KR102105341B1 - LED lighting apparatus including multi-receivers - Google Patents

Abstract

Disclosed is an LED lighting apparatus including a multi-receiver, capable of stably receiving an infrared (IR) signal generated from a remote controller. According to the present invention, the LED lighting apparatus comprises: a diffusion plate; a reflector facing the diffusion plate, having a first opening formed at a first position, and having a second opening formed at a second position spaced apart from the first position; a first window disposed in the first opening of the reflector and made of a transparent material; a second window disposed in the second opening of the reflector and made of a transparent material; an LED module providing LED light in a region between the diffusion plate and the reflector; a lighting frame disposed on the rear surface of the reflector along an edge region of the reflector; a first reception unit disposed on the rear surface of the first window and receiving the IR signal transmitted from the remote controller; a second reception unit disposed on the rear surface of the second window and receiving the IR signal transmitted from the remote controller; and a control unit receiving the IR signal from the first and second reception units and controlling the LED module in accordance with the IR signal.

Description

LED lighting apparatus including multi-receivers

The present invention relates to an LED lighting device, and more particularly, to an LED lighting device having a multi-receiving unit.

In general, LED lighting lamps are applied as lighting lamps installed in indoor ceilings or side walls of homes and offices. The LED light is super lightweight and has a thin thickness, so it is excellent in construction, and it is possible to create a comfortable and comfortable atmosphere. And the interior effect is excellent because there is no shade. In addition, the LED lighting can be adjusted on / off as well as brightness, and can be controlled with a remote control for convenience.

When controlled by the remote control, a receiver for receiving the IR signal generated from the remote control is mounted on the LED light. The receiver is embedded in the ceiling or sidewall without being exposed to the outside for the interior effect, but there is a problem that the IR signal is not properly received depending on the position of the remote control.

The present invention provides an LED lighting device having a dual receiver capable of stably receiving an IR signal generated from a remote control.

In addition, the present invention provides a LED lighting device that can be controlled by a remote control and has a multi-receiving unit with excellent interior effect.

An LED lighting device having a multi-receiving unit according to the present invention includes a diffusion plate; A reflector disposed opposite to the diffusion plate, a first opening formed at a first point, and a second opening formed at a second point spaced apart from the first point; A first window provided in the first opening of the reflector and provided with a light transmissive material; A second window provided at the second opening of the reflector and made of a light transmissive material; An LED module that provides LED light in a region between the diffusion plate and the reflector; An illumination frame provided along an edge region of the reflector at a rear surface of the reflector; A first receiving unit located at the rear of the first window and receiving an IR signal transmitted from a remote controller; A second receiver located at the rear of the second window and receiving an IR signal transmitted from the remote controller; The IR signal is transmitted from the first receiver and the second receiver, and includes a controller that controls the LED module according to the IR signal.

Further, the control unit compares the frequency information of the IR signal transmitted from the first receiver and the IR signal transmitted from the second receiver, and when the frequency information is the same, the IR signal transmitted from the first receiver and the second 2The LED module is controlled by any one of the IR signals transmitted from the receiver, and when the frequency information is different, the LED module may be controlled according to the time sequence in which the IR signals are received.

In addition, the first case is provided on the rear surface of the first window, the space in which the first receiving portion is located inside; And a second case provided on a rear surface of the second window and having a space in which the second receiving part is located inside, an amount facing each other with the first receiving part interposed between the inner surfaces of the first case. A reflective layer may be coated on a side surface, and reflective surfaces may be coated on both side surfaces of the inner surface of the second case facing each other with the second receiving unit interposed therebetween.

In addition, the lighting frame is a first rod; A second rod disposed parallel to the first rod; A third rod connecting one end of the first rod and one end of the second rod; And a fourth rod connecting the other end of the first rod and the other end of the second rod, wherein the first opening is formed on one side of the first rod, and the second opening is of the second rod. It can be formed on one side.

According to the present invention, as the first receiver and the second receiver are located at different points, the IR signal can be stably received at least one of the first receiver and the second receiver regardless of the position of the remote controller.

In addition, according to the present invention, since the first receiver and the second receiver are embedded in the ceiling or side walls, the appearance of the LED lighting device can be improved.

1 is a view showing an indoor LED lighting device having a multi-receiving unit according to a first embodiment of the present invention.
FIG. 2 is a view showing the rear surface of the LED lighting device having the multi-receiving unit of FIG. 1.
3 is an exploded perspective view showing the lighting unit of FIG. 1.
4 is a perspective view showing a first case according to an embodiment of the present invention.
5 is a cross-sectional view taken along line AB in FIG. 4.
6 is a view showing first and second cases according to another embodiment of the present invention.
7 is a view showing first and second cases according to another embodiment of the present invention.
8 is a view showing an LED lighting device having a multi-receiving unit according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the technical spirit of the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed contents are thorough and complete and that the spirit of the present invention is sufficiently conveyed to those skilled in the art.

In the present specification, when a component is referred to as being on another component, it means that it may be formed directly on another component, or a third component may be interposed between them. In addition, in the drawings, the thickness of the films and regions are exaggerated for effective description of the technical content.

Further, in various embodiments of the present specification, terms such as first, second, and third are used to describe various components, but these components should not be limited by these terms. These terms are only used to distinguish one component from another component. Therefore, what is referred to as the first component in one embodiment may be referred to as the second component in another embodiment. Each embodiment described and illustrated herein also includes its complementary embodiment. Also, in this specification, 'and / or' is used to mean including at least one of the components listed before and after.

In the specification, a singular expression includes a plural expression unless the context clearly indicates otherwise. Also, terms such as “include” or “have” are intended to indicate the presence of features, numbers, steps, elements or combinations thereof described in the specification, and one or more other features, numbers, steps, or configurations. It should not be understood as excluding the possibility of the presence or addition of elements or combinations thereof. In addition, in this specification, "connecting" is used in a sense to include both indirectly connecting a plurality of components, and directly connecting.

In addition, in the following description of the present invention, when it is determined that detailed descriptions of related well-known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

1 is a view showing the interior of the LED lighting device having a multi-receiving unit according to a first embodiment of the present invention, Figure 2 is a view showing the back of the LED lighting device having a multi-receiving unit of FIG.

1 and 2, the LED lighting device 10 having a multi-receiving unit is installed on the indoor ceiling 20, and provides LED light to the indoor space 21. The LED lighting device 10 may be controlled wirelessly by receiving an infrared (IR) signal transmitted from the remote controller 30. LED lighting device 10 includes a plurality of lighting units (110, 120, 130), each lighting unit (110, 120, 130) can be integrated control by the remote control (30). Alternatively, each lighting unit (110, 120, 130) can be individually controlled by a remote control. In this embodiment, three lighting units 110, 120, and 130 are provided as an example, but the number of lighting units 110, 120, and 130 may be variously changed. Each of the lighting units 110, 120, and 130 is provided with the same structure, and one lighting unit 110 will be described below by way of example.

3 is an exploded perspective view showing the lighting unit of FIG. 1.

Referring to FIG. 3, the LED lighting device 10 includes a lighting unit 110, a first case 140, a second case 150, a plurality of receiving units 160 and 170, and a control unit 180.

The lighting unit 110 provides LED light to the indoor space. The lighting unit 110 may provide LED light in a direct manner. The lighting unit 110 includes a diffuser 111, a reflector 112, a first window 113, a second window 114, an LED module 115, and an illumination frame 116. .

The diffusion plate 111 is a plate having a thin light-transmitting material, and the LED light generated by the LED module 115 is diffused while passing through the diffusion plate 111.

The reflector 112 is spaced apart from the diffuser plate 111 at a predetermined distance and is located behind the diffuser plate 111. The reflector 112 is provided as a thin metal plate. A reflective layer is formed on one surface of the reflective plate 112 facing the diffusion plate 112. The reflective layer reflects the LED light generated from the LED module 115 to the diffusion plate 111 side. The reflector 112 is provided as a thin metal plate.

The first opening 112a is formed at the first point of the reflector 112, and the second opening 112b is formed at the second point. The first point is spaced apart from the second point. According to an embodiment, the first opening 112a is formed on one side of the reflector 112, and the second opening 112b is formed on the other side disposed parallel to one side of the reflector 112.

The first window 113 is provided as a plate having a thin light-transmitting material, and is located at the first opening 112a. The first window 113 has a size corresponding to the first opening 112a. The first window 113 covers the first opening 112a.

The second window 114 is provided as a plate having a thin light-transmitting material, and is located at the second opening 112b. The second window 114 has a size corresponding to the second opening 112b. The second window 114 covers the second opening 112b.

The LED module 115 is located in a space between the diffuser plate 111 and the reflector plate 112 and provides LED light. According to one example, the LED module 115 may be arranged in a plurality of array of LED elements on one surface of the printed circuit board. The LED module 115 is controlled on / off by the controller 180 and the intensity of the output LED light can be adjusted.

The lighting frame 116 is provided along the edge regions of the diffuser plate 111 and the reflector plate 112. The lighting frame 116 is a square frame, and has a size corresponding to the diffuser plate 111 and the reflector plate 112. The lighting frame 116 includes first to fourth rods 116a to 116d. The first rod 116a is disposed along the first side of the reflector 112, and the second rod 116b is disposed along the second side of the reflector 112 facing the first rod 116a. The third rod 116c is disposed along the third side of the reflector 112 and connects one end of the first rod 116a to one end of the second rod 116b. The fourth rod 116d is disposed along the fourth side of the reflector 112 facing the third rod 116c, and connects the other end of the first rod 116a to the other end of the second rod 116b. .

According to an embodiment, the first opening 112a is formed on one side of the first rod 116a, and the second opening 112b is located on one side of the second rod 116b.

The first case 140 is located on the back of the first window 113, and the second case 150 is located on the back of the second window 114. The first case 140 provides a space in which the first receiver 160 is located, and the second case 150 provides a space in which the second receiver 170 is located. The first case 140 and the second case 150 are made of a light transmissive material. The first case 140 and the second case 150 have the same structure.

4 is a perspective view showing a first case according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view taken along line A-B in FIG. 4.

Referring to FIGS. 4 and 5, the first case 140 includes a body 141 in which a space in which the first receiver 160 is located and a plurality of wing portions 143 protruding outward of the body 141. It includes. The body 141 has a rectangular parallelepiped shape, and an opening 142 is formed on the upper surface. The opening 142 is provided as a passage for inserting the first receiver 160. The wing portion 143 protrudes outwardly from each of the front end, rear end, and both side ends of the body 141, and a fastening hole 144 is formed. A screw is inserted into the fastening hole 144, and the first case 140 and the diffusion plate 112 may be screwed.

Among the inner surfaces of the body 141, the reflective layers 145 may be coated on both sides of the first receiving unit 160 facing each other. The reflective layer 145 reflects the IR signal toward the first receiver 160.

According to an embodiment, the reflective layer 1450 is provided in a structure in which a polymer material having different refractive indices is stacked in a plurality of layers, and reflects an IR signal using a difference in the refractive index of the polymer material. According to the refractive index, the frequency information of the IR signal reflected from each layer of the polymer material is different. Therefore, the reflective layer can reflect IR signals in various frequency domains.

The receiving units 160 and 170 are located inside the first case 140 and receive IR signals transmitted from the remote controller 30. A plurality of receiving units 160 and 170 may be provided. In the present exemplary embodiment, two receiving units 160 and 170 are provided as an example, but the number of receiving units 160 and 170 may be variously changed.

The first receiver 160 is located inside the first case 140 and receives the IR signal transmitted from the remote controller 30. The IR signal is received through the first window 113 in the first receiver 160.

The second receiver 170 is located inside the second case 150 and receives the IR signal transmitted from the remote controller 30. The second receiving unit 170 receives an IR signal through the second window 114.

LED lighting device 10 according to the present invention, as the two receivers 160 and 170 are located at different points, irrespective of the position of the remote control 30, the IR signal is at least one receiver (160, 170) Can be received at.

The controller 180 receives the IR signals from the first receiver 160 and the second receiver 170, and controls the LED module 115 according to the received IR signal. The controller 180 compares the frequency information of the IR signal transmitted from each of the first receiver 160 and the second receiver 170, and controls the LED module 115 according to the frequency information of the IR signal.

According to an example, when the wavelength information of the IR signal received from each of the first receiver 160 and the second receiver 170 is the same, the controller 180 can be used by the first receiver 160 and the second receiver 170. The LED module 115 may be controlled by any one of the received IR signals, and the remaining signals may be removed. According to an embodiment, the controller 180 controls the LED module 115 with a signal having a high frequency strength among IR signals received from the first receiver 160 and the second receiver 170, and controls the signal having a low frequency strength. Can be removed.

According to another example, when the wavelength information of the IR signal received from each of the first receiving unit 160 and the second receiving unit 170 is different, the control unit 180 according to the time sequence in which the IR signal is received, the LED module 115 Can be controlled. According to an embodiment, when the wavelength information of the IR signal received from each of the first receiving unit 160 and the second receiving unit 170 is different, and the IR signal is first received from the first receiving unit 160, the first receiving unit ( 160, the LED module 115 is controlled according to the IR signal received, and the LED module 115 is sequentially controlled according to the IR signal received from the second receiver 170.

6 is a view showing first and second cases according to another embodiment of the present invention.

Referring to FIG. 6, the first case 140 and the second case 150 may be provided with the same structure. When the second case 150 is described as an example, the body 151 of the second case 150 may be provided in a dome shape. A reflective layer 152 is formed on the inner surface of the body 151. The reflective layer 152 may be provided with the same structure as the reflective layer 145 described in FIG. 5. The reflective layer 152 reflects the IR signal toward the second receiver 170. The wing portion 155 extends from the end of the body 151, and a fastening hole through which a screw is inserted is formed.

7 is a view showing first and second cases according to another embodiment of the present invention.

Referring to FIG. 7, the first case 140 and the second case 150 may be provided with the same structure. If the second case 150 is described as an example, the second case 150 is coupled to the second rod 116b of the lighting frame 116. A concave curved surface 151 is formed in the second case 150, and the curved surface 151 is disposed toward the second receiving unit 170. The reflective layer 152 is formed on the curved surface 151. The reflective layer 152 may be provided with the same structure as the reflective layer 145 described in FIG. 5. The reflective layer 152 reflects the IR signal toward the second receiver 170.

8 is a view showing an LED lighting device having a multi-receiving unit according to a second embodiment of the present invention.

Referring to FIG. 8, the lighting unit 110 of the LED lighting device 10 provides LED light in an edge manner. The lighting unit 110 includes a diffuser plate 111, a reflector plate 112, a first window 113, a second window 114, an LED module 115, and an illumination frame 116. The diffuser plate 111, the reflector plate 112, the first window 113, the second window 114, and the lighting frame 116 are provided in the same manner as the structure described in the first embodiment.

The lighting module 115 is provided inside one side of the lighting frame 116 and provides the LED light L as an area between the diffuser plate 111 and the reflector plate 112. The LED light L is provided along the region between the diffuser plate 111 and the reflector plate 112, is reflected by the reflector plate 112, and transmits through the diffuser plate 111 and diffuses to the surroundings.

The first case 140 is located on the back of the first window 113, and the second case 150 is located on the back of the second window 114. The first case 140 and the second case 150 may be provided in the same manner as the structure described in the first embodiment. The first receiver 160 is located inside the first case 140, and the second receiver 170 is located inside the second case 150.

According to the above-described embodiments, the LED lighting device 10 is provided with two receiving units 150 and 170. When a plurality of lighting units 110, 120, and 130 are installed, a shaded area R1 in which IR signals of the remote controller 30 are not received by the receiving units 160, 170 by adjacent lighting units 110, 120, 130 , R2) occurs. Specifically, as shown in FIG. 1, when the remote control 30 generates an IR signal at the first position 31, the shaded area R1 in the region between the first lighting unit 110 and the second lighting unit 120 ) May occur. In addition, when the remote control 30 generates an IR signal at the second position 32, a shaded area R2 may be generated in an area between the first lighting unit 110 and the third lighting unit 130. In order to solve the IR signal reception limit according to the shaded areas R1 and R2, the present invention provides receivers 160 and 170 at different locations. Thereby, irrespective of the positions (31, 32) of the remote control (30), the IR signal can be received at least one of the receivers (160, 170), and stable control of the lighting units (110, 120, 130) is possible Do.

In addition, the appearance of the lighting device 10 may be improved as the receiving units 160 and 170 are located on the rear surface of the reflector 112 of the lighting unit 110.

As described above, the present invention has been described in detail using preferred embodiments, but the scope of the present invention is not limited to specific embodiments, and should be interpreted by the appended claims. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

10: LED lighting device
110, 120, 130: lighting unit
111: diffuser plate
112: reflector
113: first window
114: second window
115: LED module
116: lighting frame
140: first case
150: second case
160: first receiving unit
170: second receiving unit
180: control unit

Claims (4)

Diffuser plate;
A reflector disposed opposite to the diffusion plate, a first opening formed at a first point, and a second opening formed at a second point spaced apart from the first point;
A first window provided in the first opening of the reflector and provided with a light transmissive material;
A second window provided at the second opening of the reflector and made of a light transmissive material;
An LED module that provides LED light in a region between the diffusion plate and the reflector;
An illumination frame provided along an edge region of the reflector at a rear surface of the reflector;
A first receiving unit located at the rear of the first window and receiving an IR signal transmitted from a remote controller;
A second receiver located at the rear of the second window and receiving an IR signal transmitted from the remote controller;
The IR signal is transmitted from the first receiver and the second receiver, and includes a controller that controls the LED module according to the IR signal,
The control unit,
Compare the frequency information of the IR signal transmitted from the first receiver and the IR signal transmitted from the second receiver,
When the frequency information is the same, the LED module is controlled by any one of the IR signal transmitted from the first receiver and the IR signal transmitted from the second receiver,
When the frequency information is different, the LED lighting device having a multi-receiving unit for controlling the LED module according to the time sequence in which the IR signals are received. delete According to claim 1,
A first case provided on a rear surface of the first window and having a space in which the first receiver is located; And
It is provided on the rear side of the second window, and includes a second case in which a space in which the second receiver is located is formed inside.
Reflecting layers are coated on both sides of the inner surface of the first case facing each other with the first receiving portion therebetween,
An LED lighting device having a multi-receiving unit coated with a reflective layer on both sides facing each other with the second receiving unit interposed between the inner surfaces of the second case. According to claim 1,
The lighting frame
First load;
A second rod disposed parallel to the first rod;
A third rod connecting one end of the first rod and one end of the second rod; And
And a fourth rod connecting the other end of the first rod and the other end of the second rod,
The first opening is formed on one side of the first rod,
The second opening is an LED lighting device having a multi-receiving unit formed on one side of the second rod.

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