RU106335U1 - LED STREET LIGHT - Google Patents

Abstract

 1. Street LED lamp, including at least one housing, the surface of which contains fins, an LED module installed inside the housing with LEDs interconnected, a power supply and a protective glass, characterized in that the housing is made in one piece and consists of a top for the power supply unit and the bottom for the LED modules of the cavities having a partition, and the LED modules can be at least three, moreover, inside both parts of the housing there are guides for installing the board As for the power supply, boards of LED modules and protective glass, and on the outer surface of the housing there are elements for mounting the lamp in various operating conditions and guides for connecting the following modules. ! 2. The street LED lamp according to claim 1, characterized in that the lamp housing is made of aluminum or its alloys. ! 3. The street LED lamp according to claim 1, characterized in that it is possible to install optical lenses on top of each LED depending on the required characteristics. ! 4. The street LED lamp according to claim 1, characterized in that the elements for mounting the lamp are located on both outer side and upper sides of the lower part of the housing and have a T-shaped profile. ! 5. The street LED lamp according to claim 1, characterized in that the fins are made mainly on the lower part of the housing on the upper and lateral sides.

Description

The utility model relates to lighting engineering, namely to lighting equipment and can be used as a stationary lamp for street or indoor lighting of mass application.

Recently, LED lighting devices have become widespread, which have a high degree of protection against environmental influences and are intended for operation in open space. Due to the non-thermal nature of LED radiation, they have a long service life, low supply voltage, which guarantees a high level of safety.

A known street LED lamp, selected as a prototype, including at least one housing, the surface of which contains fins, an LED module mounted inside the housing with LEDs interconnected on a printed circuit board, a power supply, with a protective glass (patent for useful model No. 88769).

The main disadvantage of this technical solution is the possibility of overheating under certain environmental conditions of the LEDs and power supply, which leads to failure of the lamp, as well as the complexity of the assembly.

The task to which this technical solution is directed is to increase the lamp life by increasing the efficiency of the heat sink while maintaining its operational reliability and expanding technological and functional capabilities.

The technical problem is achieved due to the fact that in the street LED lamp, including at least one housing, the surface of which contains fins, an LED module installed inside the housing with LEDs interconnected, a power supply and a protective glass, according to a utility model, the housing is made integral and consists of a top for a power supply unit and a bottom for LED cavity modules having a partition, and LED modules can be at least three, moreover, inside both parts orpusa formed guides for board mounting the power supply boards LED modules and the protective glass, and on the outer surface of the housing formed for mounting lamp elements in different operating conditions, and the guide for attaching these modules.

The body of the lamp is made of aluminum or its alloys.

Optical lenses can be installed on top of each LED depending on the required characteristics.

Elements for mounting the luminaire are located on both outer sides on the lower part and on top on the upper sides of the housing and have a T-shaped profile.

The fins are made mainly on the lower part of the housing on the upper and lateral sides.

The execution of the enclosure with an integral partitions with a partition made of aluminum or its alloys increases the heat dissipation both from the power supply unit and from the LED modules due to the high thermal conductivity of aluminum. Thermostabilization of the operation mode of the lamp is also due to the presence of fins on the lower part of the housing. In addition, the supply of LED modules with electronic protection against overheating also contributes to the thermal stabilization of the lamp operation mode.

The design of this lamp is technological and functional during assembly: the presence of guides makes it possible to quickly assemble and disassemble boards with LEDs, a power supply and a protective glass. The presence of T-grooves on the outside of the housing allows you to quickly mount the lamp using standard fixtures, depending on operating conditions.

The implementation of the lamp made of aluminum or its alloys makes the design quite light, which is important for street lamps.

Optical lenses allow you to select the desired radiation pattern depending on the operational purpose of the lamp.

The above distinguishing features are new in comparison with the prototype, so the utility model meets the criterion of "novelty."

This technical solution can be reproduced industrially, therefore, it meets the criterion of "industrial applicability".

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the lamp with the side cover removed.

The street LED lamp consists of a monolithic housing made of two parts: the upper part 1 and the lower part 2, separated by a solid partition 3. In the upper part there is a power supply 4 with a board, and in the lower part there are LED modules 5 with boards and a protective glass 6. Outside, on the lower part of the housing 2, ribs 7 and elements for mounting the lamp in the form of T-shaped profiles 8 for standard bolts are made. On the upper part of the housing 1, mounting elements 8 are located on the upper wall 9 of the housing 1. Inside the housing there are guides 10 for mounting a board with a power supply 4, boards of LED modules 5 and a protective glass 6. On the outer surface of the housing 2 there are guides 11 for connecting to the following module housings. The luminaire housing is made of aluminum or its alloys and is closed by covers 12. The optical lenses can be installed on top of each LED, depending on the operational purpose.

Electronic overheat protection is built into the power supply and automatically reduces the power of the lamp when it is overheated.

The LED lamp is used as follows. Using mounting elements, the fixture is mounted. When the power is turned on, the LEDs begin to shine, creating a sufficient luminous flux directed to the illuminated surface, for example, for street and indoor lighting in the dark. The structural design of the housing provides good heat dissipation. If necessary, the fixtures can be combined in a group of two or more buildings. The use of optical lenses makes it possible to obtain the required illumination diagram of the served surface.

Thus, in the proposed device, the required technical result is achieved, namely, improving heat dissipation due to the original design of the housing, as well as increasing the suitability for installation.

Claims (5)

1. Street LED lamp, including at least one housing, the surface of which contains fins, an LED module installed inside the housing with LEDs interconnected, a power supply and a protective glass, characterized in that the housing is made in one piece and consists of a top for the power supply unit and the bottom for the LED modules of the cavities having a partition, and the LED modules can be at least three, moreover, inside both parts of the housing there are guides for installing the board As for the power supply, boards of LED modules and protective glass, and on the outer surface of the housing there are elements for mounting the lamp in various operating conditions and guides for connecting the following modules. 2. The street LED lamp according to claim 1, characterized in that the lamp housing is made of aluminum or its alloys. 3. The street LED lamp according to claim 1, characterized in that it is possible to install optical lenses on top of each LED depending on the required characteristics. 4. The street LED lamp according to claim 1, characterized in that the elements for mounting the lamp are located on both outer side and upper sides of the lower part of the housing and have a T-shaped profile. 5. The street LED lamp according to claim 1, characterized in that the fins are made mainly on the lower part of the housing on the upper and lateral sides.