KR101502949B1 - LED Lighting Apparatus For Mounting In The Ceiling - Google Patents

Abstract

The present invention relates to an LED lighting apparatus for mounting on a ceiling, and more specifically, to an LED lighting apparatus for mounting on a ceiling, in which an LED panel heated according to a light-emission of an LED terminal and a power supply module heated according to a power supply conversion are spaced apart from each other. An internal temperature is heated to a high temperature depending on each heat generated by the LED panel and the power supply module, which are spaced apart from each other, thereby preventing a phenomenon which the internal temperature is not easily cooled by a thermal effect between each of the heat, increasing a light emission efficiency, and supplying driving power. The LED lighting apparatus for being mounted on a ceiling comprises: a fixed frame (110) which is horizontally fixed to a ceiling surface (10), in which a downward opened space portion (111) is formed, and which includes an LED panel (120) fastened to the space portion; a diffuser plate (130) which is fastened to a lower portion of the fixing frame (110), covers the opened space portion (111), and diffuses and transmits LED light which is emitted downward from the LED panel (120); a partition (140) which is extended upward at a predetermined length along an upper edge of the fixed frame (110) and in which a space (141) is formed between the ceiling surface (10) and an upper surface of the fixed frame (110); and a power supply module (150) which is disposed in the space (141), receives common power from outside, converts the common power to driving power for light-emission driving the LED panel (120), and supplies the driving power to the LED panel (120).

Description

[0001] The present invention relates to a LED lighting device,

More particularly, the present invention relates to an LED panel that generates heat in response to light emission driving of an LED terminal and a power module that generates heat in response to power conversion driving, And an LED ceiling for preventing the phenomenon that the internal temperature is heated to a high temperature according to each heat generated by the power module and is not easily cooled due to a heat effect between the heat generated to increase the light emitting driving efficiency and to supply stable driving power.

In general, the LED ceiling direct light is a type of luminaire that is mounted on the ceiling and mounted on a ceiling and mounted on a ceiling, and the LED terminal is used as a light source to emit light downward. Is widely used.

In the case of a conventional ceiling direct connection, the LED lighting apparatus includes a casing which covers the outside and is fixedly installed so that the upper surface thereof is in close contact with the ceiling surface, an LED panel mounted inside the casing and emitting LED light in a downward direction, A power module for converting the power supply into a form of a driving power source, and a diffusion plate disposed under the casing to diffuse and transmit the LED light.

Generally, in the case of an LED panel, a plurality of LED terminals emit light at a high luminance to generate heat. In the case of the power module, the driving power is generated while converting commercial power into driving power.

However, since the power module is installed on one side of the LED panel and is driven in the same space as the LED terminal due to the structure in which the conventional ceiling direct connection is closely attached to the ceiling surface, The inside of the casing is heated to a higher temperature due to the heat generation, and the cooling efficiency is not easily maintained due to the effect of heat insulation between the respective heat generation. As a result, the luminous efficiency of the LED panel and the conversion efficiency of the power module are decreased and power consumption is increased.

In order to prevent this, a structure has been disclosed in which a buried hole is vertically opened at one side of a ceiling and a power module is inserted into the buried hole. In this case, however, Not only the installation cost is increased but also the buried hole is to be additionally drilled in order to change the position of the installed ceiling or the like or to replace with another standard or the like, There is a problem that the installation cost is further increased and the installation process becomes very difficult.

Japanese Patent Application Laid-Open No. 10-1090992 (Dec. 1, 2011), ceiling-mounted light for easy connection and separation of the illumination cover

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a light emitting diode (LED) panel that generates heat according to light emission driving of an LED terminal and a power module The LED panel and the power module are heated to a high temperature according to each heat generated by the heat generated by the LED panel and the power module, And an LED ceiling direct connection that simplifies the installation cost and the installation process because there is no need to drill a buried hole.

According to an aspect of the present invention, there is provided a lighting device including a fixed frame (110) that is horizontally disposed and fixed to a ceiling surface (10), and a space portion (111) ); A diffusion plate 130 covering the space 111 opened by being fastened to the lower portion of the fixed frame 110 and diffusing and transmitting the LED light diverging downward from the LED panel 120; A partition wall part 140 extending upwards along the upper periphery of the fixed frame 110 to form a spacing space 141 between the ceiling surface 10 and the upper surface of the fixed frame 110; And a power module 150 disposed in the spacing space 141 and adapted to receive a commercial power from the outside to convert the LED panel 120 into a driving power required for driving the LED panel 120 to emit light and supply the converted power to the LED panel 120, LED ceiling mountings and so on are included.

According to another aspect of the present invention, there is provided a light emitting diode (LED) panel, which is disposed between a lower surface of the fixed frame 110 and an upper surface of the LED panel 120, Wherein the fixing frame 110 and the LED panel 120 are provided with a screw hole 112 and a fastening hole 122 at upper and lower positions respectively and the panel spacer 160 Is formed with a through hole 161 at the center and is fixed to the stationary frame 110 by the fastening screw 162 which continuously passes through the fastening hole 122 and the through hole 161 and is rotatably coupled to the screw hole 112. [ LED ceiling mountings and the like, which are fixedly mounted between the LED panels 120, are provided.

According to another aspect of the present invention, the partition wall portion 140 is formed with heat dissipation holes 142, which are laterally opened on opposite sides of the partition wall portion 140, so that outside air flows into the one heat dissipation hole 142, A cooling air flow CA passing through the spacing space 141 is formed while being discharged to the air discharge hole 142. The cooling airflow CA is vertically arranged to penetrate the fixing frame 110, the LED panel 120 and the diffusion plate 130 continuously And a hollow space 171 having both ends opened is formed in the inside of the diffusion plate 130 to communicate the space below the diffusion plate 130 with the space 141 to supply the outside air to the space 141. [ And a pipe (170). The LED ceiling mount and the like are provided.

As described above, according to the present invention,

First, a partition wall 140 is disposed around the upper portion of the fixed frame 110, and a space 141 is formed between the ceiling surface 10 and the fixed frame 110. In the space 141, The LED panel 120 that generates heat according to the light emission driving of the LED terminal 121 and the power module 150 that generates heat according to the power conversion drive are spaced apart from each other So that the internal temperature of the fixed frame 110 is heated to a high temperature according to the heat generated by the LED panel 120 and the power module 150, The efficiency can be increased and stable driving power can be supplied.

Also, since it is not necessary to drill a buried hole for embedding the power module 150 in the ceiling surface 10 as in the conventional art, the installation cost and installation process of the luminaire can be simplified.

Further, when the ceiling surface 10 is a structure that maintains a relatively low temperature such as concrete, the power module 150, which generates heat, is disposed directly below the concrete and can be easily cooled by heat exchange, have.

A panel spacer 160 is disposed between the lower surface of the fixed frame 110 and the upper surface of the LED panel 120 to separate the fixed frame 110 from the LED panel 120 at a predetermined distance, Since the space between the fixed frame 110 and the LED panel 120 or the space between the LED panels 120 is spatially separated from the fixed frame 110, heat generated by the light emission driving of the LED panel 120 is transmitted to the power module 150, Heat transmission to the LED panel 120 can be prevented, and it is possible to further reduce generation of the rising heat in the luminaire according to the heat generated by the respective members.

Thirdly, the partition wall 140 formed on the upper portion of the stationary frame 110 is formed with heat dissipation holes 142, which are laterally opened on opposite sides of the fixed frame 110, so that outside air flows into the heat dissipation holes 142 A cooling air flow CA passing through the spacing space 141 is formed while being discharged to the other discharge hole 142 so that the power module 150 disposed in the spacing space 141 by the cooling air flow It can be effectively cooled.

Fourthly, a cool air fan 190 for introducing the outside air into the space 141 is disposed at a position where the one heat-radiating hole 142 is disposed, and the cooling air flow CA is forcedly The cooling efficiency of the power module 150 can be increased.

The solar cell 192 for receiving the LED light emitted from the LED panel 120 to generate electric power is disposed on the side plate 114 formed around the lower portion of the fixed frame 110, The generated power is converted and supplied as driving power for driving the cooling fan 190, thereby minimizing the consumption of commercial power for driving the cooling fan 190 to rotate.

Fifthly, a hollow 171 having both ends opened is formed inside the fixed frame 110, the LED panel 120 and the diffusion plate 130 so as to continuously penetrate the fixed frame 110, the LED panel 120 and the diffusion plate 130, An outer air inflow pipe 170 for communicating the spacing space 141 is provided so that outside air below the diffusion plate 130 is separated by the cooling air flow CA through the hollow space 171 into the spacing space 141 The supply amount of the outside air for cooling the power supply module 150 is increased, so that the power supply module 150 can be cooled more quickly.

1 to 3 are an exploded perspective view, a perspective view, and a side sectional view, respectively, showing a structure of a LED ceiling-mounted structure or the like according to a preferred embodiment of the present invention,
FIG. 4 to FIG. 6 are a perspective view and a side sectional view showing a configuration in which a power module is cooled by a radiating hole and an outside air inflow pipe according to a preferred embodiment of the present invention,
7 to 9 are a perspective view and a side sectional view showing a configuration in which outside air is forcedly introduced by a cooling fan according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The LED panel 120 that generates heat according to the light emission driving of the LED terminal 121 according to the preferred embodiment of the present invention and the power module 150 that generates heat according to the power conversion driving are spaced apart from each other , The LED panel 120 and the power module 150 are heated to a high temperature according to each heat generated by the heat generated by the LED panel 120 and the power module 150, 1 to 3, a fixing frame 110, a diffusion plate 130, and a partition wall 130 are provided as shown in FIGS. 1 to 3, (140) and a power module (150).

The fixed frame 110 is a body that forms the base of the LED ceiling mount lamp 100 according to the preferred embodiment of the present invention and is horizontally disposed and fixed to the ceiling surface 10, And the LED panel 120 coupled to the lower surface of the LED panel 120 is received.

The fixed frame 110 includes a horizontal plate 113 formed horizontally and formed in a plate shape and a lower plate 113 extending downward along the lower periphery of the horizontal plate 113 by a predetermined length, And a side plate 114 on which a space 111 is formed.

A through hole 117 is formed at the center of the horizontal plate 113 so as to be vertically opened and a fastening screw 117 is screwed to the bracket 118a (see FIG. 3) The fixing frame 110 can be firmly fastened to the ceiling surface 10 while being inserted through the through holes 118.

In addition, as shown in FIG. 1, a plurality of fastening screws 131 are downwardly extended at a predetermined distance from the edge of the horizontal plate 113 so that the diffusion plate 130 can be fastened.

The LED panel 120 is a PCB module in which a plurality of LED terminals 121 are bundled on a lower surface so as to be able to emit LED light in accordance with a designed luminance, Or each LED terminal 121 may be mounted on one panel at a time. A connector 123 for fastening a power line 151 extended to be electrically connected to the power module 150 may be provided on one side of the LED panel 120.

The diffusion plate 130 is a diffusion member that diffuses light so that the LED light emitted from the LED terminal 121 of the LED panel 120 is dispersed evenly throughout the illumination area, (LED) 120 that emits light in a downward direction from the LED panel 120. The LED panel 120 is formed of a material that diffuses light or has a predetermined diffusion pattern formed on a surface or inside thereof, Is diffused and transmitted.

A through hole 132 is formed in the upper surface of the diffusion plate 130 at a position corresponding to each fastening screw 131 of the fastening frame 110 so as to be vertically opened, The diffusion plate 130 can be firmly fastened to the lower portion of the fixed frame 110 by rotating the fastening tool 133 to the end of the fastening screw 131 in a state where the fastening screw 133 is inserted through the fastening screw 133.

The partition 140 is a plate member that forms a separate space 141 so that the power module 150 can be installed at a spatially separated position from the space 111 in which the LED panel 120 is disposed And a spacing space 141 is formed between the ceiling surface 10 and the upper surface of the fixed frame 110 by extending upward to a predetermined length along the upper periphery of the fixed frame 110.

3, the partition 140 may be integrally formed with the horizontal plate 113 of the stationary frame 110 and may be manufactured together with the horizontal plate 113 during the manufacturing of the horizontal plate 113, And may be fastened around the upper portion of the horizontal plate 113 by fastening means such as screws or rivets.

The distance between the upper surface of the horizontal plate 113 and the ceiling surface 10 may be determined by considering the upper and lower thicknesses of the power module 150 mounted therein.

The power supply module 150 is a power supply circuit module that supplies driving power to the LED panel 120. The power supply module 150 is disposed in a space 141 formed by the partition 140, The LED panel 120 is converted into a driving power source form necessary for driving the LED panel 120 to emit light, and then supplied to the LED panel 120.

Here, a power supply line 151 is formed at one side of the horizontal plate 113 of the fixed frame 110 with a power supply line 151 formed with an opening 115 formed to be vertically opened and inserted through the opening 115 150 and the LED panel 120 are electrically connected to each other so that the driving power converted from the power module 150 is applied to the LED panel 120.

The power module 150 is provided in a single module form and is matched with the LED panels 120 in a one-to-plural manner so that driving power is supplied to each LED panel 120 from one power module 150 However, in this case, the thickness of the power module 150 becomes thick, and the vertical height of the partition wall 140 for covering the power module 150 is also increased, so that the size of the product can be increased.

Accordingly, the power module 150 according to the preferred embodiment of the present invention is provided in a plurality of modules, so that one power module 150 and one or more LED panels 120 are matched to supply respective driving power The slimness of the product can be realized.

As described above, the partition wall portion 140 is disposed around the upper portion of the fixed frame 110 by the structure including the fixed frame 110, the diffusion plate 130, the partition wall portion 140, and the power source module 150 A space 141 is formed between the ceiling surface 10 and the fixed frame 110 and a power module 150 for supplying driving power to the space 141 is disposed, The LED panel 120 and the power module 150 generate heat according to the driving operation and the power module 150 generates heat according to the power conversion driving. The internal temperature of the fixed frame 110 is heated to a high temperature, and the phenomenon that the fixing frame 110 is not easily cooled due to the effect of the thermal effect between the heat generated is prevented, thereby increasing the light emitting driving efficiency and supplying the stable driving power. Further, since it is not necessary to drill a buried hole for embedding the power module 150 in the ceiling surface 10 as in the conventional art, the installation cost and installation process of the luminaire can be simplified.

The LED panel 120 mounted on the lower surface of the horizontal plate 113 of the fixed frame 110 is separated from the horizontal plate 113 So that the high heat generated from the LED panel 120 can be prevented from being transmitted to the power module 150 through the fixing frame 110.

1 and 3, the fixing frame 110 and the LED panel 120 are disposed between the lower surface of the fixing frame 110 and the upper surface of the LED panel 120, And a panel spacer 160 formed of a material having a low thermal conductivity and spaced apart from the panel spacer 160.

The panel spacer 160 may have a predetermined thickness and may be attached to the lower surface of the horizontal plate 113 of the fixed frame 110 or the upper surface of the LED panel 120. In this case, An additional step of applying an adhesive for adhering may be required.

A screw hole 112 and a fastening hole 122 are formed in the upper and lower portions of the fixed frame 110 and the LED panel 120 according to the preferred embodiment of the present invention, The fixing frame 110 and the LED panel 110 are fixed to each other by a fastening screw 162 having a through hole 161 formed at the center thereof and passing through the fastening hole 122 and the through hole 161, (Not shown).

Accordingly, the panel spacer 160 and the LED panel 120 are disposed so as to be inserted into the fastening screw 162 for screwing the LED panel 120 to the fixing frame 110 without further process for applying the adhesive, Can be simultaneously fastened to the stationary frame 110, so that the manufacturing process and the assembling process can be simplified.

When the panel spacer 160 is formed of a material that absorbs shock while having a low thermal conductivity such as a sponge or a synthetic resin material, shocks or vibrations transmitted from the outside through the fixed frame 110 are transmitted to the LED panel 120 It is possible to prevent the LED panel 120 from being damaged or shortened in life due to the shock or vibration.

Since the panel spacer 160 separating the fixed frame 110 from the LED panel 120 by a predetermined distance is disposed between the lower surface of the fixed frame 110 and the upper surface of the LED panel 120, The heat generated by the light emission driving of the LED panel 120 may be transmitted to the power module 150 or the fixed frame 110 or the fixed frame 110 by the space between the fixed frame 110 and the LED panel 120 or between the LED panels 120. [ It is possible to prevent the heat from being transferred to the other LED panel 120, thereby further reducing the occurrence of high temperature in the luminaire due to the combined heat generation of each member.

The LED ceiling mount lamp 100 according to the preferred embodiment of the present invention may be configured such that a cooling air current (CA) is formed in a spacing space 141 in which the power module 150 is disposed, CA to cool the power module 150.

For this, as shown in FIG. 5, the partition walls 140 are formed with heat dissipation holes 142, which are laterally opened on opposite sides of the partition wall 140, And a cooling air flow CA passing through the spacing space 141 is formed as the air is discharged to the discharge hole 142 of the other side.

As described above, the cooling air flow CA passing through the space 141 is formed while the outside air flows into the one heat-radiating hole 142 and is discharged to the other heat-radiating hole 142, The power module 150 disposed in the spacing space 141 can be cooled more effectively.

6, a gap is formed between the power module 150 and the fixed frame 110 between the lower surface of the power module 150 and the horizontal plate 113 of the fixed frame 110 at a predetermined interval It is preferable that a module spacer 180 for spacing is disposed.

The module spacer 180 separates the power supply module 150 from the upper surface of the horizontal plate 113 so that the upper and lower surfaces of the power supply module 150 can be cooled together by the cooling air flow CA. have.

The module spacer 180 is provided with a screw hole 119 and a fastening hole 152 at upper and lower positions aligned with the fixed frame 110 and the power module 150 as in the case of the panel spacer 160 The module spacer 180 is formed by a fastening screw 153 having a through hole 181 formed at the center thereof and penetrating through the fastening hole 152 and the through hole 171 and rotatingly coupled to the screw hole 119 And can be fixedly mounted between the fixed frame 110 and the power module 150. [

The effect realized by the module spacer 180 is the same as that of the panel spacer 160 described above, so that a duplicate description will be omitted.

Meanwhile, in the LED ceiling mount 100 according to the preferred embodiment of the present invention, the outside air disposed below the diffusion plate 130 flows into the spacing space 141 inside the partition wall 140, So that the power module 150 can be quickly cooled.

4 to 6, the fixing frame 110, the LED panel 120, and the diffusion plate 130 are vertically arranged to penetrate through the hollow frame 171, And a plurality of outside air inlet pipes 170 for communicating the space below the diffusion plate 130 with the space 141 to supply the outside space to the space 141.

6, the outside air under the diffusion plate 130 is guided to the spacing space 141 through the hollow 171 by the cooling air flow CA through the structure of the outside air inlet pipe 170 The supply amount of the outside air for cooling the power supply module 150 is increased, so that the power supply module 150 can be cooled more quickly.

Meanwhile, the outside air introduced from the outside into the one heat-releasing hole 142 by the heat-releasing hole 142 can be discharged into the other heat-releasing hole 142 to form the cooling air flow CA, In the case of stagnation, it may be difficult for the outside air to flow through the one discharge hole (142).

Therefore, it is preferable that the cool air fan 190 is installed in the partition wall 140 according to the preferred embodiment of the present invention to forcibly generate the cool air flow CA. 7 to 9, the cool air fan 190 is disposed at a position where the heat dissipation hole 142 is disposed at one side of the partition wall 140, that is, at a position where the heat dissipation hole 142 Since the outside air can be introduced into the space 141, the cooling airflow CA can be forcibly generated and the cooling efficiency of the power module 150 can be increased.

A solar cell 192 for receiving LED light emitted from the LED panel 120 to generate electric power is disposed on a side plate 114 formed around a lower portion of the stationary frame 110, The power generated by the cooling fan 190 is converted and supplied to the driving power source for driving the cooling fan 190, thereby minimizing consumption of the commercial power source for rotating the cooling fan 190.

The power generated by the solar cell 192 is electrically connected to the solar cell 192 and the power line 193 at one side of the fixed frame 110 to convert the power generated by the solar cell 192 into a driving power required for driving the cooling fan 190 And the conversion module 191 is electrically connected to the cooling fan 190 by another power line 194 to convert the driving power converted by the conversion module 191 into cold air So that it can be stably supplied to the fan 190.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge.

10 ... ceiling scene 100 ... LED ceiling direct light
110 ... fixed frame 111 ... space portion
120 ... LED panel 121 ... LED terminal
130 ... diffusion plate 140 ... partition wall portion
141 ... spacing space 150 ... power module
160 ... panel spacer 170 .. outside air inlet pipe
180 ... module spacer 190 ... cold air fan

Claims (3)

A stationary frame 110 fixed horizontally and fixed to the ceiling surface 10 and accommodating therein a plurality of LED panels 120 having a downwardly opened space 111 formed therein and fastened to the lower surface; A diffusion plate 130 covering the space 111 opened by being fastened to the lower portion of the fixed frame 110 and diffusing and transmitting the LED light diverging downward from the LED panel 120; A space 141 is formed between the ceiling surface 10 and the upper surface of the stationary frame 110 so as to extend upwardly along the upper periphery of the stationary frame 110, A cooling air flow CA passing through the spacing space 141 is formed while the outside air is introduced into one of the heat dissipation holes 142 and discharged into the other heat dissipation hole 142 (140); The LED panel 120 is provided in a plurality of module shapes matching with the LED panels 120. The LED panel 120 is supplied with power from the outside to emit light, A power supply module 150 for converting the driving power to a required driving power source and supplying the driving power to each of the LED panels 120; A hollow 171 having both ends opened is formed in the interior of the fixing frame 110 so as to continuously penetrate the fixing frame 110, the LED panel 120 and the diffusion plate 130. The lower space of the diffusion plate 130, A plurality of outside air inlet pipes (170) for communicating the spaced spaces (141) to supply the outside air to the spaced spaces (141); The cool air is forced to flow into the space 141 while rotating to cool the coolant air CA. The cooling air is generated by the cooling air flowing in the space 141, A fan 190; And a module spacer 180 for separating the power module 150 from the fixed frame 110 by a predetermined distance between the lower surface of the power module 150 and the horizontal plate 113 of the fixed frame 110 ≪ / RTI &
A solar cell 192 for receiving LED light emitted from the LED panel 120 and generating electric power is disposed on the side plate 114 formed around the lower portion of the fixed frame 110, And the power is converted and supplied as driving power for driving the cooling fan (190).
The method according to claim 1,
And a panel spacer 160 disposed between the lower surface of the fixed frame 110 and the upper surface of the LED panel 120 to separate the fixed frame 110 from the LED panel 120 at a predetermined interval and,
A screw hole 112 and a fastening hole 122 are formed in the upper and lower portions of the fixed frame 110 and the LED panel 120, respectively,
The panel spacer 160 is fixed to the panel spacer 160 by a fastening screw 162 having a through hole 161 formed at the center thereof and penetrating through the fastening hole 122 and the through hole 161 and rotatingly coupled to the screw hole 112. [ And the LED panel (120) is fixedly mounted between the frame (110) and the LED panel (120).
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