RU104809U1 - LED CEILING LIGHT - Google Patents

Abstract

 LED lamp made in the form of a rectangular flat figure, inside of which there are LEDs with a power source on the printed circuit boards, characterized in that its front side is made of translucent material containing light-scattering particles, the opposite side of the lamp has a reflective coating, the end sides of the lamp are made of aluminum profile with radiator cooling fins, circuit boards with LEDs located on them are mounted in the profile, connected between each other in an electrical network in a parallel way, the printed circuit boards are fastened together by connectors, while in the locations of the LEDs on the front side of the lamp there are semicircular through holes.

Description

The utility model relates to lighting devices based on LEDs and can be used to form means of street, industrial, domestic and architectural design lighting.

Known LED lamp containing a housing in the form of a rectangular flat figure, on the back wall of which the LEDs are evenly placed, with a window made of translucent material, patent RU 87598, H05K 5/00. The disadvantages of the known device are low light output, uncomfortable lighting, expressed in high sharpness of light and the formation of multiple shadows, inadequate functional reliability due to a sharp decrease in lighting ability when LEDs fail, the complexity of assembly due to the large number of fasteners.

Known LED lamp with front and rear walls, on which the LEDs are located, combined in triads arranged in rows along which dividing longitudinal reflective elements are installed, patent RU 93005, Н05К 5/00. The disadvantages of the known device are low efficiency (part of the light emitted by the LEDs along the rows is absorbed by the front opaque wall of the lamp), uneven light flux (since the location of the LED triads is in-line and there are gaps between the triads and rows), unreliability and high cost due to the complexity of the design lamp, low dust and moisture protection (because there are holes in the front wall of the lamp), the complexity of the assembly due to the large number of elements.

Known LED lamp according to patent RU No. 95793, H05K 5/00, selected as a prototype, which contains a flat transparent rectangular panel, to the end of which is adjacent an LED emitter, while the front side of the panel is a light-emitting surface, and on the opposite side there are separate optically heterogeneous elements, the totality of which scatters the light flux emitted from the end toward the frontal surface.

The disadvantages of the known device are the low light output due to the absorption of part of the light flux by photoluminophore fillers (energy conservation effect), also due to the fact that the optical device is rectangular and part of the light flux emitted by the LEDs is reflected from its end, the uneven distribution of the light flux (because emitting LEDs are located only on one side of the luminaire), the unreliability of the luminaire due to the absence (or low efficiency) of heat-removing elements (radiators) is expensive no device due included therein a plurality of inhomogeneous light scattering optical elements.

The objective of this utility model is to eliminate these drawbacks, increase reliability and improve the lighting characteristics of the luminaire while reducing the complexity of manufacturing.

The technical result consists in increasing the lighting characteristics and operational reliability while reducing the complexity in the manufacture, installation and maintenance of the product.

The technical effect is achieved by the fact that the LED lamp is made in the form of a rectangular flat figure, the front side of which is made of translucent material containing reflective particles, the back side of the lamp has a reflective coating, the end sides of the lamp are made of aluminum profile, with radiator cooling fins, in aluminum profile mounted circuit boards with LEDs located on them, interconnected in a single electrical network in parallel bong. Printed circuit boards are interconnected by connectors. At the same time, in the locations of the LEDs on the front side of the lamp there are semicircular through holes. On printed circuit boards, the LEDs are interconnected in a single electrical network in a parallel way.

The execution of the front side of the lamp from a material that can transmit and scatter light entering through the side edges is scattered, providing an even distribution of light.

The rear wall of the housing has a reflective coating, which reflects the light flux emitted from the end of the panel towards the front surface of the lamp, which also ensures uniform distribution of light.

The aluminum profile fastening on four sides of the luminaire body has radiator cooling fins to remove heat from the LEDs, which increases the reliability of the luminaire because With heat dissipation, the life of the LEDs increases.

Connecting the LEDs to each other in a single electrical network in a parallel way increases the reliability of the lamp, because when one LED fails, the rest continue to work.

Semicircular through holes on the front side at the locations of the LEDs can increase the efficiency of the lamp because rays of the light flux from the LEDs enter the end of the panel at an angle of 90 °, which increases their penetrating ability.

Figure 1 - General view of the lamp. Figure 2 - sectional design of the lamp. Figure 3, 4 is a diagram of the distribution of light in the structure of the front side of the lamp.

The luminaire comprises a housing including a rear wall 4, a front side in the form of a panel 3 made of translucent material, the structure of which contains reflective particles, and single LEDs 2 located on the basis of the aluminum profile 1. The LEDs 2 are evenly distributed over the entire area of the rear wall of the profile 1 and mounted on printed circuit boards 5 with an aluminum base, which are fastened together by connectors 6. The aluminum profile 1 has radiator cooling fins and is adjacent to the end of the panel 3. The rear wall of the light Tilika 4 has a reflective coating that scatters the light flux emitted from the end face of the panel 3 towards the front surface of the lamp. The casing is made in the form of a rectangular flat figure and can be used to illuminate rooms with suspended ceilings.

The design of the lamp is assembled as follows.

Profile 1 is made of an aluminum alloy (or other material having high thermal conductivity). Products from the profile are cut into a long equal cell length of the suspended ceiling at an angle of 45 degrees on each side. To connect the products together, there are mounting holes in the cooling fins on both sides. The holes are located at a distance of 25 mm from the beginning and end of the product, in the center of the cooling fins.

For the manufacture of one lamp requires 4 products from the profile. For fastening products from the profile between themselves, 2 fixing corners with a thickness equal to the distance between the cooling fins on the profile are required. The mounting bracket is made so that it fits between the cooling fins in the profile.

The front panel of the lamp is made in the form of a rectangular figure with semicircular holes around the perimeter, the diameter of which is 2 times the size of the mounted LEDs. The panel is cut with a laser or CNC milling machine from a sheet with a thickness of 6 mm or more. The material of the panel is transparent plastic (acrylic, plexiglass, PMMA or others) into the structure of which, during manufacture, reflective particles painted in a neutral color are added.

The printed circuit board is made in the form of a rectangular figure with a width equal to the width of the base inside the profile and a length equal to the length of the side of the front panel. SMD type LEDs are mounted on the board, connected together in a single electrical network in parallel. The board has an aluminum base for better heat dissipation from the LEDs and its dissipation by cooling fins on the profile.

The boards are interconnected by connectors. From the last board, the connector is output to the rear wall of the lamp and is connected to a power source. Profile products are fastened with corners and rivets. The finished lamp is installed in suspended ceilings of the Armstrong type without additional fixtures.

Claims (1)

LED lamp made in the form of a rectangular flat figure, inside of which there are LEDs with a power source on the printed circuit boards, characterized in that its front side is made of translucent material containing light-scattering particles, the opposite side of the lamp has a reflective coating, the end sides of the lamp are made of aluminum profile with radiator cooling fins, circuit boards with LEDs located on them are mounted in the profile, connected between each other in an electrical network in a parallel way, the printed circuit boards are fastened together by connectors, while in the locations of the LEDs on the front side of the lamp there are semicircular through holes.