KR900009192Y1 - Automatic on/off switching lamp - Google Patents

Abstract

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Description

Security light auto power saving dot / light off device

1 is a block diagram of the present invention.

2 is a detailed view of the present invention.

* Explanation of symbols for main parts of the drawings

110: light receiving detection unit 120: on / off determination unit

130: power supply unit 140: output stage switch unit

150: comparison detection unit R ₁ to R ₁₇ : resistance

TR _{1 to} TR ₅ : transistors C _{1 to} C ₅ : capacitors

T ₁ , T ₂ : transformer D _{1 to} D ₅ : diode

SW ₁ : switch S _{1 to} S ₂ : phototriac

LY: relay

The present invention relates to a security light automatic power saving point / light off device.

When the day is dark or bright, the security lamps installed in residential areas such as residential areas and shopping malls have conventionally been inconvenient to be manually operated by the local managers or residents.

The present invention has been devised to solve the above inconveniences, and aims to reduce the loss of manpower according to the conventional method and to prevent unnecessary loss of power other than the contracted power capacity.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of the present invention, the light receiving detection unit 110 for detecting it according to the light and dark surroundings and the on / off determination unit for adjusting the output switch 140 according to the operation of the light receiving detection unit 110 ( 120 and a power supply unit 130 for supplying power to each terminal, a comparison detection unit 150 and the on / off determination unit 120 for comparing and detecting a power supply and a contracted capacity value of the power supply unit 130. And an output stage switch unit 140 for controlling security and the like according to the output value of the comparison detecting unit 150. FIG. 2 is a detailed view showing the first diagram in detail, and the light receiving detector 110 detects the light and the light receiving elements R ₁ , transistors TR ₁ , TR ₂ , and resistors R ₂ that detect dark and bright surroundings. (R ₉ ) and a capacitor (C ₁ ), and the on / off discriminating unit 120 includes a resistor (R ₇ ) to (R ₉ ) and a capacitor (C ₂ ) to the transistors TR ₃ and TR ₄ . The power supply unit 130 is a bridge diode (D ₅ ) and a capacitor (C ₃ ) (C ₄ ) and a resistor (R ₁₀ ) diode (D ₁ ) (D) to a transformer (T ₁ ) receiving AC power. ₂ ) are connected to each other.

The output terminal switch unit 140 may include resistors R ₁₁ to (R) connected to the phototrial solution S ₁ (S ₂ ) connected to the AC power supply and the transistor TR ₁ of the on / off discriminating unit 120. ₁₇ ) and a condenser C ₆ , a transformer T ₂ , and a switch SW _1. The comparison detecting unit 150 is a bridge diode connected to the transformer T ₂ and the power supply unit 130. A capacitor C ₅ , a resistor R ₁₁ (R ₁₂ ) diode D ₃ , and a relay LY are connected to the D ₄ ) and the transistor TR ₅ , respectively.

The effect of these will be described below.

The bridge rectifier diode D ₅ provided with an AC voltage at the secondary side of the transformer T _{1 of} the power supply 130 supplies a non-smooth DC voltage to the constant voltage diode D ₁ and supplies power from the power supply 130. Each of the receiving stages operates normally and the resistance value of the light receiving element R ₁ of the light receiving detection unit 110 that detects when the surroundings of the device are bright and dark is changed so that the bias voltage is applied to the base of the transistor TR ₁ . This is applied to the output stage switch unit 140 is separated on / off.

When the periphery of the device is bright, the resistance value of the light receiving element R ₁ decreases, so that a large amount of photocurrent flows to the base of the transistor TR ₁ so that a bias voltage is applied, so that the transistor TR ₁ is turned on and the resistor R ₂ is turned on. The current through the current flows through the collector and the emitter of the transistor TR ₁ to the emitter ground resistance R ₆ , and the transistor TR ₂ is shorted between the base activator and the transistor TR ₂ is turned off. Bias resistor (R ₃₎ (R ₄₎ transistor a current does not flow in the transistor (TR ₃₎ of the light receiving detection unit 110, a transistor (TR ₂₎ is turned off ON / OFF determination section 120 of the (TR ₃ ) is also off, so the current in the base resistors (R ₈₎ of the transistor (TR ₄₎ flow through the transistor (TR ₄₎ is turned off. The DC current input of the output terminal phototriac S ₁ is not supplied from the resistor R ₉ and thus cannot be driven. Therefore, the security light at the output stage does not light up. When the surroundings of the device are dark, the resistance value of the light receiving element R ₁ of the light receiving detection unit 110 increases in proportion to the darkness and the photocurrent decreases, and most of the current is extinguished by the resistor R ₅ or the stable capacitor C ₁ . And the transistor TR ₁ is turned off because the bias voltage is weak.

A transistor (TR _2), the bias resistor (R ₂₎ flows by, due on as on / current to the bias resistor (R ₃₎ (R ₄₎ of the transistor (TR ₃₎ of an off-determining unit 120, a transistor (TR ₃₎ Is on. The transistor TR ₄ is turned on while the transistor TR ₃ is turned on so that a current flows through the collector ground resistor R ₇ , the stable capacitor C ₂ , and the base resistor R ₈ . The phototriac S ₁ and the anode are supplied with current through the emitter ground resistance R ₉ of the transistor TR ₄ to drive the phototriac S ₁ and S ₂ .

The capacitor (C ₆ ) and the resistor (R ₁₇ ) are the triac (S ₂ ) protective elements and the triac (S ₂ ) is the gate resistor (R ₁₅ ) (R ₁₆ ) for driving the triac (S ₂ ). .

The security lamp is turned on through the coil L ₁ and the relay LY contact switch a of the AC front transformer T ₂ through the terminals t ₂ and t ₁ of the triac S ₂ .

In this case, the purpose of the present invention is described when the security lamp is installed in addition to the contracted power capacity.

When the security lamp of the contracted power capacity is installed, the voltage detected sufficiently by the coil L ₁ of the transformer T ₂ to the secondary coil L ₃ is instantaneously induced to the primary coil L ₂ so that the comparative detection unit Supply sufficient power to 150. The bridge rectifying diode D ₄ of the comparison detecting unit 150 rectifies the AC voltage provided from the coil L ₂ of the transformer T ₂ into a DC voltage to the terminal Rf of the voltage comparison detecting diode D ₃ . Supply to the electrolytic capacitor (C ₅ ) stability resistor (R ₁₂ ). The voltage supplied to the terminal Rf is compared with the reference voltage of the cathode so that the voltage comparison detection diode D ₃ is turned on and the relay LY connected between the emitter of the transistor TR ₅ and the ground is driven. Since the relay LY is driven, the contact point of the relay LY changes from the switch SW ₁ terminal (a) to (b), and the security lamp receives an alternating current through the coil (L ₃ ) of the transformer (T ₂ ). Although it should be turned on, the supplied AC current cannot turn on the security lamp because the AC current is weak due to the resistance value of the coil (L ₃ ) and the lamp is turned off, so the user cannot use a bulb other than the contracted power capacity.

If the light bulb is not removed while the input power is being supplied in the above state, the device of the present invention will remain off. The contact of the relay LY, which is extinguished when the bulb is not removed, is connected to the switch SW ₁ terminal b, and the coil L ₂ of the transformer T ₂ is connected to the coil L ₃ . This is because the induced voltage is charged in the condenser C ₅ and becomes the anode resistance R ₁₁ of the voltage comparison diode D ₃ to provide the sustained power supply to the comparison detection unit 150. This allows the user to recognize that the current is installed incorrectly and to prevent unnecessary power consumption.

In addition, even if the input voltage fluctuates according to the characteristics of the region, the device of the present invention is detected by the comparison detecting unit 150 and operates normally without any problem even if the fluctuation within 50V with respect to the normal input. When there is a change in the input voltage, there is no malfunction due to the change in the input voltage because the reference voltage supplied to the cathode of the voltage comparison detection diode D ₃ and the comparison voltage supplied to the terminal Rf are also changed. As described above, the present invention has an energy saving effect because it can reduce the inconvenience and loss of manpower caused by the operation of the security lamp and prevent unnecessary loss of power in addition to the contracted power capacity.

Claims (2)

In the apparatus for controlling the security lamp according to the power supply of the power supply unit 130 and the operation of the light receiving detection unit 110 and the on / off determination unit 120, if the security lamp is installed in addition to the contracted power capacity, the output stage switch unit 140 Means for supplying sufficient power to the comparison detection unit 150 by the AC voltage sufficiently induced in the transformer transformer T ₂ , and the bridge diode D ₁ of the comparison detection unit 150 is connected to the transformer transformer T ₂ . Means for rectifying the provided AC voltage into a DC voltage and supplying it to the respective terminals, and the supply voltage is compared with a reference voltage of the diode D ₃ to drive the relay LY according to its operation and the relay LY. According to the driving of the switch SW ₁ operates to supply an alternating current of the transformer transformer T ₂ to the security lamp and weakens due to the resistance value of the supplied alternating current coil L ₃ , thereby preventing the lighting of the security lamp. So Security light automatic power saving point / turn off device characterized in that made by means to prevent the use of light bulbs other than the contracted power capacity. The conventional light receiving detector 110 and the on / off discriminating unit 120 are merely a light receiving switch, and the light receiving detector (100) is used to remove the malfunction in a device that has malfunctioned when the surrounding brightness is halfway. Means using a stabilizer capacitor (C ₁ ) in the transistor TR ₁ base of the 110 and a transistor using a stabilizer capacitor (C ₂ ) in the transistor TR ₃ collector of the on / off discriminating unit (120). Security light automatic power saving dot / light off device.