RU2815597C1 - Led luminaire - Google Patents

Abstract

FIELD: lighting engineering.

SUBSTANCE: invention relates to energy-saving light-emitting diode luminaires, and can be used for lighting of streets, highways, roads, squares and industrial lighting. LED luminaire comprises a housing-radiator with a flat base, printed-circuit boards with LEDs mounted on the outer surface of the base; power supply unit and support tubular console attachment assembly with inclination angle variation mechanism, is characterized by that the radiator housing is made hollow and provided with a cover, longitudinal sides of housing-radiator are made convex with double-sided ribbing, cavity of the radiator housing is equipped with a power supply unit with a light sensor mounted nearby and is closed on the end sides by the front and rear covers, note here that inclination angle variation mechanism is arranged inside said case and secured at rear cover.

EFFECT: expansion of technological capabilities of the luminaire, consisting in creation of a reliable luminaire design with increased capacity of the luminaire, increased heat removal, while maintaining the possibility of changing the angle of inclination of the luminaire, as well as the possibility of autonomous automatic switching on and off of the luminaire as dusk or dawn comes.

5 cl, 6 dwg

Description

The invention relates to the field of lighting engineering, in particular to energy-saving LED lamps, and can be used for lighting streets, highways, roads, squares and industrial lighting.

The “LED street lamp” is known, see RF patent for utility model No. 83587, which is a lamp mounted on a support and containing 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 finning plates installed on three sides around the perimeter of the housing. The light source is made in the form of an LED module.

The disadvantages of the well-known street LED lamp include limited technological capabilities associated with its rigid mounting on a support, which does not allow adjusting and changing, if necessary, the angle of illumination, as well as the inability to autonomously automatically turn on and off the lamp as dusk or dawn sets in .

Another technical solution is known, see RF patent for utility model No. 120190 “LED lamp (device as a whole), body-radiator of an LED lamp (part of the whole), mounting unit (part of the whole) - prototype . An LED lamp containing a radiator housing with light sources, connected in series with fasteners to a power supply in a detachable modular design and a fastening unit with a mechanism for changing the angle of inclination, while the upper part of the radiator housing is made in the form of vertically oriented ribs having an arcuate shape, and the lower part is made in the form of a wide flat platform-base, on which printed aluminum circuit boards with LED blocks are mounted; the radiator housing has three through holes inside, serving as channels for laying cables and fastening elements for installing the mounting unit and power supply.

The disadvantages of the known design include the limited technological capabilities of the lamp, which consist in the irrational placement of the power supply and mounting unit with a mechanism for changing the angle of inclination of the lamp. Thus, a series connection of a radiator housing with a power supply reduces the area for possible placement of LEDs and, accordingly, the possible maximum power of the lamp, since the power supply increases the length of the lamp. At the same time, the load acting on the mechanism for changing the angle of inclination depends on the length of the lamp; accordingly, the longer the lamp, the greater the load, so the length of the lamp is critical and important. The mechanism for changing the angle of inclination is also mounted in series, which also increases the load acting on it, since the lever arm increases. This reduces the service life of the lamp, since during operation of the lamp, under the influence of gusts of wind, the load increases many times and leads to premature failure of the mechanism for changing the angle of inclination and the fastening unit.

The technical result of the proposed invention is to eliminate the shortcomings of the analogue and prototype, namely to expand the technological capabilities of the lamp, which consists in creating a reliable design of the lamp with increased power of the lamp, increased heat dissipation, while maintaining the ability to change the angle of inclination of the lamp, as well as the possibility of autonomous automatic switching on and off of the lamp according to as dusk or dawn approaches.

The technical result delivered by the proposed invention is achieved by the features known from the prototype, namely that the LED lamp contains a housing-radiator with a flat base, printed circuit boards with LEDs mounted on the outer surface of the base; power supply unit and attachment point for a tubular support console with a mechanism for changing the angle of inclination and new features, namely that the radiator housing is hollow and equipped with a lid, the longitudinal sides of the radiator housing are made convex with double-sided fins, the cavity of the radiator housing is equipped with a power supply with a light sensor mounted next to it and closed at the end sides with front and back covers, while the mechanism for changing the angle of inclination is located inside the case and fixed on the back cover.

The cover is made of a convex shape with vertical fins, the length is equal to the length of the radiator housing, while in the upper part of the cover along the entire length there is a technological cavity for wires.

The cover and lower part of the radiator housing are equipped with protective longitudinal ribs.

The base of the radiator housing on the inside is made with vertical fins.

The end front cover is made with convection holes.

The novelty is that the radiator housing is made hollow and equipped with a lid, the longitudinal sides of the radiator housing are made convex with double-sided fins, the cavity of the radiator housing is equipped with a power supply with a light sensor mounted next to it and is closed at the end sides with front and rear covers, while the angle change mechanism tilt is located inside the case and secured to the back cover.

Thus, the feature of making the radiator housing hollow and equipped with a lid makes it possible to increase the area for placing LEDs without increasing the length of the lamp, since the presence of a cavity ensures its rational use - for installing a power supply. And the presence of the cover provides unobstructed access if necessary, for example, to replace the power supply or to the cavity of the lamp.

At the same time, since the length of the lamp is shorter and the leverage of the load on the mechanism for changing the angle of inclination and the fastening unit is smaller, a delta appears, which makes it possible, simultaneously with an increase in power, to equip the lamp with additional devices that expand the technological capabilities of the lamp, for example, a light sensor.

The feature of making the longitudinal sides of the radiator housing convex with double-sided fins ensures an increase in the area of the heat-removing surfaces of the radiator housing and, accordingly, an increase in heat removal.

The feature of equipping the cavity of the radiator housing with a power supply with a light sensor mounted next to it reduces the load on the mechanism for changing the angle of the lamp and the mounting unit compared to the prototype. Since the farther the power supply is mounted from the mounting point, the greater the load on the mechanism for changing the angle of inclination, and vice versa, the closer the power supply is moved to the mounting point and the shorter the lamp, the less the load, and therefore the reliability of the design and its service life. At the same time, the presence of a light sensor mounted next to the power supply increases the technological capabilities of the lamp, namely the ability to autonomously automatically turn on and off the lamp as dusk or dawn approaches.

The feature of making the cavity of the radiator housing with the power supply closed at the end sides with front and rear covers ensures the reliability of the design and protects the cavity of the housing with the power supply from accidental entry of birds or debris.

The feature of placing the mechanism for changing the angle of inclination inside the housing and fixed to the back cover ensures the compactness and reliability of the design, without lengthening it or increasing the load on the mechanism for changing the angle of inclination of the lamp. At the same time, it is possible to adjust the angle of inclination of the lamp.

A sign that the cover is made in a convex shape with vertical fins, the length is equal to the length of the radiator housing, while the design in the upper part of the cover along the entire length of the technological cavity for wires helps to increase heat removal by increasing the heat removal surface area. At the same time, the presence of a technological cavity additionally contributes to the possibility of compact placement of wires, which makes it possible to do without increasing the volume and length of the housing.

The fact that the cover and lower part of the radiator housing are equipped with protective longitudinal ribs contributes to the reliability of the design, since the presence of protective longitudinal ribs helps prevent precipitation from getting into the housing and onto the LEDs.

The feature of making the base of the radiator housing from the inside with vertical fins helps to increase the efficiency of heat removal by increasing the heat removal surface area, which allows you to install more powerful LEDs and thereby increase the power of the lamp.

The design of the end front cover with convection holes promotes air circulation and additional cooling.

Thus, it is the combination of all the above features of the proposed device design that ensures the achievement of the stated technical result, namely the creation of a reliable lamp design with increased technological capabilities.

According to patent information research, no combination of known and new features of the proposed invention was found in sources of patent and scientific and technical information, which allows us to classify the features as having novelty.

Since the proposed combination of features is not known from the existing level of technology and does not follow from it explicitly - it allows one to obtain a higher technical result, the proposed essential features and their combination can be considered to have an inventive step.

The description of the implementation of the invention and the experimental work carried out make it possible to classify it as industrially feasible.

In fig. Figure 1 shows a general view of the lamp from below in isometry.

In fig. Figure 2 shows a view of the lamp from below.

In fig. Figure 3 shows a cross-section of the radiator housing cover.

In fig. Figure 4 shows a luminaire with an end protective cover with convection holes.

In fig. Figure 5 shows a cross-section of the radiator housing with a cover.

In fig. Figure 6 shows a longitudinal section of the lamp with a power supply installed inside and a mechanism for changing the angle of inclination.

The proposed LED lamp consists of a hollow body-radiator 1 with convex longitudinal sides 2 with double-sided fins, with a flat base 3, printed circuit boards with LEDs 4 mounted on the outer surface of the base using, for example, bolts 5. From the end side inside the hollow body - radiator 1, a power supply 6, a light sensor 7 and a mechanism for changing the angle of inclination 8 are mounted, while the mechanism for changing the angle of inclination 8 is fixed on the opposite side to the fastening unit 9 of the tubular support console. The radiator housing 1 is equipped with a convex-shaped cover 10 with vertical fins 11 with a technological cavity 12 for the wires of the power supply 6 and light sensor 7, a front end cover 13 with convection holes 14 and a rear cover 15. The cover 10 and the lower part of the radiator housing 1 are equipped with protective longitudinal ribs 16.

The body-radiator 1 and the cover 10 of the lamp are made by extrusion from aluminum alloy, and the front end cover 13 and the rear cover 15 are bent from sheet steel. The fastening unit 9 with a mechanism for changing the angle of inclination 8 can be made by stamping and/or cutting and/or laser cutting. Power supply 6 is made of plastic or aluminum alloy and has an internal cavity in which drivers for controlling LED matrices are located. In this case, boards with LEDs 4 are mounted with bolts on the outer surface of the flat base 3. The power supply 6 is mounted on the inside of the cover 10 by means of a bolted connection; if necessary, a light sensor 7 is mounted next to or on the housing, while the wires are retracted into the technological cavity 12. after which the cover 10 is installed on the hollow body-radiator 1 and fixed, for example, with bolts. Making the body-radiator 1 hollow and equipped with a lid makes it possible to increase the area for placing LEDs without increasing the length of the lamp, since the presence of the cavity ensures its rational use - for installing a power supply with a light sensor. Making the longitudinal sides 2 of the body-radiator 1 convex with double-sided fins ensures an increase in the area of the heat-dissipating surfaces of the body-radiator 1 and, accordingly, an increase in heat dissipation, and the presence of protective longitudinal ribs 16 helps prevent precipitation from getting into the body and onto the LEDs. A front end cover 13 and a rear cover 15 are attached to the ends of the radiator housing to protect the cavity of the radiator housing from clogging, accidental entry of birds and debris. The mechanism for changing the angle of inclination 8 is located inside the hollow radiator housing 1 and is fixed on the back cover 15 and the attachment point 9 of the tubular support console, made from pipe profile 57, the inner diameter of which corresponds to the external size of the tubular support console. Since the width of roads or illuminated surfaces is different, the angle of inclination must be changed and fixed with bolts and/or screws with nuts. The mechanism for changing the angle of inclination provides a turn of up to 30 degrees. To change it, it is enough to loosen the bolted connection and, after adjusting the angle of inclination, tighten it again.

It is the combination of all the above features of the proposed device design that ensures the achievement of the stated technical result, namely an increase in the technological capabilities of the lamp, which consists in creating a reliable lamp design with increased lamp power, increased heat dissipation, while maintaining the ability to change the angle of inclination of the lamp, as well as the possibility of autonomous automatic switching on and off. turning off the lamp as dusk or dawn approaches.

At the moment, a pilot batch of LED lamps has been manufactured that has shown good heat removal results with an increase in the power of the installed LEDs. At the same time, in the proposed design of the lamp, the required angle of inclination can be set in advance or adjusted if necessary. In the near future, a decision will be made to launch the proposed lamp design into production.

Claims (5)

1. LED lamp containing a radiator housing with a flat base, printed circuit boards with LEDs mounted on the outer surface of the base; power supply unit and mounting unit for a tubular support console with a mechanism for changing the angle of inclination, characterized in that the radiator housing is made hollow and equipped with a lid, the longitudinal sides of the radiator housing are made convex with double-sided fins, the cavity of the radiator housing is equipped with a power supply with a light mounted next to it sensor and is closed at the end sides by front and rear covers, while the mechanism for changing the angle of inclination is located inside the case and secured to the back cover. 2. The lamp according to claim 1, characterized in that the cover is made of a convex shape with vertical fins, along a length equal to the length of the radiator housing, while in the upper part of the cover along the entire length there is a technological cavity for wires. 3. Lamp according to claim 1, characterized in that the lid and lower part of the radiator housing are equipped with protective longitudinal ribs. 4. The lamp according to claim 1, characterized in that the base of the radiator housing on the inside is made with vertical fins. 5. The lamp according to claim 1, characterized in that the front end cover is made with convection holes.