor (VR ₁ ) and this detection voltage When the breakdown voltage of the zener diode (ZD ₁₎ is different tongha the resistance (R ₃₎ Through a transistor (TR ₁₎ to flow toward the emitter-transistor (TR ₁₎ a conductive (ON) to give trans (T) 2 side a current resistance (R ₁₎ (R ₂₎ the collector of the transistor (TR ₁₎ through the Since the battery is bypassed to ground and the SCR is not triggered, the battery BAT always constitutes the charging circuit A in a circuit configuration in which the charging operation is stopped in the half-charged state.

The blackout detection circuit B is connected to the base of the transistor TR ₆ via the diode D ₂ (D ₃ ) resistor R at the transformer (T) secondary side connection point c, and the resistor R ₆ and the SCR. A bias resistor (R ₅ ) is connected to the cathode end of the circuit, and a diode (D ₄ ), a resistor (R ₄ ), and a capacitor (C ₁ ) are connected between the resistor (R ₆ ) and the base of the transistor (TR ₂ ). The connection is connected to the connection point (c), and the bias compensation circuit composed of the zener diode (ZD ₂ ) and the resistor (R ₇ ) is connected.

A switch Sw _1-1 (Sw _1-2 ) and a relay Ry connected in parallel with the battery BATT on the collector side of the transistor TR ₂ are connected in series, and a contact point of the relay Ry ( ry on the side of the switch (Sw _1-2 ) (Sw _2-1 ) (Sw _1-2 ) through the switch (Sw _2-2 ) (Sw _2-2 ) emergency light (LP ₁ ) (LP ₂ )

In the present invention configured as described above, when the line power (AC 100V) is normally supplied and charged first, the secondary voltage of the transformer (T) is applied to the gate of the SCR through the resistor (R ₁ ) and the diode (D ₁ ). SCR is turned on to charge the battery (BATT) through the switch (Sw _1-1 ) (Sw _1-2 ), the voltage between the battery (BATT) in the state that the battery (BATT) charging state is made resistance (VR) and the Zener diode becomes (ZD ₁₎ the charging voltage is therefore to be detected by the bias voltage below the transistor (TR ₁₎ standing continue the transistor (TR ₁₎ Off state detection by in the SCR is triggered by As the state continues, the battery Batt continues to be charged. At this time, the diode D ₄ is applied to the transistor TR ₂ of the blackout detection circuit B and the reverse bias (-voltage) is applied to the resistor R ₄ . since the transistor (TR ₂₎ is Off state Is a relay (Ry) is also continued in the erased state emergency light (LP ₁₎ (LP ₂₎ is a condition that does not light.

In this state, when the charging voltage of the battery reaches a predetermined set voltage value and the voltage between both ends of the battery rises, the variable resistance VR and the zener diode ZD ₁ detect the voltage. When the transistor TR ₁ becomes equal to or greater than the bias voltage, the transistor TR ₁ is turned on. Accordingly, the voltage through the resistor R ₁ is bypassed to the transistor TR _{1 to} ground, so that the SCR It will shut off and the battery will complete charging.

In this state, when there is a power failure, the power failure detection circuit B operates to turn on the emergency lamp LP ₁ and LP _2. When the power failure occurs, the charging voltage of the battery BATT is switched (Sw _1-1 ). It flows through (Sw _2-1 ) -resistance (R ₄ ) -resistance (R ₆ ) and this voltage is divided through diode (D ₄ ), resistance (R ₄ ) and flows through the secondary side of transformer (T). In addition, the transistor TR ₂ is turned on by the bias voltage through the resistor R ₅ and R ₆ and the relay Ry is operated accordingly, so that its contact ry moves from the a contact to the b contact. emergency lamp (LP ₁₎ and at the same time power failure by being dropped to the light (LP ₂₎ will be immediately granted by the emergency lighting _{(LP 1) (LP 2)} .

In this state, charging is continued, and when the voltage of the battery batt drops, the transistor TR ₂ is turned off when the dropped voltage falls below the breakdown voltage of the zener diode ZD ₂ , which is a bias compensation circuit of the transistor TR ₂ . Off will prevent over discharge of battery.

The present invention, which operates in such a manner, allows the battery for charging and discharging to be charged according to the transistor off operation connected to the gate terminal of the SCR during the charging operation, and detects the charging voltage to turn on the transistor when charging is completed. It prevents overcharging and prevents burnout caused by overcharging of the battery. It can prolong the service life of the battery.It can also be discharged immediately according to power failure to light up the DC emergency lamp. Not only can you respond quickly to an emergency, but if the battery is over-discharged, it detects this voltage and turns off the DC emergency lamp so that it will not be able to recharge due to over-discharge. Inexpensive blackout emergency light circuit can be obtained. It is very practical designed.

Claims (1)

In an emergency lamp lighting circuit comprising a charging circuit A in which a Zener diode (ZD ₁ ) and a transistor (TR ₁ ) are connected to a gate terminal of an SCR connected in series with a battery for charging and discharging (BATT), a diode (D ₄ ) And a voltage divider circuit composed of a resistor (R ₄ ), a zener diode (ZD ₂ ), a bias compensation circuit composed of a resistor (R ₇ ), and an electrostatic detection circuit (B) composed of a transistor (TR ₂ ). Automatic blackout emergency light lighting circuit.