KR20170119657A - Lame light emitting device using wireless power transmission technology - Google Patents

Abstract

The present invention relates to a method of manufacturing a wireless communication device, which is manufactured by embedding a primary coil for generating a magnetic field on a road and painting an LED connected to a secondary coil to which the magnetic field is guided together with transparent / translucent light- To a lane lighting apparatus using a power transmission technique. According to the present invention, a lane lighting apparatus using a wireless power transmission technology includes a magnetic field generator for generating a magnetic field embedded in a road; And a light emitting portion painted with a transparent or translucent light transmission paint on the lane drawn portion on the road so as to emit electromotive force by the magnetic field generated by the magnetic field generating portion.

Description

TECHNICAL FIELD [0001] The present invention relates to a lane light emitting device using a wireless power transmission technology,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lane lighting apparatus using a wireless power transmission technology, and more particularly to a lane lighting apparatus in which a primary coil for generating a magnetic field is embedded in a road and a transparent / translucent luminescence transmission paint is applied to the lane- To a lane light emitting device using a wireless power transmission technique, which is manufactured by painting an LED connected to a secondary coil.

Generally, the lane of the road is caused by the illumination of the external light or the headlights of the vehicle, and when the rain and the snow fall, the lane is not visible to the driver depending on the total reflection characteristic of the water, thereby increasing the driver's fatigue, .

Conventionally, as disclosed in, for example, Japanese Patent Laid-Open Publication No. 2000-0056810, in a method of displaying a lane on a road, a conventional lane marking method has a method of forming a groove by a width of a lane on a road that has already been formed, And filling the resulting light emitting material.

The conventional luminescent road lane marking method thus constructed is effective in improving the stability of night operation and providing a semi-permanent lifetime. However, since the luminescent material containing a fluorescent material and a colorant is used, There is a problem in that it is vulnerable to.

Furthermore, when a light emitting body such as a lamp or a LED is installed in a lane to improve the light emitting performance, there is a high possibility that the vehicle is damaged due to the impact of the vehicle, high temperature, cold or the like, Accordingly, there is a need for a lane lighting system capable of easily replacing consumable LED parts without affecting the power supply system.

Accordingly, it is an object of the present invention to provide a lane lighting apparatus using a wireless power transmission technology, which is easy to replace consumable LEDs.

Further, another object of the present invention is to provide a lane lighting apparatus using a wireless power transmission technique, in which arrangement of LEDs during installation is free.

According to an aspect of the present invention, there is provided a lane lighting system using a wireless power transmission technology, including: a magnetic field generator embedded in a road to generate a magnetic field; And a light emitting part painted with a transparent or translucent light transmission paint on the lane painted part on the road to emit electromotive force by the magnetic field generated by the magnetic field generating part.

In the lane lighting apparatus using the wireless power transmission technique according to the above embodiment, the magnetic field generating unit may include an electric wire supplied with an AC power source, and a plurality of primary coils connected to the electric wire, ; Wherein the light emitting unit includes a plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils and a plurality of LEDs configured to emit light by electromotive force connected to both ends of each of the plurality of secondary coils, . ≪ / RTI >

In the lane lighting apparatus using the wireless power transmission technique according to the above embodiment, the magnetic field generating unit may include a frequency converter configured to receive the AC power and change the frequency, a wire to which the frequency-changed AC power is supplied by the frequency converter, And a plurality of primary coils connected to the electric wires to receive the AC power to generate a magnetic field; Wherein the light emitting unit includes a plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils and a plurality of LEDs configured to emit light by electromotive force connected to both ends of each of the plurality of secondary coils, . ≪ / RTI >

In the lane lighting apparatus using the wireless power transmission technology according to the above embodiment, the magnetic field generating unit may include an electric wire to which the DC power is supplied, an RF circuit configured to receive the DC power from the electric wire and change the AC power to the AC power, And a plurality of primary coils connected to the plurality of primary coils for receiving the AC power to generate a magnetic field; Wherein the light emitting unit includes a plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils and a plurality of LEDs configured to emit light by electromotive force connected to both ends of each of the plurality of secondary coils, . ≪ / RTI >

In the lane lighting apparatus using the wireless power transmission technology according to the above embodiment, the magnetic field generator may include an RF circuit configured to receive DC power and change the AC power to an AC power source, And a plurality of primary coils connected to the electric wires and adapted to receive an AC power to generate a magnetic field; Wherein the light emitting unit includes a plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils and a plurality of LEDs configured to emit light by electromotive force connected to both ends of each of the plurality of secondary coils, . ≪ / RTI >

In the lane lighting apparatus using the wireless power transmission technique according to the above embodiment, the length of the secondary coil may be determined according to the frequency of the induced electromotive force.

According to an embodiment of the present invention, there is provided a lane lighting apparatus using a wireless power transmission technology, comprising: a magnetic field generator for generating a magnetic field buried in a road; and a magnetic field generator for generating an electromotive force by the magnetic field generated by the magnetic field generator, And a light emitting portion painted with a transparent or semitransparent light transmission paint on the lane painted portion on the road. Thus, it is easy to replace the light emitting portion including the consumable LED.

According to the lane lighting apparatus using the wireless power transmission technique according to the embodiment of the present invention, there is provided a lane lighting apparatus comprising: a magnetic field generator for generating a magnetic field buried in a road; and a magnetic field generator for generating electromotive force by the magnetic field generated by the magnetic field generator, A luminescent portion painted with a transparent or translucent light transmission paint on the lane painted portion on the road for the purpose of enhancing the luminescent performance of the vehicle; The magnetic field generator includes a frequency converter configured to receive an AC power and change a frequency thereof, a wire to which the frequency-changed AC power is supplied by the frequency converter, and a plurality of primary coils connected to the wire, ; Wherein the light emitting unit includes a plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils and a plurality of LEDs configured to emit light by electromotive force connected to both ends of each of the plurality of secondary coils, So that the length of the secondary coil is shortened when the frequency converter is adjusted to generate the AC power of the high frequency. Another advantage is that if the length of the secondary coil is shortened, the arrangement of the LEDs can be freely arranged.

1 is an installation view of a lane lighting apparatus using a wireless power transmission technology according to a first embodiment of the present invention.
2 is an installation view of a lane lighting device using a wireless power transmission technique according to a second embodiment of the present invention.

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

[First Embodiment]

1 is an installation view of a lane lighting apparatus using a wireless power transmission technology according to a first embodiment of the present invention.

As shown in FIG. 1, a lane lighting apparatus using a wireless power transmission technology according to a first embodiment of the present invention includes a magnetic field generator 10 and a light emitting unit 20.

The magnetic field generator 10 is embedded in a road and generates a magnetic field by receiving an AC power source (for example, a commercial power source). The magnetic field generator 10 includes an electric wire L supplied with an AC power source (for example, AC 100 volts or 220 volts) And a plurality of primary coils (100, 100 ') connected in parallel to the electric wire (L) to receive the alternating current power to generate a magnetic field.

The light emitting portion 20 is formed by being painted with a transparent or translucent light transmission paint on a lane drawn portion on the road so that an electromotive force is induced by the magnetic field generated by the magnetic field generating portion 10 and emitted by this electromotive force. The light emitting unit 20 includes a plurality of secondary coils 200, 200 ', 200 "configured to induce an electromotive force by a magnetic field generated by the primary coils 100, 100', and a plurality of secondary coils (300, 300 ', 300 ") configured to be connected to both ends of each of the first, second, third, fourth, fifth, sixth, seventh, do. The secondary coils 200, 200 ', 200 "must be located at a distance where the electromotive force can be induced by the magnetic field generated by the primary coils 100, 100', and the primary coils 100, 100 ' As shown in Fig.

The manufacturing process of the lane lighting apparatus using the wireless power transmission technology according to the first embodiment of the present invention constituted as described above will be briefly described.

First, the magnetic field generating unit 10 is disposed in the lower part of the road, and the road paving work is performed.

Next, the secondary coils 200, 200 ', 200 "of the light emitting unit 20 are controlled so that the electromotive force is easily induced by the magnetic field generated from the primary coils 100, 100' of the magnetic field generating unit 10 Spaced apart by an interval and arranged in parallel with the primary coils 100 and 100 'and then painting with a transparent or translucent light transmitting paint to complete the fabrication process.

The lane lighting apparatus using the wireless power transmission technology according to the first embodiment of the present invention includes a magnetic field generator 10 embedded in a road to generate a magnetic field, Since the light emitting portion 20 includes the light emitting portion 20 painted with the transparent or semi-transparent light transmission paint on the lane drawn portion on the road to emit the electromotive force, The light emitting portion 20 is separated from the lane painted portion and then the new light emitting portion 20 is arranged as described above and painted with the transparent or translucent light transmission paint, 300, 300 ', 300 ") can be easily replaced

[Second Embodiment]

2 is an installation view of a lane lighting device using a wireless power transmission technique according to a second embodiment of the present invention.

The lane lighting apparatus using the wireless power transmission technology according to the second embodiment of the present invention includes a magnetic field generator 10 'and a light emitting unit 20' as shown in FIG.

The magnetic field generator 10 'includes a frequency converter Z configured to receive an AC power and change its frequency, a wire L supplied with an AC power source whose frequency is changed by the frequency converter Z, and a wire L And a plurality of primary coils (100, 100 ') for receiving a changed AC power source to generate a magnetic field. The frequency converter Z can change the frequency of the AC alternating current power of 60 Hz and 120 Hz from several Hz to several hundred MHz and thereby change the frequency of the electromotive force induced in the secondary coils 200, 200 ', 200 " The length of the secondary coils 200, 200 ', 200 "must be shortened as the frequency increases, and the length of the secondary coils 200, 200', 200" must be appropriately designed according to the frequency .

The light emitting unit 20 'includes a plurality of secondary coils 200, 200', 200 "configured to induce an electromotive force by a magnetic field generated by the primary coils 100, 100 ' And a plurality of LEDs 300, 300 ', 300 "configured to emit light by induced electromotive force connected to both ends of each of the secondary coils 200, 200', 200 & ) Is determined by the frequency of the induced electromotive force. The higher the frequency, the shorter the length of the coil should be designed.

The lane lighting apparatus using the wireless power transmission technology according to the second embodiment of the present invention includes a magnetic field generator 10 'that generates a magnetic field buried in a road and a magnetic field generator 10' Includes a light emitting portion 20 ', which is painted with a transparent or translucent light transmission paint on a lane painted portion on the road to emit electromotive force by the electromotive force, The magnetic field generator 10 'includes a frequency converter Z configured to receive an AC power and change a frequency thereof, a wire L supplied with an AC power source having a frequency changed by the frequency converter Z, And a plurality of primary coils (100, 100 ') connected to receive an AC power to generate a magnetic field; The light emitting unit 20 'includes a plurality of secondary coils 200, 200', 200 "configured to induce an electromotive force by a magnetic field generated by the primary coils 100, 100 ' And a plurality of LEDs (300, 300 ', 300 ") connected to both ends of each of the car coils (200, 200', 200") and configured to emit light by induced electromotive force, The length of the secondary coils 200, 200 ', 200 "must be shortened and the length of the secondary coils 200, 200', 200" 300 ', 300' 'may be freely arranged.

In the first and second embodiments of the present invention, the magnetic field generators 10 and 10 'use an AC power source, but use a DC power source. When the DC power source is used, the magnetic field generators 10 and 10 'must further include an RF circuit that receives the DC power and changes the AC power to the AC power.

Although the best mode has been shown and described in the drawings and specification, certain terminology has been used for the purpose of describing the embodiments of the invention and is not intended to be limiting or to limit the scope of the invention described in the claims. It is not. Therefore, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10, 10 ': a magnetic field generator 20, 20'
Z: Frequency converter L: Wires
100, 100 ': primary coil 200, 200', 200 ": secondary coil
300, 300 ', 300 ": LED

Claims (5)

A magnetic field generator embedded in the road to generate a magnetic field;
A light emitting portion painted with a transparent or translucent light transmission paint on a lane painted portion on the road to emit electromotive force by the magnetic field generated by the magnetic field generator;
The magnetic field generator
AC-powered wires,
A plurality of primary coils connected to the electric wires to receive an AC power to generate a magnetic field;
The light-
A plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils,
And a plurality of LEDs connected to both ends of each of the plurality of secondary coils and configured to emit light by induced electromotive force. The method according to claim 1,
The magnetic field generator
A frequency converter configured to receive the AC power and change the frequency,
An electric wire supplied with the frequency-changed AC power from the frequency converter, and
A plurality of primary coils connected to the electric wires to receive an AC power to generate a magnetic field;
The light-
A plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils,
And a plurality of LEDs connected to both ends of each of the plurality of secondary coils and configured to emit light by induced electromotive force. The method according to claim 1,
The magnetic field generator
DC power supplied wires,
An RF circuit configured to receive a DC power from the electric wire and change the AC power to an AC power;
And a plurality of primary coils connected to the RF circuit to receive an AC power to generate a magnetic field;
The light-
A plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils,
And a plurality of LEDs connected to both ends of each of the plurality of secondary coils and configured to emit light by induced electromotive force. The method according to claim 1,
The magnetic field generator
An RF circuit configured to receive a DC power and change the AC power to an AC power,
A frequency converter configured to receive the AC power from the RF circuit to change the frequency,
An electric wire supplied with the frequency-changed AC power from the frequency converter, and
And a plurality of primary coils connected to the electric wires to receive an AC power to generate a magnetic field;
The light-
A plurality of secondary coils configured to induce an electromotive force by a magnetic field generated by the primary coils,
And a plurality of LEDs connected to both ends of each of the plurality of secondary coils and configured to emit light by induced electromotive force. The method according to claim 2 or 4,
Wherein the length of the secondary coil is determined according to a frequency of induced electromotive force.

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