RU124768U1 - LED LIGHTING MODULE - Google Patents

Abstract

1. LED lighting module, the housing of which is made in the form of a radiator from the profile body with a rear wall and two side walls, with ribs at least on the side walls, containing at least one LED radiation source mounted on at least one mounting plate fixed in symmetrical internal grooves the profile body, a protective optically transparent screen fixed in symmetrical grooves, characterized in that the profile body is made with a jumper between the side walls of the profile with the formation of a closed losti.2. The LED lighting module according to claim 1, characterized in that there are additionally two symmetrical grooves inside the closed cavity of the profile body. The LED lighting module according to claim 1, characterized in that a recess for the bracket or mounting system is located on the outside of the profile body opposite the protective transparent screen. The LED lighting module according to claim 1, characterized in that it further comprises protective side covers fixed to the screws, with a sealed power supply in one cover and a decorative plug in the other. The LED lighting module according to claim 1, characterized in that a groove is located on one lateral outer side and a spike on the opposite lateral outer side. The LED lighting module according to claim 1, characterized in that the protective transparent screen is made of UV-stabilized continuous polycarbonate with a thickness of 3 mm. The LED lighting module according to claim 1, characterized in that between the protective transparent screen and the corresponding grooves of the housing there are sealing�

Description

The utility model relates to the field of lighting engineering, namely, to LED lamps. The objectives of the utility model are to improve the heat transfer from the emitting LEDs to the housing, increase mechanical rigidity and strength, increase the tightness of the lamp.

The well-known “STREET LED LAMP” RU 88769 [1], including at least one housing, the surface of which is made in the form of fins, an LED module with LEDs and a power supply installed inside the housing, the housing is equipped with fastening docking elements of the dovetkin type tail ”in the form of a groove on one side of the casing and a spike on the other, allowing connecting the casing, increasing the power of the lamp, while the protective glass is additionally installed in the casing.

A disadvantage of the known design is the difficulty of securing the protective glass, due to the lack of a groove for the protective glass in the profile of the housing. The disadvantage is the high thermal resistance of the LED-case, due to the low contact area between the board with LEDs and the internal groove of the case. The disadvantage is the low mechanical rigidity and strength of the body.

Closest to the claimed technical solution is "LINEAR LED DEVICE AND HEAT-RELEASING PROFILE AS ITS HOUSING" RU 67693 [2], The heat-sink profile is made of aluminum alloy, contains the base profile part with longitudinal parallel walls and heat-dissipating longitudinal radial axes with respect to the radial axis, located relative to it, the base part, the outer outline of the cross-section of the profile with radial elements inscribed in a circle, the base profile part with longitudinal parallel walls It has an inner contour of the cross section in U-shape, wherein there are additional central and side, bilateral symmetric grooves.

In the known lamp, the problem of fastening and sealing the protective glass is solved due to the presence of corresponding grooves into which the sealing (sealing) element and the edges of the protective glass can be inserted.

A disadvantage of the known LED lighting module is the increased thermal resistance between the LEDs and the housing, insufficient rigidity and strength of the housing, insufficient protection of the inside of the device from dust, moisture, and splashes.

The technical result of the proposed utility model is to lower the thermal resistance between the LEDs and the housing, increase the rigidity and strength of the housing, increase the tightness, the degree of protection of the internal space of the device from dust, moisture, and splashes.

The technical result is achieved by the fact that the LED lighting module, the housing of which is made in the form of a radiator from the profile body with a rear wall and two side walls, with ribs at least on the side walls, containing at least one LED radiation source mounted on at least one mounting plate, mounted in the symmetrical internal grooves of the profile body, the protective optically transparent screen fixed in the symmetrical grooves is characterized in that the profile body is made with a jumper between the side walls profile with the formation of a closed cavity.

In addition, two symmetrical grooves can be located inside the closed cavity of the profile body. In symmetrical grooves, for example, a power supply can be fixed.

A recess for attachment may be located on the outside of the profile body opposite the protective transparent screen. When mounting a lamp, for example, a bracket or a mounting system can be placed in a recess.

The LED lighting module may further comprise protective side covers fixed to the screws, moreover, a sealed power supply may be located in one cover and a decorative plug in the other. The presence of protective side covers will additionally protect the inside of the lamp from external negative influences: precipitation, dust, etc.

The LED lighting module may comprise a groove on one lateral outer side and a spike on the opposite lateral outer side. The grooves and spikes on the opposite sides allow you to combine several unitary modules into a separate lighting system, equipped with a bracket or mounting system.

The protective transparent screen can be made of UV-stabilized continuous polycarbonate with a thickness of 3 mm with sealing elements located between the protective transparent screen and the corresponding grooves of the housing. A 3 mm thick UV stabilized solid polycarbonate plate provides unhindered passage of light from the LEDs, as well as excellent mechanical strength. The presence of sealing elements will further increase the tightness of the structure.

The LED lighting module may further comprise at least one light collector between the emitting surface of the LED and the protective glass. The collector will allow you to distribute the light flux from the LEDs into space, depending on the needs of the consumer.

As a collector, a collecting lens or optical reflector can be used. The collecting lens has the ability to provide high accuracy in the direction of the light flux. The optical reflector allows you to further increase the efficiency of the lamp by reflecting rays whose direction differs from the main direction (perpendicular to the emitting area of the LED) by more than 45 degrees.

An example of the implementation of the LED lighting module is shown in:

Figure 1 (cross section of the housing profile), where:

1 - back wall;

2 - side walls of the housing with ribs;

3 - internal symmetrical grooves for the circuit board of the LED radiation source;

4 - internal symmetrical grooves for a protective transparent screen;

5 - jumper;

6 - a closed cavity;

7 - two symmetrical grooves inside a closed cavity;

8 - a recess on the outside of the rear wall;

9 - a groove on the outer side;

10 - spike on the outer side;

Figure 2 (an example of assembly of the lamp based on the housing), where:

11 - profile body;

12 - mounting plate with LEDs;

13 - reflector;

14 - a protective transparent screen;

15 - seal of the protective transparent screen;

16 - power supply;

17 - side covers;

18 - sealed input power wire;

19 - a decorative cap;

20 - screws securing the protective side covers.

The lamp operates as follows:

The ribs on the side walls 2 of the luminaire profile 11 can increase the rate of thermal dissipation from the luminaire housing to the environment, ultimately reducing the thermal resistance between the LED housing and the environment, lowering the temperature of the LED, thereby increasing the power and durability of the lamp. Symmetrical internal grooves for the circuit board of the LED radiation source 3 serve to secure the circuit board with LEDs 12. In this case, the rear (non-radiating) part of the circuit board is located near the jumper 5, typically pressing against it. The heat flux dissipated by the LEDs extends along the jumper 5 to the side walls 1 of the housing, scattering on the ribs on the side walls 2. The seals of the protective transparent screen 15 are inserted into the internal symmetrical grooves for the protective transparent screen 4, sealing the edges of the protective transparent screen 14. The jumper 5 , the side walls 2 and the rear wall 1 form a closed cavity 6. In the closed cavity 6, on two symmetrical grooves of the inner cavity 7, the power supply 16. The recess 8 on the outside for wall 1 it may serve for mounting therein bracket or fastening systems (not shown). The groove on the outer side 9 can serve to install a spike 10 of another adjacent lamp housing, which allows you to combine several modular fixtures in a common installation. The reflector 13 will improve the efficiency of the lamp, increasing light output due to reflection in the right direction of the rays emitted in the lateral direction compared with the main direction of radiation of the LEDs. The side covers 17, fixed with screws 20, can be made with a sealed input of the power wire 18, and with a decorative plug 19.

The technical result is the reduction of thermal resistance between the LEDs and the housing is achieved by the fact that between the jumper and the side walls of the profile there is reliable thermal contact due to the integral implementation of the profile with a jumper.

EFFECT: increased rigidity and strength of the housing is ensured by the presence of a jumper distributing lateral forces on the profile in such a way that the effect on one side wall of the profile is transmitted through the jumper to the other side wall. At the same time, possible deformations of the side walls are significantly attenuated, which leads to an increase in the stability, rigidity, and strength of the lamp structure as a whole.

The technical result is an increase in the degree of protection of the internal space of the device from dust, moisture, and spray is provided by the formation of a closed cavity, additionally protecting the units located inside it, in particular the power supply.

Industrial application. The utility model can be successfully used for the production of LED lamps with increased radiation power and increased durability.

Claims (10)

1. LED lighting module, the housing of which is made in the form of a radiator from the profile body with a rear wall and two side walls, with ribs at least on the side walls, containing at least one LED radiation source mounted on at least one mounting plate fixed in symmetrical internal grooves the profile body, a protective optically transparent screen fixed in symmetrical grooves, characterized in that the profile body is made with a jumper between the side walls of the profile with the formation of a closed Lost. 2. The LED lighting module according to claim 1, characterized in that there are additionally two symmetrical grooves inside the closed cavity of the profile body. 3. The LED lighting module according to claim 1, characterized in that a recess for the bracket or mounting system is located on the outside of the profile body opposite the protective transparent screen. 4. The LED lighting module according to claim 1, characterized in that it further comprises protective side covers fixed to the screws, with a sealed power supply in one cover and a decorative plug in the other. 5. The LED lighting module according to claim 1, characterized in that a groove is located on one lateral outer side and a spike on the opposite lateral outer side. 6. The LED lighting module according to claim 1, characterized in that the protective transparent screen is made of UV-stabilized continuous polycarbonate 3 mm thick. 7. The LED lighting module according to claim 1, characterized in that between the protective transparent screen and the corresponding grooves of the housing are sealing elements. 8. The LED lighting module according to claim 1, characterized in that it further comprises at least one light collector between the emitting surface of the LED and the protective glass. 9. The LED lighting module according to claim 6, characterized in that a collecting lens is used as a collector. 10. The LED lighting module according to claim 6, characterized in that an optical reflector is used as a collector.

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