RU85784U1 - LED LAMP - Google Patents

Abstract

1. LED luminaire, containing as a light source LEDs connected through conductor means to the power module, an optically transparent diffuser, a housing made of a hollow profile made of aluminum alloy, characterized in that the LEDs are installed on the outer flat surface of the housing, covered with a diffuser in the form , close to a rectangular parallelepiped, U-shaped slides are made in the hollow inner part of the body on two opposite sides to hold the printed circuit board of the power module, downward from the opposite edges of the hollow part of the body there are two flat sidewalls with flanges bent at their ends by 90º, in which there are holes for fixing the luminaire to a flat surface. ! 2. The LED luminaire according to claim 1, characterized in that the luminaire has a large length and the number of diffusers greater than one. ! 3. The LED lamp according to claim 1 or 2, characterized in that a flat additional diffuser made of sheet light-scattering material is installed on top of the diffuser on the racks on top of the diffuser. ! 4. The LED luminaire according to claim 1, characterized in that it has an additional fastening of a tubular section made of an aluminum alloy profile, which is attached to the body flanges bent at 90 ° degrees and serves to fix the luminaire on brackets made of pipes.

Description

LED lamp.

A useful model of LED luminaire relates to universal lighting fixtures (in the home, housing and communal services, industry, transport), both indoors and outdoors.

LED lights are known, the casing of which is made of an aluminum alloy profile, manufactured by many Chinese companies and often referred to as "LED light washer". For example, the LED lamp SL-X200TG-B5 manufactured by Guangzhou Shiny Star Lighting Co., Ltd, a description of which is located at http://gzshinystar.com/productsnei2.asp?id=79&bigid=78 and the lamp LT-WW-8 -WW manufactured by LEDTEK Optolecetronics Co., Ltd, a description is located at http://www.ledtek.com.cn/english/content.asp?ModuleType=3&ChannelID=3&id=76. Figure 1 shows a photo of the lamp LT-WW-8-WW. This lamp is also made of an aluminum alloy profile. It has a flat protective glass that completely covers the front surface of the lamp. To mount the lamp, small brackets are used, made as separate parts and attached to the lower surface of the housing.

A design disadvantage of this known LED luminaire is the inefficient use of the surface profile of the housing for cooling the LEDs due to its overlapping with large glasses having significantly lower thermal conductivity than the thermal conductivity of the aluminum alloy. The fastening of the known LED lamp is also ineffective from the point of view of cooling the housing, since it is made as parts separate from the housing with a small surface area.

The technical result, the achievement of which is directed by a real utility model, is to create the design of an LED lamp with good cooling of the LEDs. As you know, the lower the temperature of the LED, the higher its light output (output luminous flux per unit of power consumed by the LED) and less degradation (decrease in the luminous flux of the LED over time). This result is achieved by using a housing made of a hollow profile made of aluminum alloy having a large surface area in which the LEDs are mounted on the outer surface of the housing made of a profile made of aluminum alloy and are closed externally from the environment by a diffuser in a shape close to a parallelepiped made of any transparent or translucent material (glass, polycarbonate, polystyrene). This diffuser closes the front surface of the housing not completely, but partially, mainly only the area occupied by the LEDs. In addition, two flat sidewalls are made down from opposite edges of the hollow part of the body with flanges bent at their ends by 90 degrees, in which there are holes for fixing the lamp on a flat surface. These sidewalls, made in the same technological process of manufacturing the profile of the housing together with the hollow part, also increase the surface area of the housing, which improves the cooling of the LEDs.

In the second embodiment of the utility model, an LED lamp may have not one, but several diffusers and a correspondingly increased length. Thus, it is possible to realize luminaires of higher power.

In the third embodiment of the utility model, the LED lamp may have an additional flat diffuser made of light-scattering material (translucent, with dispersing additives, or with prisms, lenses that refract the light made on its surface). This optional diffuser reduces the luminosity (equivalent brightness) of the LED luminaire. It is located at some distance from the lamp and is attached to it with self-tapping screws and tubular posts. Such an arrangement of the additional diffuser significantly less degrades the cooling of the lamp housing in comparison with the diffuser directly attached to the lamp housing.

In the fourth embodiment of the utility model, the LED lamp may have an additional tubular mount with shelves, also made of an aluminum alloy profile. This mount is attached to the luminaire using either self-tapping screws, or bolts, or by welding and serves to fix the luminaire to brackets made of pipes. The luminaire is fixed on the bracket pipe with bolts screwed radially into the wall of this mount.

The invention is illustrated by specific examples illustrated by graphic materials.

Figure 2 shows the first embodiment of the utility model, a top view, figure 3 is the same in front, but figure 4 is also in section aa. The luminaire consists of a housing 1 made of a section of a profile made of aluminum alloy, on the upper part of which LEDs 2 are fixed with self-tapping screws (either directly, if holes are provided in the design of the light-emitting diode, or pre-mounted on the board from a material that is well conductive of heat). The LEDs above are covered by a diffuser 3 made of an optically transparent material, such as polycarbonate. The diffuser is mounted on the housing with self-tapping screws 5. The LEDs 2 are connected by electrical wires to the power module, the printed circuit board 6 of which is fixed in the U-shaped slides made in the housing 1. The wires from the LEDs pass through the holes drilled in the upper part of the housing under the diffuser 3. From both ends the case is closed by panels 4, which are attached to the case with self-tapping screws 5. The preferred material of these panels is also a well-conductive heat, such as aluminum alloy. The lamp is fixed on a flat surface (wall, ceiling) with screws, bolts, screws passing through the holes 7 in the flanges of the housing 1. The voltage supplying the lamp is supplied through an opening in the housing, mainly from below.

The luminaire may contain not one but several diffusers 3 and, accordingly, an increased length of the housing. Thus, it is possible to realize luminaires with greater power.

The third version of the lamp is shown in Fig. 5 (top view), Fig. 6 (front view) and Fig. 7 (section AA). It differs from the first option in that a flat additional diffuser 9 is mounted on top of the diffusers 8 above the diffuser 3, made of sheet diffuser material, for example plastic, with the addition of dispersing additives or with prismatic lenses made on its surface. An additional diffuser 9 is attached to the housing 1 using self-tapping screws 5 passing through the tubular posts 8. An additional flat diffuser reduces the luminosity (equivalent brightness) of the lamp, redistributing the light flux of the LEDs over a larger area. This is desirable, since the open LEDs represent point light sources with high brightness, which is not comfortable to look at.

The fourth version of the lamp is shown in Fig. 8 (top view), Fig. 9 (front view) and Fig. 10 (section AA). It differs from the first option in that it has an additional tubular fixture 10, which is necessary to fix the lamp on the tubular brackets. The tubular fixture 10 is also made of an aluminum alloy profile and is attached to the lamp with bolts, screws or by welding. The lamp is fixed on the tubular bracket using bolts 11, screwed into the holes with threaded threads in the mount 10

Claims (4)

1. An LED lamp containing light emitting diodes connected through a current lead to the power module, an optically transparent diffuser, a housing made of a hollow profile of aluminum alloy, characterized in that the LEDs are mounted on the outer flat surface of the housing, covered with a diffuser in the form , close to the rectangular parallelepiped, in the hollow inner part of the case from two opposite sides made U-shaped slides to hold the printed circuit board of the power module, down from opposites edges of the hollow body portion formed with two flat side walls are bent at their ends at 90º flange returns, where there are holes for fixing the luminaire on any flat surface. 2. The LED lamp according to claim 1, characterized in that the lamp has a large length and the number of diffusers is greater than one. 3. The LED lamp according to claim 1 or 2, characterized in that a flat additional diffuser made of sheet light-diffusing material is installed on top of the diffuser on the uprights. 4. The LED lamp according to claim 1, characterized in that it has an additional tubular section mount made of an aluminum alloy profile that is attached to the body flanges bent by 90 degrees and serves to fix the lamp on brackets made of pipes.