RU104279U1 - LED LAMP - Google Patents

Abstract

The utility model relates to luminaires intended for street, industrial and domestic lighting and is aimed at increasing the reliability of the luminaire, the manufacturability of its manufacture, reducing the material consumption and labor input of the assembly (and as a result, the final price) of the product. This technical result is achieved by the fact that in the LED lamp comprising a housing with radiator fins, made on three sides along the perimeter of the housing and a protective transparent coating, a light source and a power source, grooves are made on the inside of the housing around the entire perimeter of the attachment point of the protective transparent coating with a protrusion in the middle, while the protective coating is connected to the housing by gluing, the fins of the radiator plates on the sides are made at an angle of 70 ° to the longitudinal axis of the housing, and the core Pus made one-piece. The protective transparent coating of the lamp can be made of glass or polycarbonate. 1 C.p.F., 4 ill.

Description

The utility model relates to luminaires intended for street, industrial and domestic lighting.

Known LED lamp, including the radiator fins, and on the front side of the housing made one pair or several pairs of grooves for mounting the LED module, as well as a pair of grooves for mounting the protective glass, which are formed in the process of manufacturing the profile (RF patent for utility model No. 94663, 2010 )

Closest to the proposed is a street LED lamp that contains a housing with a light source installed inside the housing, and a power supply, while the entire surface of the housing is a cooling radiator made in the form of fins mounted on three sides around the perimeter of the housing, and the light source made in the form of an LED module (RF patent for utility model No. 83587, 2009).

The disadvantages of the known technical solutions are not sufficiently high manufacturability of the housing. In addition, the additional complexity and material consumption is the fastening of housing parts with screws or rivets.

The task to which the claimed utility model is aimed is to increase the reliability of the lamp, the manufacturability of its manufacture, reduce the material consumption and the complexity of the assembly (and as a result, the final price) of the product.

The problem is solved in that in the LED lamp containing the housing with radiator fins, made on three sides along the perimeter of the housing and a protective transparent coating, the light source and power source, in the lamp on the inside of the housing around the entire perimeter of the attachment point of the protective transparent coating grooves with a protrusion in the middle, while the protective coating is connected to the body by gluing, ribbing of the radiator plates on the sides is made at an angle of 70 ° to the longitudinal axis of the body, and rpus made integral.

The protective transparent coating of the lamp can be made of glass or polycarbonate.

The technical result achieved in the implementation of the proposed utility model is to increase the operational reliability of the lamp, increase the manufacturability of the housing, achieve high tightness of the lamp, as well as reduce the complexity and material consumption in the manufacture and assembly.

The specified result is achieved due to the fact that the housing of the LED lamp is solid and cast from the material used (for example, from an aluminum profile). This embodiment saves time on the assembly of the housing and materials for fasteners. On the inner side of the housing along the entire perimeter of the attachment point of the transparent protective coating, grooves are made with a protrusion in the middle to secure the protective coating (for example, glass or polycarbonate) to the housing. Glue is poured into the grooves and a transparent coating is installed on top of the glue. Glue, spreading inside the groove, reliably fastens the coating to the body, ensuring the tightness of the lamp, thereby increasing the manufacturability of the process, since the proposed implementation eliminates the screws, screws or bolts for fastening the coating and the housing. This in turn saves materials and production time of the lamp, providing the opportunity to exclude the process of twisting the fastening elements.

Thus, the manufacturing operations of the lamp can fully automate this process, which reduces the complexity and increases its manufacturability. In addition, a high tightness of the luminaire is ensured, this guarantees protection against ingress of dust, moisture and other factors affecting the quality of the luminaire, which increases the reliability of its operation.

The implementation of the fins on the sides at an angle of 70 ° to the longitudinal axis of the housing is designed based on the conditions of thermal calculation of the surface of the side plates for working with powerful LEDs and allows you to maximize the cooling area of the luminaire housing, solves the problem of heat dissipation from powerful LEDs, which is relevant for street lamps , especially in the hot season. Achieving effective cooling of LEDs has a positive effect on the operational reliability of their work, in particular, on their service life.

The utility model is illustrated by drawings, where:

Figure 1 presents a General view of a solid housing of the LED lamp.

Figure 2 presents the lamp housing in cross section and the execution of the grooves for attaching the protective coating.

Figure 3 shows the implementation of the side fins.

The housing 1 of the luminaire is simultaneously a radiator made whole, for example, from aluminum, by injection molding and made with fins 2 fins on three sides around the perimeter of the housing, to increase the surface cooling area and heat dissipation from light sources (LEDs). Plate 2 fins on the sides are made at an angle of 70 ° to the longitudinal axis of the housing (figure 3).

On the inner surface of the housing along the entire perimeter of the place of attachment of the transparent coating, grooves 3 are made with projections 4 for fixing the coating 5. When applying glue to the surface of the groove, the adhesive spreads inside the groove and glues the transparent protective coating 5 to the housing 1. In the inner part of the housing there are LEDs, being light sources, and various sensors, electronic devices and control circuits, and a power source (not shown in the figures) can also be placed.

Thus, the proposed LED lamp can significantly increase the reliability of its operation and reduce the time and cost of installation and maintenance.

Claims (2)

1. LED lamp containing a housing with radiator fins made on three sides around the perimeter of the housing and a protective transparent coating, a light source and a power source, characterized in that on the inside of the housing around the entire perimeter of the attachment point of the protective transparent coating, grooves are made with the protrusion in the middle, while the protective coating is connected to the body by gluing, the fins of the radiator plates on the sides are made at an angle of 70 ° to the longitudinal axis of the body, and the body itself is made whole. 2. The lamp according to claim 1, characterized in that the protective transparent coating is made of glass or polycarbonate.