RU117575U1 - LED RECESSED LUMINAIR - Google Patents

Abstract

1. LED recessed luminaire for lighting offices, shopping centers, including a housing, LEDs, characterized in that the function of the luminaire housing is performed by a radiator made of a heat-dissipating polymer composite. ! 2. LED built-in luminaire according to claim 1, characterized in that the LEDs are rigidly fixed to the lower surface of the radiator housing in at least two rectangular recesses. ! 3. LED recessed luminaire according to any one of claims 1 and 2, characterized in that the ribs of the plastic radiator housing are needle-shaped. ! 4. LED built-in luminaire according to any one of claims 1 to 3, characterized in that symmetrically through convection holes are made in the body-radiator. ! 5. LED built-in luminaire according to any one of claims 1-4, characterized in that, in order to increase the efficiency of heat dissipation of the radiator case, it is possible to additionally install an active cooling system in the form of a special fan. ! 6. LED recessed luminaire according to any one of claims 1 to 5, characterized in that the polycarbonate glass is installed only on rectangular recesses in which the LEDs are fixed. ! 7. LED built-in luminaire according to any one of claims 1-6, characterized in that the polycarbonate glass is coated with Fresnel lenses with the required focal length and angle of dispersion. ! 8. LED recessed luminaire according to any one of claims 1-7, characterized in that a mounting hole is provided in the center of the luminaire.

Description

Utility Model Application Field

LED downlight (DL) is designed for lighting offices, shopping centers and other premises, as well as outdoors. It is used as an independent luminaire, so it can be built in with the help of a central mounting hole in the fittings of DL-type luminaires instead of an incandescent lamp with an Rx7s socket.

State of the art

Known LED recessed lighting for lighting offices, shopping centers. The closest analogue was selected DL-IV LED ceiling lamp (http://www.ledproductscn.ru/1-6-led-downlight.html), which includes a metal body, a mechanism for mounting the lamp in a niche of a suspended ceiling in the form of steel clips , LEDs rigidly fixed at the bottom of the reflector, round radiator with longitudinal ribs, cable connector. In the DL-IV luminaire, profiled aluminum manufactured by injection molding is used to solve problems with heat dissipation during operation of LEDs.

Famous LED Ceiling Geniling Sailing-A18-108 (www.innosvet.ru/catalog/sd-svet/444/4591), includes a metal aluminum housing, a mechanism for mounting for mounting the lamp in a niche of a suspended ceiling, in the form of steel clips, a group of LEDs rigidly mounted on the surface of an aluminum radiator, equipped with longitudinal ribs similar to the lamp above. The presence of the metal analogues made of aluminum in the above analogues and the use of cooling radiators made by injection molding of aluminum alloys in their structures significantly complicate the design in terms of the number of components of LED lamps, their cost, as well as the weight of the lamps, increases. The above should be attributed to the significant disadvantages of the above analogues.

Utility Model Disclosure

A useful model - a LED built-in lamp - is actually a bodyless lamp and is characterized by the fact that the function of the lamp body is performed by a radiator made of heat-scattering polymer composite (TRPC) - plastic, on the plane of which, in specially deepened places, powerful copper plates are installed on the boards LEDs The rectangular shape of the recesses, reduces the cost of boards with LEDs, in contrast to the round shape. Special rectangular recesses are hermetically sealed by windows made of optical polycarbonate glass, the glass is made with Fresnel lenses applied to it, with the necessary focal length and scattering angle, depending on the modification of the lamp. Convection openings are made on the lower plane of the casing - radiator to improve the heat dissipation generated during the operation of the lamp. For the same purpose, the edges of the radiator have fins. The case - the radiator has a protrusion for fixing the lamp in the ceiling hole, and also in the side walls of the case there are built-in embedded seats for installing steel mounting clips for installing the lamp in the ceiling and embedded seats for installing active cooling, depending on the application of the lamp.

In the utility model, the LED recessed luminaire, special channels and holes are provided for outputting the mounting wires. Radiators from TRPK in technical parameters are not inferior to aluminum radiators. Their manufacturing technology provides high accuracy, which does not require additional mechanical fine-tuning of parts, which reduces the cost of the latter. Radiators from TRPK are twice as lighter than aluminum, and also cheaper, in addition, the radiator case can be painted in various colors.

Brief Description of Utility Model Drawings

Drawings of a utility model are presented in figure 1. Figure 1 shows a General view of a utility model in two projections.

Utility Model Implementation

The design of the utility model, the LED built-in lamp is shown in figure 1, consists of a housing - a radiator / 1 / made of a heat-dissipating polymer composite having a supporting edge / 2 /, rectangular niches / 3 / are made on the lower surface of the housing - a radiator for installing high-power LEDs / 4 /, in the center of the radiator casing there is a through hole / 5 / for fixing the lamp in other cases of installation, for example on a horizontal wall or on a suspended ceiling, fins / 6 / are made in the upper part of the casing increase the area of heat dissipation during the operation of the lamp and the direction of convection air flows to the radiator needles. The niches / 3 / in which the LEDs / 4 / are installed are closed by optically transparent windows / 7 / made of polycarbonate glass, on the two end sides located symmetrically relative to each other, embedded elements / 8 / are used for fastening steel spring clips / 9 /, s with the help of which the lamp is installed in the ceiling hole. The radiator case has a number of convection openings / 10 /. Mounting points for additional fans / 11 /. Fresnel lens on polycarbonate glass / 12 /.

The electrical circuit of the LED connections in the utility model is selected in series-parallel - a circuit of three LEDs connected in series in parallel switching groups. To ensure stabilization of the current in the serial circuit, special drivers or compensation resistors are used. This inclusion provides a decrease in the current value on the LED matrix on the one hand, and on the other hand increases the reliability of the luminaire, because if one of the LEDs fails in the circuit, the other parallel-connected circuits continue to function.

A utility model - a recessed LED luminaire - in terms of the combination of optical, electrical, as well as resistance to climatic influences, complies with the requirements of the standards of the Russian Federation and the EU.

The utility model ensures compliance with all operational and lighting parameters of modern LED technology samples, including the selected analogue, in addition, it has several advantages, including simplicity of design and the use of new advanced materials, in particular plastics, which significantly reduce the cost of the product while increasing consumer characteristics. The optical and electrical parameters of the utility model are given below.

Input voltage (V) 220 LED matrix voltage (V) 24 Maximum matrix current (A) four Power, W) 20-60 Luminous flux, maximum (lm) 5000 Ray scattering angle (degrees) 45-120

Claims (8)

1. LED recessed lamp for lighting offices, shopping centers, including a housing, LEDs, characterized in that the function of the housing of the lamp is performed by a radiator made of a heat-dissipating polymer composite. 2. The LED recessed lamp according to claim 1, characterized in that the LEDs are rigidly fixed to the lower surface of the radiator housing in at least two rectangular recesses. 3. The LED built-in lamp according to any one of claims 1 and 2, characterized in that the ribs of the plastic case-radiator are needle-shaped. 4. LED built-in lamp according to any one of claims 1 to 3, characterized in that convection openings are symmetrically made in the radiator case. 5. The LED built-in lamp according to any one of claims 1 to 4, characterized in that, in order to increase the heat sink efficiency of the radiator body, it is possible to additionally install an active cooling system in the form of a special fan. 6. LED built-in lamp according to any one of claims 1 to 5, characterized in that the polycarbonate glass is installed only on rectangular recesses in which the LEDs are fixed. 7. LED built-in lamp according to any one of claims 1 to 6, characterized in that Fresnel lenses with the necessary focal length and dispersion angle are applied to the polycarbonate glass. 8. The LED built-in lamp according to any one of claims 1 to 7, characterized in that a fixing hole is provided in the center of the lamp.