KR20080095474A - The mark system of light emitting diode for lane derivation and working method thereof - Google Patents

Abstract

A lane guiding LED display system is provided to prevent a traffic accident by controlling a lamp for guiding vehicles through a wireless internet network. An illuminance sensor(100) senses the brightness of an inner part by an external illumination variation. A remote control device(200) receives brightness sensing data from the illuminance sensor and analyzes the data. A lane guiding illumination device(300) receives the brightness data of the light from the remote control device and controls the brightness of the LED lamp by processing the brightness data.

Description

The lane system LED indicator system and its method of operation {The mark system of light emitting diode for lane derivation and working method}

1 is a conceptual diagram of a lane guidance LED indicator system of the present invention.

2 is a conceptual diagram illustrating a control method of a remote control apparatus of the present invention.

3 is a conceptual diagram of a compatible device system of the lane guidance LED indicator system of the present invention.

Figure 4 is a flow chart showing a control method of the lane guidance LED indicator system of the present invention.

The present invention relates to a lane guidance LED indicator system and method, and more particularly, to a system and method for controlling a lamp through an internet network by applying a wireless communication technology.

In general, since a reflector is provided when a vehicle illuminates a light, there is a road sign that reflects the light to produce a visual effect of a driver. A similar product, analogue technology, had only the ON / OFF function of the LED lamp, and it was impossible to control it by connecting to the Internet.

As described above, conventionally, as a function of guiding a vehicle in a lane without considering a state of a vehicle driver, the LED lamp only emits light. In addition, there is a problem that can not adjust the brightness of the light of the LED lamp to tire the eyes of the driver of the vehicle, causing a whitening phenomenon when entering or exiting the tunnel. In addition, when a problem occurs in the product, the self-diagnostic check cannot be performed, which causes the trouble of having to check the product one by one, and there is a problem that scratches, discoloration and deformation of the product appearance occur when used for a long time.

An object of the present invention is to provide a system and method for safely inducing a vehicle for preventing traffic accidents using a wireless communication technology in which an analog form is digitized.

The present invention is an illumination sensor for detecting the brightness of the interior by the change in the illumination of the outside; A remote control device for receiving and analyzing brightness sensing data from the illuminance sensor; And a lane guidance lamp for receiving brightness data of the light from the remote controller and adjusting the brightness of the LED lamp.

In addition, the present invention the first step of the illumination sensor detects the brightness of the interior due to the external illumination change; A second step of receiving, by the remote controller, brightness sensing data from the illuminance sensor; And a third step of adjusting the brightness of the LED lamp by the lane induction light receiving the brightness data of the light from the remote control device.

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

1 is a conceptual diagram of a lane guidance LED indicator system of the present invention. As shown in FIG. 1, the lane guidance LED system includes an illumination sensor 100, a remote control device 200, and a lane guidance light 300.

The illuminance sensor 100 detects the brightness of the interior due to the change in the illuminance of the outside, and can be installed anywhere. For example, an illuminance sensor 100 having a lamp illuminance of 400 lux may be installed where the outdoor illuminance is 100 lux, and an illuminance sensor 100 having a lamp illuminance of 370 lux may be installed where the outdoor illuminance is 70 lux. In addition, where the outdoor illuminance is 40 lux, the illuminance sensor 100 having a lamp illuminance of 350 lux may be installed, and where the outdoor illuminance is 10 lux, the illuminance sensor 100 having the lamp illuminance may be installed at 320 lux.

The remote control apparatus 200 receives and analyzes brightness detection data from the illumination sensor 100. The remote controller 200 may have a built-in GPS module to display time through a satellite, and operation may be set for each time zone. For example, it may be set to have an illuminance of 300 lux from 0 o'clock to 6 o'clock, and an illuminance of 350 lux from 6 o'clock to 12 o'clock. Then, it is possible to set to have an illuminance of 400 lux from 12 to 18 o'clock, and to set to have an illuminance of 350 lux from 18 to 24 o'clock. The time zone operation can also be set by a remote controller or a device for power control such as lane guidance. 100 sets of lane induction lamps can be connected to each remote control device 200. After connecting 100 sets of lane induction lamps, a LAN module, and an illumination sensor 100, AC 90V to AC 240V is applied to the remote control device 200. (free voltage) is applied. In addition, the remote control apparatus 200 and the lane induction light 300 and the lane induction light 300 in the situation room should check whether the wireless communication system for power control is well connected.

Lane induction light 300 receives the brightness data of the light from the remote control device 200 to adjust the brightness of the LED lamp.

2 is a conceptual diagram illustrating a control method of a remote control apparatus of the present invention. As shown in FIG. 2, the remote control apparatus 200 controls the lane induction system and the power control apparatus 400 in the situation room, and controls the lane induction light 300 through the remote control apparatus 200. Can be controlled. And, by using the LAN 500, it is possible to remote control using a wireless anywhere. The remote controller 200 may remotely control the ventilation equipment controller, the power equipment controller, the UDCV, the lighting equipment controller and the transmitter controller. UDCV can control power supply, brightness control, power outage, remote monitoring, and before service.

3 is a conceptual diagram of a compatible device system of the lane guidance LED indicator system of the present invention. As shown in FIG. 3, the compatible device system of the lane guidance LED indicator system is capable of controlling a wireless communication system by inputting an ID and password through the Internet wherever the Internet is used, and has a built-in self-test function. Because of this, you can easily solve problems even when they occur. For example, the use of a surveillance camera, a road street light, a traffic light, an emergency telephone, a fire extinguisher, a CCTV, a traffic signal controller, a disaster prevention facility, lighting, a fan, an electronic board, is mentioned.

Figure 4 is a flow chart showing a control method of the lane guidance LED indicator system of the present invention. As shown in Figure 4, the control method of the lane guidance LED indicator system is as follows.

First, check the interconnection of the illumination sensor, remote control device and lane guidance (S100).

Then, it is checked whether the illuminance sensor, the remote control device and the lane induction, etc. (S200).

Thereafter, the LED lamp is checked to be turned on (S300a), and if it is turned on, the operation of the GPS sensor is checked (S400a), and if it is not lit, an error message such as a lane guidance light is called and fed back to S200 (S300b).

Thereafter, it is checked whether the GPS sensor is operated (400a), and when the operation is performed, the operation of the luminance sensor is checked (S500a). If the operation is not performed, an error message of the GPS sensor is called and fed back to S200 (S400b).

Thereafter, the operation of the luminance sensor is checked (S500a), and when the operation is performed, the wireless home network is connected (S600a). If the operation is not performed, the error message of the luminance sensor is called and fed back to S200 (S500b).

Thereafter, the wireless home network connection is checked (S600a). If the connection is established, data communication is performed through the wireless home network (S700). If the connection is not established, an error message of the wireless home network is called and fed back to S200 (S600b).

After that, by monitoring in the situation room or the control room to control the illumination sensor, remote control device and lane guidance (S800).

1 to 4, the lane guidance LED indicator system is a facility that enables safe and comfortable vehicle operation using wireless communication application technology, the LED is turned on and flashes, and the brightness of the light can be adjusted for outdoor use. By using outdoor illuminance sensor, it is possible to control LED lamp by time zone, illuminance brightness, and four seasons. In addition, there is no problem even if the rainy season or flood caused by waterproofing the product. It is possible to connect up to 100 sets, and can operate for more than 3 hours in case of power failure.

Although the technical concept of the lane guidance LED indicator system and its operation method as described above has been described in conjunction with the accompanying drawings, this is by way of example and not by way of limitation of the present invention. In addition, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit of the present invention.

In the present invention, since there is a risk of pressure and confusion caused by traffic, traffic accidents can be prevented through a lane-guided LED sign system in places such as automobile roads, long bridges, long tunnels, underground roadways, and narrow spaces, which have a high risk of accidents. Prevent accidents and minimize the damage to traffic accidents.

Claims (6)

An illuminance sensor for detecting an internal brightness due to an external illuminance change; A remote control device for receiving and analyzing brightness sensing data from the illuminance sensor; And A lane induction lamp configured to receive brightness data of light from the remote controller and adjust brightness of an LED lamp; Lane guidance LED indicator system comprising a. The method of claim 1, The remote control device is a lane guidance LED indicator system characterized in that the GPS module is built in to display the time through the satellite. The method of claim 1, The remote control device is a lane guidance LED indicator system characterized in that the operation is set for each time zone. The method of claim 3, Lane setting LED indicator system, characterized in that the time zone operation setting of the remote control device can be set to a remote controller or a device for power control, such as lane guidance. The method of claim 1, The remote control device is a lane guidance LED indicator system characterized in that the built-in self-test. A first step of detecting, by the illuminance sensor, the brightness of the interior due to the change in the illuminance; A second step of receiving, by the remote controller, brightness sensing data from the illuminance sensor; And A third step of the lane guidance lamp receiving the brightness data of the light from the remote controller and adjusting the brightness of the LED lamp; Lane guidance LED indicator system operating method comprising a.

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