KR101057927B1 - Lighting with heat radiation structure - Google Patents

Abstract

The present invention maximizes the heat dissipation and cooling efficiency by allowing the high heat generated inside the lamp to be dissipated by natural convection while making heat exchange with the outside air, but has a heat dissipation structure that allows the manufacturing cost to be low because its configuration is very simple. The present invention relates to a lamp, including a top cover and a bottom cover having an LED module coupled to the top cover and inserted into a plurality of seating portions formed in grooves with a predetermined depth from a surface thereof. In the lamp, the LED module is regularly arranged between the mounting portion is mounted, formed by a tube passing through the upper cover and the lower cover so that the outside air flows in and out, the heat generated inside the lamp Heat exchange to perform heat dissipation function by heat exchange with external air introduced into the pipe A plurality of means are formed.

Street Light, Lighting, LED, LED, Heat Dissipation, Cooling

Description

Lighting having radiation structure {Lighting having radiation structure}

The present invention relates to a lamp such as a street lamp or a ceiling lamp, and more particularly, by maximizing heat dissipation and cooling efficiency by allowing high heat generated inside the lamp to be dissipated by natural convection while making heat exchange with outside air. The present invention relates to a lamp having a heat dissipation structure that is very simple in construction and low in manufacturing cost.

Recently, LED (LED) lamps are receiving great attention.

LED lamps used in such a lamp is less power consumption than conventional lamps, and the life is increased to emerge as a new light to replace the existing lamp.

In particular, LED lamps have been applied to a variety of street lamps and ceiling lights, the problem was that the life of the lamp is shortened due to the heating energy emitted when the lamp is lit.

Therefore, many techniques for dissipating (cooling) the heat generated inside the lamp to the outside have been introduced. Most of the conventional techniques use heat sinks or members such as heat pipes to dissipate heat.

However, these techniques not only have a cooling effect but also lead to problems of complicated structure and increased manufacturing cost.

The present invention was devised to solve the above problems, an object of the present invention is to maximize the heat dissipation and cooling efficiency by allowing the high heat generated inside the lamp to be dissipated by natural convection while making heat exchange with the outside air, It is to provide a lamp having a heat dissipation structure in which the configuration is very simple and the manufacturing cost is low.

In order to achieve the above object, the present invention provides a lighting lamp including an upper cover and a lower cover having an LED module coupled to the upper cover and inserted into a plurality of seating portions formed into grooves having a predetermined depth from a surface thereof. Regularly arranged between the seating portion is equipped with the LED module, and formed of a tube passing through the upper cover and the lower cover so that the outside air flows in and out, the heat generated inside the lamp is introduced into the tube It is characterized in that it is formed a plurality of heat exchange means to be heat exchanged with the external air to perform the heat dissipation function.

In addition, the heat exchange means according to the present invention,

A first flow channel arranged regularly inside the upper cover and having an upper through hole formed therein; And a second flow channel arranged at regular intervals between the seating portions of the bottom cover on which the LED module is mounted, connected to the first flow pipe of the top cover, and having a lower hole formed therein. do.

In addition, the end of the first channel according to the present invention is characterized in that a predetermined length of the connector is slightly smaller in diameter than the first channel.

The present invention as described above, the high heat generated inside the LED lamp is radiated by the natural convection while making a heat exchange with the outside air, thereby providing an effect of maximizing the heat dissipation and cooling effect.

In addition, the present invention provides the advantage that the configuration is very simple and low manufacturing cost.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 is a schematic view showing the bottom and top of the lamp having a heat dissipation structure according to the present invention, Figure 3 is an exploded perspective view of a lamp having a heat dissipation structure according to the present invention, Figure 4 is a heat dissipation structure according to the present invention The branch is an enlarged configuration diagram of a lamp unit such as a lighting lamp.

As shown, the illumination lamp 10 of the present invention is configured to be connected to the front end of the support 11 in a configuration in which the upper cover 20 and the lower cover 30 are coupled.

Herein, the structure of the street lamp is taken as an example, but the present invention is not limited thereto. For example, it can be applied to ceiling lights or other various lights.

The inner side of the upper cover 20 is arranged regularly, the upper through-hole 21b is formed therein is formed a plurality of first flow path tube 21 through which the outside air flows out.

The first flow channel 21 is a tube through which the outside air flows in and out, and a second length of the second flow channel 31 to be described later by forming a predetermined length of the connector 21a slightly smaller in diameter than the first flow channel 21 at the end. It is configured to be connected to the insert.

In addition, the outer side of the lower cover 30 is equipped with a plurality of LED modules 40 built-in LED, the LED module 40 is fixed to the lens 41 and the fixture 42 to enlarge the light.

Specifically, the LED module 40 is inserted into and mounted to a plurality of seating portions 32 formed as grooves with a predetermined depth from the surface of the lower cover 30, and attaches an enlarged lens 41 to the outside and the fastener 42. Fix the LED module 40 to the lower cover 30 through the installation.

Here, the wire hole 33 formed in the seating part 32 is a hole through which the wire connected to the LED module 40 passes into the lamp 10, and the main PCB not shown in the lamp 10 is provided. It is further installed in a predetermined site.

In addition, the interval between the seating portion 32, the plurality of LED modules 40 is mounted on the lower cover 30 is arranged at regular intervals, respectively in the first flow path 21 of the upper cover 20 Is connected to the lower through-hole (31a) is formed there is formed a plurality of second flow path tube 31 through which the outside air flows out.

The second flow path pipe 31 is a pipe through which the outside air flows in and out, and is configured to be connected to the first flow path pipe 21.

The first channel 21 and the second channel 31 is arranged regularly to maintain a predetermined distance to the seating portion 32 is the LED module 40 is mounted.

Therefore, when the upper cover 20 and the lower cover 30 configured as described above are coupled to each other, the connector 21a of the first flow pipe 21 of the upper cover 20 is formed of the lower cover 30 corresponding thereto. The fitting is completed while being fitted to the front end portion of each of the two channel pipes 31.

This is to maintain the coupled state as shown in Figure 5, wherein the first flow path 21 and the second flow path 31 is connected to form a single tube, for convenience this heat exchange means (50) It is called).

The heat exchange means 50 is a space through which the outside air flows in and out regularly between the seating portions 32 in which the LED module 40 is installed, and heat energy generated from the LED module 40 is lowered. Heat transfer into the interior of the lamp 10 through the 30 and the seating portion 32, so that when the temperature inside the lamp is raised, heat exchange with the air inside the tube of the heat exchange means 50 is made to heat dissipation Let this be done.

The operation of the lamp having the heat dissipation function of the present invention configured as described above will be described.

First, the LED module 40 is inserted into the plurality of seating parts 32 formed on the lower cover 30, the lens 41 is attached to the outside and the LED module 40 is lowered through the fixture 42. The cover 30 is fixedly installed.

And combines the upper cover 20 and the lower cover 30.

At this time, the connector 21a of the first flow path 21 of the upper cover 20 is inserted into and connected to the second flow path 31 of the lower cover 30, respectively.

Here, the upper cover 20 and the lower cover 30 is firmly fixed by the fastening means not shown.

When power is applied, a plurality of LEDs built in the LED module 40 are turned on, and at the same time, the LED module 40 emits heat due to thermal energy to its surroundings.

The high temperature heat started from the LED module 40 is first dissipated to the outside of the lower cover 30 to heat dissipation, but the remaining part of the heat is transferred through the seating portion 32 of the lower cover 30 It will be introduced into the lamp 10.

Therefore, the temperature inside the lamp 10 rises, and at the same time, the high heat generated inside the lamp is naturally transmitted to the heat exchange means 50, which is a pipe composed of the first flow path 21 and the second flow path 31. do.

The inner passage of the heat exchange means 50, that is, the upper passage 21b and the lower passage 31a has an environment in which outside air flows freely in and out, wherein the inner passage of the heat exchange means 50 flows. The outside air is relatively low in temperature compared to the air inside the lamp 10.

Therefore, the heat generated inside the lamp 10 and the LED module 40 is heat exchanged with the air inside the heat exchange means 50, through the heat exchange process of the heat exchange means 50 When the temperature of the internal air is increased, hot air is discharged out of the lamp 10 through the upper through hole 21b and the lower through hole 31a, and convection occurs in which cold air is introduced into the inside.

Through such convection, the temperature inside the lamp is drastically lowered.

Therefore, the lamp 10 is to perform the cooling and heat dissipation function through the heat exchange means (50).

1 and 2 is a configuration diagram showing the bottom and top of the lamp having a heat dissipation structure according to the invention,

3 is an exploded perspective view of a lamp unit of a lamp having a heat dissipation structure according to the present invention;

4 is an enlarged configuration diagram of a lamp having a heat dissipation structure according to the present invention;

5 is a side perspective view of a lamp having a heat dissipation structure according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: light 11: prop

20: upper cover 21: the first flow pipe

21a: connector 21b: upper through hole

30: lower cover 31: the second flow path

31a: Lower hole 32: Seating portion

40: LED module 41: lens

42: fixture 50: heat exchange means

Claims (3)

In the lamp including an upper cover and a lower cover having an LED module coupled to the upper cover and inserted into a plurality of seating portions formed into grooves having a predetermined depth from the surface, A first flow path tube arranged regularly between the seating parts on which the LED module is mounted, regularly arranged inside the upper cover, and having an upper through hole formed therein; And A second flow path is regularly arranged between the seating portions of the lower cover on which the LED module is mounted, and is connected to the first flow pipe of the upper cover and has a second through-hole formed therein, wherein the upper cover and the lower cover. The lamp having a heat dissipation function comprising a plurality of heat exchange means formed by the tube penetrating the heat exchange means that the heat generated in the interior of the lamp is heat exchanged with the external air introduced into the tube to perform the heat dissipation function. . delete The method of claim 1, Illumination lamp having a heat dissipation function, characterized in that the end of the first channel is formed a predetermined length of the connector slightly smaller in diameter than the first channel.

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