KR20090110886A - Automatic lighting and lights-out apparatus for Lighting Lamp - Google Patents

Abstract

PURPOSE: An automatic lighting and lighting-out apparatus for a lighting lamp are provided to light out a lighting lamp by zero crossing detection, thereby preventing a high voltage from being applied to a circuit element. CONSTITUTION: A zero crossing detection unit(200) detects an input side of a power supply unit(100). A sensor(300) for body perception senses a front action by a radar sensor. A small signal amplifier(400) amplifies a signal inputted from the sensor for body perception. A signal matching unit(500) stabilizes a frequency amplified from the small signal amplifier and converts it into a DC signal.

Description

Automatic lighting and lighting control device and method by zero crossing detection and two-way communication {Automatic lighting and lights-out apparatus for Lighting Lamp}

The present invention relates to an automatic lighting control device and method for lighting by the zero crossing detection and two-way communication, in particular to detect the movement of the human body by the sensor, and to enable the lighting is turned on at the time of zero crossing, and also bidirectional with other sensors The present invention relates to an automatic lighting lamp control device and method by zero-crossing detection, characterized in that it is possible to sequentially turn on or turn off by area according to the contents programmed through communication.

In general, a light is installed on the stairs of the apartment or office stairs, the lighting is used a lot of methods that are turned on for a certain time by manual switch operation.

Also, nowadays, a technology is installed in which an infrared sensor for detecting a human body is embedded in a lamp so that a passenger climbs a stairway and automatically turns on when entering a certain range, thereby eliminating the inconvenience that a passenger must press a switch to operate. .

In other words, since all the devices are automated at the moment, even if there is no human operation, the lights are automatically turned on to develop a more convenient life.

By the way, the infrared-sensitive flashing light released until now is turned on only after entering a certain area, so there is a dark area between the lower light and the upper light, and the passenger must be guided by the light that suddenly lights up from the front. There was no choice but to.

Of course, it is possible to provide the best environment for passengers if the stairs are always lit, but it is very difficult to use in a section where there is not much traffic because it is inefficient due to the high electricity bill.

The present applicant has devised a sequential lighting control device through Patent Registration No. 10-0696603, and has also devised a lighting control device for each area through Patent Registration No. 10-0718673.

However, there was a problem in that the high voltage is induced at the time of lighting and the life of the component is shortened, and the device is complicated because it is necessary to connect the power lines between the sensors.

The present invention is to solve the above problems, by the zero crossing detection to ensure that the flashing of the lamp is made to prevent the shortening of the life of the device due to overvoltage induced in advance, and also to input and output the sensor signal by bidirectional communication The purpose is to simplify the configuration of the whole device.

As a means for achieving the above object,

The present invention provides a power supply for converting and outputting a direct current when AC 220V is applied; A zero crossing detection unit detecting an input side of the power supply unit to detect a time point at which no voltage is present during a high and low change in voltage when AC power is input through the power supply unit; A radar sensor, a sensor for detecting a human body that outputs a change in frequency when a motion is detected in front by the Doppler effect; A small signal amplifier for amplifying a signal input from a human body sensor; A signal matching unit for stabilizing the frequency amplified by the small signal amplifier and converting the signal into a DC signal; A lighting lamp lighting signal output unit for outputting a lighting signal; A signal input / output unit configured to bidirectionally communicate with another external sensor; A microcomputer which is connected to the zero crossing detection unit, a sensor for detecting a human body, an on / off signal output unit and a signal input / output unit for overall control; The microcomputer has a program code for detecting a movement of a human body by inputting a signal of a human body sensor, and when the potential difference becomes zero according to the signal of the zero crossing detection unit, the microcomputer outputs a flashing light signal such as a lighting lamp through a light switch signal output unit. It has a program code to apply, and has a program code for inputting the other sensor signal through the signal input and output unit and accordingly outputs the region-specific and sequential control signal to the neighboring sensor.

In addition, the microcomputer 800 may further include a program code that determines that the output of the signal input / output unit is 16.6 ms or less as a noise signal.

The method may further include: detecting an input side of the power supply unit when the AC power is input through the power supply unit, and detecting a time point during which there is no voltage during the high and low change of the voltage through the zero crossing detection unit; Outputting the radar sensor as a change in frequency by using a sensor for detecting a human body when a motion is detected in the front by the Doppler effect; Amplifying by using a small signal amplifying unit for amplifying a signal input from a human body sensor, and stabilizing the amplified frequency from the small signal amplifying unit to convert the signal into a DC signal; If the output is kept below 16.6ms, the microcomputer determines that it is a noise signal and does not turn on the lighting device.If the output is maintained above 16.6ms, the microcomputer turns on the lighting device at the time of zero crossing, and at the same time, the microcomputer generates a control signal for each area and sequential. It is characterized by the step of outputting to a nearby sensor.

As described above, the present invention has the effect of prolonging the life of the circuit device by blocking the high voltage is induced to the circuit device when the lamp is turned off by turning on the lamp by zero crossing detection.

In addition, the input and output signals between the sensors by bidirectional communication prevents the entire circuit from being complicated, thereby reducing costs and increasing work speed.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

When the components of the present invention are classified, the power supply unit 100, the zero crossing detection unit 200, the human body sensor 300, the small signal amplification unit 400, the signal matching unit 500, It may be divided into a lamp lighting signal output unit 600, a signal input and output unit 700, and a microcomputer (800).

That is, when the AC 220V is applied to the power supply unit 100 to convert the output to DC;

A zero crossing detection unit 200 for detecting an input point of the power supply unit when the AC power is input through the power supply unit and detecting a time point at which no voltage is present during a high and low change in the voltage;

A radar sensor for detecting a human body 300 which outputs a change in frequency when a motion is detected in front by the Doppler effect;

A small signal amplifying unit 400 for amplifying a signal input from a human body sensor;

A signal matching unit 500 for stabilizing the frequency amplified by the small signal amplifier and converting the signal into a DC signal;

A lighting lamp lighting signal output unit 600 for outputting a lighting signal;

A signal input / output unit 700 for bidirectional communication with another external sensor;

A microcomputer 800 which is connected to the zero crossing detection unit, a sensor for detecting a human body, an indicator light output unit and a signal input / output unit for overall control;

The microcomputer 800 has a program code for detecting the movement of the human body by inputting a signal of the human body sensor, and the point of the light through the flashing light signal output unit when the potential difference becomes zero according to the signal of the zero crossing detection unit. It has a program code for applying a light-off signal, and has a program code for inputting other sensor signals through the signal input and output unit, and outputs the region-specific and sequential control signals to neighboring sensors.

Hereinafter, the operation of the present invention will be described.

In the present invention, when the power is turned on in the power supply unit 100, the electrical signal is separated from the primary side and the secondary side through the transformer, and the DC voltage of the low voltage output from the secondary side, and the stable voltage without a change in the load by the constant voltage circuit Will be passed to each component.

Then, when motion is detected from the radar sensor, which is the human body sensor 300, a new frequency signal is generated by the difference between the output frequency and the returned frequency by the Doppler effect, and amplified by the small signal amplification unit as necessary. do.

The electrical signal amplified by the small signal amplifier 400 is DC-directed by the signal matching unit.

The signal matched part 500 reads the signal matched by the change of the voltage by the microcomputer, and determines whether the size actually needs to be detected by the content programmed in the microcomputer 800.

At this time, the change amount for continuous movement is measured and the change amount is set as a default value when the detection size is determined, and the duration of the change amount is also the basis for determining whether the change is detected.

That is, it is determined not to respond to a change in a short time, so that it is detected only when there is a signal change over a set time, so that it does not respond to movement to water such as a fly.

When the movement of the object is detected, the microcomputer 800 outputs a signal for operating an external light or output device.

At this time, the highest voltage and the lowest voltage of the voltage change at a speed of 60 Hz due to the characteristics of the AC power, and there is a zero point in which no voltage is formed in this process, and the time point at which the potential difference becomes zero in the zero crossing detection unit 200. Is detected and transmitted to the microcomputer 800. Accordingly, the microcomputer 800 recognizes and controls the operation start time so that the output unit outputs the light on and off when the potential difference is zero.

On the other hand, the signal input and output unit 700 may control the flashing of the other external sensor during the flashing operation by the detection of the sensor 300, and may also control its output by a signal from the outside. .

This signal output and input uses common ground and one signal line, and two lines can be used for both input and output, and the signal transmission method is configured as current absorption type to control this device from outside. No other voltage is required and only controlled by a short of two wires.

The structure of the signal line is directional so that current does not draw in from the outside, and a weak current flows inside so that when a signal is received from the outside, when the outside is open, the high potential is read inside and the signal line is shorted from the outside. When the circuit is constructed, the internal current is absorbed to become low potential.

Therefore, the external signal can be judged by discriminating the low potential and the high potential according to the state of the internal signal line.

However, as the length of the signal line increases, noise may occur, and the microcomputer determines the magnitude of the low potential and the high potential of the internal signal in order to prevent malfunctions, and more than 16.6 ms to determine the noise of 60 Hz, which is AC noise. If the signal is maintained, determine if it lasts for the specified time.

As described above, the method of controlling the current absorbing type safely turns on the external sensor because the potential difference does not occur when controlling multiple sensors at the same time.

In addition, when sending an output signal to an external sensor device, a circuit is formed by a transistor outside the signal line, that is, the current flow is cut off, and the external device is induced by inducing the state of the input of another external device to a low potential. It will work automatically.

The microcomputer 800 of the present invention analyzes the input signal of the human body sensor 300 and accordingly outputs a lamp light signal, and outputs a signal such that the lamp light is turned on at the time of detecting the zero crossing. Information is exchanged with neighboring sensors by bidirectional communication to control sequential lighting and area lighting according to pre-programmed contents.

That is, the microcomputer of the present invention typically includes a program code for detecting a movement of a human body by inputting a signal of a human body detecting sensor and a light switch signal output unit when the potential difference becomes zero according to a signal of the zero crossing detection unit. It is designed to have a program code for applying a turn-off signal such as a lighting lamp and a program code for inputting other sensor signals through a signal input / output unit and outputting area and sequential control signals to nearby sensors according to the desired number of program makers. If it is designed to be extinguished in advance, the microcomputer can output signals to neighboring sensors so that three lamps are turned off according to the designed contents.

That is, when designing the lighting control device so that the three lighting lights are sequentially turned on at the same time, if the signal of the sensor is exchanged by bidirectional communication, the lighting lights are sequentially turned on, and if the lighting lights are turned on for each area, for example, If two lamps are programmed to be turned on at the same time, the microcomputer outputs a human body detection signal to the ten sensors that are adjacent to the signal when the signal is input from the human body detection sensor, so that all the lamps connected to the sensor are turned on at the same time so that ten lamps light up at the same time. Can be designed to be.

As a result, when the present invention is used, the illumination lamp is turned on at the time of detecting the zero crossing, and the sequential light and the area-based lights are simultaneously realized according to the connection of the programmed sensor.

In addition, there is an advantage that can control the required number of lights by converting the program content.

1 is a block diagram of the present invention.

Explanation of symbols on the main parts of the drawings

100: power supply

200: zero crossing detection unit

300: sensor for human body detection

400: small signal amplifier

500: signal matching

600: lamp light off signal output unit

700: signal input and output unit

800: micom

Claims (3)

A power supply unit 100 for converting and outputting direct current when AC 220V is applied; A zero crossing detection unit 200 for detecting an input point of the power supply unit when the AC power is input through the power supply unit and detecting a time point at which no voltage is present during a high and low change in the voltage; A radar sensor for detecting a human body 300 which outputs a change in frequency when a motion is detected in front by the Doppler effect; A small signal amplifying unit 400 for amplifying a signal input from a human body sensor; A signal matching unit 500 for stabilizing the frequency amplified by the small signal amplifier and converting the signal into a DC signal; A lighting lamp lighting signal output unit 600 for outputting a lighting signal; A signal input / output unit 700 for bidirectional communication with another external sensor; A microcomputer 800 which is connected to the zero crossing detection unit, a sensor for detecting a human body, a light signal output unit and a signal input / output unit for overall control; The microcomputer 800 has a program code for detecting the movement of the human body by inputting a signal of a human body sensor and at the time when the potential difference becomes zero according to the signal of the zero crossing detection unit, It has a program code for applying an unlit signal, and has a program code for inputting another sensor signal through the signal input and output unit and accordingly outputs region-specific and sequential control signals to a nearby sensor. Lighting by automatic flash control device. The method of claim 1, The microcomputer 800 has a zero-crossing detection and two-way communication lighting lamp automatic lighting control device further comprises a program code that determines the noise signal when the output of the signal input and output unit is maintained below 16.6ms. Detecting an input side of the power supply unit when the AC power is input through the power supply unit, and detecting a time point during which the voltage does not exist during the high and low change of the voltage through the zero crossing detection unit; Outputting the radar sensor as a change in frequency by using a sensor for detecting a human body when a motion is detected in the front by the Doppler effect; Amplifying by using a small signal amplifying unit for amplifying a signal input from a human body sensor, and stabilizing the amplified frequency from the small signal amplifying unit to convert the signal into a DC signal; If the output is kept below 16.6ms, the microcomputer determines that it is a noise signal and does not turn on the lighting device.If the output is maintained above 16.6ms, the microcomputer turns on the lighting device at the time of zero crossing, and at the same time, the microcomputer generates a control signal for each area and sequential. Zero crossing detection and bidirectional communication lighting lamp automatic control lighting method comprising the step of outputting to a nearby sensor.

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