RU114509U1 - LED STREET LIGHT - Google Patents

Abstract

1. LED street lamp, mounted on a support, containing a radiator body made in the form of ribbing plates, a light source made in the form of an LED module with light-emitting elements made in the form of heavy-duty LEDs, while each of the LEDs is attached not only by soldering contact terminals, but also due to soldering the heat-dissipating heel of the LED to special electrically neutral contacts of the printed circuit board, characterized in that the heatsink housing is formed by m fins, each of which is made trapezoidal with holes for fasteners, and m-4 fins are made with stepped grooves, while every 2m finning plates are interconnected asymmetrically and form a heat sink element of the housing, the number of which is determined by the power of the LEDs placed on the housing, all heat removal elements are fastened together using fasteners made, for example, in the form of pins, and form pad p Once the light source is installed on one of the surfaces of the case, a hole is made on one of its end faces for the output of LED wires connected to the power supply. ! 2. A street light-emitting diode lamp according to claim 1, characterized in that the fins are made, for example, of aluminum. ! 3. LED street lamp according to claim 1, characterized in that a thermal fuse is placed on the body. ! 4. LED street lamp according to claim 1, characterized in that the light source is made with a dielectric coating. ! 5. LED street lamp according to claim 1, characterized in that the light source is covered with a protective screen, made

Description

The utility model relates to the field of lighting engineering, in particular to lamps for lighting streets, roads, highways, squares, courtyards, etc.

Known LED lamp (99592 U1, published 11/20/2010) containing a protective housing with a transparent cap, inside of which there are elements of an electric power circuit, light-emitting diodes mounted on the board, an optical system and a radiator, the board is made in the form of a multilayer structure, which contains sequentially arranged layers of dielectric material and metal, on which the topology of the printed circuit board is made, and which is located on a heat sink based on the radiator.

The disadvantage of the analogue is the low power of the luminaire, due to the use of low-power LEDs and the limited heat dissipation capacity of the housing, made by cast.

Known LED lamp (101147 U1, published 01/10/2011), containing the board, LEDs mounted on the bottom surface of the board, a heat sink, consisting of several vertical plates, longitudinally mounted on the top surface of the board at a distance from each other, and a protective glass, hermetically sealed a cover plate with LEDs, several boards made in the form of narrow plates located at a distance from each other, and the heat sink radiator further comprises transverse plates connected to the longitudinal plates and spaced from each other, with each board with LEDs sealed individual protective glass.

The disadvantage of the analogue is the low power of the luminaire, due to the use of low-power LEDs and the limited heat dissipation capacity of the housing, made by cast.

Known LED lamp (103596 U1, published 01.11.2011) containing LEDs placed on a heat-conducting metal substrate and connected to a power supply, a radiator and a heat transfer system installed between the substrate with LEDs and a radiator, the heat transfer system is made in the form of a sealed chamber, partially filled coolant, on the outer surface of which the substrate with LEDs is compactly mounted, and the outer surface of the camera, free from the substrate with LEDs, performs the function of rad Ator.

The disadvantages of the analogue are the high complexity of manufacturing and the possibility of leakage of the coolant due to depressurization of the chamber, large dimensions and low power.

Closest to the claimed utility model in technical essence and taken as a prototype is a street LED lamp (83587 U1, published 04/20/2011), containing a housing with a light source installed inside the housing, and a power supply, the entire surface of the housing is a cooling radiator made in in the form of fins, mounted on three sides around the perimeter of the housing, the light source is made in the form of an LED module in which the light-emitting elements are combined in at least four parallel rulers super-power LEDs connected in sequence, with each of the LEDs is fixed not only by soldering terminals, but also due to soldering heat sink LED heels to special electrically neutral contacts of the printed circuit board.

The disadvantages of the prototype are:

- low power of the lamp due to insufficient heat dissipation area of the fins of the casing-radiator, which is cast;

- low permeability or congestion of water between the upper ribs of the housing in case of precipitation due to accumulation of debris (fluff or twigs), due to the location of the fins of the housing horizontally relative to the intended location of the lamp.

To increase the power of the luminaire (depending on the number of LEDs placed on the casing and their power), a radiator casing with a higher heat dissipation capacity is required. On cooling castings of aluminum alloy of large sizes during cooling, defects are formed in the form of cracks, potholes, pits, and on castings of smaller sizes either these defects are absent or are easily eliminated by machining.

The technical result of the claimed utility model is to increase the heat dissipation capacity of the housing-radiator of the lamp.

The technical result is achieved by the fact that the street LED lamp, mounted on a support, containing a radiator housing made in the form of fins, a light source made in the form of an LED module with light-emitting elements made in the form of heavy-duty LEDs, while each of the LEDs is mounted not only due to the soldering of the contact leads, but also due to the soldering of the heat sink of the LED to the special electrically neutral contacts of the printed circuit board, the radiator case is formed by m plates of shafts, each of which is made in a trapezoidal shape with holes for fasteners, and m-4 fins are made with stepped grooves, and every 2m fins are asymmetrically connected to each other and form a heat sink element, the number of which is determined by the power of the placed LEDs on the housing, all elements of the heat sink are fastened together by means of fasteners made in the form of studs and form a platform for installing the light source on one of the surfaces of the housing, on one of end of an opening for the output of LEDs wires connecting to the power supply. The fins are made, for example, of aluminum. A thermal fuse is located on the body. The light source is made with a dielectric coating. The light source is covered with a protective screen made of transparent, with a coating that provides strength, protection from dust and moisture. A case is mounted on the housing, made, for example, of aluminum and / or opaque plastic. The housing is mounted on a support using a bracket that can rotate about its axis, for example, at an angle of 90 degrees. The lamp housing is made with a corrosion-resistant coating.

Due to the fact that the housing of the inventive lamp is made of prefabricated heat sink elements formed by fins, trapezoidal, connected asymmetrically to each other and fixed to each other, and their number is determined depending on the power of the LEDs placed on the housing, it becomes possible to adjust the size of the housing and place the LEDs more powerful, and, therefore, provides the maximum level of heat dissipation of the lamp.

Due to the fact that the fins are made of a certain shape, the heat sink area increases with the same dimensions of the lamp and it becomes possible to place more powerful LEDs. In addition, material consumption is reduced in the manufacture of fins by the method of cutting a sheet with a stamp

The essence of the claimed utility model is illustrated by the figures. In Fig.1 shows a General view of the lamp (complete), Fig.2 is a view aa, Fig.3 is a fins plate without a groove, Fig.4 is a fins plate with a groove, Fig.5 is a heat sink element where the following notation is accepted:

1 - housing;

2 - fins plate;

3 - light source;

4 - light emitting elements;

5 - the heel of the LED;

6 - printed circuit board;

7 - optical lens;

8 - step groove;

9, 12 - holes;

10 - fasteners;

11 - heat sink element;

13 - thermal fuse;

14 - a platform for installing a light source;

15 - a protective screen;

16 - cover;

17 - support;

18 - bracket.

The street LED lamp contains a housing 1, made in the form of a radiator with fins plates, pos.2, a light source 3, made in the form of an LED module with light-emitting elements 4, made in the form of heavy-duty LEDs, while each of the LEDs is attached not only by soldering contact conclusions, but also due to the soldering of the heatsink of the LED 5 to the special electrically neutral contacts of the circuit board 6. Above each LED is a light-transmitting optical lens 7. Moreover, changing the types of nz with different optical characteristics can be prepared by different radii of illumination of the illuminated surface. The fins 2 are made of a trapezoidal shape with a stepped groove 8 and holes 9 for fasteners 10, while each pair of fins 2 forms a heat sink element of the housing 11, and their number is determined depending on the number of LEDs placed on the housing, on one of the end surfaces the housing has a hole 12 for outputting the wires of the LEDs connected to the power supply. The fins 2 forming the element of the heat pipe 11 are connected asymmetrically to each other overlap. A thermal fuse 13 is placed on the housing 1. The printed circuit board 6 is coated with a special opaque dielectric compound. The elements of the heat sink 11 form a housing with a platform 14 for installing the LED module. The light source 3 is closed by a protective screen 15, made transparent and shockproof, and / or, with a special coating, dust-moisture repellent. A cover 16 is mounted on the housing 1, made, for example, of aluminum and / or plastic. The housing 1 is fixed to the support 17 using the bracket 18 with the possibility of rotation about its axis, for example, at an angle of 90 degrees. The power supply is made remote and placed in a special compartment of the bracket 18 and connected to an external 220 V power supply inside the pipe part of the support 17 and the pipe part of the bracket 18. The lamp housing 1 is made with a corrosion-resistant coating.

Each two fins 2, made, for example, of aluminum and made by stamping, overlap asymmetrically to each other and form a heat sink element 11. The assembled heat sink elements 11 by compression on special equipment with a force of 9.9-11.1 kgf * m form lamp housing 1. Moreover, the extreme elements of the heat sink of the housing 1 are assembled from fins 2 made without stepped grooves 8. The housing is additionally fastened through holes 9 on the fins 2 using fasteners 10 made in the form of Ilek. Next, the platform is aligned for installing the light source 14. A light source 3 is installed on the aligned platform 14, made in the form of an LED module with light-emitting elements 4. Each light-emitting element 4, made in the form of an LED, is mounted on a copper heat-removing heel of the LED 5, which is connected to printed circuit board 6 by soldering. Electrical contacts are connected to the printed circuit board 6, connecting the printed circuit board 6 with the light emitting element 4. The LED is closed by a lens 7. The printed circuit board 6 is made on an aluminum metal plate. The light source 3, made in the form of an LED module, contains, for example, 24 heavy-duty LEDs connected in series-parallel circuit, placed on a printed circuit board b. The choice of a series-parallel circuit and the number of LED modules is determined by the capabilities of various power supplies in terms of current and voltage and lighting requirements. In all cases, the priority is to reduce sequential rulers to ensure reliability and maintain the health of the entire LED module. On top of the current source is closed by a protective screen 15, made transparent, with a coating that provides strength, protection from dust and moisture. A cover 16 is mounted on the housing 1, made, for example, of aluminum and / or opaque plastic, which protects the lamp from direct sunlight, debris (twigs, birds' fouls) and rain on the fin surface of the housing 1. Cover 16 does not interfere with convection transfer heat from the fins 2 to the atmosphere, since there is no tight abutment of the cover 16 to the housing 1, technological gaps are left. In addition, even if rain water gets from the sides under the cover 16, the fins 2 are fixed in such a way that a slope is formed at the junctions of the two heat sink elements 11 (see figure 5 - dashed line), which does not prevent water from swelling along the grooves between the plates fins. The housing 1 is fixed to the support 17 using the bracket 18 with the possibility of rotation about its axis, for example, at an angle of 90 degrees.

The power supply may consist of one or more current sources, depending on the number of LED modules. The power supply is made remote for the lamp housing, providing protection for the housing from overheating due to the high operating temperature of the LED modules. Slight heat from the power supply is convected through the housing of the bracket, inside which it is located, into the atmosphere.

The generated heat is transferred to the printed circuit board 6 and the luminaire housing 1, directly to the adjacent heat sink elements 11, consisting of fins 2. The high precision of additional mechanical processing of the platform for installing the light source 3 makes it possible to efficiently remove heat from the heat-removing heel of LED 5 to the atmosphere. The prefabricated housing design 1 allows, at no additional cost, to manufacture a housing of various sizes to accommodate one, two, three or more LED modules.

The trapezoidal shape of the fins plate 2 with a groove which is the area of contact with air, allows you to increase the heat dissipation capacity of the housing 1 to accommodate more powerful and brighter LEDs. The choice of just such a shape of the fins plate 2 is due primarily to the sufficient heat dissipation ability of the housing 1 for LEDs of a certain power, as well as material saving.

The printed circuit board 6 of the LED module has a special dust-moisture-proof coating with a compound that acts as a dielectric, hermetically covering the entire opening of the contacts, a fastening element for optical lenses 7. Moreover, by changing the types of lenses with different optical characteristics, it is possible to obtain different radii of illumination of the illuminated surface. All metal parts of the luminaire are coated with anticorrosive coatings, iron - with high-temperature powder enamel, aluminum - with chemical anodizing.

Thus, due to the fact that the design of the housing of the utility model is prefabricated from heat sink elements formed by fins of a certain shape, the heat-generating ability of the lamp housing increases. And also it becomes possible to adjust the dimensions of the lamp housing and, accordingly, the area for installing the light source and place more powerful LEDs on the housing.

The inventive street LED lamp has been successfully tested and is preparing a serial production.

Claims (8)

1. A street LED lamp mounted on a support, comprising a radiator body made in the form of fins, a light source made in the form of an LED module with light-emitting elements made in the form of heavy-duty LEDs, and each of the LEDs is mounted not only by soldering contact conclusions, but also due to the soldering of the heatsink of the LED to the special electrically neutral contacts of the printed circuit board, characterized in that the radiator case is formed by m fins, each of which They are made of trapezoidal shape with holes for fasteners, and m-4 fins are made with stepped grooves, while every 2m fins are asymmetrically connected and form a heat sink element, the number of which is determined by the power of the LEDs placed on the housing, all heat sink elements are fastened with each other using fasteners, made, for example, in the form of pins, and form a platform for installing a light source on one of the surfaces of the housing, on one of its end faces O made hole for the output wires of the LEDs connected to the power supply. 2. The street LED lamp according to claim 1, characterized in that the fins are made, for example, of aluminum. 3. The street LED lamp according to claim 1, characterized in that a thermal fuse is placed on the housing. 4. The street LED lamp according to claim 1, characterized in that the light source is made with a dielectric coating. 5. The street LED lamp according to claim 1, characterized in that the light source is closed by a protective screen made transparent, with a coating providing strength, protection from dust and moisture. 6. The street LED lamp according to claim 1, characterized in that a cover is made on the housing, made, for example, of aluminum and / or opaque plastic. 7. The street LED lamp according to claim 1, characterized in that the housing is mounted on a support using a bracket with the possibility of rotation about its axis, for example, at an angle of 90 °. 8. The street LED lamp according to claim 1, characterized in that the lamp housing is made with a corrosion-resistant coating.