KR200189857Y1 - Driving circuit of lighting lamp for an entrance - Google Patents

Abstract

The present invention relates to a driving circuit for the entrance lighting lamp, more specifically, a high-power relay according to the brightness of the light and the movement of the human body in the interior of the lighting lamp installed in the doorway where people are frequently visited, such as a complex building or an apartment in a large office. The present invention relates to a door lamp driving circuit for efficiently controlling a lighting time of a lamp driven by a contact.

According to the present invention, according to the brightness of the light and the movement of the human body amplification of the fine signal detected by the visible light sensor and the human body sensor to the signal amplification unit and amplification of the signal to the signal conversion unit to control the lighting of the lighting lamp It is connected to the time setting unit connected to the drive circuit of the high output relay is provided a door lamp driving circuit for the stable driving and efficient control of the lighting time.

Description

Driving circuit for lighting lamp for entrance

The present invention relates to a driving circuit for the entrance lighting lamp, more specifically, a high-power relay according to the brightness of the light and the movement of the human body in the interior of the lighting lamp installed in the doorway where people are frequently visited, such as a complex building or an apartment in a large office. The present invention relates to a door lamp driving circuit for efficiently controlling a lighting time of a lamp driven by a contact.

In general, the entrance and exit doors where people are frequently visited are easily installed to turn on and off lights. Conventionally, a light driving circuit driven by a semiconductor device is turned on or off by turning on or off a switch attached to one side of a wall. As a result of many problems such as deterioration and easy breakage, and the need to find a switch attached to a dark entrance, the above-described method is used by using a lighting lamp circuit with a time switch as disclosed in Utility Model Application Nos. One problem was solved, and stable lighting and lighting time could be adjusted freely.However, it is unnecessary to consume unnecessary power as lighting is turned on even when there is no movement of human body or day when bright light is transmitted through operation of switch by children's mischief. There were many closures such as being.

The purpose of the present invention is to solve such problems in the prior art, and amplifies the fine signal detected by the visible light sensor and the human body sensor to the signal amplifier according to the brightness of the light and the movement of the human body and converts the signal into the signal converter. The lighting control unit for controlling the lighting and turning off of the lamp by inverting it is connected to the time setting part connected to the driving circuit of the high-output relay to provide a lighting driving circuit for the entrance that can efficiently control the lighting and the lighting time efficiently. will be.

When described in detail based on the accompanying drawings as follows.

1 is a circuit diagram of the present invention

Explanation of symbols used in main part of drawing>

A: High output relay drive circuit B: Time setting part

C: signal amplification part d: signal conversion part

E: Lighting control part bar: Surge blocking circuit

G: lighting indicator h: voltage stabilization circuit

High output relay drive circuit combining triac (Q ₁ ), zener diodes (ZD ₁ , ZD ₂ ), capacitor (C ₁ ), bridge diode (BD ₁ ), relay (Ry ₁ ), and transistor (Q ₂ ) ) Is a time setting unit (b) in which the set time by the resistor R ₁ , the variable resistor VR ₁ , the capacitor C ₂ , and the instantaneous and off switches SW1 and SW2 are combined into the logic integrated circuit IC1. In the lighting driving circuit which can adjust the time by connecting), the other end of the human body sensor S1 which connects the resistor R ₂ and the capacitor C ₃ to one end is connected in parallel with the resistor R ₂ . Connected to the positive input terminal 3 of the IC2, and the negative input terminal 2 and the output terminal of the operational amplifier IC2 in which the reference voltage Vref1 is formed from the resistor R ₄ and the capacitor C ₄ . A signal amplifier (c) in which a resistor (R ₅ ) and a capacitor (C ₅ ) are connected in parallel between 1); Between the input terminal 6 and the visible light sensor (Cds) is connected to an output terminal (7) to its output stage (1) the capacitor (C _6, C ₇₎ and a resistor (R ₆₎ of the associated inverting amplifier (IC3) () Signal conversion connected to resistor (R ₉ ) and condenser (C ₈ ) and connected to positive input terminal (5) of inverting amplifier (IC3) where reference voltage (Vref2) is formed with resistors (R ₇ , R ₈ ). (D); The negative input terminal 9 of the comparator IC4 having the resistor R ₁₀ and the switching diodes D ₁ and D _{2 at the} output terminal 7 formed with the reference voltage Vref 3 as the resistors R ₁₁ and R ₁₂ . And a lighting controller (e) connected to the (+) input terminal 10 to which the pull-up resistor (R ₁₃ ) is connected, and the switching diode (D ₃ ) to the output terminal (8) thereof is connected to one input terminal of the logic integrated circuit (IC1). It is characterized by being connected to (1).

In the figure, the unexplained part (bar) is a surge interruption circuit, (g) is a lamp display part, and (h) is a voltage stabilization circuit.

In this way, the present invention informs the position of the instantaneous light / light off switch (SW1, SW2) attached to one side of the dark entrance by the lamp display part (g), and a surge interruption circuit for blocking the surge voltage and electromagnetic wave generated from AC power. ) and tri associated with the liquid (Q ₁₎ the zener diode (D _1, D ₂₎ or AC capacitor (C ₁₎ as a bridge diode (Zener voltage (V _{D1, D2)} or alternating current capacitor voltage (V _C2) in the BD ₁₎ applied to the luminaire to be operated as a voltage stabilizing circuit (a) of the drive power source, high power relay resistance to the transistor (Q ₂₎ of (a) a high-power relay driver circuit on and off to stabilize the (Ry ₁₎ (R ₁₎ a, The high output relay Ry is connected by connecting the time setting part (b) combining the time constant and the instantaneous time by the variable resistor (VR ₁ ), the capacitor (C ₂ ), the extinguishing switch (SW1, SW2), and the logic integrated circuit (IC1). Freely adjusting the lighting time of the built-in ₁ ) is as known.

In this way, the output unit of the lighting lamp controller (e) to which the signal amplification unit (C) for amplifying the signal of the human body detecting sensor (S1) is changed to the signal conversion unit (D) or the output signal of the visible light detection sensor (Cds) is input. By inputting to the time setting part ( _b ), a lamp having a high output relay (Ry ₁ ) is automatically turned on or off according to the brightness of the light and the movement of the human body, and the lighting time of the lamp is adjusted freely. Detailed description is as follows.

First, as shown in the signal amplifier C, if the human body movement is detected by the human body sensor S1 connected in parallel with the resistor R ₂ at the positive input terminal 3 of the operational amplifier IC2, the resistance ( R ₂ ) and the voltage charged in the capacitor C ₃ are applied to the (+) input terminal 3 through the human body sensor S1 and the resistance (R ₄ ) to the (-) input terminal 2 of the operational amplifier IC2. ) And the output terminal 1 of the operational amplifier IC2 becomes a constant output (hereinafter, abbreviated as 'HIGH') as a very low reference voltage Vref1 is formed by the capacitor and the capacitor C ₄ . as in shown a resistance (R ₆₎ and a capacitor (C _7), the inverting amplifier (IC3) in the via (-), resistance (R in is connected to the input terminal 6, and the counter voltage (+) input terminal (5) ₇ Since it is larger than the constant reference voltage Vref2 by R ₈ , the output terminal 7 of the inverting amplifier IC3 becomes a negative output (hereinafter abbreviated as 'LOW').

At this time, the resistors (R ₅ , R ₉ ) and the capacitor (C ₅ ,) connected in parallel between the (-) input terminal (2) (6) and the output terminal (1) (7) of the operational amplifier (IC2) and inverting amplifier (IC3). C ₈₎ is operated as an integration circuit, and determines the amplification degree of the input signal, the (-) input terminal (2) (6 resistance (R _4, R ₆₎ connected to) the capacitor (C _4, C _7), the gain compensation And to format the signal.

The low output of the inverting amplifier IC3, which is input to the negative input terminal 9 of the comparator IC4 through the resistor R ₁₀ and the switching diode D ₁ , as shown in the lamp control unit e. The reference voltage Vref3 in the HIGH state is applied to the (-) input terminal 9 because the reference voltage Vref3 formed by (R ₁₁ , R ₁₂ ) is not applied, and the (+) input terminal 10 of the comparator IC4 is applied. ), As the HIGH voltage applied to the pull-up resistor R ₁₃ is changed to the LOW state by the switching diode D ₂ , the output terminal 8 of the comparator IC4 becomes the LOW output, and the output thereof is the time setting unit ( B) The transistor Q ₂ of the high output relay driving circuit (a) is turned on by being input to the logic integrated circuit IC1 of FIG.

When the human body movement is not detected by the human body sensor S1 of the signal amplifier C, the output terminal 1 of the operational amplifier IC2 becomes LOW, and the positive input terminal 5 of the inverting amplifier IC3 becomes low. The reference voltage (Vref2) applied to) increases so that the HIGH output is a fine voltage drop (approximately 0.7V) to the switching diode D _{1 at the} output terminal 7 thereof, so that the negative input terminal 9 of the comparator IC4 is applied. The voltage applied to the output terminal 8 is lower than the (+) input terminal 10 of the comparator IC4 to which the voltage of the HIGH state is applied to the pull-up resistor (R ₁₃ ). In the input terminal 1 of the logic integrated circuit IC1, the time constant of the resistor R ₁ , the variable resistor VR ₁ , and the capacitor C ₂ is changed from the high state to the low state so that the lighting time of the lamp is increased. Can be adjusted.

At this time, when the visible light detection sensor Cds connected to the output amplifier 7 of the inverting amplifier IC3 of the signal conversion unit D receives light, the output terminal 7 of the signal conversion unit HIGH is irrespective of whether the human detection sensor S1 detects the human body. As the output is applied to the comparator IC4 of the lamp control unit e, the lighting of the lamp does not occur as described above, and when the visible light detection sensor Cds does not transmit light as in a dark night, the human body sensor S1 ), The lights will turn on or off depending on whether the human body is detected.

As such, the present invention amplifies a signal detected by the human body sensor S1 and the visible light sensor Cds at the input terminal of the time setting unit B connected to the high output relay driving circuit. And by converting and inputting, the time constant of the time setting part (B) is adjusted, and there is an advantage that it is possible to automatically adjust the lighting point's turning off / off and the lighting time freely. It is very effective for installation in places where the same points and lights are frequent.

Claims (1)

High output relay drive circuit combining triac (Q ₁ ), zener diodes (ZD ₁ , ZD ₂ ), capacitor (C ₁ ), bridge diode (BD ₁ ), relay (Ry ₁ ), and transistor (Q ₂ ) ) Is a time setting unit (b) in which the set time by the resistor R ₁ , the variable resistor VR ₁ , the capacitor C ₂ , and the instantaneous and off switches SW1 and SW2 are combined into the logic integrated circuit IC1. In the lighting driving circuit which can adjust the time by connecting), the other end of the human body sensor S1 which connects the resistor R ₂ and the capacitor C ₃ to one end is connected in parallel with the resistor R ₂ . Connected to the positive input terminal 3 of the IC2, and the negative input terminal 2 and the output terminal of the operational amplifier IC2 in which the reference voltage Vref1 is formed from the resistor R ₄ and the capacitor C ₄ . A signal amplifier (c) in which a resistor (R ₅ ) and a capacitor (C ₅ ) are connected in parallel between 1); Between the input terminal 6 and the visible light sensor (Cds) is connected to an output terminal (7) to its output stage (1) the capacitor (C _6, C ₇₎ and a resistor (R ₆₎ of the associated inverting amplifier (IC3) () Signal conversion connected to resistor (R ₉ ) and condenser (C ₈ ) and connected to positive input terminal (5) of inverting amplifier (IC3) where reference voltage (Vref2) is formed with resistors (R ₇ , R ₈ ). (D); The negative input terminal 9 of the comparator IC4 having the resistor R ₁₀ and the switching diodes D ₁ and D _{2 at the} output terminal 7 formed with the reference voltage Vref 3 as the resistors R ₁₁ and R ₁₂ . And a lighting controller (e) connected to the (+) input terminal 10 to which the pull-up resistor (R ₁₃ ) is connected, and the switching diode (D ₃ ) to the output terminal (8) thereof is connected to one input terminal of the logic integrated circuit (IC1). (1) The drive lamp for the entrance lighting lamp characterized in that it is connected to.