KR20130012854A - Lighting apparatus - Google Patents

Abstract

PURPOSE: A lighting device is provided to prevent installation costs by fixing a lighting lamp through a magnetic force. CONSTITUTION: A transmission coil unit(200) is arranged the outside of a magnetic force generator. The transmission coil unit generates resonance with magnetic induction. The transmission coil unit transmits voltages by generating a non-radiative radio wave. A lighting lamp(400) is fixed with a magnetic force of the magnetic force generator. A receiving coil unit(500) supplies power to the lighting lamp.

Description

LIGHTING APPARATUS

The present invention relates to a lighting device, and more particularly to a lighting device for improving the installation freedom.

In general, LED (Light Emitting Diode, LED) does not need to use the hazardous materials used in conventional fluorescent lamps, that is, mercury, and the power consumption is reduced compared to fluorescent lamps, the lifespan is 3-4 times longer than fluorescent lamps.

Such LEDs can achieve energy saving effects, and thus, development of lighting devices using LEDs is being actively performed.

However, the conventional LED lighting device is mostly fixed to the ceiling or wall, which causes a problem that the limit of the installation site and installation cost increases.

In order to solve the above problems, an object of the present invention is to provide a lighting device for increasing the degree of freedom of installation of the lighting device.

It is also an object of the present invention to provide a lighting device for reducing the installation cost of the lighting device.

In order to achieve the above object, the lighting apparatus of the present invention is a magnetic force generating unit, a transmission coil unit which is disposed outside the magnetic force generating unit to generate resonance by magnetic induction to generate a non-radioactive radio wave, and the The lighting lamp is fixed by the magnetic force of the magnetic force generating unit, and the receiving coil unit disposed on one side of the lighting lamp receives power at the same resonant frequency from the transmitting coil unit to supply power to the lighting lamp.

According to the present invention, by fixing the illumination lamp by magnetic force, it is possible to prevent additional installation cost.

In addition, the present invention can be easily changed in the installation position according to the position of the illumination lamp and the magnetic force generating unit has the effect of increasing the installation freedom.

1 and 2 are a perspective view and a cross-sectional view showing a lighting device according to the present invention.
3 is a cross-sectional view showing the operation of the lighting apparatus according to the present invention.
4 is a cross-sectional view showing a modification of the lighting apparatus according to the present invention.

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

1 and 2 are a perspective view and a cross-sectional view showing a lighting device according to the present invention, Figure 3 is a cross-sectional view showing the operation of the lighting device according to the present invention.

1 and 2, the lighting apparatus according to the present invention is disposed outside the magnetic force generating unit 100 and the magnetic force generating unit 100 to generate resonance by magnetic induction to generate non-radio wave electric power. Transmitting coil unit 200 for transmitting the light, the illumination lamp 400 is fixed by the magnetic force of the magnetic force generating unit 100, and disposed on one side of the illumination lamp 400 is the same from the transmitting coil unit 200 It may include a receiving coil unit 500 for receiving power at a resonant frequency and supplying power to the lighting lamp 400. The magnetic force generating unit 100 is disposed above the fixed member, for example, the ceiling (w). It may be, and can be stably fixed to the upper portion of the ceiling (w) by an adhesive member or a fixing member.

The magnetic force generating unit 100 may be formed in a cylindrical shape having a predetermined thickness. Alternatively, the magnetic force generating unit 100 may be formed in a polygonal shape, such as a triangle and a polygon. Here, a permanent magnet may be used as the magnetic force generating unit 100.

The transmission coil unit 200 may be disposed outside the magnetic force generating unit 100.

The transmission coil unit 200 may be formed by being wound outside the magnetic force generating unit 100 and may include a transmission induction coil 220 and a transmission resonance coil 240.

The transmission induction coil 220 serves to apply power. For this purpose, the transmission induction coil 220 may further include a power supply inverter 300 for supplying a predetermined power.

The power supply inverter 300 may generate normal commercial power to supply power to the transmission induction coil 220.

The transmission resonant coil 240 may generate non-radioactive electromagnetic waves by resonance due to magnetic induction with the transmission induction coil 220, and on one side of the transmission resonant coil 240, a variable element for adjusting the resonant frequency (not shown). For example, a capacitor may be provided.

The other side of the ceiling (w) may be an illumination lamp 400 for generating light by the power supplied from the transmitting coil unit 200 may be disposed.

The lighting lamp 400 serves to generate light, and mainly an LED may be used. Of course, the lighting lamp 400 may be used in addition to LED, OLED, general discharge lamp.

The receiving coil unit 500 may be disposed at one side of the lighting lamp 400. The receiving coil unit 500 is wound around the lighting lamp 400, and receives power transmitted by the magnetic resonance method from the transmitting coil unit 200 to supply power to the lighting lamp 400.

To this end, the receiving coil unit 500 may include a receiving induction coil 520 and a receiving resonance coil 540.

The reception resonant coil 540 receives power transmitted from the transmission resonant coil 240 and may be induced by a magnetic resonance method in which power is supplied at the same resonant frequency.

Here, a separate variable element (not shown) may be further provided in the reception resonant coil 540 to adjust the resonance frequency, and the variable element may be provided only at one side of the transmission resonant coil 240 or the reception resonant coil 540. It may be provided.

As described above, power induced in the reception resonance coil 540 may be transmitted to the reception induction coil 520 by an electromagnetic induction method.

On the other hand, the upper portion of the illumination lamp 400 may be further provided with a permanent magnet 600.

The permanent magnet 600 is fixed to the upper portion of the lighting lamp 400 may be stably fixed to the lower surface of the ceiling (w) by the magnetic force generating unit 100 disposed on the upper surface of the ceiling (w).

From this, the lighting lamp 400 can be installed freely without being limited to a predetermined area of the ceiling (w) without additional installation cost.

As shown in FIG. 3, when commercial power is supplied from the power supply inverter to the transmission induction coil 220, high frequency power flows through the transmission induction coil 220, and the transmission induction coil 220 and the transmission resonance coil 240 are used. ) Electromagnetic induction occurs between them.

The transmit resonant coil 240 transmits non-radiative energy by a magnetic resonance method, and the transmitted energy is received by the receive resonant coil 540 at the same resonant frequency, and finally by the receive induction coil 520 in the electromagnetic induction method. Can be induced.

As described above, the power induced in the reception induction coil 520 generates power by supplying power to the illumination lamp 400.

Here, the ceiling (w) disposed between the transmitting coil unit 200 and the receiving coil unit 500 may be formed of a material other than metal so that power can be transmitted smoothly by a magnetic resonance method, in particular, asbestos It may be formed of a material including wood.

At this time, the lighting lamp 400 may be stably fixed to one side of the ceiling (w) by the magnetic force generating unit 100.

As described above, according to the present invention, the lighting lamp 400 is stably fixed to one side of the ceiling w by the magnetic force generated by the magnetic force generating unit, thereby preventing an additional installation cost.

In addition, the present invention can be easily changed in the installation position according to the position of the illumination lamp 400 and the magnetic force generating unit 100 has the effect of increasing the installation freedom.

Although one illumination lamp is installed in the magnetic force generating unit, the present invention is not limited thereto and may be configured as follows.

As shown in FIG. 4, the lighting apparatus according to a modification of the present invention includes a plurality of lighting lamps 400 and a magnetic force generating unit 100 for fixing the plurality of lighting lamps 400 to one side of the ceiling by magnetic force. And, it may include a transmitting coil unit 200 and a receiving coil unit 500 for transmitting power by a magnetic resonance method.

The magnetic force generating unit 100 may be installed over the upper front surface of the ceiling (w), the magnetic force generating unit 220 may be formed large enough for this purpose.

The transmission coil unit 200 may be wound around the magnetic force generating unit 100, and the transmission coil unit 200 may further include an inverter 300 for supplying commercial power.

The plurality of lighting lamps 400 may be disposed on the lower surface of the ceiling w, and the plurality of lighting lamps 400 may be disposed at positions corresponding to the magnetic force generating unit 100.

From this, the plurality of lighting lamps 400 may be fixed by one magnetic force generator 100. In addition, the plurality of lighting lamps 400 may receive power from the transmitting coil unit 200 disposed outside the magnetic force generating unit 100, and the lighting lamps may be supplied by the power supplied from the transmitting coil unit 200. 400) brightness can be adjusted.

To this end, the number of windings of the receiving coil unit 500 wound on the outside of the plurality of lighting lamps 400 may be formed differently.

Each of the receiving coil units 500, for example, the receiving induction coil 520 and the receiving resonance coil 540 may be wound around the illumination lamp 400.

Among these, the receiving induction coil 520 serves to supply power to the lighting lamp 400, and if the receiving induction coil 520 is formed less than the number of turns of the transmitting induction coil 220, the lighting lamp 400 Less power can be supplied.

Therefore, when the number of windings of the receiving induction coil 520 provided in the plurality of lighting lamps 400 are all set differently, the plurality of lighting lamps 400 may be supplied with different amounts of power to have different brightnesses.

In the above, the installation of the lamp and the magnetic force generating unit on the ceiling has been described as an example, but the present invention is not limited thereto and may be applied to various areas such as a wall and a stand.

Although described above with reference to the drawings and embodiments, those skilled in the art that the present invention can be variously modified and changed within the scope without departing from the spirit of the invention described in the claims below I can understand.

100: magnetic force generating unit 200: transmission coil unit
300: inductor 400: lighting lamp
500: receiving coil unit 600: permanent magnet

Claims (8)

Magnetic force generating unit;
A transmission coil part disposed outside the magnetic force generation part to generate resonance by magnetic induction to generate non-radio wave, and to transmit electric power;
An illumination lamp fixed by a magnetic force of the magnetic force generator; And
A receiving coil unit disposed at one side of the lighting lamp to receive power from the transmitting coil unit at the same resonant frequency and supply power to the lighting lamp;
≪ / RTI > The method according to claim 1,
The transmission coil unit includes a transmission induction coil for generating power and a transmission resonance coil having an inherent resonance frequency and generating a non-radio wave by causing resonance by the transmission induction coil and magnetic induction, and the reception coil unit transmits the transmission coil. And a receiving resonant coil receiving electric power at the same resonance frequency as the coil unit, and a receiving induction coil inducing electric power from the receiving resonant coil. The method according to claim 2,
A lighting device connected to the transmission induction coil power supply inverter. The method according to claim 1,
The lighting lamp further comprises a permanent magnet to be attached by the magnetic force generating portion and the magnetic force. The method according to claim 2,
The lighting lamp is provided with a plurality, the plurality of lighting lamps are supplied with power from one transmitting coil unit. The method according to claim 5,
The lighting device is formed by winding the receiving induction coils of different windings on the plurality of lighting lamps. The method according to claim 1,
A fixing device is provided between the magnetic force generating unit and the lighting lamp. The method of claim 7,
The fixing member includes an asbestos, wood lighting device

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