KR102262104B1 - Indoor and outdoor light system for insect prevention paint based on tunable technology - Google Patents

Abstract

A lighting system for indoor/outdoor application of an insect repellent paint based on a variable wavelength technology of the present invention is capable of constructing a database according to a region by learning and analyzing for a certain period of time a climate provided by a meteorological agency database (100), an ambient climate of a received lighting device (150) in the information such as seasonal changes and a sensor part (158) composed of a camera sensor of the lighting device (150) and a temperature/humidity and illumination sensor, a seasonal change situation, and temperature/humidity and illumination data; and through thereof, is capable of operating an efficient lighting system in consideration of the characteristics of a region, and capable of independently controlling the lighting device (150), through transmission and storage of the database, when a central control server (110) is not present.

Description

Lighting system for indoor and outdoor use of variable wavelength technology-based insect repellent coating {INDOOR AND OUTDOOR LIGHT SYSTEM FOR INSECT PREVENTION PAINT BASED ON TUNABLE TECHNOLOGY}

The present invention relates to an indoor and outdoor lighting system for applying insect repellent paint based on variable wavelength technology, and more particularly, an insect repellent paint artificially synthesized with natural insect repellent ingredients is applied to lighting equipment, and the eyes of humans and insects are recognized based on IoT technology It relates to an indoor/outdoor lighting system for applying insect repellent paint based on variable wavelength technology that provides light of different wavelengths according to the wavelength band of the light and reacts to changes in climate and season, thereby preventing insects and securing night vision.

In general, lighting fixtures tend to be replaced by highly efficient light emitting diodes (LEDs).

As it is replaced by lighting fixtures, the technology for controlling lighting fixtures from a remote server based on IoT wireless communication and automatically controlling the operation of lighting fixtures by various sensors is a trend.

Since lighting fixtures are basically installed and operated in a wide area, control by a remote server has become an important issue, and a smart control function by the lighting fixtures itself is required.

However, lighting fixtures are uniformly controlled using the flashing method of street lights and security lights according to time using most timers based on IoT wireless communication, but there is a problem that is insufficient to combat harmful insects because insect repellent is not applied.

Republic of Korea Patent Publication No. 10-2018-0001911 (2018.01.05.)

The object of the present invention is to solve the problems in consideration of the existing problems. Variable that can increase insect repellency and night vision by supplying light of different wavelengths according to information such as climate and season changes, illuminance, temperature and humidity, etc. It is to provide a lighting system for indoor/outdoor application of insect repellent paint based on wavelength technology.

The indoor and outdoor lighting system for applying insect repellent coating based on variable wavelength technology according to an embodiment of the present invention for solving the above technical problem is connected to the database of the Meteorological Administration based on IoT technology, and road weather information, climate change monitoring information, yellow observation information, a central control server for receiving and storing special warning information and ground meteorological observation information; a PLC modem for transmitting and receiving data from the central control server through a PLC gateway; and a red-yellow LED light source with a wavelength of 600 nm and a white LED light source with a wavelength of 380 to 780 nm supplied in spring, autumn, and winter, which are selectively supplied in summer or spring, autumn, and winter after being connected through the PLC modem to store data. A lighting device having a built-in controller for controlling the light source, wherein the controller is installed inside an arm connecting the lighting device and the back pole, and an insect repellent surface is applied to the lower edge of the lighting device, and the lighting On the lower side of the appliance, a sensor unit including a temperature, humidity, and illuminance sensor and a camera sensor for detecting the surrounding climate and seasonal change of the lighting fixture so as to independently operate the lighting fixture under the control of the controller in the absence of the central control server installed, and the camera sensor detects the climate and seasonal changes of the surrounding smog, fine dust, scab, and black ice of the lighting device, and selectively supplies the red/yellow LED light source or the white LED light source by the light source unit; The temperature-humidity and illuminance sensors are connected to the controller so as to selectively supply a red-yellow LED light source or a white LED light source by the light source unit by sensing the ambient temperature, humidity and illuminance of the lighting device, respectively.

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The indoor/outdoor lighting system for applying insect repellent paint based on tunable wavelength technology of the present invention receives information such as climate and seasonal changes provided by the Meteorological Agency database and the ambient climate of the lighting equipment received from the sensor unit consisting of the camera sensor of the lighting equipment and the temperature/humidity and illuminance sensor. It is possible to build a database according to the region by learning and analyzing the seasonal change situation, temperature, humidity, and illuminance data for a certain period of time, and through this, it is possible to operate an efficient lighting system in consideration of regional characteristics, and there is no central control server through the transmission and storage of the database. It has the effect of being able to control the lighting equipment independently.

1 is an operation flowchart of an indoor/outdoor lighting device using a tunable technology base according to the present invention;
2 is a configuration diagram showing a lighting fixture for indoor and outdoor use coated with insect repellent according to the present invention;
3 is a reference list for public data development applied to the tunable technology base according to the present invention;
4 is a reference graph of the likeness and dislike relationship between pests and light applied to the tunable technology base according to the present invention;
5 is a human-recognizable visible ray region wavelength applied to the tunable technology base according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings 1 to 5 . Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. Accordingly, the shape of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same components in each drawing are sometimes illustrated with the same reference numerals. Detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

1 and 2, the indoor and outdoor lighting system for applying insect repellent paint based on tunable wavelength technology according to an embodiment of the present invention is connected to the Meteorological Administration database 100 based on IoT technology to provide information such as climate and seasonal changes. a central control server 110 for receiving and storing; PLC modem 130 for transmitting and receiving data from the central control server 110 through the PLC gateway 120; and controlling the light source unit 160 so that light of two wavelength bands is supplied after being connected to the PLC modem 130 by wire or wireless to store data. The controller 140 has a built-in lighting device 150; includes.

That is, the central control server 110 provides information such as climate and seasonal changes (road weather information, climate change monitoring information, yellowish observation information, special warning information, ground meteorological observation information, etc.) provided by the Korea Meteorological Administration as shown in FIG. 3 and the It receives data detected by a camera sensor, a temperature-humidity sensor, and an illuminance sensor installed in the lighting device 150 , and supplies the data derived through the analysis to the PLC modem 130 through the PLC gateway 120 .

At this time, the PLC modem 130 receives the data of the central control server 110 through the PLC gateway 120, builds a regional database through situational learning (deep learning engine) for a certain period of time, and then the central In the absence of the control server 110, the lighting device 150 is transmitted to the controller 140 to operate independently.

One side of the lighting device 150 is connected to the back post 152 and installed to be positioned at a predetermined height, and the controller ( 140) is built-in.

The lighting device 150 is coated with an insect repellent paint surface part 156 made of a natural material to block the access of insects to the lower surface edge, and in the absence of the central control server 110 on the lower side, the controller 140 ), a sensor unit 158 for detecting ambient climate and seasonal changes of the lighting device 150 and sensing temperature, humidity and illuminance, respectively, is installed to independently operate the lighting device 150 under the control of the lower planar area. On the other flat area except for the insect repellent paint surface part 156 and the sensor part 158, it is controlled by the controller 140 or independently controlled by the data sensed from the sensor part 158, so that the red-yellow color with a wavelength of 600 to 650 nm A light source unit 160 for selectively supplying an LED light source or a white LED light source having a wavelength of 380 to 780 nm is installed.

At this time, the sensor unit 158 detects climate and seasonal change conditions such as smog, fine dust, scab, and black ice around the lighting device 150 , and uses the light source unit 160 to emit red-yellow colors at a wavelength of 600 to 650 nm. and a camera sensor connected to the controller 140 to selectively supply an LED light source or a white LED light source having a wavelength of 380 to 780 nm.

The sensor unit 158 detects the ambient temperature and humidity and illuminance of the lighting device 150, respectively, and selectively supplies a red-yellow LED light source having a wavelength of 600 to 650 nm or a white LED light source having a wavelength of 380 to 780 nm by the light source unit 160 Each of the temperature-humidity and illuminance sensors connected to the controller 140 is included.

The two wavelength bands of a red-yellow LED light source having a wavelength of 600 to 650 nm and a white LED light source having a wavelength of 380 to 780 nm supplied from the light source unit 160 are a reference graph of the likeness and dislike relationship between known pests and light as shown in FIG. 4 and a known person as shown in FIG. Based on the research results of this recognizable visible light wavelength, it is considered that the wavelengths of light that humans and insects can recognize are different from each other.

In other words, since insects show the highest positive primary light at a wavelength of 380 nm and do not recognize the larger the wavelength of light, red and yellow lighting with a relatively high wavelength has a higher transmittance than white lighting, so it is suitable for indoor and outdoor lighting such as street lamps.

In particular, it is preferable to supply a red-yellow LED light source with a wavelength of 600 to 650 nm through the light source unit 160 in summer when there are many insects, and in spring, autumn, and winter, the light source unit 160 is used in consideration of efficiency, brightness, and aesthetics. It is preferable to supply a white LED light source with a wavelength of 380 to 780 nm through the

However, even in spring, autumn, and winter, in consideration of climate change, etc., on days when there is fog, the light source unit 160 supplies a red-yellow LED light source with a wavelength of 600 to 650 nm, which insects hate, so as to prevent insects while securing the driver's or user's field of vision. ) can be controlled.

In this way, the indoor/outdoor lighting system for applying insect repellent coating based on the variable wavelength technology of the present invention includes information such as climate and seasonal changes provided by the Meteorological Administration database 100 and a sensor composed of a camera sensor and temperature/humidity and illuminance sensor of the lighting device 150 . By learning and analyzing the surrounding climate and seasonal change situation, temperature, humidity, and illuminance data of the lighting equipment 150 received from the unit 158 for a certain period of time, it is possible to build a database according to the region, and through this, efficient operation of the lighting system in consideration of regional characteristics This is possible and there is an advantage that the central control server 110 can independently control the lighting equipment 150 when the central control server 110 is absent through the transmission and storage of the database.

On the other hand, the present invention is not limited to the above-described embodiments, but can be implemented with modifications and variations within the scope without departing from the gist of the present invention, and the technical idea to which such modifications and variations are applied also falls within the scope of the following claims. have to see

100: Meteorological Agency database 110: Central control server
120: PLC gateway 130: PLC modem
140: controller 150: lighting equipment
152: back support 154: arm
156: insect repellent paint surface part 158: sensor part
160: light source unit

Claims (9)

A central control server 110 that is connected to the Meteorological Agency database 100 based on IoT technology and receives and stores road weather information, climate change monitoring information, yellow weather observation information, special warning information, and ground meteorological observation information;
PLC modem 130 for transmitting and receiving data from the central control server 110 through the PLC gateway 120; and
A red-yellow LED light source with a wavelength of 600 to 650 nm and a white LED with a wavelength of 380 to 780 nm supplied in spring, autumn, and winter are selectively supplied in summer, spring, autumn, and winter after being connected through the PLC modem 130 to store data. A lighting device 150 having a built-in controller 140 for controlling the light source unit 160 so that a light source is supplied;
The controller 140 is installed inside the arm 154 connecting the lighting fixture 150 and the back post 152,
An insect repellent paint surface part 156 is applied to the edge of the lower surface of the lighting device 150,
At one lower side of the lighting device 150, in the absence of the central control server 110, the ambient climate and season of the lighting device 150 to independently operate the lighting device 150 under the control of the controller 140 A sensor unit 158 including a camera sensor for detecting a change situation and a temperature/humidity and illuminance sensor is installed,
The camera sensor detects the climate and seasonal changes of the surrounding smog, fine dust, scab, and black ice of the lighting device 150 so as to selectively supply a red-yellow LED light source or a white LED light source by the light source unit 160 . It is connected to the controller 140,
The temperature-humidity and illuminance sensor is connected to the controller 140 so as to selectively supply a red-yellow LED light source or a white LED light source by the light source unit 160 by sensing the ambient temperature, humidity and illuminance of the lighting device 150, respectively. Lighting system for indoor/outdoor application of insect repellent paint based on tunable wavelength technology. delete delete delete delete delete delete delete delete

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