RU116200U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, containing a housing, installed in it, at least two LED matrices and a block for their power supply, and the housing is made of a heat-conducting material with a compartment for the power supply unit, a compartment for the placement of LED matrices, made profiled and made on the housing elements for mounting a luminaire in various operating conditions, characterized in that the body is made in the form of three or more separate sections of a hollow U-shaped metal profile, in which light sources on powerful LEDs and power supplies for them are located. ! 2. A lamp according to claim 1, characterized in that the sections of the hollow profile are made of an aluminum alloy. ! 3. A lamp according to claim 1, characterized in that the sections of the hollow metal profile on the outer surface have heat-dissipating fins made of the same material. ! 4. A lamp according to claim 1, characterized in that the sections of the hollow metal profile may have a semicircular cross-section. ! 5. The lamp according to claim 1, characterized in that it contains an optically transparent polymer glass located above the powerful LEDs and fixed in the longitudinal grooves of the side edges of the hollow profile segments along their entire length. ! 6. A lamp according to claim 1, characterized in that the ends of the sections of the hollow profile are closed with side covers. ! 7. The lamp according to claim 1, characterized in that over the high-power LEDs there are lenses made of a polymer material, which form a pattern of its radiation. ! 8. The lamp according to claim 1, characterized in that the power sources are located on the outer side of the hollow profile sections.

Description

The proposed utility model relates to the section of lighting engineering - to luminaires with LEDs that generate light radiation.

Such pendant lights are known for indoor lighting of objects.

Known, which have become traditional, are designs of luminaires containing a housing with a compartment for a power supply and elements of a connecting device, a compartment - a reflector for placement of lighting lamps and elements made on the housing for mounting on the ceiling.

The luminous flux in the well-known luminaires of modern designs can reach significant values due to the use of powerful LEDs, which accordingly increases the technical requirements in terms of solutions for the efficient removal of heat generated.

Well-known, which have become traditional, methods of heat dissipation from various designs, including from luminaires with high-power LEDs, due to the use of housings made of heat-conducting material - metal with high thermal conductivity.

This metal property is used, for example, in RF patent No. 80156, application No. 2008133549/22 of 08/15/2008, in which the metal housing of the lamp serves as a heat sink for the light source, power supplies and control units.

Closest to the claimed solution is the RF Patent No. 833314 according to the application No. 2008152242/22 dated 12/30/2008, which is characterized as a lamp containing a housing, at least two matrixes of LEDs installed in it and a power supply unit, the housing being made of heat-conducting material with a compartment for the power supply, a compartment for the placement of LED arrays made profiled, and made on the housing elements for mounting the lamp in various operating conditions.

The compartment for accommodating the matrices of LEDs and power sources of the known lamp is made in the form of a niche linearly profiled in the form of the letter “W”, the reverse side of which is made with outgoing, heat-dissipating (heat-removing) fins, and the lamp is intended for installation on structural elements, supports, masts, walls, roofs and ceilings of buildings.

In addition, there are two options for the execution of the housing.

According to the first embodiment, the housing is made monolithic, and according to the second of the individual elements rigidly fastened.

However, in our opinion, the manufacture of a known utility model, both in the first and in the second embodiment, is technologically and structurally not perfect, in addition, when using the proposed design, heat removal from high-power LEDs and their power sources is difficult.

The purpose of the proposed utility model is the elimination of these shortcomings.

This goal is achieved due to the fact that the housing of the LED lamp is made in the form of three or more separate segments of a hollow U-shaped metal profile, in which light sources are located on high-power LEDs and power sources for them. Due to the use of the housing of the original design, it is provided with sufficient cooling by the ascending flows of ambient air and the luminous efficiency of the lamp is maintained for the entire period of its operation.

This goal is also achieved due to the fact that the monolithic hollow metal profile is made of aluminum alloy having high thermal conductivity.

This goal is also achieved due to the fact that on the outer: surface of the compartments for accommodating high-power LEDs and power sources, heat-conducting fins made of the same material are placed, increasing the surface area of the luminaire and improving heat transfer from the LEDs and power sources to the external environment, as well as due to the fact that the LED lamp contains an optically transparent protective glass located above the powerful LEDs and fixed in the longitudinal grooves of the side faces of the hollow profile on their entire length.

An example of a utility model is illustrated by drawings.

In figure 1. The cross section of the LED lamp without a protective glass and side covers.

Shown in figure 1, the LED lamp contains a housing made of individual segments of a hollow U-shaped metal profile 1, connected by a beam 4. On the U-shaped metal profile 1 is a matrix of high-power LEDs and power supplies 3.

The segments of the U-shaped metal profile 1 are made by continuous pressing of aluminum alloy.

The LED luminaire shown in FIG. 2 differs from the luminaire shown in FIG. 1 in that it additionally has a protective optically transparent polymer glass 5 and side protective covers 6.

Shown in figure 3, the LED lamp differs from the lamp shown in figure 2 in that the shape of the profile 1 and the protective glass 5 has a semicircular shape, and the power sources 3 are placed on the outer surface of the profile 1.

In the proposed utility model, the design of the lamp is improved and the technology for its manufacture is improved. Due to the use of the housing of the original design, the operational parameters are improved - preservation of the luminous efficiency of the lamp in real operating conditions.

Claims (8)

1. LED lamp, comprising a housing, at least two matrixes of LEDs installed in it and a unit for powering them, the housing being made of heat-conducting material with a compartment for the power supply unit, a compartment for profiling LED arrays made on the housing and made on the housing elements for mounting the lamp in various operating conditions, characterized in that the housing is made in the form of three or more separate segments of a hollow U-shaped metal profile, in which light sources are placed and on the high-power LEDs and power supplies for them. 2. The lamp according to claim 1, characterized in that the segments of the hollow profile are made of aluminum alloy. 3. The lamp according to claim 1, characterized in that the segments of the hollow metal profile on the outer surface have heat sink fins of the same material. 4. The lamp according to claim 1, characterized in that the segments of the hollow metal profile can have a semicircular shape in cross section. 5. The lamp according to claim 1, characterized in that it contains an optically transparent polymer glass located above the powerful LEDs and fixed in the longitudinal grooves of the side faces of the hollow profile sections along their entire length. 6. The lamp according to claim 1, characterized in that the ends of the sections of the hollow profile are closed with side covers. 7. The lamp according to claim 1, characterized in that above the powerful LEDs are placed lenses made of a polymer material, forming a diagram of its radiation. 8. The lamp according to claim 1, characterized in that the power sources are located on the outside of the segments of the hollow profile.