JP3163564U - Modular lighting device - Google Patents

Abstract

To provide a modularized lighting device capable of flexibly adjusting and combining devices according to actual lighting luminance needs. A modular lighting apparatus includes a support structure 100 and a plurality of lighting modules 200. The support structure 100 is a U-shaped frame body 110. A pair of rails 120 are extended outward at an opening end of the support structure 100. The lighting module 200 includes a heat dissipating base 210 connected to the rail 120, a light emitting diode unit 220 installed on the heat dissipating base 210, and a plurality of heat dissipating fins 230 respectively fixed to the heat dissipating base 210. Opening 231 to open. [Selection] Figure 3

Description

The present invention relates to a lighting device, and more particularly to a modular lighting device.

Conventional illumination generally uses a fluorescent lamp as a light source.
The light emission principle of a fluorescent lamp uses a discharge of current in argon.
As a result, mercury vapor generates ultraviolet rays, but the ultraviolet rays are absorbed by the stratum corneum and emit visible light.

However, since the discharge state of the fluorescent lamp gradually becomes unstable in the later stage of use, the luminance is greatly reduced and the phenomenon of blinking occurs.
Furthermore, if a fluorescent lamp breaks and bursts, heavy metals and mercury vapor within it can harm the human body and the environment.
In addition, it is necessary to install an electronic ballast or a high-frequency starter in the fluorescent lamp, and there are disadvantages such as a slow start-up speed, high power consumption, and high heat generation.
In addition, with the recent increase in awareness of energy saving and environmental protection, light emitting diode lighting technology is gradually being applied to lamp lighting instead of fluorescent lamps.

Light-emitting diodes are cold light sources with a small volume, low heat generation (no ultraviolet radiation), low power consumption (low voltage, low current start-up), long life, fast reaction speed, ecological (earthquake resistance) , Impact resistance, mercury free).
A conventional light emitting diode lamp includes a lamp shade, a light transmission cover connected to the lamp shade, a partition plate installed between the lamp shade and the light transmission cover, and a light emitting diode module installed on the partition plate.
The light emitting diode module includes a circuit board, a heat spreader fixed to both sides of the circuit board, and a plurality of light emitting diodes.

However, many problems still exist in the conventional light emitting diode lamp in actual use.
Since the light emitting diode module is fixedly installed in an internal space in which a lamp shade and a light transmission cover are combined, the number of light emitting diode modules cannot be increased or decreased according to actual lighting needs.
This narrows the range of practicality and elasticity of lamps.
Moreover, when producing lamps of various standards or power consumption, corresponding molds must be opened, which increases production costs and manufacturing time.
The present invention has been made in view of the above-described drawbacks of the conventional modular lighting apparatus.

JP 2009-117330 A

The problem to be solved by the present invention is to provide a modularized lighting device that can be flexibly adjusted and combined in accordance with actual lighting luminance needs.

In order to solve the above problems, the present invention provides the following modularized lighting device.
The modularized lighting device includes a support structure that is a U-shaped frame and a plurality of lighting modules that are connected in order on the support structure.
The open end of the U-shaped frame extends a pair of rails outward,
Any of the lighting modules includes a heat dissipation base connected to the rail, a light emitting diode unit installed at the bottom of the heat dissipation base, and a plurality of heat dissipation fins fixed to the top of the heat dissipation base,
In any of the heat sink fins, open a cutout that can be installed through the rail,
The present invention allows modular assembly methods to flexibly adjust and combine devices according to the actual lighting needs of the surrounding environment, so that products with different power consumption can be easily assembled,
For example, the number of lighting modules can be reduced to achieve energy savings, or the number of lighting modules can be increased to increase lighting brightness.
This greatly reduces the cost of opening the mold, expands the range of use and location, and since the lighting module is standardized, it can have compatible characteristics, reduce raw materials and inventory,
Since the lighting module is fixed on the rail, the stability of the structure of the entire lighting device can be enhanced.
That is, the present invention has the following features.
(1) The modular lighting device includes a support structure that is a U-shaped frame body, and a plurality of lighting modules that are connected in order on the support structure.
Extending a pair of rails outward at the open end of the U-shaped frame,
The optional lighting module includes a heat dissipating base connected to the rail, a light emitting diode unit installed at the bottom of the heat dissipating base, and a plurality of heat dissipating fins fixed to the top of the heat dissipating base,
A modularized lighting device, wherein an opening that can be installed through the rail is provided in any of the heat dissipation fins.
(2) The modular illumination device further includes at least one lid plate and a plurality of fixed parts that seal one side of the U-shaped frame,
At the sealed end of the U-shaped frame body and the end of the pair of rails, respectively, a guiding tank is installed,
The lid plate has a through-hole corresponding to the position of each introduction tank, and each of the fixing parts passes through each of the through-holes and is fixed in each of the introduction tanks. The modularized lighting device according to (1).
(3) The light emitting diode unit includes a circuit board fixed to the heat dissipation base, and a plurality of light emitting diodes installed on the circuit board and electrically connected to the circuit board. (1) The modular lighting apparatus described in (1).
(4) The modularized illumination device according to (1), wherein the rail is formed with an enlarged portion that contacts the heat dissipation base.
(5) The modularized lighting device further includes a pair of shielding units installed above the lighting modules,
The shielding unit includes an eaves plate and a support column installed on the heat dissipation base,
The modular lighting apparatus according to (1), wherein one end of the eaves plate is connected to the U-shaped frame body, and the other end is connected to the support column.
(6) The support structure further includes a receiving stand and a pivot connected to the receiving stand,
The modular illumination apparatus according to (1), wherein the U-shaped frame is provided with a pivot hole that is installed through the pivot.
(7) The support structure further includes a hollow tube connected to the receiving table,
The modular lighting apparatus according to (6), wherein the receiving base is provided with a perforation penetrating the hollow tube.
(8) The modular lighting apparatus further includes another support structure, a bridge connection plate for connecting and fixing the pair of support structures in the lateral direction, and a receiving plate for connecting the pair of receiving bases in the lateral direction. (6) The modular illumination apparatus according to (6).
(9) The modularized illumination device according to (1), wherein the modularized illumination device further includes an outer cover that covers the support structure and the illumination modules.
(10) The support structure further includes a receiving stand and a pivot connected to the receiving stand,
The modular illumination device according to (9), wherein the outer cover has a pivot hole installed through the pivot.

The modular lighting device of the present invention can be flexibly adjusted and combined according to the actual lighting brightness needs, greatly reducing the mold opening cost, expanding the range of use and location, and lighting Since the modules are standardized, they have interchangeable characteristics, can reduce raw materials and inventory, and because the lighting modules are fixed on the rails, the stability of the overall structure of the lighting device can be enhanced. it can.

It is a three-dimensional exploded view of the present invention. It is a three-dimensional combination diagram of the present invention. It is a schematic diagram from another angle of FIG. It is a horizontal direction combination sectional view of the present invention. In this invention, it is a schematic diagram of a state with comparatively few illumination modules. In this invention, it is a schematic diagram of a state with comparatively many lighting modules. It is a three-dimensional exploded view of another embodiment of the present invention. FIG. 4 is a cross-sectional view in a transverse direction of another embodiment of the present invention. It is a three-dimensional combination diagram of still another embodiment of the present invention. In this invention, it is a three-dimensional combination figure of a mode that many sets of illumination modules are arranged in parallel. In this invention, it is a three-dimensional combination figure of a mode that a hollow tube is connected with a receiving stand. In this invention, it is a three-dimensional figure of a mode that a receiving stand connects to a U-shaped frame vertex surface. It is a three-dimensional combination figure of an aspect of adding an outer cover to the present invention.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

As shown in FIGS. 1 to 4, the modular lighting device of the present invention includes a support structure 100 including a hollow frame 110 ′ that is a U-shaped frame 110 and a pair of rails 120 and 130, a plurality of lighting modules 200, and at least one. Each cover plate 300 includes a plurality of fixed parts 400.

In the hollow internal space of the U-shaped frame 110, electrical components such as a transformer and a power line are installed.

The pair of rails 120 and 130 are formed by extending outward from both sides of the bottom of the U-shaped frame 110.
That is, the pair of rails 120 and 130 extend outward at the open end of the U-shaped frame 110.

Further, a guiding tank 140 is installed at the closed end of the U-shaped frame 110 and the ends of the pair of rails 120 and 130, respectively.

The lighting modules 200 are in turn connected to the support structure 100 and in intimate contact with each other.

The arbitrary lighting module 200 includes a heat dissipation base 210 connected to the bottom surfaces of the pair of rails 120 and 130, a light emitting diode unit 220, and a plurality of heat dissipation fins 230.

The heat dissipating base 210 is a component having good heat conductivity, such as an aluminum substrate or a copper substrate, but is not limited thereto.

The light emitting diode unit 220 is installed on the bottom of the heat dissipation base 210, and is fixed on the bottom surface of the heat dissipation base 210, and each circuit board 221 is installed on the circuit board 221, and is electrically connected to the circuit board 221. It consists of a plurality of light emitting diodes 222.

A heat conduction medium may be applied between the circuit board 221 and the heat dissipation base 210 to improve heat conduction performance.

Each of the heat dissipating fins 230 is fixed to both end regions of the apex surface of the heat dissipating base 210, and is fixed with the U-shaped frame 110 interposed therebetween.

The heat dissipating fins 230 are connected to the apex surface of the heat dissipating base 210 by a welding method or an integral molding method, but the present invention is not limited to this molding method.

The heat dissipating fins 230 are parts having good heat conductivity, such as aluminum pieces or copper pieces, but are not limited thereto.

The optional heat-dissipating fins 230 are installed through the optional rails 120 and 130, and the corresponding openings 231 are opened.

The lighting module 200 is connected to the pair of rails 120 and 130 through the notches 231, and in addition to using a fixed component, the heat dissipation base 210 and the pair of rails 120 and 130 are connected to each other. The heat dissipating base 210 can be localized by being closely connected.

The fixing part can be a screw unit or a viscosity medium.

The at least one lid plate 300 seals one side of the U-shaped frame body 110, and the lid plate 300 corresponds to the position of each of the guiding tanks 140, and opens through holes 310, respectively.

The fixing parts 400 are installed through the through holes 310 and fixed in the guide tanks 140. Thus, the lid plate 300 is closely installed at the front end of the support structure 100.

The pair of rails 120, 130 form a pair of enlarged portions 121, 131 at the rear ends, respectively, so that when the lighting modules 200 are sequentially installed on the U-shaped frame 110, the lighting modules The 200 are in intimate contact with each other.

The last illumination module 200 is in contact with the pair of enlarged portions 121 and 131, and the open portion of the cover plate 300 is in contact with the illumination module 200.

In this way, each lighting module 200 is sandwiched between the cover plate 300 and the pair of enlarged portions 121 and 131.

The present invention further includes a plurality of lighting modules 200 ′, the structure of which is similar to each lighting module 200 and will not be described in detail.

As shown in FIGS. 5 and 6, the present invention achieves energy saving by reducing the number of lighting modules 200 according to the actual lighting needs of the surrounding environment, or increases the number of lighting modules 200. Since the brightness can be increased, it has elasticity in use.

The present invention can also be used as a street light. In this case, the U-shaped frame 110 is installed through a pole to be installed outdoors.

As shown in FIGS. 7 and 8, the modularized illumination device further includes a pair of shielding units 500 that are installed above both sides of each illumination module 200.

The arbitrary shielding unit 500 includes an eaves plate 510 and a column 520.

One end of the eaves plate 510 is fitted and installed in the guide tank 140 above the U-shaped frame 110.

The support column 520 is installed at the edge of the arbitrary heat dissipation base 210, and the opposite end of the eaves plate 510 is connected to the support column 520.

As a result, the eaves plate 510 overhangs above the heat dissipating fins 230 and achieves waterproof and dustproof functions so that rainwater and dust are applied to the heat dissipating fins 230 and do not affect the heat dissipating effect. .

As shown in FIG. 9, the present invention can be used as wall illumination. In this case, the support structure 100 includes a receiving table 150 and a pivot 160 connected to the receiving table 150.

At the rear end of the U-shaped frame 110, a pivot hole 111 installed through the pivot 160 is formed in a penetrating manner.

Thus, the U-shaped frame 110 can be turned on the receiving table 150, and thus each lighting module 200 can irradiate the wall surface at different angles.

As shown in FIG. 10, the present invention can increase the illumination brightness and range by arranging a large number of illumination modules in parallel.

In this case, the present invention includes a bridge connection plate 600 and a receiving plate 700, and the bridge connection plate 600 is connected across a plurality of support structures 100, and the receiving plate 700 is connected to the plurality of support structures 100. Connect to the side of the receiving stand 150 in the direction.

As shown in FIG. 11, the support structure 100 can further include a hollow tube 170 connected to the receiving table 150, and the receiving table 150 is provided with a perforation 151, whereby the U The power supply line accommodated in the mold body 110 can pass through the perforation 151 and the hollow tube 170.

As shown in FIG. 12, the receiving stand 150 can be connected to the apex surface of the U-shaped frame 110 in a movable state.

As a result, the apex surface of the U-shaped frame 110 extends the pivot portion in a protruding shape, the pivot hole 111 is opened on the pivot portion, and the pivot 160 is installed through the pivot hole 111. .

As shown in FIG. 13, the present invention may further include an outer cover 800 that covers the support structure 100, the lighting modules 200, and the shielding unit 500.

In addition, since the outer cover 800 exposes the light emitting diode unit 220, the pivot hole 111 is opened on the outer cover 800, and the pivot 160 is installed through the pivot hole 111. The 800 can be turned on the receiving table 150.

The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. Equivalent applications based on the spirit of the present invention, conversion of parts (structure), replacement, increase / decrease of the number are all included in the protection scope of the present invention.

  The present invention has the novelty that is a requirement of the utility model, has sufficient progress compared to the conventional similar products, has high practicality, meets the needs of society, and has a very high industrial utility value .

100 Support structure
110 U frame
110 'hollow frame
111 Pivot hole
120, 130 rails
121, 131 Enlarged part
140 Tank
150 cradle
151 drilling
160 pivot
170 hollow tube
200, 200 'lighting module
210 Heat dissipation base
220 Light-emitting diode unit
221 circuit board
222 Light emitting diode
230 Heat dissipation fin
231 opening
300 lid plate
310 Through hole
400 fixed parts
500 shielding units
510 eaves board
520 prop
600 Bridge connection plate
700 Retaining plate
800 outer cover

Claims (10)

The modularized lighting device comprises a support structure that is a U-shaped frame, and a plurality of lighting modules that are connected in order on the support structure.
Extending a pair of rails outward at the open end of the U-shaped frame,
The optional lighting module includes a heat dissipating base connected to the rail, a light emitting diode unit installed at the bottom of the heat dissipating base, and a plurality of heat dissipating fins fixed to the top of the heat dissipating base,
A modularized lighting device, wherein an opening that can be installed through the rail is provided in any of the heat dissipation fins. The modularized lighting device further includes at least one cover plate and a plurality of fixed parts that seal one side of the U-shaped frame body,
At the sealed end of the U-shaped frame and the ends of the pair of rails, respectively, a guiding tank is installed,
The lid plate has a through-hole corresponding to the position of each introduction tank, and each of the fixing parts passes through each of the through-holes and is fixed in each of the introduction tanks. The modularized lighting device according to claim 1. 2. The light emitting diode unit includes a circuit board fixed to the heat dissipation base and a plurality of light emitting diodes installed on the circuit board and electrically connected to the circuit board. The modular lighting apparatus described in 1.   The modular illumination apparatus according to claim 1, wherein the rail is formed with an enlarged portion in contact with the heat dissipation base. The modular lighting device further includes a pair of shielding units installed above the respective lighting modules,
The shielding unit includes an eaves plate and a support column installed on the heat dissipation base,
The modular lighting apparatus according to claim 1, wherein one end of the eaves plate is connected to the U-shaped frame body, and the other end is connected to the support column. The support structure further includes a receiving stand and a pivot connected to the receiving stand,
2. The modular lighting apparatus according to claim 1, wherein a pivot hole is provided in the U-shaped frame to be installed through the pivot. The support structure further includes a hollow tube connected to the receiving table,
The modular lighting device according to claim 6, wherein a perforation penetrating the hollow tube is formed in the receiving base. The modular lighting device further includes another support structure, a bridge connection plate for connecting and fixing the pair of support structures in the lateral direction, and a receiving plate for connecting the pair of receiving bases in the lateral direction. The modularized lighting device according to claim 6. The modular lighting apparatus according to claim 1, further comprising an outer cover that covers the support structure and each of the lighting modules. The support structure further includes a receiving stand and a pivot connected to the receiving stand,
The modular illumination apparatus according to claim 9, wherein the outer cover has a pivot hole installed through the pivot.

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