KR20130104152A - Led lighting of connector type having a separated converter and method for installing it - Google Patents

Abstract

Disclosed are a connector type LED luminaire with a separated converter and a method of installing the same. Coupling a bracket to the ceiling to which the LED lighting fixture is attached; Coupling the back box of the LED luminaire so that one surface thereof faces the bracket; One surface of the printed circuit board may be connected to a first main connector coupled to a connector supporter formed on one surface of the back box by connecting a second main connector inserted through a connector hole formed in a region corresponding to the connector supporter in the back box. Coupling to the other side of the back box, wherein the first main connector is connected to a converter for supplying power to the LED luminaire, and the second main connector is coupled to a printed circuit board on which the LED is mounted; And coupling a light transmitting part through which light emitted from the LED passes to a light box of the LED lighting device. The LED lighting device installation method may conveniently attach a printed circuit board to the lighting device by using a connector. Since the circuit board and the converter are separated, the printed circuit board and the converter can effectively radiate heat without causing thermal damage to each other, and the slim luminaire design can be realized by separating the converter and using the connector.

Description

LED lighting of connector type having a separated converter and method for installing it}

The present invention relates to a connector type LED luminaire with a separate converter and a method of installing the same.

LED lighting fixture is a fixture that uses the light emitted from the LED light source indoors or outdoors. In general, LED lighting fixtures are characterized by being more efficient than general lighting fixtures using other light sources.

1a to 1c is a view showing the LED lighting fixture installation process according to the prior art. 1A to 1C, the ceiling 110, the bracket 120, the bracket bolt 121, the coupling nut 122, the back box 130, the supporter pin 131, the converter 132, and the printed circuit The substrate 133, the LED 134, the DC wire 135, the ceiling support 136, and the light emitter 140 are shown.

According to the prior art, since the printed circuit board 133 is formed integrally with the light box 130 in the side of the appearance of the light emitting surface emitting light, the bracket bolt (when fixing the light box 130 to the ceiling 110) In order to insert the coupling nut 122 into 121, the distance between the printed circuit boards 133 should be at least greater than the width of the coupling nut 122. This structure results in dark areas where LED light is not sufficiently emitted. That is, referring to FIG. 2D, which is made of a line-type light source in which the entire light emitting surface of the lighting fixture does not emit uniformly, the portion where the LED is located is bright and the remaining lighting fixture portion is dark. Here, FIG. 2 is attached to the ceiling bracket (A) of the lighting fixture to which the printed circuit board is partially coupled (B), the power is applied to the LED (C) and then the light transmitting portion 140 through which light passes is installed The process D is shown. Such lighting fixtures have a problem of causing glare because light is concentrated in a specific area.

In addition, referring to FIG. 3, a dark part also occurs in a circular LED luminaire. That is, referring to FIG. 3, a gap necessary for manually coupling the nut and the bolt to connect the luminaire to the bracket is formed between the printed circuit board 133 to generate a dark portion. Here, Figure 3 is after inserting the bracket bolt 121 to the LED lighting fixture (A and A-1), the user manually joins the coupling nut 122 to the bracket bolt 121 (B), the LED The process (D) which installed the cover which light passes after applying power (C) is shown. That is, in the case of the surface light, not the line type, even roughness surface is possible, but when the construction is mounted with the printed circuit board, in order to use the bracket 120 attached to the existing ceiling, the space between the printed circuit boards cannot but be increased. When covering the miner 140 there is a problem that the dark portion occurs in the space.

In addition, in terms of production, installation, AS, etc., the user supports the printed circuit board 133 with one hand in the process of coupling the coupling nut 122 to the bracket bolt 121 to weigh the entire back box 130. The printed circuit board 133 may be damaged because it is in a supported state. In addition, when reducing the gap formed between the printed circuit board 133 to eliminate such a dark portion, there is a problem that the user does not eliminate the gap that generates the dark portion because it is difficult for the user to turn the coupling nut (122).

In addition, in case of using the printed circuit board 133 having a planar shape, the size of the ceiling fixing bracket 120 should be appropriately determined according to the shape and size of the lighting fixture, and the spacing between the bracket bolts 121 coupled to the bracket 120. It should be able to be adjusted wide or narrow. In this case, in the lighting apparatus according to the related art, since the printed circuit board 133 is previously attached to the lighting apparatus, the coupling nut 122 may be coupled to the bracket bolt 121 or the printed circuit board 133 by using the above-mentioned gap. In order to form a predetermined hole, there is a problem in that a separate work time and cost are required, such as manufacturing a customized printed circuit board 133 or modifying a circuit.

In addition, the lighting fixture according to the prior art attaches a plurality of supporter pins 131 in consideration of the thickness of the converter 132 to the back box 130 in view of the manufacturing side and the supporter pins using the printed circuit board 133 using bolts. After fixing on the 131, the DC wire 135 derived from the converter 132 is installed in accordance with a very cumbersome process of connecting the printed circuit board 133 one by one. In addition, in the case of replacing the LED134 in the future in accordance with the user's preference, or when replacing the converter 132, there is a similar inconvenience.

Further, according to the related art, when the printed circuit board 133 and the back box 130 are integrated with the piece fixing and the DC wire 135, the DC wire 135 should be directly connected to the printed circuit board 133. By using the fixing piece 137, there is a need for a hand process of coupling the printed circuit board 133 to the back box 130. This manual process is not only required for the initial construction but also requires a process of disassembling inversely during AS, which causes troublesome installation and disassembly.

That is, when explaining the disassembly process when repairing the lighting fixture, first, after removing the light transmitting portion 140, the coupling nut 122 for fixing the entire lighting fixture is removed from the LED lighting fixture. In order to repair the printed circuit board 133, the fixing piece 137 used to fix the printed circuit board 133 to the back box 130 is removed and removed by a manual process. In addition, when the converter 132 is defective, the entire luminaire is separated from the ceiling 110 to repair or replace the converter 132. LED lighting fixture and ceiling 110 may be coupled by a separate fixing bolt. The assembly process may proceed in the reverse order of this process.

In terms of appearance, thickness and reliability of the luminescent light emitting surface, referring to FIG. 1D, the LED luminaire may include a thickness for accommodating the converter 132 and an LED 134 and a floodlight to prevent glare of the LED 134 light. It becomes thicker by the total thickness T that sums the spaced distance between the 140. This thickness has a problem that the user feels that the thickness of the LED lighting fixture than the general lighting, and also, the heat generated by the mutual heat generated by the converter 132, which is a heating element coexist close to one space with the LED 134, which is another heating element It can be damaged.

The above-described background technology is technical information that the inventor holds for the derivation of the present invention or acquired in the process of deriving the present invention, and can not necessarily be a known technology disclosed to the general public prior to the filing of the present invention.

The present invention is to provide a connector-type LED lighting fixture separated from the converter for conveniently coupling the back box to the ceiling bracket manually without interference of the printed circuit board and a method of installing the same.

In addition, the present invention provides a connector type LED lighting device and a method of installing the separated converter that can be very high by separating the heating element converter to the outside of the back box to prevent mutual heat damage of the top of the most severe converter and the LED. It is to provide.

In addition, the present invention proposes a connector-type LED lighting fixture separated from the converter for coupling the printed circuit board to the back box to the user by conveniently presenting a variety of connector structure for coupling the printed circuit board to the back box to provide a method for installing the same will be.

In addition, the present invention is to provide a connector-type LED lighting fixture and a method of installing the separated converter that separates the converter to facilitate repair and replacement, as well as to reduce the overall size of the lighting fixture.

The technical problems other than the present invention can be easily understood from the following description.

According to one aspect of the invention, the step of coupling the bracket to the ceiling LED lighting fixture is attached; Coupling a converter for supplying power to one surface of a back box of the LED lighting fixture; Coupling the back box of the LED luminaire to one surface of the bracket coupled to the bracket; Connecting power supplied to the LED luminaire to a first main connector coupled to a back box of the LED luminaire; Coupling the printed circuit board to the back box by connecting the first main connector to the second main connector coupled to the printed circuit board; And coupling a light transmitting part through which light emitted from the LED passes to a back box of the LED lighting device.

The coupling of the printed circuit board to the back box may include inserting a first main connector coupled to a connector supporter formed on one surface of the back box through a connector hole formed in an area corresponding to the connector supporter in the back box. The printed circuit board may be coupled to the back box by connecting a second main connector.

Here, the connector supporter may be coupled to one surface of both ends of the back box, and the first main connector may be coupled between both ends of the connector supporter.

The coupling of the printed circuit board to the lamp box may include inserting the second main connector into the first main connector in a lateral direction of the LED lighting device to connect one surface of the printed circuit board to the lamp box. Can be coupled to the other side.

In addition, the present embodiment after the step of combining the back box, accommodating the converter in a pocket groove formed on the other surface of the back box; And fixing the edge portion of the converter to the other surface of the back box.

In addition, the present embodiment after the step of coupling the back box, the step of inserting the converter into the converter hole formed on the other surface of the back box; And fixing the edge portion of the converter to the other surface of the back box.

Here, one surface of the back box may be located between the converter and the printed circuit board to dissipate heat generated from the converter and the printed circuit board.

According to another aspect of the invention, the bracket is coupled to the ceiling LED lighting fixture is attached; And a insertion hole into which the bracket bolt protruding from the bracket is inserted, and the coupling nut is coupled to the inserted bracket bolt to be firmly fixed by coupling one surface to the bracket so as to face the connector hole. The back box of the LED lighting fixture combined; A second main connector inserted into a first main connector coupled to a connector supporter formed on one surface of the back box is coupled to a connector hole formed in a region corresponding to the connector supporter in the back box, and close to each other so that a female part does not occur. A plurality of printed circuit boards mounted with LEDs coupled to the other side of the lamp box, wherein the first main connector is connected to a converter for supplying power to the LED luminaire, and the second main connector is mounted with an LED. Coupled to a printed circuit board; And coupled to the back box is provided an LED lighting device including a light transmitting portion for passing the light emitted from the LED.

Here, the connector supporter may be coupled to one surface of both ends of the back box, and the first main connector may be coupled between both ends of the connector supporter.

In addition, the second main connector may be connected to the first main connector by inserting in the side direction of the LED lighting fixture.

Here, the other surface of the back box is formed with a pocket groove to accommodate the converter, the converter is accommodated in the pocket groove formed on the other surface of the back box, the edge portion of the converter may be fixed to the other surface of the back box.

The other side of the back box may be provided with a converter hole into which the converter is inserted, and the converter may be inserted into the converter hole, and then the edge portion of the converter may be fixed to the other side of the back box.

Here, one surface of the back box may be located between the converter and the printed circuit board to dissipate heat generated from the converter and the printed circuit board.

In addition, the present embodiment is coupled to one surface of the back box, and further includes a box-shaped converter receiving portion for receiving the converter and one side open, the heat to discharge heat generated in the converter on the side of the converter receiving portion Emission vents can be formed.

In addition, the present embodiment is coupled to one surface of the back box, and further includes a box-shaped converter receiving portion receiving the converter and one side open, coupled to the ceiling in the corner of the side of the converter receiving portion in contact with the open surface A plurality of corner protrusions may be formed to create a ventilation gap.

Other aspects, features, and advantages will become apparent from the following drawings, claims, and detailed description of the invention.

Connector type LED lighting fixture with a separate converter according to the present invention and its installation method improves thermal reliability by separating the converter with high heat generation from the LED, and the back box can be conveniently placed on the ceiling bracket manually without disturbing the printed circuit board. In order to combine, the back box is firmly coupled to the ceiling bracket, and there is an effect that the printed circuit board can be conveniently coupled to the back box using a pre-coupled connector.

In addition, the connector-type LED lighting fixture with the converter according to the present invention and its installation method present a variety of connector structures for coupling the printed circuit board to the back box, the user conveniently combines the printed circuit board into the back box, the converter Separately separate the convenience of repair and replacement, as well as the effect of reducing the overall size of the lighting fixtures.

In addition, the connector-type LED lighting fixture separated converter according to the present invention and the installation method thereof is a printed circuit board and a failure without having to simply remove the light emitting portion and the light box or the light box using only a connector and a simple fixing pin. The converters can be easily repaired and replaced, making construction and after-sales very convenient.

In addition, the connector-type LED lighting fixture with the converter separated according to the present invention and its installation method adopt a method of attaching the converter detachably, so that the AS is easily removed without repairing the AS by removing the heavy back box by simply detaching it during repair. It can work.

In addition, the connector-type LED lighting fixture with a converter separated according to the present invention and a method of installing the same are separated from the printed circuit board and the converter, so that the printed circuit board and the converter does not damage each other can effectively heat dissipation, separating the converter By using the connector, a slim luminaire design can be realized.

1A-1D show LED lighting fixtures according to the prior art.
2 and 3 are views showing the installation state of the LED lighting fixture according to the prior art.
4 is a view showing an LED lighting fixture according to an embodiment of the present invention.
5 is an exploded view of the LED lighting fixture according to the embodiment of the present invention.
6 is a view showing a connector coupling form of the LED lighting fixture according to the first embodiment of the present invention.
7 is a view showing a connector coupling form of the LED lighting fixture according to the second embodiment of the present invention.
8 is a view showing a connector coupling form of the LED lighting fixture according to the third embodiment of the present invention.
9 is a view showing a connector coupling form of the LED lighting fixture according to the fourth embodiment of the present invention.
10 is a view showing a method of assembling the LED lighting fixture according to the fifth embodiment of the present invention.
11 is a view showing a method of assembling the LED lighting fixture according to the sixth embodiment of the present invention.
12 illustrates a converter coupling method of an LED lighting fixture according to a seventh embodiment of the present invention.
13 is a view showing a converter coupling method of the LED lighting fixture according to the eighth embodiment of the present invention.
14 is a view showing an LED lighting fixture according to a ninth embodiment of the present invention.
FIG. 15 is a view showing a converter separating form of the LED lighting fixture according to the tenth embodiment of the present invention. FIG.
16 and 17 show a converter separation form of the LED lighting fixture according to the eleventh embodiment of the present invention.
18 and 19 is a view showing a state of installation of LED lighting fixture for comparing the prior art and the embodiment of the present invention.
20 is a view showing a fastening structure of the LED lighting fixture according to the twelfth embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

The term " part, "" module," " means, "or the like, which is described in the specification, refers to a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software .

In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and redundant explanations thereof will be omitted. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

4 is a view showing an LED lighting device according to an embodiment of the present invention. 4, the ceiling 410, the bracket 420, the bracket bolt 421, the coupling nut 422, the back box 430, the first main connector 431, the converter 432, and the printed circuit board. 433, LED 434, DC wire 435, second main connector 437, light projecting portion 440, and connector supporter 490 are shown.

In the present embodiment, the converter 432 is separately installed in a separate area, and the connectors are stably coupled by using the connector supporter 490 formed on one surface of the back box 430, thereby the back box 430 and the printed circuit board 433. ) Are combined.

Hereinafter, a description will be given of the case where the LED lighting fixture is attached to the ceiling, but when the LED lighting fixture is embedded in the ceiling, the present invention may be applied to the case where the LED lighting fixture is attached to a wall or the like. In addition, hereinafter, the DC wire 435 will be described with reference to an embodiment of the present invention. However, the present invention may be applied and applied to a case where an AC wire is required, such as a direct connection method of an indoor AC power source.

The bracket 420 is fixed to the ceiling 410 and the like, the bracket bolt 421 is coupled. The bracket bolt 421 may be formed in a male screw shape and may be coupled to the coupling nut 422. Here, the coupling nut 422 may be formed in various shapes, for example, a protrusion formed around the hole in which the bracket bolt 421 is inserted so that the user can engage the bracket bolt 421 by turning with a finger. It may be a typical nut, an aggregate-shaped nut, a push-type nut, a nut embodied in a shape in which the bracket bolt 421 is inserted.

Here, the rotatable nut may be a butterfly nut, the nut of the aggregate shape may be an aggregate to insert the bracket bolt 421 into the space opened by the user by pressing the finger, the push-type nut is the back box 430 It may be a nut that is coupled by inserting one side of the coupling nut 422 into a predetermined hole provided in the.

In addition, according to another embodiment, as shown in Figure 20, the push nut 510 may include a predetermined spring tightening means 515 therein. When the user inserts the bracket bolt 421 into the push nut 510 and pushes the push nut 510 toward the ceiling 410, the spring tightening means 515 is provided on the side surface of the bracket bolt 421, for example. The push nut 510 may be coupled to the bracket bolt 421 by being inserted into a groove formed in the bracket bolt 421. Here, the spring tightening means 515 may be directly coupled to the bracket bolt 421 so that the intermediate region is closer to each other than the other region as shown. Here, the spring tightening means 515 may be formed of a metallic material, it may be a plate-like spring.

The back box 430 is a housing in which a component such as a converter 432 and a DC wire 435 that are supplied with an external power supply to the LED by receiving external power is coupled therein to form a body of the LED lighting device. . The converter 432 except for the printed circuit board 433, the DC wire 435, and the insertion hole into which the bracket bolt 421 is inserted may be coupled or formed to the inside and the body of the back box 430.

The back box 430 has a predetermined insertion hole into which the bracket bolt 421 protruding from the bracket 420 is inserted, and the coupling nut 422 is coupled to the inserted bracket bolt 421 to the bracket 420. One surface is coupled to face each other and is firmly fixed, and the connector supporter 490 is coupled to correspond to the area where the connector hole is formed.

The connector hole is a hole drilled in the back box 430 so that the first main connector 431 and / or the second main connector 437 can be inserted. After the first main connector 431 or the second main connector 437 is inserted into the connector hole, the first main connector 431 or the second main connector 437 may be coupled to each other at one side or the other side of the back box 430.

The connector supporter 490 is a means for supporting the first main connector 431, one side of which is coupled to one surface of the back box 430, and the first main connector 431 is disposed between both ends of the connector supporter 490. Can be combined. As long as the connector supporter 490 can be coupled to the back box 430 while supporting the first main connector 431, any form is applicable to the present embodiment, and specific embodiments will be described in detail below.

The first main connector 431 is connected to the converter 432 and the DC wire 435 or directly to the AC wire, and the second main connector 437 and the lateral direction of the luminaire connected to the printed circuit board 433. Coupled to deliver the power required for the printed circuit board (433). The first main connector 431 may be connected to the DC wire 435 in various ways. For example, the first main connector 431 may be connected by soldering, a sub connector, and an insert method.

The second main connector 437 may be inserted into the other surface of the back box 430 through a predetermined connector hole, that is, a through hole formed in the back box 430, to protrude to one surface. The second main connector 437 may be coupled to the first main connector 431 at one side of the back box 430.

Referring to FIG. 5, there is shown an exploded view of the LED lighting fixture according to the present embodiment. First, the light transmitting part 440 is removed from the back box 430, and then the coupling nut 422 is released from the bracket bolt 421 to separate the back box 430 to which the printed circuit board 433 is coupled from the bracket 420. do. Since the first main connector 431 is connected to the second main connector 437 coupled to the printed circuit board 433 in a state in which the first main connector 431 is coupled to the connector supporter 490, the printed circuit board 433 is a back box by such a structure. 430 can be firmly coupled.

The printed circuit board 433 may be coupled to the back box 430 by coupling the connectors after the coupling nut 422 is coupled with the bracket bolt 421. In this case, the plurality of printed circuit boards 433 may be adjacent to each other. Since the LED 434 may be evenly distributed on the printed circuit board 433, the dark portion generated when the coupling nut 422 is coupled, as in the related art, may be removed.

Here, the second main connector 437 may be mounted as a surface mount component (SMD) directly attached to the pattern on the printed circuit board 433, or may be mounted by a manual insert manually by a manufacturer, or by using a bolt. The second main connector 437 may be coupled to the printed circuit board 433.

The LED 434 may be a light emitting device that emits light by the PN junction layer as a light emitting diode. The LED 434 is mounted on the printed circuit board 433 and receives the necessary power to emit light. In addition, the present embodiment is formed on the surface of the back box 430 is coupled to the bracket 420 to the same thickness as the thickness of the bracket 420, so that the back box 430 and the ceiling 110 is firmly coupled to each other It may include a support.

The printed circuit board 433 may be implemented in a form corresponding to the shape of the back box 430. For example, when the back box 430 is circular, each of the printed circuit boards 433 may be formed in a fan shape so that the entire shape may be circular by adjoining each other. When the back box 430 is a quadrangle, each printed circuit board may be circular. 433 may also be formed in a square. According to another embodiment, the printed circuit board 433 may be formed regardless of the shape of the back box 430. That is, when the back box 430 is circular, each printed circuit board 433 may have various shapes such as triangles, squares, and circles.

The light transmitting part 440 may be formed in a flat shape as a whole, and the light transmitting part 440 is a component through which light emitted from the LED 434 passes. The light transmitting part 440 may include a diffusion member for diffusing light. The diffusing member may be a light diffusive bead, and the light transmitting part 440 may be a plastic (polymer material) to which light diffusing beads are added, for example, polyethylene (PE), polypropylene (polypropylene) PP), polystyrene (PS), polyethylene terephthalate (PET), polyester (PES), polycarbonate (PC), polymethyl methacrylate (PMMA), styrene acrylic It may be formed of styrene-acrylonitrile copolymer (SAN) or the like or may be formed of glass.

One surface and / or the other surface of the light transmitting part 440 may have roughness. That is, at least one of one surface and the other surface of the light transmitting part 440 is haze-processed so that the light transmitting part 440 may perform a diffusion function. In this case, the light transmitting part 440 may be haze treated in a state including or not including the aforementioned diffusion member.

In addition, one surface and / or the other surface of the light transmitting part 440 may be combined with the diffusion sheet. The diffusion sheet is a functional sheet that allows the light emitted from the LED 434 to diffuse evenly and to propagate in a direction perpendicular to the plane. The number of diffusion sheets coupled to the light transmitting portion 440 is not limited, and may be, for example, about 1 to 3 sheets. The diffusion sheet may be bonded to both surfaces of the above-described plastic or glass, which is a main component of the light transmitting part 440, in a sandwich form. Here, the diffusion sheet may have a thickness of several hundred μm, for example, 100 μm to 990 μm, and is a sheet having the aforementioned diffusion member attached to an outer surface thereof. According to the present exemplary embodiment, when the plurality of diffusion sheets are included in the light transmitting part 440, a wide and uniform light distribution may be realized as described above.

In addition, the light transmitting part 440 may be formed as a diffusion plate including a diffusion member therein. The diffuser plate may be milky white, have a thickness of several mm, and include the above-described diffuser member. The thickness of the diffusion plate according to the present embodiment may be, for example, 0.5 to 15mm.

In addition, the transmittance of the diffusion plate according to the present embodiment may be 35% to 86%, and the haze may be 42% to 99.5%. Within this numerical range, the present embodiment is characterized in that the intensity of the side light is increased, so that the light distribution is wide and uniform.

In addition, the above-mentioned diffusion member may be formed of an oxide-based or may be formed of a foamed diffusion structure including a microcell in a foamed form. In the case of the former, an oxide-based material used as a diffusion member may be, for example, Si powder, TiO, TiO 2, SiO, SiO 2, ZnOk, ZrO 2, or the like. In the latter case, the diffusion member is not composed of a separate organic or inorganic diffusion agent, the diffusion plate itself is implemented as a continuous and irregular foamed microcell, the light passing through the inside of the diffusion plate is diffused by such a microcell.

In addition, one surface and / or the other surface of the light transmitting part 440 may be combined with the prism sheet. The prism sheet is a sheet that serves to collect scattered light to travel in a specific direction. The number of prism sheets is not particularly limited either.

In addition, one surface and / or the other surface of the light transmitting part 440 may be formed with a pattern for inducing the diffusion of the LED 434 light. The pattern may be formed regularly. For example, a checkered pattern in which a plurality of quadrangles are arranged may be formed in the light transmitting part 440 to induce light diffusion.

According to the above-described configuration, since the entire back box 430 is exposed without being covered by the printed circuit board 433 before the printed circuit board 433 is installed, the coupling nut (not shown) is attached to the bracket bolt 421 installed on the ceiling 410. By combining the 422, the user can conveniently secure the back box 430 to the bracket 420 by hand. After the user firmly secures the back box 430 to the bracket 420, the user connects the second main connector 437 coupled to the printed circuit board 433 to the connector supporter 490 of the back box 430. The printed circuit board 433 is coupled to the back box 430 by connecting to the main connector 431. In this case, the position of the converter 432 may be arbitrarily determined in the back box 430.

The above-described LED lighting fixture installation method may include the following steps. That is, the method of installing the LED lighting fixture according to the embodiment of the present invention includes the step of coupling the bracket 420 to which the LED lighting fixture is attached to the ceiling 410, and the like of the LED lighting fixture to face one side to the bracket 420 Coupling the box 430, the first main connector 431 coupled to the connector supporter 490 formed on one surface of the back box 430, the area corresponding to the connector supporter 490 in the back box 430 Coupling one surface of the printed circuit board 433 to the other surface of the light box 430 by connecting the second main connector 437 inserted through the formed connector hole; And combining the light transmitting portion 440 through which light emitted from 434 passes. Here, the first main connector 431 is connected to the converter 432 for supplying power to the LED lighting fixture, the second main connector 437 is to be coupled to the printed circuit board 433 on which the LED 434 is mounted. Can be.

The drawings illustrating a typical embodiment of the connector-type LED lighting fixture separated converter has been described above, below with reference to the accompanying drawings, the connector-type LED lighting fixture separated converter according to the present invention with reference to specific embodiments This will be described. According to the embodiment of the present invention, the position, form and coupling method of the first main connector 431 and the second main connector 437, the position of the back box 430, the form of the connector supporter 490, the converter 432. It can be divided into embodiments for the accommodation method. Hereinafter, each embodiment will be described in turn with a focus on differences from the above-described embodiments, and the present invention is not limited to these embodiments.

Referring to FIG. 6, the connector supporter 490 may be spaced apart from the back box 430 by a predetermined distance, for example, by the length of the first main connector 431. It can be, both ends are combined with the back box 430. In this case, the connector supporter 490 may be coupled to the back box 430 by various coupling methods such as screw coupling, adhesive bonding, solder bonding, and the like. The second main connector 437 coupled to the printed circuit board 433 may be inserted through a predetermined hole, that is, a connector hole, to be coupled to the first main connector 431 as shown.

The first main connector 431 may be coupled to the second main connector 437 in a direct direction. That is, as shown, the first main connector 431 has a first coupling portion is formed in a portion facing the back box 430, the second main connector 437 is in a portion facing the back box 430 A second coupling part corresponding to the first coupling part is formed, and when the back box 430 and the printed circuit board 433 are close to each other, the first coupling part and the second coupling part may be coupled to each other.

Referring to FIG. 7, the first main connector 431 may be coupled to an electrode pad 470 formed on the printed circuit board 433. That is, the second main connector 437 may be formed as the electrode pad 470 and inserted into the first main connector 431 to electrically connect them. In this case, the first main connector 431 is inserted into the connector hole of the back box 430 and the electrode pad 470 of the printed circuit board 433 is the side surface of the first main connector 431, that is, in the present embodiment. By being inserted in the lateral direction of the luminaire accordingly, the connectors can be electrically coupled to each other.

According to this embodiment, the printed circuit board 433 can be made thin because it is not necessary to combine a separate connector on one surface of the printed circuit board 433, in this case the effect of reducing the overall thickness of the LED lighting fixtures There is.

Referring to FIG. 8, the first main connector 431 has a first coupling portion formed in a lateral direction instead of the portion of the back box 430, and the second main connector 437 also faces the back box 430. The second coupling portion corresponding to the first coupling portion is formed in the side direction rather than the portion thereof, and the second main connector 437 is inserted into the connector hole, and then the printed circuit board 433 is parallel to the back box 430. When moving, the first coupling part and the second coupling part may be coupled to each other. The second main connector 437 may be electrically connected to the first main connector 431 in a state in which the second main connector 437 is coupled to the protruding support part 471 formed on the printed circuit board 433.

In this case, since the first main connector 431 and the second main connector 437 are horizontally fastened from the side, it is possible to prevent a phenomenon that the light does not turn on due to the detachment of the connector by gravity after installation. The phenomenon that current is biased can be prevented.

In addition, when the connectors are coupled in the lateral direction, the direction in which the connector is moved may be a straight direction or a curved direction. In the latter case, the second main connector 437 is connected to the first main connector 431 by rotating the printed circuit board 433 about an axis perpendicular to one surface of the printed circuit board 433. That is, as in the former case, the second main connector 437 may be moved in a linear direction to be connected to the first main connector 431, and the second main connector 437 may be moved in a curved direction corresponding to the radius of rotation. 1 may be connected to the main connector 431. Here, the axis perpendicular to one surface of the printed circuit board 433 does not mean an exact mathematically perpendicular axis to the plane, and may generally be about a rotation axis when the plane is rotated along the plane.

Here, the number of the first main connector 431 and the second main connector 437 may be plural, and in this case, when the printed circuit board 433 is rotated about an axis by forming a pair with each other, the plurality of second main connectors 431 The connector 437 may be inserted into the first main connector forming each pair.

Referring to FIG. 9, one end of a DC wire 435 connected to the converter 432 is inserted into a wire hole 491 from one surface side of the back box 430, and the first main connector connected to the DC wire 435 ( The 431 is connected to the second main connector 437 coupled to the printed circuit board 433 on the other side of the back box 430. That is, only the DC wire 435 passes through the back box 430 and the first main connector 431 may be connected to the second main connector 437 without passing through the back box 430. In this case, the connector supporter 490 may be positioned on the other side of the back box 430 to support the first main connector 431.

In this case, the first main connector 431 and the second main connector 437 may be fastened by a vertical fastening method or a horizontal fastening method, and may be thinly formed to have a thickness of 2 mm to 10 mm.

10 is a view showing a method of assembling the LED lighting fixture according to the fifth embodiment of the present invention. According to the present embodiment, only the light transmitting unit 440 and the light box 430 may be simply removed or the printed circuit board 433 and the converter 432 needing repair may be repaired or simply replaced without removing the light box 430. As a result, the construction and the AS are convenient.

Referring to the disassembly process when repairing a lighting fixture, first, the first main connector 431 and the second main connector 437 are simply separated to remove the light transmitting unit 440 and then repair the printed circuit board 433. The printed circuit board 433 can be removed from the back box 430. In this case, the user does not need to loosen the pieces for fixing the printed circuit board 433 using a driver as in the related art. According to another exemplary embodiment, the printed circuit board 433 may be detached from the back box 430 by releasing and removing only the button screw fixing device that fixes the printed circuit board 433 to the back box 430. In this case, the button-type screw fixing device may be coupled to the screw of the back box 430 protruding through the printed circuit board 433.

Removing the coupling nut 422 fixing the entire luminaire from the LED luminaire may be performed after removing the light transmitting unit 440. The assembly process may proceed in the reverse order of this process.

Referring to FIG. 11, the removing of the coupling nut 422 fixing the entire lighting fixture from the LED lighting fixture may be performed after separating the printed circuit board 433 from the lamp box 430. In this case, when the printed circuit board 433 according to the present embodiment is removed from the back box 430, the converter 432 is directly exposed to the user, so that the entire heavy back box 430 is placed on the floor and the converter 432 is repaired. No need to do

That is, the present embodiment is to release the coupling nut 422 connected to the bracket 420, the heavy back box 430 is completely lowered to the floor, and the first main connector 431 and in order to eliminate the need to repair the broken parts By simply removing the second main connector 437 and simply removing the printed circuit board 433, the converter 432 may be exposed.

The converter 432 may be exposed in various ways. For example, as illustrated in FIG. 12, the converter 432 is accommodated in the pocket groove 492 formed on the other surface of the back box 430, and the converter 432 is provided. The edge portion 495 of) may be fixed to the other surface of the back box 430. The pocket groove 492 may be formed by applying a press method to the back box 430.

In this case, the pocket groove 492 formed in the back box 430 may have a sufficient space to accommodate the converter 432, the edge portion 495 of the converter 432 is screwed to the other surface of the back box 430 Can be combined.

In addition, according to another embodiment, as shown in FIG. 13, the converter 432 is inserted into the converter hole 493 formed on the other surface of the back box 430, and the edge portion 495 of the converter 432 is inserted. It may be fixed to the other surface of the back box 430. Also in this case, the converter hole 493 formed in the back box 430 may have a size sufficient to accommodate the converter 432, and the edge portion 495 of the converter 432 may be formed on the other surface of the back box 430. Can be screwed on.

14 is a view showing an LED lighting fixture according to a ninth embodiment of the present invention. This embodiment uses the top plate of the back box 430 as a heat sink to effectively discharge the heat generated when driving the light. That is, one surface of the back box 430 may be positioned between the converter 432 and the printed circuit board 433 to receive heat from the converter 432 and the printed circuit board 433 to dissipate heat.

According to this embodiment, the printed circuit board 433 transmits and radiates heat by using the back box 430 as a heat sink, and air-cooled without placing the main heat generating portion of the converter 432 in the direction of the printed circuit board 433. Thermal stability is increased by forming a heat radiation structure of the form.

Also, by placing the converter 432 between separate ceiling supports 496, a slim design can be realized by making the overall thickness of the luminaire appear to T 'to the user under the luminaire. Such a slim structure can be implemented in the following embodiments.

Referring to FIG. 15, the converter accommodating portion 497 may be coupled to one surface of the back box 430 to accommodate the converter 432 and have a box shape with one surface open. In this case, a heat emission vent 498 may be formed at a side of the converter accommodating portion 497 to discharge heat generated from the converter. According to this structure, the converter 432 is located in an area partitioned separately from one surface of the back box 430, so that the thickness of the entire lighting fixture is small to the user as described above, and the heat emission vent 498 ) Can also effectively dissipate heat from the converter 432.

Referring to FIGS. 16 and 17, the converter accommodating portion 499 may be coupled to one surface of the back box 430, accommodate the converter 432, and have a box shape with one surface open, and the converter accommodating portion 499. A plurality of corner protrusions 500 may be formed at the corners of the side surfaces of the side surface in contact with the ceiling to create a ventilation gap 501. According to this structure, as described above, there is an effect of implementing a slim luminaire and effectively dissipating heat of the converter 432.

18 and 19 are diagrams showing the installation state of the LED lighting fixture for comparing the prior art and the embodiment of the present invention. 18 is an installation state of the LED lighting fixture according to the prior art, Figure 19 is an installation state of the LED lighting fixture according to the embodiment of the present invention. Here, P means a printed circuit board.

Referring to FIG. 18, in the prior art, since the gap for inserting the coupling nut 422 is formed between the printed circuit boards as described above, the dark portion is formed in the illumination. 18 (A), (C), (E) and (G) show the arrangement of a printed circuit board according to the prior art, and (B), (D), (F) and (H) are each (A) ), (C), (E) and (G) shows a picture of a lighting fixture provided with a light transmitting portion 440 in the printed circuit board arrangement. Each lighting device has a vertical or horizontal arm portion formed by the separation distance between the printed circuit boards.

Referring to FIG. 19, in the embodiment of the present invention, since the printed circuit board is installed after the back box 430 is coupled to the bracket 420 as described above, the dark part may be removed from the illumination. 19 (A), (C), (E) and (G) show the arrangement of the printed circuit board according to the present embodiment, and (B), (D), (F) and (H) are each ( It is a photograph of the lighting fixture in which the light transmission part 440 was installed in the printed circuit board arrangement of A), (C), (E), and (G). According to this embodiment, the dark portion is removed from each lighting fixture.

In addition, the LED lighting device according to the present embodiment further includes a dimming control device for controlling the brightness of the light by adjusting the size of the input power or a control device for changing the color temperature and color of the light, or various other mechanisms may be applied to the present invention. Of course, the specific shape of the LED lighting fixture according to an embodiment of the present invention, embedded platform, a common platform technology, such as O / S and a detailed description of the interface standardization technology, such as communication protocol, I / O interface, etc. Since it is obvious to those of ordinary skill in the art to which the present invention belongs will be omitted.

In the above description, the respective components and / or functions described in the embodiments may be combined and combined, and those skilled in the art will understand that the present invention It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

110: ceiling 120: bracket
121: bracket bolt 122: coupling nut
130: back box 131: supporter pin
132 converter 133: printed circuit board
134: LED 135: DC wire
136: ceiling support 137: fixing piece
140: floodlight 410: ceiling
420: bracket 421: bracket bolt
422: coupling nut 430: back box
431: first main connector 432: converter
433: printed circuit board 434: LED
435: DC wire 437: second main connector
440: light transmitting portion 471: protruding support
490 connector supporter 491 wire hole
492: pocket groove 493: converter hole
495 edge portion of converter 496 ceiling support
497, 499: converter housing 498: heat release vent
500: corner protrusion 501: ventilation gap

Claims (15)

Coupling a bracket to the ceiling to which the LED lighting fixture is attached;
Coupling a converter for supplying power to one surface of a back box of the LED lighting fixture;
Coupling the back box of the LED luminaire to one surface of the bracket coupled to the bracket;
Connecting power supplied to the LED luminaire to a first main connector coupled to a back box of the LED luminaire;
Coupling the printed circuit board to the back box by connecting the first main connector to the second main connector coupled to the printed circuit board; And
And coupling a light transmitting part through which light emitted from the LED passes to a back box of the LED lighting device.
The method according to claim 1,
Coupling the printed circuit board to the back box,
The printed circuit board is connected to a first main connector coupled to a connector supporter formed on one surface of the back box, by connecting a second main connector inserted through a connector hole formed in a region corresponding to the connector supporter in the back box. LED lighting fixture installation method characterized in that coupled to.
The method according to claim 1,
One side of the connector supporter is coupled to one surface of the back box, and the first main connector is coupled between the both ends of the connector supporter, LED lighting fixture installation method.
The method according to claim 1,
Coupling the printed circuit board to the back box,
And a second main connector connected to the first main connector by inserting the second main connector in a lateral direction of the LED lighting device to couple one surface of the printed circuit board to the other surface of the back box.
The method according to claim 1,
After the back box combining step,
Receiving the converter in a pocket groove formed on the other surface of the back box; And
Fixing the edge portion of the converter to the other surface of the back box LED installation method.
The method according to claim 1,
After the back box combining step,
Inserting the converter into a converter hole formed on the other surface of the back box; And
Fixing the edge portion of the converter to the other surface of the back box LED installation method.
The method according to claim 1,
One side of the light box is installed between the converter and the printed circuit board to dissipate heat generated in the converter and the printed circuit board.
A bracket to which the LED lighting fixture is attached to the ceiling;
And a insertion hole into which the bracket bolt protruding from the bracket is inserted, and the coupling nut is coupled to the inserted bracket bolt to be firmly fixed by coupling one surface to the bracket so as to face the connector hole. The back box of the LED lighting fixture combined;
A second main connector inserted into a first main connector coupled to a connector supporter formed on one surface of the back box is coupled to a connector hole formed in a region corresponding to the connector supporter in the back box, and close to each other so that a female part does not occur. A plurality of printed circuit boards mounted with LEDs coupled to the other side of the lamp box, wherein the first main connector is connected to a converter for supplying power to the LED luminaire, and the second main connector is mounted with an LED. Coupled to a printed circuit board; And
Is coupled to the light box LED lighting device comprising a light transmitting portion for passing the light emitted from the LED.
The method according to claim 8,
One side of the connector supporter is coupled to one surface of the back box, the first main connector, the first LED connector, characterized in that coupled between both ends of the connector supporter.
The method according to claim 8,
And the second main connector is connected to the first main connector by inserting the second main connector in a lateral direction of the LED luminaire.
The method according to claim 8,
The other side of the back box is formed with a pocket groove to accommodate the converter,
The converter is accommodated in a pocket-shaped groove formed on the other side of the back box, the LED light fixture, characterized in that the edge portion of the converter is fixed to the other side of the back box.
The method according to claim 8,
The other surface of the back box is formed with a converter hole into which the converter is inserted,
The converter is an LED lighting device, characterized in that the edge portion of the converter is fixed to the other surface of the back box after being inserted into the converter hole.
The method according to claim 8,
One surface of the light box is located between the converter and the printed circuit board to dissipate heat generated in the converter and the printed circuit board.
The method according to claim 8,
It is coupled to one side of the back box, and further includes a box-shaped converter receiving portion receiving the converter and one side is open,
LED light fixture, characterized in that the heat emission vent is formed on the side of the converter receiving portion for dissipating heat generated by the converter.
The method according to claim 8,
It is coupled to one side of the back box, and further includes a box-shaped converter receiving portion receiving the converter and one side is open,
LED luminaires, characterized in that a plurality of corner protrusions are formed at the corners of the side of the converter receiving portion in contact with the open surface to create a ventilation gap when combined with the ceiling.

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