KR200305201Y1 - Lighting control system of illuminator by counting heads - Google Patents

Abstract

The present invention is a lighting device lighting control device based on the number of people, more specifically, installed at the entrance side of the room to accurately count the number of people entering and leaving the room, when there is no person in the room automatically shuts off the power and unnecessary energy It relates to a lighting device lighting control device by the number of occupants that can prevent waste.

The purpose of the present invention is installed at the entrance side of the room to accurately count the number of people coming in and out, and when there is no person in the room, it automatically cuts off the power to prevent unnecessary waste of energy. It is to provide a control sensor.

The present invention for achieving the above object, the infrared light source 20 for irradiating the infrared pulse wave light source, and installed opposite to the infrared light source 20 and receives the pulse beam generated from the light source to receive the pulse width according to whether or not received Photodetectors 10 and 12 for generating the modulated signal, an infrared light source 21 installed adjacent to the infrared light source 20 and irradiating a pulsed wave light source, and opposite to the infrared light source 21. Input the photodetectors 10 and 12 and the output waveforms of the photo detectors 10, 11, 12 and 13 to receive a pulse beam generated from a light source and generate a signal whose pulse width is modulated according to whether the light beam is received. It is composed of a microcomputer that determines the presence of people in the room and generates a control signal for turning on / off the lighting fixture.

Description

Lighting control system of illuminator by the number of occupants {Lighting control system of illuminator by counting heads}

The present invention relates to a lighting device lighting control device by the number of people, more specifically, installed at the entrance side of the room to accurately count the number of people coming in and out to automatically cut off the power in the absence of people in the room The present invention relates to a lighting device lighting control device based on the number of persons to prevent unnecessary waste of energy.

Conventionally, various lighting fixtures are equipped with an infrared sensor for detecting a human body or a moving object detecting sensor, so that a person turns on / off depending on whether or not a person approaches the lighting fixture. There has been an inconvenience to be turned off.

Conventional lighting equipment using the power saving sensor uses a specific sound, sound, voice recognition method, there is the hassle of having to create a specific sound or sound to drive the sensor (recognition), and the public place where many people enter and exit In the area with noisy noise, there was a limitation in use and it could not be used.

The present invention was devised to solve the above problems, the purpose of the present invention is installed at the entrance side of the room to accurately count the number of people entering and exiting the room automatically shuts off the power in the absence of people It is to provide a lighting device lighting control device by the number of people to prevent unnecessary waste of energy.

The present invention for achieving the above object, the infrared light source for irradiating the infrared pulse wave light source, and the infrared light source is installed opposite to the pulse beam generated from the light source to receive the signal modulated pulse width according to whether or not received Generates a photodetector, an infrared light source installed adjacent to the infrared light source and irradiating a pulsed wave light source, and a pulse beam generated opposite to the infrared light source and received from the light source to modulate the pulse width depending on whether the light is received. A photodetector for generating a signal is generated, and a microcomputer for generating a control signal for turning on / off the lighting device by determining whether a person is present in the room by receiving the output waveform of each photodetector.

1 is a schematic arrangement structure diagram of a lighting device lighting control device according to the number of people of the present invention,

2 and 3 are explanatory diagrams for explaining the operation of the power saving sensor in the lighting device lighting control device according to the number of people in the present invention,

Figure 4 is a schematic control block diagram of the lighting device lighting control device by the number of people in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

10,11,12,13,14: photodetector 20,21: infrared light source

30: substrate 40, 41: human body

50: micom

Hereinafter, with reference to the accompanying drawings, an embodiment of a lighting device lighting control device according to the number of people in the present disclosure is as follows.

Figure 1 is a schematic arrangement structure of the power saving sensor in the lighting device lighting control device according to the number of people according to the present invention, Figures 2 and 3 illustrate the operation of the power saving sensor according to the lighting device lighting control device by the number of people. It is a diagram explaining the use.

As shown in the figure, four photodetectors 10, 11, 12, 13, and 14 are formed to be able to count the number of people moving in and out of the room, and irradiating an infrared light source to the photodetector. Two infrared light sources 20 and 21 are formed to face each other.

The photodetector and the infrared light source are configured to be attached to both walls of the entrance and exit, and in particular, the sensor of the present invention has two infrared light sources (20, 21) so that it can be counted (detected) even when two people enter or exit the line. Four photodetectors 10, 11, 12, 13 are arranged.

Here, the four photodetectors are arranged on the substrate 30 by pairing the photodetectors 10 and 12 and 11 and 13, and the photodetectors 10 and 12 are arranged on the substrate 30. Receives light from an infrared light source 20 that is substantially the same as the height 10 and lies vertically, and the photodetectors 11 and 13 are light from an infrared light source 21 that is flush with the substrate 30 but is at an angle. It is supposed to receive.

The distance between Infrared Light Sources 20 and 21 is determined by the distance between the chest and the back of the occupant within the width of the shoulders between the beams from each light source coming in a straight line between the beams B1 and B2. You can set the difference to be greater than the interval. In the case of a narrow entrance, since only one object can enter, only the photodetectors 10 and 12 and the infrared light source 20 are required in FIG.

Referring to the operation of the lighting device lighting control sensor according to the number of people according to the present invention configured as described above, Figure 2 shows the operation of the sensor for the point / lights out control of the lighting device by the count when two people in a line through the doorway For the purpose of explanation, the human body 1 40 and the human body 2 41 moving in a row sequentially block the beam B1 of the infrared light source 20 to provide a time difference between the photodetector 10 and the photodetector 12. In addition, during the time when the infrared light source 20 is blocked and blocked, each photodetector 10 or 12 generates a "high" level signal having a predetermined width.

That is, a set of signals having a predetermined pulse width are generated at the output terminals of the photodetectors 10 and 12, respectively, and transmitted to the microcomputer 50.

Subsequently, the human body 1 40 and the human body 2 41 pass through the beam B2. As described above, the beam B2 generated by the infrared light source 21 first passes while the human body 1 40 approaches. The photodetector 11 generates a " high " level signal having a predetermined width, and the photodetector 13 generates a " high " level signal by the human body 2 41 with a predetermined time difference in the same manner. .

The output signals of the photodetectors 10, 11, 12, and 13 are input to the microcomputer 50, and the microcomputer that receives the signals counts the number of persons according to the signal waveform.

That is, the microcomputer 50 has a built-in program to count the number of people entering and leaving according to the waveform input from the photodetector can accurately count the number of people.

On the contrary, even when a person exits through the doorway, each photodetector outputs a "high" level signal during the time when the human body blocks the beams B1 and B2, and counts the number of people who input data to the microcomputer and exit. You will count the number of people in the room.

In addition, as shown in FIG. 3, the microcomputer receives and counts the output value (waveform) of each photodetector to generate a control signal to turn on / off the lighting device according to the number of people remaining in the room. do.

That is, when the microcomputer 50 determines that there is a person in the room, the lighting device is continuously turned on, and when there is no person in the room, the microcomputer 50 generates a control signal for turning off the light.

As mentioned above, according to the present invention, it is installed at the entrance side of the room to accurately count the number of incoming and outgoing people, and when there is no person in the room, the power is automatically cut off to prevent unnecessary waste of energy. I have it.

Claims (1)

An infrared light source 20 for irradiating an infrared pulse wave light source, and an optical detector installed opposite to the infrared light source 20 and receiving a pulse beam generated from the light source to generate a signal whose pulse width is modulated according to whether the light is received or not; 10 and 12, an infrared light source 21 installed adjacent to the infrared light source 20 and irradiating a pulse wave light source, and installed opposite to the infrared light source 21 and receiving a pulse beam generated from the light source. The photodetectors 10 and 12 generating a signal in which the pulse width is modulated according to whether the light is received and the output waveforms of the photo detectors 10, 11, 12 and 13 are input to determine whether or not a person is present in the room. Lighting device lighting control device by the number of persons to be made of the microcomputer to generate a control signal for turning on / off the device.