KR101033989B1 - Power led type road lamp with heat radiation structure in light metel group alloys - Google Patents

Abstract

PURPOSE: A power light emitting diode type road lighting device with a heat sink structure of light metal based alloy is provided to improve heat dissipation by using a heat radiation rod made of magnesium. CONSTITUTION: A body(1) is detachably installed in a pole. A plurality of LEDs are installed on an LED module(2) with a preset space. An LED driving circuit unit(3) supplies a power voltage for driving the LED module. A transmitting plate(5) transmits light from LEDs and blocks foreign materials and rainwater. An upper cover(6) is installed to surround the upper side of the body. A heat radiation rod fixing rod is protruded from the rear of the body with the LED.

Description

Power LED type road lamp with heat radiation structure in light metel group alloys}

The present invention relates to a power light emitting diode type road lighting fixture having a heat dissipation structure of a light metal series alloy, and more particularly, to a heat diffusing degree on a body of a road lighting fixture (for example, a security lamp and a street lamp) formed by die casting of aluminum. Significantly heat dissipation function of the lighting fixtures by fixing several heat dissipation rods formed by using magnesium (Mg) of light metal alloy having the characteristics of 1.7 times higher than that of aluminum by adhesive or screwing method. In addition to being able to improve, it is invented to reduce the weight and size of the lighting fixture itself.

Among the conventional lighting fixtures, security lamps or street lamps mainly use mercury lamps or sodium lamps as a light source to illuminate, resulting in high energy consumption compared to brightness and short lifespan. Management was needed.

In particular, since the mercury gas is used, the above-mentioned materials have a problem of causing environmental pollution during disposal.

Therefore, recently, a light lamp using a light emitting diode (LED) with low power consumption and long lifespan has been developed and released.

At this time, the light emitting diode (LED) generates a small number of carriers (electrons or holes) injected by using a PN junction structure of a semiconductor having advantages such as high processing speed, low power consumption, and long service life. By using the light emitting by the recombination, it consumes about 1/10 the power consumption than the conventional lighting lamps and has the advantage of greatly reducing the electrical energy.

In particular, in areas where power is consumed, such as traffic lights, security lamps, or street lamps, when sodium or mercury lamps, which are frequently used in security lamps or street lamps, are replaced with light emitting diodes, power consumption is greatly reduced.

By the way, the conventional lighting device using a light emitting diode is difficult to solve the heat dissipation problem, mainly using a low brightness light emitting diode. In other words, when a high brightness light emitting diode is used, considerable heat is generated, which causes damage to a peripheral device, and thus has a problem that cannot be substantially applied to a lighting device.

As described above, a light emitting device using a light emitting diode, for example, a light emitting diode type security lamp or a street lamp, has a simple lighting circuit, unlike an ordinary fluorescent lamp or a street lamp, and does not require an inverter circuit and an iron ballast, and consumes power. Its low cost and long lifespan have the advantage of low maintenance and repair costs.

However, a disadvantage of such a light emitting diode-type security light fixture or a street lamp fixture is that a characteristic deterioration and failure due to thermal stress occurs.

The higher the current flowing through the plurality of light emitting diodes in order to operate the light emitting diodes, the more heat is generated, which leads to failure and deterioration of characteristics.

For example, a printed circuit board (PCB) of a light emitting diode security light or a street light includes a control circuit for controlling the blinking of a plurality of LEDs on a PCB, and a power circuit for supplying power from the outside to each LED. When implemented, the control board will malfunction or fail due to thermal stress caused by heat generated by multiple LEDs.

Therefore, in the conventional light-emitting diode type security lamp or street light fixture, there are many cases where a heat sink such as a heat sink or slug using a metal material having excellent thermal conductivity is installed to relieve thermal stress caused by the light emission of the LED. This is because the thickness of the heat sink is thick in order to satisfy the heat dissipation efficiency required due to the limitations of the metal material constituting the heat sink, the size of the light emitting diode-type security light or street light fixtures also increases.

In addition, when die-casting the buddy of the luminaire with aluminum having heat radiating fins, the thickness, volume, and volume are so thick that the production cost of the product is increased, and there is a problem that it is impossible to reduce the weight.

In addition, in the case of replacing a 400W class discharge lamp type security lamp with a 150-180W LED type security lamp, for example, there is not enough space in the main body of the discharge lamp type security lamp to have a heat dissipation mechanism required by the LED type security lamp. Because it can not be used as it is, there is a problem that throws away the unnecessary resources.

On the other hand, the aluminum heat dissipation or die-casting structure of the conventional heat dissipation structure to some extent, but the heat dissipation performance is sharply reduced in a sealed place.

For this reason, despite the heat dissipation structure that is rarely employed in notebooks and PCs in recent years, most heat dissipation configurations of LED lighting are composed of aluminum die casting or extrusion, but the overall volume is increased and the weight is increased.

In addition, the heat spreader of the conventional heat spreader (aka non-powered heat pump) principle is excellent in performance but limited in life, expensive and bulky, but in recent years has been applied to expensive products such as notebooks and some LED lights, but In the case of appliances, the price becomes too expensive.

In addition, the heat dissipation structure, which is provided as a structure in which a conventional aluminum thin film sheet is laminated after pressing and bundled into a bundle, has a heat conduction portion to some extent and improves heat spreading performance. As a result, the air layer between the narrow spaces between thin plates is rather insulated, and it is also a heat dissipation method that is not recommended especially in a place where a lot of fine dust or dust is present.

The present invention has been made in order to solve such a conventional problem, the installation of several heat-dissipating rods formed of a light metal series alloy on the body of the lighting fixture formed by die-casting with aluminum at the LED installation position, the light metal As a series alloy, the thermal diffusivity is approximately 1.7 times higher than that of aluminum, and the specific gravity is 35% or more. In addition, it is possible to reduce the overall volume and volume of the lighting fixtures, and to reduce the weight and size, as well as to significantly reduce the production cost of the product. Existing props can be implemented as a road lighting fixture To provide a road illumination as a power light-emitting diode-type lighting equipment having a heat radiating structure of a light metal alloy-based mechanism that can be installed in a state with it is an object.

The present invention for achieving the above object, the body is extruded through the die-casting aluminum and detachably installed on the holding table; An LED module provided with a plurality of LEDs on the substrate at predetermined intervals; An LED driving circuit unit for supplying a power voltage necessary for driving the LED module; A light reflector for broadly reflecting light generated from the LED toward the lower portion; A light transmitting plate which transmits light generated from the LEDs and blocks various foreign substances and rainwater; In the upper light emitting diode-type road lighting fixture configured to cover the upper surface portion of the body, consisting of, wherein the heat dissipation rod fixing bar protruding on the back of the position where the LED is disposed on the body, the heat dissipation of the body Each of the rod fixing rods is formed to have a conical shape by using a light metal series alloy, and the heat dissipation rods formed by fixing rod coupling grooves are fixed on the bottom surface.

At this time, in forming the heat dissipation rod with a light metal series alloy, it is characterized in that the molded of any one of magnesium, beryllium, titanium and duralumin.

In addition, the outer circumferential surface of the heat dissipation rod is characterized in that the extrusion of several heat dissipation plate having a disc shape at a predetermined interval.

At this time, the free end of the disk-shaped heat sink protruded to the outer circumferential surface of the heat dissipation rod is characterized in that it is molded in a streamline so that the flow of air is made smoothly.

In addition, the adhesive between the bottom surface and the body of the heat dissipation rod and the outer circumferential surface of the heat dissipation rod fixing rod and the inner circumferential surface of the fixing rod coupling groove is characterized in that the adhesive bonding.

In addition, the inner surface of the fixing rod coupling groove formed on the outer circumferential surface of the heat dissipation rod fixing rod and the bottom surface of the heat dissipation rod are formed with male and female screws, respectively, and the heat dissipation rods are detachably screwed to the heat dissipation rod fixing rod protruded into the body. It is characterized by one.

At this time, the upper end of the heat dissipation rod is characterized in that the hexagonal groove that can be coupled to the hexagon wrench or the "+"-shaped groove to which the "+" screwdriver can be coupled.

On the other hand, the interval of the LED installed on the substrate has a 10-15mm per 1W, the height of the heat dissipation rod has a 4-5mm per 1W, the surface area of the bottom surface of the heat sink directly contacting the body of the LED installation position is 1W It has a 0.66-1.00 cm 3 per body, the thickness of the body is formed by die casting to aluminum, characterized in that molded to have a 1.5-2.0 mm per 1W.

As described above, according to the power light emitting diode-type lighting device of the present invention, several heat-dissipating rods formed of light metal series alloys are formed on several heat-resistant rod fixing rods protruding from the back of the installation position of the LED on the body of the road lighting device. Of the road lighting fixtures by installing heat sinks using magnesium, which has a thermal diffusivity of about 1.7 times higher than that of aluminum, and a specific gravity of 35% or more and a lightness of 35% or less. The heat dissipation function can be greatly improved, and the overall volume and volume of the road luminaire can be greatly reduced, making it possible to reduce the weight and size, and to significantly reduce the production cost of the product. If you heat with the heat sink, only aluminum Compared to molding D, it is possible to implement a light emitting diode-type road light fixture that is light in weight and can be miniaturized, and it is possible to install road lighting fixtures without using existing props, and to realize a variety of designs. It is a useful invention.

1 is a perspective view of a road lighting fixture to which the present invention is applied.
Figure 2 is an exploded perspective view of the road lighting fixture to which the present invention is applied.
3 is a cross-sectional view of a road lighting fixture to which an embodiment of the present invention is applied.
Figure 4 is an enlarged cross-sectional view of the main portion of the road lighting fixture to which one embodiment of the present invention is applied.
Figure 5 is an enlarged cross-sectional view of the main portion of the road lighting fixture to which another embodiment of the present invention is applied.
Figure 6 (a) (b) is a perspective view of a threaded heat dissipation rod used in the device of the present invention.

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

1 is a perspective view of a road lighting fixture to which the present invention is applied, FIG. 2 is an exploded perspective view of a road lighting fixture to which the present invention is applied, and FIG. 3 is a cross-sectional view of a road lighting fixture to which an embodiment of the present invention is applied. 4 is an enlarged cross-sectional view of an essential part of a road lighting fixture to which an embodiment of the present invention is applied, and FIG. 5 is an enlarged cross-sectional view of an essential part of a road lighting fixture to which another embodiment of the present invention is applied, and FIG. (b) shows a perspective view of a threaded heat dissipation rod used in the apparatus of the present invention.

According to this, the power light emitting diode type road lighting fixture having the heat dissipation structure of the light metal series alloy of the present invention,

A body (1) formed through die casting with aluminum and detachably installed on the support base (7); An LED module 2 provided with several LEDs 21 on the substrate 22 at predetermined intervals; An LED driving circuit unit 3 for supplying a power supply voltage necessary for driving the LED module 2; A light reflector 4 for broadly reflecting light generated from the LED 21 toward the lower portion; A light transmitting plate 5 which transmits light generated by the LEDs 21 and blocks inflow of various foreign substances and rainwater; In the power light emitting diode-type road lighting fixture consisting of; an upper cover (6) installed in a form surrounding the upper surface of the body (1),

The heat dissipation rod fixing rods 11 are protruded on the rear surface of the position where the LEDs 21 are disposed on the body 1, and the heat dissipation rod fixing rods 11 of the body are each conical using a light metal series alloy. Molded to have a shape, but the bottom surface is characterized in that the fixed installation of the heat dissipation rods (8) formed in the fixing rod coupling groove (80).

In this case, in forming the heat dissipation rod (8) of a light metal series alloy, it is characterized in that the molded of any one material of magnesium, beryllium, titanium and duralumin.

In addition, the heat dissipation rod (8) is characterized in that the plurality of heat dissipation plate 81 having a disk shape at a predetermined interval in the vertical, vertical direction in the outer peripheral surface protruded.

At this time, the free end of the disk-shaped heat sink 81 protruded to the outer circumferential surface of the heat sink 8 is characterized in that it is molded in a streamline so that the flow of air smoothly.

In addition, the adhesive (9) is put into the contact gap between the bottom surface and the body (1) of the heat dissipation rod (8) and the outer circumferential surface of the heat dissipation rod fixing rod 11 and the inner circumferential surface of the fixing rod coupling groove (80). It is fixed.

In addition, the inner surface of the fixing rod coupling groove 80 formed on the outer circumferential surface of the heat dissipation rod fixing rod 11 and the bottom of the heat dissipation rod 8 is formed with a male screw 12 and a female screw 82, respectively. The rods 8 are characterized in that the detachably screwed to the heat dissipation rod fixing rod 11 protruded to the body (1).

At this time, the upper end of the heat dissipation rod 8 is characterized in that the hexagonal groove 83, which can be coupled to the hexagon wrench, or the "+"-shaped groove 84 to which the "+" screwdriver can be coupled. .

On the other hand, the spacing d of the LED 21 installed on the substrate 22 has a 10-15mm per 1W, the height h of the heat dissipation rod 8 has a 4-5mm per 1W, The bottom surface area a of the heat sink 81 directly contacting the body 1 at the installation position of the LED 21 has a thickness of 0.66-1.00 cm 3 / W, and the thickness of the body 1 formed through die casting with aluminum. (t) is characterized in that it was molded to have 1.5-2.0 mm per 1W.

Referring to the effects of the light-emitting diode-type road lighting fixture having a heat dissipation structure of the light metal series alloy of the invention configured as described above are as follows.

First, the power light emitting diode-type road lighting fixture having a heat dissipation structure of the light metal series alloy to which the present invention is applied, basically, a body 1, several LED modules 2, an LED driving circuit part 3, a light reflecting plate 4, It has a form consisting of a light transmitting plate 5 and the upper cover (6).

The present invention improves the heat dissipation structure of the body (1) of the power light emitting diode-type road lighting fixtures composed of such components, greatly improving the heat dissipation function of the lighting fixture itself, and also greatly reduce the overall volume and volume of the lighting fixture It is possible to reduce the weight and size of the product as well as to significantly reduce the production cost of the product.

That is, in the present invention, in molding the body 1, the body 1 is molded to have a predetermined thickness without forming heat radiating fins integrally on the rear surface of the body 1 as in the prior art, but the body 1 On the back of the portion where the LEDs 21 of the LEF module 2 are positioned, the heat dissipation rod fixing rods 11 are protruded, respectively, and the heat dissipation rod fixing rods 11 of the body are fixed rod coupling grooves on the bottom, respectively. It is a main technical component to fix and install several heat dissipation rods 8 formed in a conical form by casting a light metal series alloy so that 80 is provided.

At this time, the light metal-based alloy may be any one of magnesium and beryllium, titanium and duralumin, the present invention, in particular in the present invention, the thermal conductivity of 175 (W / mk) is lower than 135 (W / mk), but Heat dissipation rods (8) molded in the shape of a wolves using a magnesium having a specific 1.7 times higher thermal diffusivity was fixed to the heat dissipation rod fixing rods 11 of the body (1).

In addition, according to the present invention, by further protruding and forming a plurality of heat dissipation plate 81 having a disk shape at a predetermined interval vertically and downwardly from the outer circumferential surface of the heat dissipation rod 8, the LED 21 is generated in the LED 21. Heat transmitted through the substrate 22 and the body 1 is directly transmitted to the heat dissipation rod 8 of magnesium, which is one of the light metal series alloys fixed to the heat dissipation rod fixing rod 11 of the body 1, Including the heat dissipation rod 8 itself, the heat dissipation smoothly to the outside through several disc-shaped heat dissipation plates 81, so that only the heat dissipation rod 8 made of magnesium can be more effectively dissipated. Can be.

At this time, the free end of the heat dissipation plate 81 protruded to have a disk shape on the outer circumferential surface of the heat dissipation rod 8 is formed in a streamlined shape rather than at right angles to smoothly flow the air and greatly increase the heat dissipation effect. Will be.

In addition, in the present invention, in the method for fixing the heat-dissipating rods 8 cast using magnesium, which is one of the light metal series alloys, to the heat-dissipating rod fixing rods 11 protrudingly formed on the rear surface of the body 1, It is possible to adopt either the method of fixing using an adhesive or the method of screwing.

That is, as shown in FIGS. 3 and 4, the adhesive (between the bottom surface and the body 1 of the heat dissipation rod 8 and the outer circumferential surface of the heat dissipation rod fixing rod 11 and the inner circumferential surface of the fixing rod coupling groove 80 is formed by an adhesive ( 9) by inserting each other, or as shown in Figure 5 or the inner surface of the fixed rod coupling groove 80 formed on the outer circumferential surface of the heat dissipation rod fixing rod 11 and the bottom surface of the heat dissipation rod (8) 12 and the female screw 82 may be molded such that the heat dissipation rods 8 are detachably screwed to the heat dissipation rod fixing rod 11 protruding to the body 1.

At this time, when the adhesive to fix the heat dissipation rods 8 using the adhesive 9, the fixing rod coupling groove 80 and the heat dissipation formed on the bottom surface of the heat dissipation rod 8 and the back of the body 1, respectively When the rod fixing rod 11 itself is formed into a cylindrical or circular rod shape, the heat radiation rod 8 itself may be rotated without being completely adhered to the heat radiation rod fixing rod 11, and thus may have a rectangular or hexagonal or polygonal cylinder or square. It is preferable to mold in the form of a hexagonal or polygonal rod.

In addition, the outer circumferential surface of the heat dissipation rod fixing rod 11 and the heat dissipation rod 8 to detachably attach the heat dissipation rod 8 to the heat dissipation rod fixing rod 11 of the body 1 through a screw coupling method. When the male screw 12 and the female screw 82 are respectively formed on the inner surface of the fixed rod coupling groove 80 formed on the bottom of the bottom surface, the heat dissipating rod 8 is formed as shown in FIGS. Likewise, the hexagonal groove 83 or the "+"-shaped groove 84 is further formed on the upper end of the heat dissipation rod 8 in order to fix it more firmly using a hexagon wrench or a "+" shaped screwdriver. Do.

Meanwhile, in casting the heat dissipation rod 8 using magnesium of a light metal alloy, the body 1 itself, which is compression molded through die casting with aluminum, has different thermal diffusivity and thermal conductivity, and therefore has its own volume and The same heat dissipation effect can be obtained only when the surface area is formed in different sizes, and the spacing d of the LEDs 21 installed on the substrate 22 and the height h of the heat dissipation rods 8 and the LEDs ( One cross-sectional surface area (a) and the thickness (t) of the body (1) of the heat sink (81) in direct contact with the 21 is set differently according to the amount of power used of the LED 21, respectively, to achieve the desired heat dissipation.

Therefore, the inventors of the present invention looked at their relationship through a number of tests, as a result, the spacing (d) of the LED 21 installed on the substrate 22 is installed so as to have a 10-15mm per 1W (for example 2W In the case of LED, it can be seen that it is preferable to install at intervals of 20-30mm), and the height (h) of the heat dissipation rod 8 is molded to have 4-5mm per 1W (for example, in the case of 2W LED) It was found that it is preferable to mold to have a height of 8-10 mm).

In addition, the bottom surface area a of the heat sink 81 directly contacting the body 1 at the rear surface of the LED 21 is molded to have an area of 0.66-1.00 cm 3 per 1W (for example, in the case of 2W LEDs, 1.32-). It was found that it is preferable to mold to have a surface area of 2.00 cm 3, and the thickness t of the body 1 which is compression molded through die casting with aluminum is molded to have 1.5-2.0 mm per 1 W (for example, 2 W). In the case of LED, it was found that molding to have a thickness of 3.0-4.0 mm).

As described above, in the present invention, as described above, the heat conductivity of the light metal-based alloy is lower than that of aluminum, but the thermal diffusivity is about 1.7 times higher than that of aluminum, and the specific gravity is 35% or more. ) To penetrate the body (1) to significantly improve the heat dissipation function of the road lighting fixtures themselves, as well as to significantly reduce the overall volume and volume of the road lighting fixtures, making it possible to reduce weight and size. The cost of production can be greatly reduced.

In particular, when heat dissipating heat generated from the road lighting fixtures using the heat dissipation rods 8 formed of magnesium as in the present invention, the light emitting diodes are lighter in weight and can be miniaturized compared to molding the body 1 only from aluminum. As it is possible to implement a road lighting fixture, it is possible to install a road lighting fixture while using the existing props as well as to implement a variety of designs.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

1: body 11: heat dissipation rod fixing rod
12: male thread
2: LED module
21: LED 22: substrate
3: LED drive circuit section 4: light reflector
5: floodlight 6: upper cover
7: holding stand
8: heat dissipation rod 80: fixing rod coupling groove
81: heat sink 82: female thread
83: hexagonal groove 84: "+" groove
9: glue

Claims (8)

A body detachably installed on the holding table; An LED module provided with a plurality of LEDs on the substrate at predetermined intervals; An LED driving circuit unit for supplying a power voltage necessary for driving the LED module; A light transmitting plate which transmits light generated from the LEDs and blocks various foreign substances and rainwater; In the power light emitting diode type road lighting fixture consisting of;
The heat dissipation rod fixing rods are protruded on the back of the position where the LED is placed on the body, and the heat dissipation rod fixing rods of the body are formed to have a conical shape using a light metal series alloy, respectively, but the fixing rod coupling groove is formed on the bottom of the body. Power light emitting diode-type road lighting fixture having a heat radiation structure of a light metal series alloy, characterized in that the molded heat dissipation rods are fixed.
The method according to claim 1,
The light-emitting diode-type road lighting apparatus having a heat-dissipating structure of a light-metal-based alloy, wherein the heat-dissipating rod is formed of a light-metal-based alloy, and formed of any one of magnesium, beryllium, titanium, and duralumin.
The method according to claim 1,
The light emitting diode-type road lighting fixture having a heat-dissipating structure of a light metal series alloy, characterized in that the heat dissipation rod is formed on the outer circumferential surface of the heat dissipating rod by protruding molding a plurality of heat sinks having a disk shape.
The method according to claim 3,
The free end of the disk-shaped heat sink protruded to the outer circumferential surface of the heat dissipation rod is a power light emitting diode-type road lighting fixture having a heat dissipation structure of a light metal series alloy, characterized in that formed in a streamlined form to facilitate the flow of air.
The method according to claim 1,
Power light emitting diode type road lighting having a heat dissipation structure of a light metal series alloy characterized in that the adhesive is inserted into the gap between the bottom surface and the body of the heat dissipation rod and the contact portion gap between the outer circumferential surface of the heat dissipation rod fixing rod and the inner circumferential surface of the fixing rod coupling groove. Instrument.
The method according to claim 1,
The inner surface of the fixing rod coupling groove formed on the outer circumferential surface of the heat dissipation rod fixing rod and the bottom of the heat dissipation rod is formed with male and female screws respectively so that the heat dissipation rods are detachably screwed to the heat dissipation rod fixing rod protruded into the body. Power light emitting diode-type road lighting fixture having a heat radiation structure of a light metal series alloy, characterized in that.
The method of claim 6,
The upper end of the heat dissipation rod is a power light emitting diode type having a heat dissipation structure of a light metal series alloy, characterized in that further formed by forming a hexagonal groove to which a hexagon wrench can be coupled or a "+"-shaped groove to which a "+" screwdriver can be coupled. Road lighting fixtures.
The method according to claim 1,
The spacing of the LEDs installed on the substrate is 10-15 mm per 1W, the height of the heat sink is 4-5 mm per 1W, and the bottom surface area of the heat sink that is in direct contact on the body of the LED installation position is 0.66 per 1W. A power light emitting diode-type road lighting fixture having a heat dissipation structure of a light metal series alloy, wherein the body has a thickness of -1.00 cm 3 and is formed to have a thickness of 1.5-2.0 mm per 1W.

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