RU161132U1 - LED LAMP - Google Patents

Abstract

1. LED lamp containing a radiator housing, made in the form of a thin-walled heat sink profile with a constant cross-section along the entire length, including two hollow sides, connecting their base and longitudinal elements U-shaped located on the base, mounted on the base of the housing a light source, translucent element to protect the light source from external influences, end caps and an external power source, characterized in that the hollow sides of the housing are made of a L-shaped, shelves of which directed towards the middle of the profile, the sidewalls and the base form the lower and upper open cavities, one U-shaped element facing the open part into the upper open cavity is located in the middle part of the base, two U-shaped elements, forming a rib in the upper open cavity with one wall, and the other, bounding the corresponding L-shaped cavity of the sidewalls, are located on the sides of the base, ribs are made on the lower side of the base, longitudinal elements of the L-shaped form are made on the outer sides of the sidewalls, and in the lower parts of the sidewall cavities are made open round mounting holes, the light source is made in the form of at least one linear printed circuit board with LEDs located on it, end-to-end slots are made on the end caps, providing free air circulation in the sidewall cavities and in the lower open casing cavity, and the power source is installed in the lower open cavity of the housing on the lower wall of the shelf of the L-shaped hollow sidewall. 2. The LED lamp according to claim 1, characterized in that in the middle part of each end cover there is

Description

The utility model relates to the field of lighting engineering, namely to lighting devices for fixed installation using semiconductor point light sources (LEDs).

Known LED lamp (patent RU 2513033, F21S 8/00, 2012), comprising a heat sink with linear printed circuit boards with point light sources mounted on it, a translucent screen to protect the LED boards from external influences made of impact-resistant material, end covers and an external power source located on the outside of the base of the housing. A heat-dissipating drawn profile, in the cross section of a U-shape with a base made in the form of a plate, on the surface of which there are longitudinal U-shaped elements, is used as a radiator case. On the side of the upper surface of the base, on the sides, vertical elements of the F-shaped form are made, directed by grooves to each other, and elements formed by closed contours of a rectangular section are represented as side walls of the profile. The light sources are made in the form of several lines of circuit boards with a number of LEDs on each, making a protective shield of a flat shape, making end caps with an inner part that repeats the cross-section of the casing, providing a snug fit to the casing.

A known profile for an LED lamp (patent RU 141784, F21S 8/00, 2014), including internal closed cavities along the entire length, a compartment for installing a power supply, longitudinal grooves for attaching the rulers of LEDs and protective glass. The cavities are made rectangular, their external and internal surfaces are smooth, the groove for attaching the power supply is made along the axis of the profile, and the grooves for attaching the rulers of LEDs are made open side to the plane of fit of the rulers.

For all the advantages of well-known technical solutions, there is often no need to illuminate large spaces, for example, in corridors, warehouse driveways, tunnels, shafts, etc., that is, there is no need to use a wide body and several rows of LED lines in the lamp. The housing can be made narrow and long, and the relevance of ensuring reliable heat dissipation remains (and even becomes more important). In many cases, the use of fixtures, is also relevant to ensure reliable protection against dust and moisture.

The technical result provided by the claimed lamp is:

- expanding the arsenal of technical means;

- improving the thermal regime;

- simplification and acceleration of installation of the device.

The essence of the utility model is as follows. The LED lamp contains a radiator housing made in the form of a thin-walled heat-sink profile with a constant cross-section along the entire length, including two hollow sidewalls, connecting their base and longitudinal U-shaped elements located on the base, a light source mounted on the base, and a translucent element for protect the light source from external influences, end caps and an external power source.

The hollow sides of the body are L-shaped, the shelves of which are directed towards the middle of the profile. The sides and base form the lower and upper open cavities.

In the middle part of the base there is one U-shaped element facing the open part into the upper open cavity. On the sides of the base are two U-shaped elements, forming a rib in the upper open cavity with one wall, and the other limiting the corresponding L-shaped cavity of the sidewalls.

Ribs are made on the bottom side of the base. On the outer sides of the sidewalls, longitudinal elements of an L-shaped form are made, and open round fixing holes are made in the lower part of the sidewall cavities.

The light source is made in the form of at least one linear printed circuit board with LEDs located on it. The luminaire is easily scalable to the required lighting requirements due to the consistent installation along the length of the housing of the required number of printed circuit boards and a corresponding increase in the length of the housing. The number of printed circuit boards is limited only by technological capabilities and operational requirements. In practice, there is no need to use more than four printed circuit boards.

Through slots are made through the slots, providing free circulation of air in the cavities of the sidewalls and in the lower open cavity of the housing.

The power source is installed in the lower open cavity of the housing on the lower wall of the shelf of the L-shaped hollow sidewall.

A vertically oriented ledge with a flat base in which there is a cylindrical hole can be made in the middle part of each end cap. This embodiment allows the use of end caps as an attachment element, which, in turn, allows the assembly of a fully assembled luminaire to the mounting surface.

For attaching to the housing, four recesses with holes are made in each end cap. The end cover is fastened with two self-tapping screws in open round mounting holes and two in the side U-shaped elements. This embodiment simplifies the installation of the lamp, because it provides quick and reliable centering on the open mounting holes of the housing.

The translucent element can be made in the form of a flat canopy of rectangular shape located inside the longitudinal elements of the L-shaped form. This embodiment allows for quick assembly.

The power source can be fixed with self-tapping screws screwed into the grooves formed by the ribs on the lower side of the base and the vertical wall of the shelf of the corresponding L-shaped hollow sidewall.

At least one linear printed circuit board can be fixed to the base of the housing with trims using self-tapping screws screwed into a central U-shaped element.

In another embodiment of the luminaire, the translucent element is made in the form of at least one lampshade of rectangular shape with a convex outer surface mounted on the upper walls of the sidewalls and secured with self-tapping screws screwed into the side U-shaped elements.

The translucent element can be made in the form of at least two rectangular shades with a convex outer surface mounted on the upper walls of the sidewalls and secured with self-tapping screws screwed into the side U-shaped elements, and at the junction points the shades are closed, at least , with one bar fixed with self-tapping screws screwed into the side U-shaped elements. The number of printed circuit boards and, accordingly, shades is limited only by technological capabilities and operational requirements. In practice, there is no need to use more than four printed circuit boards.

The inner part of the end caps in the area of the upper open cavity of the housing can be made repeating the cross section of the housing with a tight fit to the housing.

For a better understanding of the essence of the proposed technical solution, the following is a description of specific examples of the utility model, which are not restrictive examples of the practical implementation of the LED lamp with reference to the drawings, which show the following:

In FIG. 1 shows a General view of the housing of the lamp.

In FIG. 2 shows a profile of a lamp housing.

In FIG. 3 shows a perspective view of the lamp.

In FIG. 4 shows a perspective view of a lamp from below.

In FIG. 5 shows a front view of the lamp.

In FIG. 6 shows a top view of the lamp.

In FIG. 7 shows a view of the lamp from below.

In FIG. 8 shows a side view of the lamp.

In FIG. 9 shows a section AA in FIG. 6 (rotated).

In FIG. 10 is a top perspective view of a second lamp embodiment.

In FIG. 11 shows a bottom perspective view of a second embodiment of the lamp.

In FIG. 12 is a top perspective view of a third lamp embodiment.

In FIG. 13 is a front view of a third embodiment of the lamp.

In FIG. 14 shows a top view of a third embodiment of the lamp.

In FIG. 15 shows a section BB in FIG. 14 (rotated).

In FIG. 16 shows a section BB in FIG. 14 (rotated).

The basis of the luminaire is a radiator case 1, made in the form of a thin-walled heat sink profile with a constant cross-section along the entire length (Fig. 1). The housing 1 is made symmetrical with respect to the central longitudinal plane and contains two hollow sidewalls 2 and a base 3 connecting them. The sidewalls 2 and the base 3 form the lower 4 and upper 5 open cavities.

As shown in FIG. 2 hollow sidewalls 2 are formed by a closed L-shaped contour, horizontally located shelves 6 of which are directed to the middle of the profile. The closed L-shaped contour includes the walls 7 and 8 of the vertically located shelf 9, as well as the lower 10, upper 11 and side 12 of the wall of the horizontally located shelf 6.

On the outer sides of the sidewalls 2 there are longitudinal elements 14 and 15 of the L-shaped form. In the lower part of the cavities of the sidewalls 2, open round fixing holes 15 are made, open in the lower open cavity 4. In the middle part of the base 3, there is one U-shaped element 16 facing the open part into the upper open cavity 5. On the sides of the base are two U-shaped element, one wall forming a rib 18 in the upper open cavity 5, and the other wall 19 bounding the corresponding L-shaped cavity of the sidewalls. On the lower side of the base there are ribs 20 forming grooves 21 with the wall 12.

All U-shaped elements 16, 17 and ribs 20 serve to perform two functions: they secure the fixture elements and remove heat. In general, the case design with a small cross-sectional dimension has a sufficiently branched surface to ensure efficient heat dissipation.

As shown in FIG. 3 - FIG. 7, the lamp also contains two end caps 22, a translucent element 23 for protecting the light source from external influences, and a power source 24.

To ensure free air circulation in the cavities of the sidewalls 2 and in the lower open cavity 4 of the housing and, as a result, to improve heat transfer, through slots 25 are provided with through slots 25. In the middle part of each end cover 22 there is a vertically oriented ledge 26 with a flat base, in which made a cylindrical hole 27. Hole 27 is used to mount the lamp on the wall or ceiling.

In each end cover 22 there are four recesses 28 with holes for fastening with screws to the body (Fig. 8, 9). Two screws 29 end cover 22 is mounted in open circular mounting holes 15 and two screws 30 in the side U-shaped elements 17.

On the basis of 3 cases, a light source is installed, made in the form of a linear printed circuit board 31 with LEDs located on it. The printed circuit board 31 is fixed to the base 3 of the housing with strips 32 using self-tapping screws 33 screwed into the central U-shaped element 16.

In the first embodiment of the luminaire, the translucent element 23 is made in the form of a flat canopy of rectangular shape, located inside the L-shaped longitudinal elements 13. When several printed circuit boards 31 are installed in the luminaire sequentially along the housing, the luminaire remains one with an increase in length in proportion to the number of printed circuit boards.

The power source 24 is installed in the lower open cavity 4 of the housing on the lower wall 10 of the shelf of the L-shaped hollow sidewall. To the housing 1 of the lamp, the power source is attached with self-tapping screws 34, screwed into the grooves 21.

Longitudinal L-shaped elements 14 can be used for installation in them if necessary an additional cover or for fixing them fasteners such as brackets.

The second embodiment of the lamp (Fig. 10 - Fig. 16) allows you to use the versatility of the housing 1 to create a structure that is protected from dust and moisture. In this case, the translucent element is made in the form of one or more shafts 35 of a rectangular shape with a convex outer surface. The ceiling 35 is installed on the upper walls 11 of the sidewalls on a sealant or gasket and is fixed using self-tapping screws 36 screwed into the side U-shaped elements 17.

When using two or more printed circuit boards 31 and, respectively, two or more shades 35 at their junctions, the shades 35 are closed, respectively, by one or more slats 37 mounted on the sealant and secured with self-tapping screws 38 screwed into the side U-shaped elements 17.

To ensure tightness, the inner part of the end caps 22 in the area of the upper open cavity 5 of the housing 1 is made repeating the cross section of the housing 1 with a tight fit to the housing.

If necessary, one or more adjustable brackets 39 can be installed in the lower open cavity 4. The brackets 39 are attached to the housing as well as the power source 24.

LED lamp works as follows. When the luminaire is connected to the mains, the power source 24 supplies voltage to the linear LED boards 31. The LEDs begin to emit light, illuminating the surrounding area, and heat is released, which is dissipated mainly by the housing 1, which performs the function of a heat sink. Depending on the purpose of lighting and the required conditions, the lamp is equipped with one or more LED boards 31.

Claims (9)

1. LED lamp containing a radiator housing, made in the form of a thin-walled heat sink profile with a constant cross-section along the entire length, including two hollow sides, connecting their base and longitudinal elements U-shaped located on the base, mounted on the base of the housing a light source, translucent element to protect the light source from external influences, end caps and an external power source, characterized in that the hollow sides of the housing are made of a L-shaped, shelves of which directed towards the middle of the profile, the sidewalls and the base form the lower and upper open cavities, one U-shaped element facing the open part into the upper open cavity is located in the middle part of the base, two U-shaped elements, forming a rib in the upper open cavity with one wall, and the other, bounding the corresponding L-shaped cavity of the sidewalls, are located on the sides of the base, ribs are made on the lower side of the base, longitudinal elements of the L-shaped form are made on the outer sides of the sidewalls, and in the lower parts of the sidewall cavities are made open round mounting holes, the light source is made in the form of at least one linear printed circuit board with LEDs located on it, end-to-end slots are made on the end caps to ensure free air circulation in the sidewall cavities and in the lower open casing cavity, and the power source is installed in the lower open cavity of the housing on the lower wall of the shelf of the L-shaped hollow sidewall. 2. The LED lamp according to claim 1, characterized in that in the middle part of each end cover there is a vertically oriented ledge with a flat base in which a cylindrical hole is made. 3. The LED lamp according to claim 1, characterized in that in each end cover there are four recesses with holes for fastening with screws to the housing: two in open circular mounting holes and two in side U-shaped elements. 4. The LED lamp according to claim 1, characterized in that the translucent element is made in the form of a flat shade of rectangular shape located inside the longitudinal elements of an L-shaped. 5. The LED lamp according to claim 1, characterized in that the power source is secured with self-tapping screws screwed into grooves formed by ribs on the underside of the base and the vertical wall of the shelf corresponding to the L-shaped hollow sidewall. 6. The LED lamp according to claim 1, characterized in that at least one linear printed circuit board is fixed to the base of the housing with trims using self-tapping screws screwed into a central U-shaped element. 7. The LED lamp according to claim 1, characterized in that the translucent element is made in the form of at least one lampshade of rectangular shape with a convex outer surface mounted on the upper walls of the sidewalls and secured with self-tapping screws screwed into the side U-shaped elements . 8. The LED lamp according to claim 6, characterized in that the translucent element is made in the form of at least two rectangular shades with a convex outer surface mounted on the upper walls of the sidewalls and secured with self-tapping screws screwed into the side U-shaped elements , and at the junctions, the plafonds are closed by at least one plank fixed with self-tapping screws screwed into the lateral U-shaped elements. 9. The LED lamp according to claim 6, characterized in that the inner part of the end caps in the area of the upper open cavity of the casing is made repeating the cross section of the casing with a tight fit to the casing.

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