KR101189491B1 - Lighting device - Google Patents

Abstract

PURPOSE: A lighting device is provided to reduce manufacturing costs and be easily assembled and replaced. CONSTITUTION: A housing(100) receives a combination member(110) and reflectors(200a,200b). A hole(107) is formed on the side and/or the upper surface of the housing to electrically connect a power drive unit(400) and an external power supply for controlling the electrical supply of a light source unit(300). The power drive unit converts AC power to DC power. The light source unit is combined with the combination member. The reflector has a first side(210) combined with the side of the housing and a second side(220) combined with the side of the combination member.

Description

LIGHTING DEVICE

Embodiments relate to a lighting device.

Light emitting diodes (LEDs) are a type of semiconductor device that converts electrical energy into light. The light emitting diode has advantages of low power consumption, semi-permanent life, fast response speed, safety and environmental friendliness compared to conventional light sources such as fluorescent and incandescent lamps. Accordingly, many researches for replacing the existing light sources with light emitting diodes have been conducted, and the light emitting diodes have been increasingly used as light sources for lighting devices such as various lamps, liquid crystal displays, electronic displays, and street lamps that are used indoors and outdoors.

Korean Patent Registration No. 10-0999407 (Notice: December 9, 2010)

The embodiment provides a lighting device having a new structure.

The embodiment provides a lighting device that is easy to replace and assemble.

Embodiments provide a lighting device attachable to a conventional housing and with reduced manufacturing cost and weight.

The embodiment provides a lighting device that provides direct light and indirect light at the same time.

Lighting device according to the embodiment comprises a housing; A coupling member coupled to an inner upper surface of the housing; And a light source unit detachably coupled to the coupling member, wherein the light source unit comprises: a light source body; A cover part disposed to cover the light source body; A connection member disposed between the light source body and the cover part and including a first connection member disposed on one side of the light source body and a second connection member disposed on the other side of the light source body; And an elastic body disposed between the first connecting member and the second connecting member, wherein the elastic body provides an elastic force in a direction away from the first connecting member and the second connecting member, and the connecting member is coupled to the coupling member. Can be coupled to the member.

In addition, the first connection member and the second connection member includes a horizontal portion disposed on the upper surface of the light source body and a vertical portion extending perpendicular to the horizontal portion, the vertical portion is coupled to the coupling member through the cover portion Can be.

In addition, the coupling member has an insertion groove formed in the direction toward the inner upper surface of the housing in the middle portion, the coupling groove is formed inside the insertion groove, one end of the first connection member and the second connection member is Is coupled to the coupling groove, the other end of the first connecting member and the second connecting member may protrude out of the light source body.

Lighting device according to another embodiment includes a housing; And a light source unit detachably coupled to an inner upper surface of the housing, wherein the light source unit comprises: a light source body; A cover part disposed to cover the light source body; A connection member disposed between the light source body and the cover part and including a first connection member disposed on one side of the light source body and a second connection member disposed on the other side of the light source body; And an elastic body disposed between the first connecting member and the second connecting member, wherein the elastic body provides an elastic force in a direction away from the first connecting member and the second connecting member, and the connecting member includes the housing. It can be coupled to the upper surface of.

In addition, a light emitting module may be disposed on one surface of the light source body.

In addition, a guide groove may be disposed on the upper surface of the light source body to allow the connection member to be slidably moved.

In addition, the light source body includes a first light source body and a second light source body disposed on the side of the first light source body, the first connection member is disposed on an upper surface of the first light source body, and the second connection member May be disposed on an upper surface of the second light source body.

In addition, the first connection member and the second connection member includes a horizontal portion disposed on the upper surface of the light source body and a vertical portion extending perpendicular to the horizontal portion, the vertical portion penetrates the cover portion to the upper surface of the housing Can be combined.

The apparatus may further include a reflector disposed on an inner upper surface of the housing.

In addition, the light source body may have an inclined surface inclined toward the reflector, and a light emitting module may be disposed on the inclined surface.

In addition, a light emitting module may be disposed on a lower surface of the light source body, and an optical member may be disposed below the light source body.

The optical member may include a first surface facing a direction in which the light emitting module is emitted and a second surface facing the reflector, and the first surface may transmit and reflect light of the light emitting module.

According to the embodiment can provide a lighting device having a new structure.

According to the embodiment can provide a lighting device that can be easily replaced and assembled.

According to the embodiment it is possible to provide a lighting device attachable to a conventional housing and reduced manufacturing cost and weight.

According to an embodiment, it is possible to provide a lighting device that provides both direct light and indirect light.

According to the embodiment, it is possible to provide a lighting device having improved light efficiency.

1 illustrates a perspective view of a lighting apparatus according to an embodiment.
2 is an exploded perspective view of the lighting apparatus according to the embodiment.
3 shows a cross-sectional view of a lighting apparatus according to an embodiment.
4A shows an exploded perspective view of the housing, reflector and coupling member of FIG. 3.
4B is an exploded perspective view of the coupling member shown in FIG. 3.
4C is an enlarged view of a region of the coupling member and the light source unit of FIG. 3.
5 and 6 illustrate perspective views of a light source unit according to an embodiment.
7 and 8A illustrate exploded perspective views of a light source unit according to an embodiment.
8B shows an optical cover on which a first reflector and a second reflector are disposed.
8C shows a path of light reflected by an optical cover in which the first reflector and the second reflector are disposed.
9A is an exploded perspective view of a body part of the lighting apparatus according to the embodiment.
9B is an exploded cross-sectional view of a body part of the lighting apparatus according to the embodiment.
9C illustrates a cross-sectional view of a plurality of bodies in accordance with an embodiment.
10 is an exploded perspective view of a connection member and a body of the lighting apparatus according to the embodiment.
11 shows a cross-sectional view of a lighting device according to a variant.
12 shows an exploded perspective view of a lighting apparatus according to a modification.
13 shows a cross-sectional view of a lighting device according to another modification.
14 shows an exploded perspective view of a lighting apparatus according to another modification.
15 is an exploded perspective view illustrating an electrical connection method of a lighting apparatus according to another embodiment.
16 is a side view illustrating a case in which the housing and the light source body of the lighting apparatus according to another embodiment are coupled;
17 illustrates an example of a method in which a socket part is connected to an external power source, according to an exemplary embodiment.
18 is an exploded perspective view illustrating an electrical connection method of a lighting apparatus according to another embodiment.
19 is a perspective view illustrating a case in which the socket part of the lighting apparatus and the light source body are coupled according to another embodiment.
20 is an exploded perspective view illustrating an electrical connection method of a lighting apparatus according to another embodiment.
FIG. 21 is a perspective view illustrating a case in which a housing and a light source body of the lighting apparatus according to another embodiment are coupled; FIG.
22A shows an exploded perspective view of a lighting apparatus of yet another embodiment.
22B is a detailed view of a light source body according to another embodiment.
Fig. 22C shows the accommodating portion of the socket portion in which the terminals of the light source body are accommodated.
23 is an exploded perspective view of a light source unit of a lighting apparatus according to another embodiment.
24 is a perspective view of a housing and a light source unit of the lighting apparatus according to another embodiment before coupling.
25 is a view illustrating a mechanical connection method of a lighting device according to another embodiment.
FIG. 26 is a perspective view illustrating a case in which a housing of a lighting apparatus and a light source body are coupled according to another embodiment.
27 is a perspective view illustrating a mechanical connection method of a lighting device according to another embodiment.
28 is a perspective view illustrating a case in which a housing and a light source body of the lighting apparatus according to another embodiment are coupled;
29A is an exploded perspective view illustrating a mechanical connection method of a lighting apparatus according to another embodiment.
29B is a perspective view illustrating a case in which a housing and a light source body of the lighting apparatus according to another embodiment are coupled;
30 shows a locking device for engaging the housing and the light source body.
31 is an exploded perspective view illustrating a mechanical connection method of a lighting device according to another embodiment.
32 is a view illustrating a socket part for coupling a housing and a light source body of a lighting apparatus according to another embodiment.
33 is an exploded perspective view illustrating a light source unit according to still another embodiment;
34 is a sectional view of a light source unit according to still another embodiment;
35 is an exploded perspective view showing a lighting apparatus according to another embodiment.
36 is a view illustrating a process in which a light source body is coupled to a housing according to another embodiment.
37 shows in detail the form of the connecting piece before and after joining.
38 shows the concentration of heat when two light source bodies are arranged on the inner top surface of the housing.
39 illustrates a light source body having heat dissipation fins disposed in a central portion thereof.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

In addition, the reference to the top or bottom of each component will be described with reference to the drawings. In the drawings, the thickness or size of each layer is exaggerated, omitted, or schematically illustrated for convenience and clarity. In addition, the size of each component does not necessarily reflect the actual size.

In the description of embodiments according to the present invention, it is to be understood that where an element is described as being formed "on or under" another element, On or under includes both the two elements being directly in direct contact with each other or one or more other elements being indirectly formed between the two elements. In addition, when expressed as "on" or "under", it may include the meaning of the downward direction as well as the upward direction based on one element.

[Example]

1 is a perspective view of a lighting device 1 according to an embodiment. 2 is an exploded perspective view of the lighting apparatus 1 according to the embodiment. 3 is a cross-sectional view of the lighting device 1 according to the embodiment. 4A is an exploded perspective view of the housing, the reflector, and the coupling member of FIG. 3. 4B is an exploded perspective view of the coupling member shown in FIG. 3. 4C is an enlarged view of an area of the coupling member and the light source unit of FIG. 3.

1 to 4C, the lighting apparatus 1 according to the embodiment includes a housing 100, a coupling member 110, a reflector 200, a light source 300, and a power driver 400.

One. housing  100 and Joining member  (110)

The housing 100 may be formed in the form of a box that can accommodate the coupling member 110 and the reflector 200. The shape of the housing 100 may be rectangular when viewed from the outside, but is not limited thereto and may have various shapes.

The housing 100 may be formed of a material capable of effectively dissipating heat. For example, the housing 100 may be made of aluminum (Al), tin (Sn), nickel (Ni), silver (Ag), copper (Cu), titanium (Ti), molybdenum (Mo), tungsten (W), and gold. It may be formed of a metal such as (Au), platinum (Pt).

Holes 107 may be formed in the side and / or top surface of the housing 100 to electrically connect the power driver 400 to an external power source. The power driver 400 electrically connected to an external power source to control and adjust the electrical supply of the light source unit 300 may be disposed on the side and / or the top surface of the housing 100.

The housing 100 has an opening 101 so that light emitted from the light source 300 can be reflected by the reflector 200 and emitted.

On the other hand, when the lighting device 1 is installed on an external support member such as a ceiling or a wall surface, an insertion portion corresponding to the shape of the lighting device 1 is formed on the external support member, and the lighting device 1 is inserted into the insertion portion. And fixed.

The coupling member 110 may be coupled to an upper surface of the inner side of the housing 100. The coupling member 110 may be coupled to the housing 100 in various ways. For example, the coupling member 110 may be coupled to the housing 100 by coupling screws, adhesives, or the like.

Coupling member 110 may be formed to extend in the first direction on the upper surface of the housing 100. For example, the coupling member 110 may be formed to extend from one inner wall surface of the housing 100 to the opposite inner wall surface.

The reflector 200 is disposed inside the housing 100 and has a first side 210 that is fastened to the side of the housing 100 and a second side 220 that is fastened to the side of the coupling member 110.

The first groove 111 may be formed on the outer wall surface of the coupling member 110. The first groove 111 may be formed to extend in the first direction. The second side 220 of the reflector 200 may be inserted into the first groove 111.

The housing 100 and the coupling member 110 may be formed so that the reflector 200 can be detached.

A second groove 103 may be formed in the inner wall surface of the housing 100 into which the first side 210 of the reflector 200 can be inserted. The second groove 103 may be formed in one piece, or may be formed in plural.

The first side 210 of the reflector 200 is inserted into the second groove 103 of the housing 100, and the second side 220 of the reflector is inserted into the first groove 111 of the coupling member 110. As a result, the housing 100 and the coupling member 110 may fix and support the reflector 200.

In addition, the coupling member 110 may be formed so that the light source unit 300 is detachable.

Insertion grooves 112 may be formed in the middle portion of the coupling member 110. A portion of the light source unit 300 may be inserted into the insertion groove 112. Insertion groove 112 may be formed to extend in the first direction.

The third groove 113 may be formed on the inner wall surface of the insertion groove 112. The connection member 340 of the light source unit 300 may be inserted into the third groove 113. Accordingly, the third groove 113 may firmly couple the light source unit 300 to the coupling member 110. More detailed description of the coupling relationship between the light source unit 300 and the coupling member 110 will be described later.

The first connection terminal 120 may be formed in the middle portion of the insertion groove 112. When the light source unit 300 is inserted into the insertion groove 112, the first connection terminal 120 may be coupled to and electrically connected to the second connection terminal 330 of the light source unit 300. When the first connection terminal 120 and the second connection terminal 330 are connected, power and / or driving signals may be transmitted to the light source unit 300 through the first connection terminal 120 and the second connection terminal 330. Can be.

One or more first connection terminals 120 may be formed according to the design of the lighting device 1. A more detailed description of the first connection terminal 120 will be described later along with a detailed description of the second connection terminal 330.

In addition, the coupling member 110 may serve to directly discharge heat generated from the light source unit 300 or to the housing 100.

Coupling member 110 is preferably formed of a material that can effectively release and / or transfer heat. For example, the coupling member 110 may include aluminum (Al), tin (Sn), nickel (Ni), silver (Ag), copper (Cu), titanium (Ti), molybdenum (Mo), tungsten (W), It may be formed of a metal such as gold (Au), platinum (Pt).

2. Reflector 200

The reflector 200 may include a first reflector 200a and a second reflector 200b. The first reflector 200a and the second reflector 200b may be coupled to and separated from the housing 100 and the coupling member 110.

For example, when the second reflector 200b is coupled to the housing 100 and the coupling member 110, as shown in FIG. 2, the second side 220 of the second reflector 200b is coupled to the coupling member. It may be inserted into the first groove 111 of the 110, and may be coupled by inserting the first side 210 into the second groove 103 of the housing 100.

The second side 220 of the reflector 200 may be formed to have a step. The first side 210 of the reflector 200 may also be formed to have a step. In addition, one or more insertion ends may be formed on the first side 210. At least one insertion end that may be inserted into the second groove 103 may be formed at the first side 210 of the reflector 200. The second groove 103 may be formed to correspond to the shape of the insertion end.

The first reflector 200a and the second reflector 200b may have a parabolic surface and may be formed to extend in the first direction. Accordingly, the first reflector 200a and the second reflector 200b may form a parabola having two parabolic surfaces. However, the shape of the reflector 200 may be variously modified according to the desired illumination.

The reflector 200 may be formed of a metal material or a resin material having high reflection efficiency. For example, the resin material may include any one of PET, PC, and PVC resin. In addition, the metal material may include at least one of silver (Ag), an alloy including silver (Ag), an alloy including aluminum (Al), and aluminum (Al).

The surface of the reflector 200 may be coated with silver (Ag), aluminum (Al), white photo solder resist (PSR) ink, a diffusion sheet, or the like, or an oxide film may be formed by anodizing.

However, the material and the color of the reflector 200 are not limited, and this may be variously selected according to the lighting to be implemented by the lighting device 1.

3. Power drive unit 400

The power driver 400 may provide at least one of a power source and a driving signal when the power driver 400 is connected to the light source unit 300.

2 and 3, the power driver 400 may be installed on a space provided between the inner surface of the housing 100 and the parabolic reflector 200. That is, an empty space is formed between the reflector 200 and the corner portion of the housing 100 by the parabolic shape of the reflector 200, and the power driver 400 may be installed on the empty space.

The power driver 400 may convert AC power input from the outside into DC power and output the DC power.

The power driver 400 may be electrically connected to the light source 300 by a wire or a flexible printed circuit board (FPCB). For example, the wire or FPCB extends from the power driver 400, and is electrically connected to the first connection terminal 120 through a connection hole formed in the coupling member 110. By being electrically connected to the two connection terminals 330, the power source driving unit 400 and the light source unit 300 may be electrically connected.

4. Light source (300)

The lighting device 1 includes a light source unit 300. The light source unit 300 may be disposed at the inner center of the housing 100 as shown in FIG. 1. In addition, the light source 300 may be detachably coupled to the coupling member 110.

5 and 6 are perspective views of the light source unit 300 according to the embodiment. 7 and 8A are exploded perspective views of the light source unit 300 according to the embodiment. 9A is an exploded perspective view of a body part of the lighting apparatus according to the embodiment. 9B is an exploded cross-sectional view of a body part of the lighting apparatus according to the embodiment. 9C is a cross-sectional view of a plurality of bodies of the lighting apparatus according to the embodiment. 10 is an exploded perspective view of a connection member and a body of the lighting apparatus according to the embodiment.

5 to 10, the light source 300 according to the embodiment includes a first body 310a, a second body 310b, a first light emitting module 320a, a second light emitting module 320b, and a second light source. And a connection terminal 330, a connection member 340, a protective cover 360, and an optical cover 380.

The first body 310a and the second body 310b have the same shape and form a body portion of the light source unit 300. The light source unit 300 may be formed to extend in the first direction, that is, along the longitudinal direction of the reflector 200.

1) First Body 310a and Second Body 310b

The light source unit 300 includes a first body 310a and a second body 310b on which the first light emitting module 320a and the second light emitting module 320b may be disposed, and include the first body 310a and the first body. The two bodies 310b may be referred to as body portions or light source bodies.

The first body 310a and the second body 310b may be shaped as shown in FIGS. 7 to 9. Since the first body 310a and the second body 310b have the same shape, the shape will be described below with reference to the first body 310a.

As shown in FIG. 9A, the first body 310a may be in the form of a linear beam extending along the first axis 33 from one surface 31 to the other surface 32. The first axis can be arbitrarily selected as one of the straight lines parallel to the illumination plane of the illumination device 1.

FIG. 9B is a cross-sectional view of the first body 310a of FIG. 9A cut in a plane perpendicular to the first axis. The cross section of the first body 310a includes a first protrusion 311 protruding outwardly from the top of both sides, a second protrusion 314 protruding outwardly from the bottom of both sides, and downward from both ends of the bottom surface thereof. The protrusion 317 may have a protrusion 317.

According to this cross sectional view, the lower surface protrusion 317 is disposed parallel to the first axis at both ends of the lower surface of the first body 310a. In addition, a flat mounting surface 313 may be disposed between the lower protrusions 317 so that the first light emitting module 320a is disposed.

As shown in FIG. 9B, the first body 310a may have a symmetrical shape, and thus, a member such as the first body 310a may be used without distinction between left and right. The left side and the right side of the first body 310a may have a second protrusion 314 so that the optical cover 380 can be caught.

In order for the optical cover 380 to be more stably coupled to the first body 310a, the second protrusion 314 may be inclined to be closer to the upper surface of the first body 310a in the outward direction.

In addition, the left side and the right side of the first body 310a may have side grooves 312 between the first protrusion 311 and the second protrusion 314. When the first body 310a and the second body 310b are arranged side by side to face each other, the side grooves 312 are wires connected from the first light emitting module 320a and the second light emitting module 320b. It functions as an electrical connection passage through which

9C shows a cross section when the side surfaces of the plurality of bodies are arranged to face each other. As shown in FIG. 9C, a wire passage 319 may be formed between the plurality of bodies by the first protrusion 311 and the second protrusion 314.

Wires connected from the first light emitting module 320a and the second light emitting module 320b to receive a power supply from an external power source may be disposed in the wire passage 319 to be connected to the second connection terminal 330.

The first protrusion 311 disposed on the upper surface of the body portion secures a passage through which the wire can be connected to the second connection terminal 330 disposed on the upper surface of the first body 310a and the second body 310b. To be shorter than the second protrusion 314 may be formed.

Since the first protrusion 311 protrudes shorter than the second protrusion 314, the first body 310a and the second body 310b are arranged side by side to form a gap between the first body 310a and the second body 310b. Even when the second protrusions 314 are in contact with each other, the first protrusions 311 between the first body 310a and the second body 310b are not in contact with each other, but are spaced apart by a predetermined distance.

The lower surface of the first body 310a has a mounting surface 313 on which the first light emitting module 320a may be mounted. On the seating surface 313, a substrate may be installed, and a plurality of light emitting diodes may be installed on the substrate, and the plurality of light emitting diodes may be connected to a power supply by the substrate.

The plurality of light emitting diodes may be selected to have various combinations, for example, among red, green, blue or white light emitting diodes emitting red, green, blue or white light. In addition, the plurality of light emitting diodes may be arranged in an array form.

In addition, an optical structure may be disposed on the plurality of light emitting diodes to adjust light distribution and color of light emitted from the plurality of light emitting diodes, and to implement emotional lighting having various luminance and colors as necessary.

The seating surface 313 of the first body 310a has a plurality of tab holes 318 spaced at predetermined intervals, and the first light emitting module 320a also has a tap hole (313) of the seating surface 313 of the first body 310a. 318 has a screw hole corresponding to the position. In addition, a thread for screwing may be formed in at least a portion of the tab hole 318.

Accordingly, the screw passes through the screw hole of the first light emitting module 320a to be coupled to the tap hole 318 of the first body 310a, and the first light emitting module 320a is mounted on the seating surface of the first body 310a. 313 may be fixed.

In addition, the both ends of the lower surface of the first body 310a is disposed inwardly engaging the jaw 315, the side surface of the protective cover 360 is fitted to the locking jaw 315, so that the protective cover 360 is the first To be fixed to the body 310a.

The first body 310a also functions as a heat sink, and the lower surface of the first body 310a becomes a contact surface for receiving heat generated from the first light emitting module 320a.

The upper surface of the first body 310a has a connecting groove 316 connected from one end to the other end of the first body 310a. The upper portion of the connection groove 316 may be formed in a form corresponding to the connection portion 342 of the connection member 340 so that the connection member 340 is fitted. In addition, the lower portion of the connecting groove 316 has a thread, so that the first body 310a can be directly connected to the housing 100 through a screw or the like.

The connecting groove 316 of the upper surface of the first body 310a is formed to extend from one end to the other end of the first body 310a, thereby reducing the weight and manufacturing cost of the first body 310a, and connecting member as necessary. The position at which the 340 is attached to the first body 310a may be freely selected, and even if the first body 310a is directly coupled to the housing 100 through a screw or the like, the position of the screw coupling may be freely selected. To help.

On the other hand, as described above, the lower surface of the first body 310a is provided with a tab hole 318 in which grooves are not continuously connected, which is the first light emitting module 320a so that the first body 310a functions as a heat sink efficiently. ) To increase the contact area with.

Therefore, a plurality of tab holes 318 spaced apart from each other are formed on the lower surface of the first body 310a, and the connection groove 316 extending from one end to the other end of the first body 310a on the upper surface of the first body 310a. Can be formed.

The upper surface of the first body 310a has a first surface 30 directly connected to the connecting groove 316 and a second surface 35 extending outwardly of the first body 310a from the first surface 30. May have

When the distance from the lower surface to the upper surface of the first body 310a is to be increased, the height is lower as the first surface 30 is closer to the connecting groove, and the second surface 35 is horizontal so that the height is constant. Can be deployed.

When the upper surface of the first body 310a is horizontal, when the first body 310a is screwed to the inner upper surface of the housing 100 through the connecting groove 316, only the portion with the connecting groove 316 The inner upper surface of the housing 100 is in intimate contact, and the outer portion of the upper surface may not be in intimate contact with the inner upper surface of the housing 100.

However, when the first surface 30 of the upper surface of the first body 310a is closer to the connecting groove 316, the height is lower, and the second surface 35 is horizontally arranged so that the height is constant, As the first surface 30 on which the connecting groove 316 is disposed is intimately contacted with the inner upper surface of the housing 100, the second surface 35, which is an outer portion of the upper surface, is also tightened. It is in intimate contact with the inner upper surface. As a result, the contact area between the housing 100 and the first body 310a becomes larger, and thus an advantageous effect can be obtained.

In the above-described light source unit, a case in which a plurality of light source bodies are disposed has been described. There may be one light source body coupled to the housing or coupling member.

In addition, the light source body may have an inclined surface inclined toward the reflector, and the light emitting module may be disposed on the inclined surface. In this case, indirect light reflected by the reflector is emitted through the lighting device.

2) Connecting member  340 and Combined cap  (350)

The connection member 340 is disposed in the connection groove 316 of the upper surface of the first body 310a and the second body 310b, and is caught and fixed in the third groove 113 of the coupling member 110, thereby providing a light source unit ( It serves to bind 300 to the coupling member (110).

The connecting member 340 has a connecting portion 342 having a shape corresponding to the upper portion of the connecting groove 316 to be coupled to the connecting groove 316 of the first body 310a and the second body 310b, the coupling member The engaging jaw 344 is provided to be caught and fixed to the third groove 113 of the 110.

The connection member 340 may be fitted to the upper portion of the connection groove 316 of the first body 310a and the second body 310b and coupled by sliding. Since the connection grooves 316 of the first body 310a and the second body 310b are connected to each other in a straight line, the connection member 340 slides in a state of being fitted into the connection groove 316, and the first body 310a is connected. And a desired position of the upper surface of the second body 320b.

In addition, a spring 370 may be disposed between the vertical surfaces of the connection member 340. For example, the spring 370 may be an open '-' shape, as shown in FIGS. 7 and 8A, the vertical surface of the connecting member 340, the first body 310a and the second body 310b. It may be arranged to contact the upper surface of the).

The spring 370 may firmly couple the light source unit 300 to the insertion groove 112 of the coupling member 110 by providing an elastic force to the vertical surface of the connection member 340. The spring 370 may provide an elastic force to the vertical surface of the connecting member 340 in a direction away from the vertical surface of the connecting member 340.

That is, the spring 370 serves to push the vertical surface of the connecting member 340. Therefore, when the light source unit 300 is inserted into the coupling member 110, the connection member 340 coupled to the upper surfaces of the first body 310a and the second body 310b is applied by the spring 370. By the force, it can be firmly coupled to the third groove 113 of the coupling member (110).

Heat generated in the plurality of light emitting diodes is emitted by the body of the light source unit 300 or is coupled to the coupling member 340 through the connecting member 340 connecting the coupling member 110 with the first body 310a and the second body 310b. It can be delivered to 110 and released. Accordingly, the first body 310a and the second body 310b are preferably formed of a material capable of effectively dissipating heat.

For example, aluminum (Al), tin (Sn), nickel (Ni), silver (Ag), copper (Cu), titanium (Ti), molybdenum (Mo), tungsten (W), gold (Au), platinum It may be formed of a metal such as (Pt). In addition, irregularities are formed in a portion of the body of the light source unit 300, thereby effectively dissipating heat.

The first body 310a and the second body 310b may be coupled to each other by coupling the coupling cap 350 to one end thereof.

As shown in FIG. 9, first grooves 361 may be formed on one side surfaces of the first body 310a and the second body.

Referring to FIGS. 7 and 8A, the coupling cap 350 may have a through hole 355 disposed at a position corresponding to the first groove 361. The screws pass through the through hole 355 of the coupling cap 350 to be coupled to the first groove 361, whereby the coupling cap 350 is disposed on at least one side of the first body 310a and the second body 310b. It is fixed, and the first body 310a and the second body 310b may be coupled to each other.

3) the first connector 120 and the second connector 330

As shown in FIGS. 4B and 4C, a first connection terminal 120 for electrical connection with the light source unit 300 may be disposed at the central portion of the coupling member 110. The first connection terminal 120 may be electrically connected to the power driver 400 through a wire.

In addition, as shown in FIG. 7 and FIG. 8A, the second connection terminal 330 may be disposed on the first body 310a and the second body 310b for electrical supply to the light source unit 300.

The wire connected to the first light emitting module 320a and the wire connected to the second light emitting module 320b pass through the space between the first body 310a and the second body 310b, and thus, the first body 310a and the first light emitting module 320a. It may be connected to the second connection terminal 330 disposed in the center of the upper surface of the second body (310b).

As such, the space formed between the side grooves 312 of the first body 310a and the side grooves 312 of the second body 310b provides a space in which the wires can be placed, thereby providing an arrangement of the wires for electrical connection. To facilitate.

When the light source unit 300 is inserted into the coupling member 110, the second connection terminal 330 is coupled with the first connection terminal 120 formed in the space of the insertion groove 112 of the coupling member 110. 300 may be electrically connected.

Accordingly, the power driver 400 may provide a power source and / or a driving signal to the light source unit 300 through the first connection terminal 120 and the second connection terminal 330.

The first connection terminal 120 and the second connection terminal 330 may be a D-Sub connector, and if the first connection terminal 120 has a pin, the second connection terminal 330 has a hole, and the first connection When the terminal 120 has a hole, the second connection terminal 330 may have a pin so that the first connection terminal 120 and the second connection terminal 330 may be electrically and physically connected to each other.

4) Optical cover   (380)

Optical cover 380 is coupled to the side of the body portion consisting of the first body (310a) and the second body (310b), may be disposed below the first body (310a) and the second body (310b), the optical It can function as a member.

The optical cover 380 has a first surface facing a direction in which light of the first light emitting module 320a and the second light emitting module 320b disposed on the bottom surfaces of the first body 310a and the second body 310b is emitted. 383, a second surface 386 connecting the body portion and the first surface 383 to the reflector 200.

A portion of the light emitted from the first light emitting module 320a and the second light emitting module 320b may be reflected by the first surface 383 of the optical cover 380 and may pass through the second surface 386. Light passing through the second surface 386 is reflected by the reflector 200 and is emitted to the bottom of the housing 100.

That is, the light emitted from the first light emitting module 320a and the second light emitting module 320b passes through the first surface 383 of the optical cover 380 to illuminate the illumination area as direct light, and at the same time, the optical cover 380. It is possible to shine indirect light into the illumination area through the reflection from the first face 383 and the reflector 200. In this way, the illuminating device 1 can provide indirect light while providing direct light.

8B shows an optical cover on which a first reflector and a second reflector are disposed.

The reflective member may be disposed on the first surface 383 of the optical cover 380. The reflective member may include a first reflector 385 disposed at the center of the bottom surface. In addition, the reflective member may include a second reflector 387 disposed on a side portion of the lower surface.

As shown in FIG. 8B, the first reflector 385 may have a triangular shape so that light may be reflected toward the outer upper direction of the optical cover 380.

8C shows a path of light reflected by an optical cover in which the first reflector and the second reflector are disposed.

In FIG. 8C, the second surface 386 through which most of the light is transmitted is not shown. The light emitted from the light source body is partially reflected at the first surface 383 of the optical cover 380, and is partially transmitted to the outside.

Some of the light emitted from the light source body is reflected by the first reflector 385 and the second reflector 387 disposed on the first surface 383 and then reflected back by the reflectors 200a and 200b and irradiated to the outside. Can be.

The first reflector 385 and / or the second reflector 387 is disposed on the first surface of the light source cover 380, thereby increasing the amount of light reflected by the reflectors 200a and 200b to increase the ratio of indirect light. You can.

Meanwhile, the protective cover 360 may be disposed between the body portion and the optical cover 380. The protective cover 360 may protect the first light emitting module 320a and the second light emitting module 320b from moisture that may be introduced into the light source unit 300.

The protective cover 360 may also function as an optical member, and may perform a function of uniformly dispersing light emitted from the first light emitting module 320a and the second light emitting module 320b.

The protective cover 360 and / or the optical cover 380 may include at least one of a lens, a diffusion sheet, and a phosphor luminescent film (PLF). The lens may include lenses having various shapes, such as a concave lens, a convex lens, and a condenser lens, depending on the design of the lighting device.

The diffusion sheet may evenly diffuse the light emitted from the plurality of light emitting diodes 312.

The photoexcited film (PLF) may be a film including a phosphor. Since the phosphor contained in the photoexcited film (PLF) is excited by the light emitted from the first light emitting module 320a and the second light emitting module 320b, the illumination device is the first light emitting module 320a and the second light emitting module. The first light emitted from the 320b and the second light excited by the phosphor may be mixed to implement emotional lighting having various colors.

For example, when the first light emitting module 320a and the second light emitting module 320b emit blue light, and the photoexcited film PLF includes a yellow phosphor excited by blue light, the illumination device is blue. Light and yellow light may be mixed to emit white light.

The protective cover 360 and / or the optical cover 380 may be easily replaced with any one of a lens, a diffusion sheet, and an optical excitation film according to a user's needs.

5. Light source  300 and Joining member  Desorption of 110

1) Combined process

The light source unit 300 may be coupled to the coupling member 110 to be detachable.

First, a first force F is applied to the connection member 340 disposed on the first body 310a and the second body 310b of the light source unit 300 to narrow the width between the connection members 340. . In this case, the first force F may be opposite to the direction of the elastic force applied by the spring 370.

When the first force F is not applied, the connecting member 340 is separated from each other by the elastic force provided from the spring 370, so that the light source 300 is inserted into the insertion groove 112 of the coupling member 110. Hard to insert into

While applying the first force F to the connection member 340, the light source unit 300 is inserted into the insertion groove 112 of the coupling member 110. After the coupling member 110 is inserted into the insertion groove 112, if the first force (F) is not applied, the distance between the connecting member 340 is further separated by the elastic force, the connection of the upper end of the light source 300 The engaging jaw 344 of the member 340 may be inserted into the third groove 113 formed in the inner surface of the insertion groove 112. Accordingly, the light source unit 300 may be coupled to the coupling member 110.

In addition, after the light source unit 300 is coupled to the coupling member 110, the spring 370 disposed between the coupling member 340 pushes the first body 310a and the second body 310b to each other, The connection member 340 may be more firmly coupled to the third groove 113.

In addition, a uniform pressure is continuously applied to the contact surface between the connection member 340 and the insertion groove 112 by the spring 370. Accordingly, heat generated from the light source 300 may be more efficiently conducted through the contact surface of the connection member 340 and the coupling member 110.

2) Separation Process

When maintenance of the light source unit 300 is required, the light source unit 300 may be separated from the coupling member 110.

When the light source unit 300 is separated from the coupling member 110, after the first force F is applied to the coupling member 340 to decrease the width between the coupling members 340, the light source unit 300 is coupled to the coupling member 110. Separate from (110).

[ Variant ]

11 is a cross-sectional view of a lighting device 2 according to a modification, and FIG. 12 is an exploded perspective view of the lighting device 2 according to a modification.

In the description of the lighting device 2 according to one modification, the content overlapping with the above description will be omitted.

11 and 12, the lighting device 2 includes a housing 500, a body portion 700 coupled to the housing, a reflector 600 and a body disposed between the housing 500 and the body portion 700. It may include a protective cover 730 and the optical cover 740 coupled to the lower portion of the portion 700.

The inner surface of the housing 500 may be coated with a reflective material, so that the inner surface of the housing 500 may perform the function of the reflector 600 instead of the reflector 600 is disposed.

The clip 510 is disposed on the inner upper surface of the housing 500 of the lighting device 2. The clip 510 can be coupled to the housing 500 in a variety of ways. For example, the clip 510 can be coupled to the housing 500 by coupling screws, adhesives, or the like.

The clip 510 has an opening through which the body portion 700 can be inserted, and has extension jaws at one side thereof so that one side of the reflector 600 can be coupled. The body portion 700 is inserted into the opening of the clip 510 and fitted to the clip 510, thereby being coupled to the housing 500.

The body portion 700 of the modified example may have the same shape as the first body 310a or the second body 310b of the embodiment.

The light emitting module 710 may be disposed on the bottom surface of the body portion 700, and a protective cap 720 may be coupled to the side surface of the body portion. A protective cover 730 and an optical cover 740 may be disposed below the body portion 700.

11 and 12 illustrate a case in which the clips 510 are arranged in one line and the body 700 is one, the clip 510 is arranged in a plurality of lines and the body 700 is plural. Can be implemented.

A part of the light emitted from the light emitting module 710 is irradiated with direct light by the lower surface 743 of the optical cover 740, the other part is reflected from the lower surface 743 of the optical cover 740, the optical cover 740 Pass the side 746 of the. Light passing through the side surface 746 of the optical cover 740 is reflected by the reflector 600 is irradiated with indirect light.

FIG. 13 is a sectional view of a lighting device 3 according to another modification, and FIG. 14 is an exploded perspective view of the lighting device 3 according to another modification.

13 and 14, an upper surface hole 810 is disposed on an inner upper surface of the housing 800 of the lighting device 3.

Each light source body unit of the body portion 1000 of another modified example may have the same shape as the first body 310a or the second body 310b of the embodiment. 13 and 14, the body portion 1000 is formed by connecting two light source body units, but the number of light source body units is not limited thereto, and a plurality of light source body units may be connected.

A connection groove 1016 extending from one end to the other end of the body part 1000 may be disposed on an upper surface of the body part 1000, and a thread may be formed below the connection groove 1016.

The upper surface of the body portion 1000 is disposed on the inner upper surface of the housing 800 so as to correspond to the upper hole 810 of the housing 800, and a screw penetrates through the upper hole 810 of the housing 800 to allow the body portion ( By being coupled to the connection groove 1016 of the 1000, the body portion 1000 can be fixed to the inner upper surface of the housing (800).

Coupling the body portion 1000 and the housing 800 through the screw coupling allows the body portion 1000 to be tightly coupled to the housing 800, thereby increasing the conductivity for dissipating heat from the body portion 1000. have.

The light emitting module 1010 may be disposed on a bottom surface of the body portion 1000, and a protective cap 1020 may be coupled to a side surface of the body portion. A protective cover 1030 and an optical cover 1040 may be disposed below the body portion 1000.

The optical cover 1040 may include a lower surface 1043 facing the light emitting direction of the light emitting module 1010 and a side surface 1046 facing the inner surface of the housing 800.

A part of the light emitted from the light emitting module 1010 is irradiated with direct light by the lower surface 1043 of the optical cover 1040, the other part is reflected from the lower surface 1043 of the optical cover 1040, the optical cover 1040 Pass through the side 1046. Light passing through the side surface 1046 of the optical cover 1040 is reflected by the reflector 900 is irradiated with indirect light.

[Example of coupling method]

Hereinafter, various examples of the electrical connection and the mechanical connection method of the above-described lighting device.

The lighting device to be described below may include components such as a power driving unit, an optical cover, a protective cover, and a coupling member like the lighting device described above, but the descriptions that are not related to the electrical connection and the mechanical connection method will be repeated. It will be omitted.

15 is an exploded perspective view illustrating an electrical connection method of a lighting device according to another embodiment. 16 is a side view illustrating a case in which a housing and a light source body of a lighting apparatus according to another embodiment are coupled;

Referring to FIG. 15, a lighting apparatus according to another embodiment may include a housing 1100, a light source body 1300 coupled to an inner top surface of the housing 1100, and an end cap 1350 covering at least one side of the light source body 1300. And a socket part 1400 disposed on an outer upper surface of the housing 1100 and connected to the light source body 1300.

In the following drawings, the housing 1100 may have only a top surface of the housing 1100 coupled with the light source body 1300 and side surfaces thereof being omitted.

A light emitting module 1310 may be disposed on one surface of the light source body 1300, and a terminal 1320 electrically connected to the light emitting module 1310 may be disposed on at least one side of the light source body.

An end cap 1350 covering one side surface of the light source body 1300 is formed to have an opening 1355 in an upper surface thereof, and the socket part 1400 penetrates through the housing 1100 as shown in FIG. 16. It is inserted through the opening 1355 of the 1350 to contact the terminal 1320.

Through this, the socket 1400 may be electrically connected to the terminal 1320 which is electrically connected to the light emitting module 1310.

Meanwhile, the light source body 1300 may be electrically connected to an external power source through the socket part 1400, and may be disposed on the inner upper surface of the housing 1100 on the outer upper surface of the housing 1100 as shown in FIGS. 15 and 16. It is protruded to the inside of the housing 1100 may be fixed through a fixing clip 1150 for holding the light source body 1300.

17 is an example of a method in which a socket part is connected to an external power source according to an embodiment.

The socket portion 1400 may have a horizontal portion 1410 disposed on an outer upper surface of the housing 1100 and a vertical protrusion 1420 disposed perpendicularly to the horizontal portion 1410.

The connector 1450 may be disposed on one surface of the vertical protrusion 1420 of the socket 1400, and the conductive member connected to the external connector 1450 may be disposed in the vertical protrusion 1420.

As illustrated in FIG. 17, the conductive member inside the vertical protrusion 1420 may be connected to an external power source through the insertion pin 1480.

The housing 1100 may have a through hole 1110 on an upper surface thereof. The horizontal portion 1410 of the socket portion 1400 is disposed on the outer upper surface of the housing 1100 as shown in FIG. 16, and the vertical protrusion 1420 of the socket portion 1400 passes through the through groove 1110. It may protrude to the bottom of the housing 1100.

A connector 1450 is disposed on one surface of the vertical protrusion 1420, and the connector 1450 of the vertical protrusion 1420 inserted through the opening 1355 of the end cap 1350 is electrically connected to the light emitting module 1310. May be in contact with the terminal 1320.

15 and 16, the light source body 1300 coupled to the housing 1100 may be plural, and each light source body 1300 has a light emitting module 1310 on one surface thereof, and emits light on one side thereof. It has a terminal 1320 connected to the module 1310.

The number of the vertical protrusions 1420 of the socket portion 1400 corresponds to the number of the plurality of light source bodies 1300, and is arranged on the upper surface of the end cap 1350 disposed to couple the plurality of light source bodies 1300. Openings 1355 that match the number of 1300 may be disposed.

18 is an exploded perspective view illustrating an electrical connection method of a lighting device according to another embodiment. 19 is a perspective view illustrating a case in which a socket part of a lighting apparatus and a light source body are coupled according to another embodiment.

Referring to FIG. 18, a lighting apparatus according to another embodiment may include a housing 2100, a light source body 2300 coupled to an inner upper surface of the housing 2100, a housing 2100, and a socket coupled to the light source body 2300. It may include a portion 2400.

At least one side of the light source body 2300 is provided with a receiving groove 2350 for accommodating the socket portion 2400, and a conductive terminal 2320 electrically connected to the light emitting module 2310 on one surface of the receiving groove 2350. Can be arranged.

The connector 2450 is disposed in a portion of the socket portion 2400 that is in contact with the terminal 2320 when the socket 2400 is stored in the accommodating groove 2350, and a hook portion that is coupled to the housing 2100 on an upper surface of the socket portion 2400. 2420 may be disposed. An upper groove 2110 may be disposed on an upper surface of the housing 2100, and the hook part 2420 may be inserted through the upper groove 2110 of the housing 2100.

In addition, although not shown, the light source body 2300 may be mechanically coupled to the inner upper surface of the housing 2100 by means of a fixing clip as shown in FIGS. 15 and 16.

Like the socket portion 2400 illustrated in FIG. 17, the connector 2450 of the socket portion 2400 of the lighting apparatus according to another embodiment may be connected to an internal conductive member, and the conductive member may connect the hook portion 2420. It can be electrically connected to the external power supply through.

As shown in FIG. 18, the conductive terminal 2320 may be disposed on the bottom surface of the accommodating groove 2350, and the connector 2450 of the socket part 2400 may be disposed on the bottom surface of the socket part 2400. When the portion 2400 is inserted into the accommodation groove 2350, the connector 2450 may contact the conductive terminal 2320.

In addition, the conductive terminal 2320 may be disposed on the side of the accommodating groove 2350, and the connector 2450 of the socket part 2400 may be disposed on the side of the socket part 2400.

The light emitting module 2310 disposed on one surface of the light source body 2300 may include a light emitting element 2315 disposed on one surface of the substrate 2311 and the substrate 2311, and a conductive terminal disposed on the other surface of the substrate 2311. 2320 may be disposed.

The light emitting module 2310 may be disposed on a bottom surface of the light source body 2300, and an exposed groove may be formed on a bottom surface of the receiving groove 2350 of the light source body 2300. When the terminal 2320 disposed on the other surface of the substrate 2311 is exposed through the exposed groove, and the socket portion 2400 is inserted into the accommodation groove 2350, the connector 2450 of the lower surface of the socket portion 2400 is May be in contact with the terminal 2320.

20 is an exploded perspective view illustrating an electrical connection method of a lighting apparatus according to another embodiment. 21 is a perspective view illustrating a case in which a housing and a light source body of a lighting apparatus according to still another embodiment are coupled;

Referring to FIG. 20, the lighting apparatus according to another embodiment may be disposed on the housing 3100, the light source body 3300 coupled to the inner top surface of the housing 3100, and the outer top surface of the housing 3100, and the light source body 3300. It may include a socket portion 3400 coupled to).

As shown in FIG. 20, a protruding terminal 3340 is disposed on at least one side of the light source body 3300, and the socket part 3400 has an accommodating groove 3420 for accommodating the terminal 3340. It may be electrically connected to the terminal 3340 accommodated in the groove 3420.

The connector 3430 is disposed inside the receiving groove 3420, and the connector 3430 may contact the terminal 3340 when the protruding terminal 3340 is accommodated in the receiving groove 3420.

A light emitting module (not shown) is disposed on at least one surface of the light source body 3300, and the terminal 3340 may be electrically connected to the light emitting module.

The socket portion 3400 may have a horizontal portion 3410 disposed on an outer upper surface of the housing 3100 and a vertical protrusion 3450 disposed perpendicular to the horizontal portion 3410.

A through groove 3110 is disposed on an upper surface of the housing 3100, and the vertical protrusion 3450 of the socket part 3400 passes through the through groove 3110 of the housing 3100 to protrude downward from the housing 3100. Can be.

22A is an exploded perspective view of a lighting apparatus according to another embodiment. 22B is a detailed view of a light source body according to another embodiment.

As shown in FIG. 22A, a reflector 4200 may be disposed inside the housing 4100, and the light source body 4300 may have an inclined surface that is inclined toward the reflector 4200.

The light emitting module 4310 may be disposed on the inclined surface, and the light emitting module 4310 may irradiate light toward the reflector 4200. Light irradiated to the reflector 4200 may be evenly reflected and emitted downward of the lighting apparatus.

The socket portion 4400 may be disposed to extend from the side of the housing 4100 as shown in FIG. 22A. Accordingly, the light source body 4300 connected to the socket part 4400 may be spaced apart from the housing 4100.

The socket portion 4400 may have a receiving portion 4420 disposed to support the terminal 4350 protruding from the side of the light source body 4300, and a connector 4430 is disposed inside the receiving portion 4420. It may be electrically connected to the terminal 4350.

Fig. 22C shows the accommodating portion of the socket portion in which the terminals of the light source body are accommodated.

As shown in FIG. 22C, the accommodating part 4420 has a shape corresponding to the shape of the terminal 4350 of the light source body 4300 illustrated in FIG. 22B so that the terminal 4350 may be inserted.

The light source body 4300 may be spaced apart from the housing 4100 as shown in FIG. 22A through the socket portion 4400 and the terminal 4350 of the light source body 4300 having the configuration as shown in FIGS. 22B and 22C. have.

Accordingly, a space in which air can flow between the upper surface portion of the light source body 4300 and the housing 4100 may be generated, and more heat generated from the light source body 4300 may be released to the space.

23 is an exploded perspective view of a light source unit of a lighting apparatus according to another embodiment. 24 is a perspective view of a housing and a light source unit of the lighting apparatus according to another embodiment, before coupling.

23 and 24, a lighting apparatus according to another embodiment may include a housing 5100, a light source body 5300, a horizontal portion 5510, and a horizontal portion 5510 coupled to an inner upper surface of the housing 5100. It may include a combination 5400 including a screw-shaped vertical portion 5520 disposed perpendicular to the center.

The assembly 5400 is disposed in the interior space of the light source body 5300 so that the vertical portion 5520 of the assembly 5400 penetrates the upper surface of the light source body 5300, and the vertical portion 5520 is inside the housing 5100. The upper surface of the light source body 5300 and the inner surface of the housing 5100 may be coupled by screwing the upper surface.

The light source body 5300 may include a lower body 5330 and an upper body 5370 covering the upper surface of the lower body 5330. The lower body 5330 is provided with a horizontal groove 5350 in which the horizontal portion 5410 of the coupling body 5400 is disposed, and the upper body 5370 is a vertical portion of the coupling body 5400 disposed in the lower body 5330. A through hole 5375 through which the 5420 penetrates may be disposed.

The vertical portion 5520 may be screwed to the inner upper surface of the housing 5100 to couple the upper surface of the light source body 5300 and the inner upper surface of the housing 5100.

The horizontal portion 5410 of the combination may be circular, and teeth may be formed at the circumference of the horizontal portion 5410, and a portion of the horizontal portion 5410 may protrude outside the light source body 5300.

Accordingly, the user may turn the circumference of the toothed coupling to allow the coupling 5400 to be screwed onto the upper surface of the housing 5100.

Meanwhile, in FIGS. 23 and 24, the combination 5400 is disposed on both sides of the light source body 5300, but the combinations may be arranged one by one in the space at the center of the light source body.

25 is a view illustrating a mechanical connection method of a lighting device according to another embodiment. FIG. 26 is a perspective view illustrating a case in which a housing and a light source body of the lighting apparatus according to another embodiment are coupled; FIG.

Referring to FIG. 25, a lighting apparatus according to another embodiment may include a housing 6100, a light source body 6300 coupled to an inner upper surface of the housing 6100, and a fixing box disposed on an outer upper surface of the housing 6100. 6400).

A plate material 6350 is disposed on an upper surface of the light source body 6300, and when the light source body 6300 is coupled to an inner upper surface of the housing 6100, the plate material 6350 is inserted into and fixed to the holder 6400. It can be fixed inside. The fixing box 6400 may be made of a PC (polycarbonate) material, and the material of the sheet material 6350 may be stainless steel.

The plate material 6350 disposed on the light source body 6300 may include a coupling part 6321 coupled to the light source body 6300, a contact part 6153 inserted into the fixing box 6400, and a contact part 6331 and a contact part 6153. It may be made of a connecting portion (6355) for connecting.

As shown in FIG. 25, the contact portion 6353 may be narrowed in width toward the upper portion, and the width of the connection portion 6355 may be set to be narrower than the width of the lowermost portion of the contact portion 6353.

The inside of the fixing box 6400 includes a pair of elastic bodies 6410 facing each other, the elastic body 6410 may have an elastic force in a direction close to each other. In addition, the support part 6230 may be disposed at the lower end of the elastic body 6410. The support part 6630 may be circular as shown in FIG. 25, and a rubber with high friction force may be used to stably hold the plate 6350.

According to this configuration, when the plate member 6350 is inserted into the fixing box 6400, the contact portion 6535 of the plate member 6320 can be disposed between the elastic bodies 6410 and contact the elastic bodies 6410, The support part 6230 may be disposed below the contact part 6535 to fix the plate member 6350.

The plate 6350 may be a conductive material, and may be electrically connected to the light emitting module 6320 disposed on the light source body 6300. In addition, the elastic 6410 inside the fixing box 6400 can also act as a kind of connector as a conductive material. The connector may be connected to an external power source to transfer a power supply from the outside to the light emitting module 6320.

 27 is a perspective view illustrating a mechanical connection method of a lighting device according to another embodiment. 28 is a perspective view illustrating a case in which a housing and a light source body of the lighting apparatus according to another embodiment are coupled;

Referring to FIG. 27, a lighting apparatus according to another embodiment may include a housing 7100, a light source body 7300 coupled to an inner upper surface of the housing 7100, a housing 7100, and a light source body 7300. The lock 7400 may be included.

The locking device 7400 includes a rotating member 7430 including two hinge parts, a first hinge part and a second hinge part, a fixing member 7440 coupled to the first hinge part and coupled to an upper surface of the housing 7100, One side may include a binding member 7450 coupled to the second hinge portion and the other side coupled to the light source body 7300.

In addition, the locking device 7400 may be disposed on both sides of the light source body 7300, and may be coupled to the side surface of the light source body 7300 so that the light source body 7300 is coupled to the inner upper surface of the housing 7100. .

In order to reliably couple the light source body 7300 to the upper surface of the housing 7100, the locking device 7400 may be disposed on the upper surface of the housing 7100 on both sides of the light source body 7300. For more stable coupling, as shown in FIG. 27, the locking device 7400 may be disposed at four positions, and the number of the locking devices 7400 is not limited thereto.

As shown in FIG. 27, the rotating member 7230 includes a hook portion 7743 that can be coupled to an inner upper surface of the housing 7100, and the housing 7100 hooks at a position corresponding to the hook portion 7743. The portion 7705 may have a groove to which it can be joined.

Locking jaws 7320 are disposed on both side surfaces of the light source body 7300, and the binding member 7450 may be coupled to the locking jaws 7320.

The order in which the light source body 7300 is coupled to the housing 7100 is as follows. When the light source body 7300 is disposed on the inner upper surface of the housing 7100, the binding member 7450 is coupled to the locking step 7320 of the light source body 7300. Rotating the rotating member 7430 in the outward direction and engaging the hook portion 7475 to the upper surface of the housing 7100, the fastening member 7450 is fixed and the light source body 7300 is fixed to the inner upper surface of the housing 7100 .

 29A is an exploded perspective view illustrating a mechanical connection method of a lighting device according to another embodiment. 29B is a perspective view illustrating a case in which a housing and a light source body of the lighting apparatus according to another embodiment are coupled; 30 shows a locking device for engaging the housing and the light source body.

Referring to FIG. 29A, a lighting apparatus according to another embodiment may include a housing 8100, a light source body 8300 coupled to an inner upper surface of the housing 8100, and a housing 8100 and a light source body 8300. Locking device 8400.

The locking device 8400 may include a first coupling part 8810 coupled to a side surface of the light source body 8300, a second coupling part 8220 and a first coupling part 8810 coupled to an upper surface of the housing 8100. It may include a connecting portion (8430) for connecting the two coupling portion (8420). The first coupling portion 8810 may be screwed to the side of the light source body 8300.

The second coupling part 8420 has a horizontal groove 8040 on one surface, and an upper surface of the housing 8100 has an opening 8110, and a surface that is coupled to the second coupling part 8220 among the boundary surfaces of the opening 8210. It has an insertion portion 8215 protruding from it. The insertion part 8215 protrudes in a shape corresponding to the horizontal groove 8440, and is inserted into the horizontal groove 8840 when the light source body 8300 is coupled to the inner upper surface of the housing 8100.

The locking device 8400 may be disposed at both sides of the light source body 8300 for a stable connection between the light source body 8300 and the housing 8100. Of course, the number of the locking device 8400 is not limited to this.

The connection part 8230 may be elastic, and may provide an elastic force so that the second coupling part 8220 coupled to the housing 8100 stands in a direction perpendicular to the upper surface of the housing 8100.

 31 is an exploded perspective view illustrating a mechanical connection method of a lighting apparatus according to another embodiment. 32 is a view illustrating a socket part for coupling a housing and a light source body of a lighting apparatus according to another embodiment.

Referring to FIG. 31, a lighting apparatus according to another embodiment may include a housing 8600, a light source body 8700 coupled to an inner upper surface of the housing 8600, and a housing 8600 and a light source body 8700. The socket part 8800 may be included.

The socket portion 8800 includes a locking portion 8810 disposed horizontally with the light source body 8700 and a connecting portion 8820 disposed perpendicular to the locking portion 8810, and a connector 8830 is provided on one surface of the connecting portion 8820. ) May be arranged.

A groove having a shape corresponding to the socket portion 8800 may be disposed on at least one side surface of the light source body 8700, and the terminal 8710 may be disposed at a position corresponding to the connector 8830 of the socket portion 8800. . The light emitting module 8720 may be disposed on at least one surface of the light source body 8700, and the light emitting module 8720 may be electrically connected to the terminal 8710.

A hook portion 8840 coupled to the top surface of the housing 8800 may be disposed on an upper surface of the connection portion 8820 of the socket portion 8800. A groove formed in a shape capable of accommodating the hook portion 8840 at a position corresponding to the hook portion 8840 may be disposed on an upper surface of the housing 8600.

A conductive material electrically connected to the connector 8830 may be disposed in the connection part 8820 to be electrically connected to an external power source through the hook part 8840. Through this configuration, external power can be supplied to the light emitting module 8720.

 33 is an exploded perspective view illustrating a light source unit according to still another embodiment. 34 is a cross-sectional view of a light source unit according to still another embodiment.

33 and 34, the light source unit 9000 may be coupled to the housing 100 and the coupling member 110 of FIGS. 4A to 4C.

The lighting apparatus including the light source unit 9000 according to another embodiment includes a housing 100, a coupling member 110 coupled to an inner upper surface of the housing, and a light source unit 9000 detachably coupled to the coupling member 110. ) May be included. The light source unit 9000 may be directly coupled to the upper surface of the housing 100 having a groove without the coupling member 110.

The light source unit 9000 is disposed between the light source body 9100, the cover unit 9200 disposed to cover the light source body 9100, the light source body 9100 and the cover unit 9200, and one side of the light source body 9100. A connection member including a first connection member 9113 disposed in the second connection member 9151 and a second connection member 9151 disposed on the other side of the light source body 9100, between the first connection member 9113 and the second connection member 9215. It may include an elastic body (9118) disposed in.

The elastic body 9918 may provide an elastic force in a direction away from the first connecting member 9113 and the second connecting member 9115, thereby enhancing the binding force when the connecting member is coupled to the coupling member 110. Can be.

The first connecting member 9113 and the second connecting member 9115 include a horizontal portion 9171 disposed on an upper surface of the light source body 9100 and a vertical portion 9119 extending perpendicular to the horizontal portion 9171. The vertical portion 9119 may be coupled to the coupling member 110 through the cover portion 9200.

The cover portion 9200 may have an opening 9210 having a free space on the upper surface to move the vertical portion 9119. In addition, when the cover portion 9200 covers the side surface of the light source body 9100, the side surface of the cover portion 9200 is a groove for the horizontal portion 9171 of the first connecting member 9113 and the second connecting member 9151. Can have

The horizontal portion 9171 may protrude out of the light source body 9100, and the user presses the horizontal portion 9171, whereby the vertical portion 9119 and the second connection member 9215 of the first connecting member 9113 are provided. The distance between the vertical portions 9119 of the can be adjusted.

After the user presses the horizontal portion 9171 to narrow the distance between the vertical portion 9119 of the first connecting member 9113 and the vertical portion 9119 of the second connecting member 9115, the insertion of the coupling member 110 is inserted. After inserting the connecting member into the groove 112 or the groove of the housing, the force applied to the horizontal portion 9171 is subtracted, and the vertical portion 9119 of the first connecting member 9131 is formed by the elastic force of the elastic body 9918. The vertical portion 9119 of the second connection member 9115 may be coupled to the insertion groove 112 of the coupling member 110 or the groove of the housing 100.

As shown in FIGS. 4A to 4C, the coupling member 110 has an insertion groove 112 formed in a direction toward an inner upper surface of the housing 100 at an intermediate portion thereof, and an coupling groove (inside the insertion groove 112). 113) can be formed. One end of the first connection member 9113 and the second connection member 9115 of the light source unit 9000 may be coupled to the coupling groove 113.

The other ends of the first connecting member 9113 and the second connecting member 9115 may protrude out of the light source body 9100, and the protruding portions may be pressed by the user so that the light source unit 9000 is coupled to the coupling member 110 or the housing. When detached to the upper surface of the 100 so that the spacing of the connecting member can be adjusted.

A guide groove 9160 may be disposed on the upper surface of the light source body 9100 to arrange the connection member. The connection member may be slidably moved along the guide groove 9160.

The light source body 9100 may include a plurality of light source bodies 9100, and for example, a second light source body 9130 and a second light source body 9130 disposed on side surfaces of the light source body 9100, as illustrated in FIG. 33. Light source body 9150 may be included. The first connection member 9113 may be disposed on an upper surface of the first light source body 9130, and the second connection member 9115 may be disposed on an upper surface of the second light source body 9150.

 35 is an exploded perspective view illustrating a lighting device according to another embodiment. 36 is a view illustrating a process in which a light source body is coupled to a housing according to another embodiment. 37 shows in detail the form of the connecting piece before and after joining.

Referring to FIG. 35, a lighting apparatus according to another embodiment may include a housing 9500, a light source body 9600 coupled to an inner top surface of the housing 9500, and a light source body 9600 and a housing 9500. It may include an omnipresent 9700. The connecting piece 9700 may be stainless steel.

The connecting piece 9700 may include a lower piece 9710 coupled to the side of the light source body 9600, an upper piece 9720 coupled to the housing 9500, and a connecting portion connecting the lower piece 9710 and the upper piece 9720. 9730 may be included, and the upper knitting material 9720 may be widened toward an upper portion up to a predetermined height.

The width of the upper knitted fabric 9720 may continue to increase toward the upper portion, may be widened to a predetermined height, maintain a constant width, and may be narrowed again.

A length groove 9510 extending in one direction is disposed on an inner upper surface of the housing 9500, and the length of the length groove 9510 may be greater than or equal to the maximum width of the upper knitted fabric 9720. This is because the connecting piece 9700 may be inserted into the upper surface of the housing 9500 only if the length of the length groove 9510 is greater than or equal to the maximum width of the upper piece 9720.

The upper piece 9720 of the connecting piece 9700 inserted into the length groove 9510 of the housing 9500 may be bent at an angle with respect to the connecting part 9930. The light source body 9600 has a housing 9500 due to the shape of the upper member 9720 that is widened toward the upper portion as the upper member 9720 is inserted into the upper surface of the housing 9500 and then bent relative to the connecting portion 9930. It is in close contact with the inner upper surface of the).

After the connecting piece 9700, which has the same shape as in FIG. 37 (A), is inserted, the upper piece 9720 can be bent at an angle of 90 degrees with respect to the connecting part 9930, as shown in FIG. 37 (B). .

The lower piece 9710 of the connecting piece 9700 may be screwed to the side surface of the light source body 9600.

The light emitting module 9610 is disposed on one surface of the light source body 9600, and the connecting member 9700 may function as an electrical terminal of the light emitting module 9610. The connecting member 9700 may be electrically connected to the light emitting module 9610, and the upper member 9720 of the connecting member 9700 may be electrically connected to an external power source to supply external power to the light emitting module 9610.

[Example of arrangement of heat dissipation structure]

As shown in FIG. 9A, the light source bodies 310a and 310b may extend from one surface to the other surface along the first axis 33. The light emitting modules 320a and 320b disposed on one surface of the light source bodies 310a and 310b may have different concentrations of heat according to their positions.

38 shows the concentration of heat when two light source bodies are arranged on the inner top surface of the housing. 39 illustrates a light source body having heat dissipation fins disposed in a central portion thereof.

As shown in FIG. 38, heat generated by the use of the lighting device is concentrated in the light emitting module disposed in the center of the light source body. Since the light emitting device, for example, the LED chip, is degraded by heat, the light emitting module disposed at the center of the light source body is easily degraded compared to the light emitting module disposed at the side.

Accordingly, a difference may occur in the brightness of the central portion and the side of the lighting apparatus, and the light uniformity of the lighting apparatus may be lowered.

Accordingly, among the light emitting modules disposed on one surface of the light source body 9800 illustrated in FIG. 39, the first light emitting module 9810 and the first light emitting module 9810 disposed at the center of one surface of the light source body 9800 are shown. A light emitting module having a second light emitting module 9820 disposed on a side surface and having a higher light efficiency than the second light emitting module 9820 may be used for the first light emitting module 9810.

In addition, the heat dissipation sheet may be disposed between the first light emitting module 9810 and the light source body 9800, and the heat dissipation sheet may not be disposed between the second light emitting module 9820 and the light source body 9800.

In addition, the heat dissipation structure 9830 is disposed in a first region of a portion of the other surface of the light source body 9800 where the light emitting module is not disposed, corresponding to one surface on which the first light emitting module 9810 is disposed, and other than the first region. The heat dissipation structure (9830) may be disposed on the surface of the

The heat dissipation structure may be disposed on the outer upper surface of the housing corresponding to the portion to which the light source body 9800 is coupled instead of the light source body 9800.

In another embodiment, the heat dissipation structure may be disposed on the side of the light source body corresponding to the region where the first light emitting module is disposed.

Meanwhile, the first heat dissipation structure may be disposed on the first region of the other surface or the side of the light source body, and the second heat dissipation structure may be disposed on at least some of the surfaces other than the first region. However, the placement density of the first heat dissipation structure may be higher than the placement density of the second heat dissipation structure.

In the first region in which the first heat dissipation structure having a high placement density is arranged, heat dissipation is better than in a portion other than the first region in which the second heat dissipation structure having a low placement density is disposed.

The first heat dissipation structure and the second heat dissipation structure may be heat dissipation fins or through holes, and an interval between the heat dissipation fins or through holes of the first heat dissipation structure may be smaller than a distance between the heat dissipation fins or the through holes of the second heat dissipation structure.

According to the above-described configuration, the first light emitting module in the center and the second light emitting module in the side where the generation of heat is concentrated may emit light with a uniform luminous flux value.

As described above, those skilled in the art to which the present invention pertains will understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the following claims rather than the above description, and the meaning and scope of the claims And all changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

100, 500, 800: housing
110: coupling member
120: first connection terminal
200, 600, 900: reflector
300: light source
310a: first body
310b: second body
330: second connection terminal
400: power drive unit

Claims (12)

housing;
A coupling member coupled to the housing; And
A light source unit detachably coupled to the coupling member;
The light source unit includes:
Light source body;
A cover part disposed on the light source body;
A connection member disposed between the light source body and the cover part and including a first connection member disposed on one side of the light source body and a second connection member disposed on the other side of the light source body; And
An elastic body disposed between the first connection member and the second connection member,
The elastic body provides an elastic force in a direction away from the first connecting member and the second connecting member,
The connection member is coupled to the coupling member,
Lighting device. The method of claim 1,
The first connection member and the second connection member includes a horizontal portion disposed on the upper surface of the light source body and a vertical portion extending in the vertical direction to the horizontal portion,
The vertical portion is coupled to the coupling member through the cover portion,
Lighting device. The method of claim 1,
The coupling member has an insertion groove is formed in the direction toward the upper surface of the housing, the insertion groove is formed with a coupling groove,
One end of the first connection member and the second connection member is coupled to the coupling groove,
The other ends of the first connection member and the second connection member protrude out of the light source body,
Lighting device. housing; And
A light source unit detachably coupled to the housing;
The light source unit includes:
Light source body;
A cover part disposed on the light source body;
A connection member disposed between the light source body and the cover part and including a first connection member disposed on one side of the light source body and a second connection member disposed on the other side of the light source body; And
An elastic body disposed between the first connection member and the second connection member,
The elastic body provides an elastic force in a direction away from the first connecting member and the second connecting member,
The connecting member is coupled to the upper surface of the housing,
Lighting device. The method according to claim 1 or 4,
The light emitting module is disposed on one surface of the light source body,
Lighting device. The method according to claim 1 or 4,
On the upper surface of the light source body is provided a guide groove for disposing the connection member to be movable,
Lighting device. The method according to claim 1 or 4,
The light source body includes a first light source body and a second light source body disposed on the side of the first light source body,
The first connection member is disposed on the upper surface of the first light source body,
The second connection member is disposed on the upper surface of the second light source body,
Lighting device. The method of claim 4, wherein
The first connection member and the second connection member includes a horizontal portion disposed on the upper surface of the light source body and a vertical portion extending in the vertical direction to the horizontal portion,
The vertical portion is coupled to the upper surface of the housing through the cover portion,
Lighting device. The method according to claim 1 or 4,
Further comprising a reflector disposed on the inner upper surface of the housing,
Lighting device. The method of claim 9,
The light source body has an inclined surface inclined toward the reflector,
The light emitting module is disposed on the inclined surface,
Lighting device. The method of claim 9,
The light emitting module is disposed on the lower surface of the light source body,
An optical member is disposed below the light source body,
Lighting device. The method of claim 11,
The optical member includes a first surface facing a direction in which the light emitting module is emitted and a second surface facing the reflector,
The first surface transmits and reflects light of the light emitting module,
Lighting device.

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