KR20180067983A - A wireless electric power transmission lighting device - Google Patents

Abstract

A wireless power transmission lighting device according to the present invention includes: a wireless power transmission module which has a transmission coil and a control unit controlling power transmitted from the transmission coil; a frame which has an internal space; a reception coil which is included in the internal space of the frame and generates an induced electromotive force by receiving power from the transmission coil; and a plurality of lighting modules which include a lighting of emitting light by the induced electromotive force generated in the reception coil and are arranged in one side of the wireless power transmission module by being included to be able to be mutually combined. The wireless power transmission lighting device according to the present invention as mentioned above receives power by having reception coils respectively provided in a plurality of lighting modules and is able to implement various kinds of designs by selectively combining and separating the plurality of lighting modules. Moreover, the present invention is able to connect the plurality of lighting modules mutually by including a terminal in a coupling protrusion and is able to transmit and receive uniform power generally regardless of a distance between a transmission coil and a reception coil by connecting the reception coil included in each lighting module through the same.

Description

Technical Field [0001] The present invention relates to a wireless power transmission lighting device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a lighting apparatus, and more particularly, to a wireless power transmission illumination apparatus that emits light by receiving power wirelessly.

Generally, wireless power transmission technology is a technology that can transmit electric power without electric wire, and there are electromagnetic induction type, magnetic resonance type, microwave type, and the like. And so on.

Among the above-mentioned wireless power transmission systems, the electromagnetic induction system includes a transmitting coil and a receiving coil disposed in close proximity to the transmitting coil to generate an electromagnetic field therebetween to transmit electric power. That is, the electromagnetic induction coupling phenomenon between the transmission coil and the reception coil is used to induce electricity from the transmission coil to the reception coil, and induction electromotive force is generated, so that it is used as an efficient method that does not lose power. The lighting device using the electromagnetic induction type wireless power transmission generates electric power by radio by incorporating a wireless power receiver inside the lighting device and emits light by using the generated electric power. And can improve the beauty.

Korean Patent Laid-Open No. 10-2009-0019309 discloses a technique related to a conventional lighting apparatus using wireless power transmission.

However, in the conventional lighting apparatus using wireless power transmission, the reception coil is built up thick inside the lighting apparatus in order to have an appropriate luminous power, so that the capacity becomes large at the time of production and takes up a large volume. In addition, there is a disadvantage in that the power is not received uniformly according to the distance between the transmission coil and the reception coil, so that the light is not uniformly emitted.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a wireless power transmission illumination device which is capable of receiving uniform power and is capable of realizing various types of applications, thereby improving efficiency.

According to an aspect of the present invention, there is provided a wireless power transmission illumination device including: a wireless power transmission module including a transmission coil and a control unit for controlling power transmitted from the transmission coil; A receiving coil provided in an inner space of the frame to receive an electric power from the transmitting coil to generate an induced electromotive force; and an illuminator emitting light by induced electromotive force generated in the receiving coil, And a plurality of illumination modules disposed on one side of the wireless power transmission module.

The lighting module includes a frame having an engaging groove formed at both ends thereof, a frame having an inner space formed therein, engaging protrusions protruding from both ends of the frame and inserted into the engaging grooves of adjacent lighting modules, And a reception coil provided in an inner space of the frame and connected to the illumination unit to receive electric power from the transmission coil to generate an induced electromotive force to emit the illumination light .

The lighting module may further include a linear receiving illumination formed in a shape such that a length of a cross section of the frame is larger than a width of a cross section and a shape in which a length of a cross section of the frame is larger than a width of a cross section, And the bending type reception light may be formed in a " C " shape.

It is preferable that the engaging projections and the engaging grooves are formed at both ends of the frame in the up-and-down and right-and-left symmetry with respect to the center of the frame.

The coupling protrusion may further include a terminal electrically connected to the receiving coil, wherein the coupling groove is electrically connected to the receiving coil, and the contact provided in a position corresponding to the terminal of the adjacent lighting module Terminal for wireless power transmission lighting.

According to the above-described wireless power transmission illumination device of the present invention, each of the plurality of illumination modules is provided with respective reception coils, and each power from the wireless power transmission module is received, And a plurality of lighting modules capable of emitting light can be selectively combined and separated to realize various designs.

In addition, by including the terminals in the coupling protrusions and including the contact terminals in the coupling grooves, the plurality of lighting modules can be connected to each other through which the receiving coils provided in the respective lighting modules are connected, and the distance between the transmitting coil and the receiving coil It is possible to transmit and receive a uniform electric power as a whole.

1 is a perspective view illustrating a wireless power transmission illumination device according to an embodiment of the present invention,
FIG. 2 is a perspective view of an illumination module of the wireless power transmission illumination apparatus shown in FIG. 1,
3 is a cross-sectional view of the lighting module of the wireless power transmission illumination device shown in Fig. 1,
Fig. 4 is a schematic diagram showing the power transmission of the wireless power transmission illuminating device shown in Fig. 1. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, at the time of the present application, It should be understood that variations can be made.

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

1 to 4, the wireless power transmission illumination device 10 according to the embodiment of the present invention is for emitting light by wireless, and can be manufactured in a small size, and can be used as a mood, a sleeping light, Available. The wireless power transmission illumination device 10 includes a wireless power transmission module 100 and a plurality of lighting modules 200.

The wireless power transmission module 100 includes a transmission coil 110 and a control unit 120 for controlling power transmitted from the transmission coil 110. The transmission coil 110 is a coil for supplying electric power to a reception coil 220 to be described later. The transmission coil 110 receives an output current and generates an electromagnetic field to induce the reception coil 220 An electromotive force can be generated. The control unit 120 controls an output current to be transmitted to the transmission coil 110 and can control an electromagnetic field generated from the transmission coil 110. That is, the wireless power transmission module 100 generates an electromagnetic field having an appropriate frequency to supply power to the transmission coil 110 through the control of the controller 120, and the wireless power transmission module 100 supplies A frequency generator for adjusting the frequency of the power supplied from the frequency generator, an amplifier for amplifying and outputting the signal of the frequency generator, and a transformer. That is, the wireless power transmission module 100 may be a module for transmitting commonly used wireless power, and may further include configurations for supplying power to the reception coil 220 to be described later. However, specific configurations included in the wireless power transmission module 100 are known to those skilled in the art, and a detailed description thereof will be omitted here.

The plurality of lighting modules 200 are for emitting light, and are disposed on one side of the wireless power transmission module 100. That is, the plurality of lighting modules 200 are disposed close to one side of the wireless power transmission module 100 so that power can be received from the wireless power transmission module 100. The plurality of illumination modules 200 are coupled to each other and include a frame 210, a reception coil 220, an illumination 230, and a coupling protrusion 240.

The frame 210 has an inner space 211 formed therein. Further, coupling grooves 212 are formed at both ends of the frame 210, respectively. That is, it is preferable that a pair of coupling grooves 212 are formed at both ends of the frame 210. The coupling groove 212 may be formed to correspond to the shape and the size of the coupling protrusion 240. In this case, Also, it is preferable that the frame 210 has a slim shape such that the length of the cross section is longer than the width of the cross section. In addition, the frame 210 is preferably made of a material through which light of an illumination to be described later can pass.

The receiving coil 220 is provided in the internal space 211 of the frame 210 and receives electric power from the transmitting coil 110 to generate an induced electromotive force. That is, the reception coil 220 can receive the electromagnetic field generated from the transmission coil 110, and induction electromotive force can be generated by the transmitted electromagnetic field. The receiving coil 220 may be disposed within 10 cm from the transmitting coil 110 to receive the electromagnetic field from the receiving coil 220. [ The receiving coil 220 may be connected to the illumination 230 to be described later to emit the light 230. More specifically, the receiving coil 220 may be formed by using the induced electromotive force generated from the receiving coil 220 The light 230 can be emitted.

The illumination unit 230 is disposed in the inner space 211 of the frame 210 and emits light by induced electromotive force generated in the reception coil 220. That is, the illumination 230 may be connected to the reception coil 220 to emit the induced electromotive force generated from the reception coil 220 to emit light. Preferably, the illumination 230 is an LED (Light Emitting Diode) illumination.

The coupling protrusions 240 are formed to protrude from both ends of the frame 210 to couple the plurality of lighting modules 200 together. It is preferable that a pair of coupling protrusions 240 are formed at both ends of the frame 210 and the coupling protrusions 240 of one lighting module 200 are connected to the coupling grooves of the adjacent lighting modules 200 212, the plurality of illumination modules 200 can be coupled to each other.

The coupling protrusion 240 may further include a terminal 241 and the coupling groove 212 may further include a contact terminal 213.

 The terminal 241 is electrically connected to the receiving coil 220 and can connect the receiving coils 220 of the plurality of the lighting modules 200 with each other. The terminal 241 may be provided at an end of the coupling protrusion 240.

The contact terminal 213 is electrically connected to the receiving coil 220 and is provided at a position corresponding to the terminal 241 of the adjacent lighting module 200. That is, the contact terminal 213 is configured to be in contact with the terminal 241 of the adjacent lighting module 200, and is disposed inside the coupling groove 212. When the coupling protrusion 240 of one lighting module 200 is inserted into the coupling groove 212 of another adjacent lighting module 200, And the contact terminals 213 provided in the adjacent lighting module 200 may be in contact with each other. The terminals 241 of the lighting module 200 adjacent to the contact terminal 213 are provided so as to be in contact with each other so that the receiving coils 220 provided in the plurality of lighting modules 200 are connected to each other And it is possible to supply uniform power to the lighting module 200 located at a relatively far position from the wireless power transmission module 100 and to realize various designs.

The coupling protrusions 240 and the coupling grooves 212 may be formed on both ends of the frame 210 so as to be symmetrical with respect to the center of the frame 210. That is, the pair of coupling protrusions 240 are formed at both ends of the frame 210 in the up-and-down direction and the left-right symmetry with respect to the center of the frame 210, And is formed symmetrically with respect to the center of the frame 210 at both ends of the frame 210 in the up and down and left and right directions. More specifically, the coupling protrusion 240 is formed on one side of one end of the frame 210, the coupling groove 212 is formed on the other side of one end of the frame 210, The coupling groove 212 is formed on one side of the other end of the frame 210 and the coupling protrusion 240 is formed on the other side of the other side of the frame 210. The coupling protrusions 240 and the coupling grooves 210 are vertically and horizontally symmetrical with respect to the center of the frame 210 so that when the plurality of lighting modules 200 are coupled to each other, It is possible to enhance the stability of the use of the illumination.

Meanwhile, the lighting module 200 may include a linear receiving light 201 and a folding receiving light 202.

The rectilinear reception lamp 201 is formed in a shape having a length larger than a width of a cross section of the frame 210 and a straight line shape.

The bending type receiving light 202 is formed such that a length of a cross section of the frame 210 is larger than a width of a cross section, and both ends of the frame 210 are bent. That is, the bending type reception light 202 is preferably formed in a 'C' shape.

The lighting module 200 is formed of a linear receiving illumination 201 and a bending type receiving illumination 202 so that the linear receiving illumination 201 and the bending type receiving illumination 202 are mixed appropriately and joined together, Can be implemented. However, the shape of the lighting module 200 is not limited to a straight line or a bent line, but may be applied to various shapes that can be coupled with each other.

According to the wireless power transmission illumination device 10 of the present invention as described above, each of the plurality of illumination modules 200 is provided with the respective reception coils 220 so that each power from the wireless power transmission module 100 It is possible to efficiently emit the illumination 230, and various designs can be realized by selectively combining and separating the plurality of illumination modules 200 which emit light.

The plurality of lighting modules 200 can be connected to each other by including the terminals 241 in the coupling protrusions 240 and the contact terminals 213 in the coupling recesses 212, 200 are connected to each other so that uniform power transmission and reception can be performed irrespective of the distance between the transmission coil 110 and the reception coil 220.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: wireless power transmission lighting device 100: wireless power transmission module
110: transmitting coil 120:
200: illumination module 201: linear reception illumination
202: Bending type reception light 210: Frame
211: inner space 212: engaging groove
213: contact terminal 220: receiving coil
230: illumination light 240: coupling projection
241: terminal

Claims (6)

A transmission coil, and a control unit for controlling power transmitted from the transmission coil; And
A frame having an inner space formed therein,
A receiving coil provided in an inner space of the frame for receiving electric power from the transmitting coil to generate an induced electromotive force;
And a plurality of lighting modules disposed on one side of the wireless power transmission module, the plurality of lighting modules being capable of mutually coupling with each other, including illumination for emitting light by induced electromotive force generated in the reception coil. The method according to claim 1,
The lighting module includes:
A frame having an inner space formed with coupling grooves at both ends thereof,
An engaging projection formed to protrude from both ends of the frame and inserted into the engaging groove of the adjacent lighting module,
A light emitting unit located in an inner space of the frame,
And a reception coil provided in an inner space of the frame and connected to the illumination unit to receive electric power from the transmission coil to generate an induced electromotive force to emit the illumination. The method of claim 2,
The lighting module includes:
A linear receiving light having a shape in which a length of a cross section of the frame is larger than a width of a cross section,
And a bending type reception light in which a length of a cross section of the frame is formed to be larger than a width of a cross section, and both ends of the frame are formed by bending. The method of claim 3,
In the bending type reception light,
Wherein the light emitting device is formed in a 'C' shape. The method of claim 2,
And the engaging projection and the engaging groove are engaged with each other,
Each of which is formed at both ends of the frame, vertically and horizontally symmetrically with respect to the center of the frame. The method according to any one of claims 1 to 5,
The engaging projection
Further comprising a terminal electrically connected to the receiving coil,
The coupling groove
And a contact terminal electrically connected to the reception coil and provided at a position corresponding to the terminal of the adjacent illumination module.

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