KR200285004Y1 - The lamp having a sensor - Google Patents

Abstract

The present invention relates to a sensor and the like.

The present invention is a sensor that is turned off, turned off by the infrared sensor and the illumination sensor, according to the signal of the infrared sensor and the illumination sensor, the power is turned on / off, the fluorescent light through the sine wave generator is operated accordingly It is configured to be turned off so that it can save energy by reducing the power consumption required for lighting, and it also reduces the expenditure cost and the fatigue caused by glare when it is turned on.

Description

Sensor lamp {The lamp having a sensor}

The present invention relates to a sensor lamp, in particular, by replacing the triac, a circuit element that detects the human body to turn on the lamp for a predetermined time with a relay to turn on the fluorescent lamp, thereby reducing the power consumption required for lighting to save energy It can help you reduce your expenses, and also reduce glare when lit.

In general, the human eye can see only visible light, which is a certain wavelength band, so that at night when the amount of visible light is small, artificial lights are turned on to identify objects around them.

The electricity used to turn on the lamps can be used where needed by allowing electricity to be applied from the outside to the switchboard in the building through the wires, and to distribute the electricity applied to the switchboard through the switchboard.

The lamp is turned on to illuminate the dark surroundings so that objects around it can be clearly seen. The lamp is selectively turned on and off by turning on the power applied to the lamp through the wire.

In other words, it is electrically connected from the switchboard through the wires, and the lights and wires installed on one side of the wall or ceiling are short-circuited and the ON / OFF switch connected between them turns on and off according to the interruption of the ON / OFF switch. Becomes

However, when a light that is turned on or off through an ON / OFF switch is installed in a passageway such as a staircase or a corridor where people pass by, the user needs to repeatedly turn the switch on and off as necessary. There was a very troublesome and inconvenient problem.

In order to solve this problem, a "light integrated far infrared sensor switch" of Korean Utility Model Registration No. 1993 -6817 (1993.10.7) has been proposed.

The proposed lamp integrated far infrared sensor switch detects the far infrared rays radiated from the human body and automatically controls the on / off of the lamp, and uses the lens means to focus the far infrared rays radiated from the human body, and the lens means. A far-infrared sensor that detects the far-infrared focused by and outputs a predetermined signal, and a signal amplifier that amplifies the signal from the far-infrared sensor, consisting of two OP amplifiers, and when the output signal from the signal amplifier is higher than a predetermined reference voltage, A detection signal output unit having a comparator for outputting a high signal, a comparator for outputting a high signal when the output signal from the signal amplifier is lower than a predetermined reference voltage, a light intensity sensor, a resistor, and an inverter; And output a low signal during the day and a high signal at night. , It is provided, which consists in the nighttime identification signal output unit, NAND gate and an inverter, a capacitor, a transistor and a triac.

A light connected to an output shaft terminal only when a "high" signal is input from the sensing signal output unit to one input terminal of the NAND gate and a "high" signal is input from the day / night division signal output unit to the other input terminal. It consists of a lighting driver and a transistor, a capacitor, an inverter, and a relay circuit to turn on the light, and when a "high" signal is input from the sensing signal output part, the relay driver is enabled to enable a predetermined device connected to the relay output terminal. It is a dark night, and the lights are automatically turned on only when there is a person to prevent waste of power.

However, in the case of the lamp using the far-infrared sensor switch, triangular (toothed) waves are generated, so only suitable incandescent lamps can be used here. Another inefficient problem was raised.

The present invention was created to solve the above problems, and detects the human body, and outputs a sine wave current to the output side so that the fluorescent lamp is turned on, thereby reducing glare when it is momentarily turned on, and at the same time, consumed when lighting. It is an object of the present invention to provide a sensor that can be used economically by reducing the power consumption.

In order to achieve the above object, the present invention provides a sensor that is turned off or turned off by an infrared sensor and an illumination sensor, and the power is turned on / off according to the signals of the infrared sensor and the illumination sensor. The object is achieved by providing a sensor lamp, characterized in that the fluorescent lamp is configured to be turned off, through the sine wave generator.

1 is an exemplary view showing a state in which a sensor light according to the present invention is installed.

2 is a block diagram constituting a sensor and the like according to the present invention.

Figure 3 is a main part of the circuit diagram of the sensor according to the present invention.

<Brief description of symbols for the main parts of the drawings>

10: power supply unit 20: sensing unit 22: infrared sensor

24: illumination sensor 30: operating part 32: comparator

34 NAND gate 40 Sinusoidal wave generator 42 Relay

50: fluorescent light

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 1, the sensor according to the present invention receives a power source 10 to which a power having a predetermined voltage is applied from the outside, and a power applied from the power source 10 to receive a human body. Operation unit 30 having a sensing unit 20 for detecting day and night while sensing, and a comparator 32 and a NAND gate 34 to output only a specific value according to the output value output through the sensing unit 20. And a sine wave generator 40 for generating a sine wave according to the value output from the sensing unit 20, and a fluorescent lamp 50 connected to the output side of the sine wave generator 40.

Here, the power supply unit 10 is to be converted to a DC power supply of 24V, which is the voltage required by the sensing unit 20 and the sinusoidal wave generator 40 while the AC power of 220V which is a normal power is input, It consists of a control diode that limits the voltage of the current through the transformer, a diode that converts alternating current into a direct current, and an IC with a regulator function that keeps the voltage of the current through the diode constant.

The sensing unit 20 is composed of an infrared sensor 22 for detecting infrared radiation emitted from the human body of the human body, and an illumination sensor 24 for detecting day and night, from the infrared sensor 22 The output detection signal is amplified into a predetermined signal through an amplifier having an OP amplifier and then filtered to output only a signal between 0.1 and 3.3 MHz.

In addition, the illuminance detection sensor 24 is a device that the resistance is small during the daytime light is low, so that the resistance is increased during the day, even if far infrared rays are detected, so as not to be turned on during the day, and to be turned on only at night. As used, the low level signal is output during the day and the high level signal is output at night.

The sensing signal of the infrared sensor 22 from the sensing unit 20 and the sensing signal of the illumination sensor 24 are selectively provided through the operation unit 30 having the comparator 32 and the NAND gate 34. A signal having a low level and a high level is output.

The sinusoidal wave generator 40 converts the sinusoidal wave into an electrical signal according to a high level output signal of the operation unit 30 according to an electronic and mechanical connection, and repeatedly turns ON / OFF according to the operation of the transistor. Consisting of a relay 42.

The fluorescent lamp 50 connected to the output side of the relay 42 uses a three-wavelength lamp EL having an incandescent bulb shape in the present invention, but in addition to the three-wavelength lamp, a U-type fluorescent lamp PL or a straight fluorescent lamp FL Can be used arbitrarily.

In the figure, reference numeral 52 is a fluorescent lamp case, and 54 is a fluorescent lamp socket.

The process of turning off the sensor light configured as described above is as follows.

First, when the illuminance is a bright day, as the signal output from the illuminance sensor 24 outputs a "low level" signal, an electrical signal passing through the comparator 32 electrically connected thereto is connected to the NAND gate 34. The NAND gate 34 receives a current applied to the sinusoidal wave generator 40 as a "high level" signal is applied to the infrared sensor 22 and detects the presence of a person from the infrared sensor 22. By blocking (low level), even if the signal detected from the infrared sensor 22 is input to prevent the fluorescent lamp 50 is turned on.

On the other hand, when the light is low at night, the signal output from the illumination sensor 24 is output as a "high level" signal, and this signal is applied to the NAND gate 34 via the comparator 32 while detecting infrared rays. As the "high level" signal sensed by the sensor 22 is input to the NAND gate 34, the NAND gate 34 applies a high level signal to the sinusoidal wave generator 40 to operate the relay 42. By doing so, the fluorescent lamp 50 connected to the output terminal is turned on for a predetermined time.

Then, as the "low level" signal corresponding to the absence of a person is input again from the infrared sensor 22, the NAND gate 34 applies the low level signal to the sinusoidal wave generator 40 to relay 42 ) Is stopped, so that the fluorescent lamp 50 connected to the output terminal thereof is turned off.

As such, the present invention enables the fluorescent lamp to be turned off or on by means of a sine wave generating means that is turned on and off according to the signals of the infrared sensor and the illuminance sensor, thereby reducing glare when turned on instantaneously and consumed power when turned on. It is to be used economically by reducing the.

Claims (3)

In the sensor that is turned off or turned off by the infrared sensor and the illumination sensor, The power is turned on / off according to the signals of the infrared sensor 22 and the illumination sensor 24, and the fluorescent lamp 50 is turned on and off through the sinusoidal wave generator 40 which is operated accordingly. Sensor to say. The method of claim 1, The sinusoidal wave generator 40 is a sensor, characterized in that consisting of a relay (42). The method of claim 1, The fluorescent lamp 50 is a sensor lamp, characterized in that composed of any one of the incandescent lamp type three-wavelength lamp (EL), U-type fluorescent lamp (PL) or straight fluorescent lamp (FL).