RU2506492C1 - Light-emitting diode lighting fixture - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention refers to the sphere of lighting engineering, in particular to light-emitting diode (LED) street lighting fixtures. LED lighting fixture includes housing with radiator fixed on it, fasteners of LED matrix, protective glass and holder with opening and mechanism for fixing tubular console of the substructure; at that housing of the fixture is ready-made as a base over windows with radiator and at least one LED matrix mounted in its central part. Radiator is mounded at the base over windows. At the base sides there are fixed longitudinal lateral sides connected by cut slots with air flow guides installed over the radiator and at least two air flow guides of the holder which are made as ribs and installed perpendicular to longitudinal axis of the fixture. Front section of the housing is made as air flow guides mainly parallel to longitudinal axis of the fixture. Holder of the lighting fixture is made of a set of air flow guides connected to each other additionally by means of at least three plates; at that the upper plate is connected by cut slots to at least two guides in the housing.

EFFECT: increasing efficiency of heat removal.

11 cl, 12 dwg

Description

The invention relates to the field of energy-saving devices for LED lamps, in particular for street lamps, providing illumination of streets, highways, roads, squares, etc., including with different distances between the supports.

The known lamp according to the patent for the invention No. 2366120 M. C. H05B 33/02, F21S 4/00. Publ. 08/27/2009, containing LED groups connected in series or in parallel, or in series-parallel, each of which is connected to a switching power supply with the possibility of smoothly limiting the heating temperature of the LEDs that make up each of these LED groups. The LEDs are mounted on a printed circuit board with a substrate of fiberglass or aluminum, which is mounted on the lamp housing by rolling or pressing against the surface of the lamp housing with bending the edges of the housing, which is made of metal acting as a radiator body. The switching power supply mounted on the printed circuit board contains an electronic self-healing current fuse, a half-wave rectifier, and a pulse voltage-to-voltage converter for supplying LED groups. The structure of a pulsed voltage to stabilized current converter for supplying LED groups includes a temperature sensor based on a thermistor, which heats up due to convection air flows inside the housing, a sensor for automatically switching the lamp on and off when darkness sets in, and a motion sensor that responds to the movement of subjects in the lighting zone of the lamp. The motion sensor is made on the basis of CMOS matrices, CCD matrices or infrared rays and is connected to an AC or DC power supply network. The motion sensor is electrically connected to the sensor for automatically turning the lamp on and off, with the possibility of controlling the operation of the latter. The technical result is an expansion of functionality, increased reliability during operation of the lamp with unstable networks, protection against external influences, improved heat dissipation and increased energy savings.

The disadvantages of the known device include the low efficiency of heat dissipation from LED groups, matrices.

Known closest in technical essence and the set of essential features to the claimed technical solution is a street LED lamp, see patent for utility model No. 83587 IPC F21S 13/10, - prototype - mounted on a support containing a housing with a light source installed inside the housing, and a unit power supply, while the entire surface of the casing is a cooling radiator made in the form of fins installed on three sides around the perimeter of the casing, the light source is made in the form of an LED module, in which oizluchayuschie elements together, at least four parallel lines of serially connected LEDs heavy duty, each of the LEDs attached not only due to soldering terminals, but also by soldering the LED to the heat sink heel special electrically neutral contacts of the PCB. The task underlying the well-known utility model, according to the authors of the utility model, is to create a street lamp with low power consumption and increased lighting parameters, a simple design, universal in installation methods, with improved conditions for cooling the light source. The technical result achieved by using the known utility model is to improve the cooling conditions of light sources (LEDs) and expand the functionality.

The disadvantages of the known lamp include the lack of heat transfer efficiency associated with heat removal from the LEDs only on the sides of the lamp of the LED matrices and the absence of heat-removing elements directly above the LEDs.

Supports for street lighting in cities are often installed at different distances from each other and it is not possible to provide good street lighting with a well-known lamp. On the streets between the supports, “dead” unlit zones are formed. Lamps are required to provide high-quality street lighting.

The objective of the alleged invention is the development of a luminaire in which its heat-removing parts are more efficiently used, efficient street lighting is provided at various distances between supports, and it is possible to install LED arrays of different power in the luminaire.

The task set by the proposed invention is achieved by a combination of well-known features, including a housing with a radiator mounted on it, fasteners for an LED matrix, a protective glass and a holder, a luminaire fastening mechanism on a support with an opening for a tubular support console and new features, namely, that the lamp housing is made collapsible in the form of a base in the windows of which in its central part at least one LED matrix is mounted, on the base above the windows is mounted n radiator, longitudinal side walls are fixed on the sides of the base, connected by grooves-slots with air flow guides installed above the radiator and at least two holder air flow guides made in the form of ribs and mounted perpendicular to the longitudinal axis of the lamp, this head part of the housing is made in the form of air flow guides mounted mainly parallel to the longitudinal axis of the lamp, and the lamp holder is made of a set of guides the air flow is additionally connected to each other using at least three plates, the upper of which is connected with at least two guides of the housing by means of grooves-slots.

The LEDs in the matrix, and each matrix mounted in the windows of the base are made of the same or different power.

The plates, side walls, radiator and guides of the housing, the head part and the holder are made of heat-removing material, for example, aluminum, steel.

The guides of the holder’s air flow are interconnected by at least three plates, the outer sides of the lower plates of the holder are made with grooves-slots for the guides stepped for fixing on them decreasing in size guides.

The mechanism for fixing the lamp on the tubular support console is made in the form of a holder strip with threaded holes in it for fixing bolts mounted in the grooves of the lower part of its guides.

The guides of the lamp housing are made of a semicircular oval streamlined shape, which together form a recess in the lower part of the lamp for placing at least one LED matrix with protective glasses in it.

The protective glass is made in the form of at least one lens mounted opposite the LED, and an additional protective glass is mounted in the grooves of each of the guides in the lower part of the recess forming the recess.

The upper and lateral outer surfaces of the guides of the housing, its head and holder, when viewed from above, are oval streamlined, expanding toward the center and decreasing towards its edges or concave.

The central part of the lamp housing formed by the guides, when viewed from above, is cylindrical, and the guides of the head of the lamp and holder are made in the form of truncated cones or oval, with the apex directed to the edges of the central part of the lamp housing.

The air flow guides of the head of the housing are adjustable with the possibility of their installation radially using at least one distributor with grooves for the guides at an angle increasing from the center line from 0 to 30 ° to the longitudinal axis of the lamp.

The hole for the tubular support bracket in the holder rails is made with a recess for the latch preventing rotation of the lamp housing relative to the tubular support bracket, and a corresponding protrusion is made on the tubular support.

The novelty of the alleged invention is the implementation of the lamp housing collapsible in the form of a base in the windows of which in its central part at least one LED matrix is mounted, a radiator is mounted on the base above the windows, longitudinal side walls are fixed on the sides of the base, connected by grooves slots with airflow guides mounted above the radiator and at least two holder airflow guides made in the form of ribs and mounted perpendicular urally to the longitudinal axis of the luminaire, while the head of the housing is made in the form of air flow guides mounted mainly parallel to the longitudinal axis of the luminaire, and the lamp holder is made of a set of air flow guides additionally connected to each other using at least three plates, the upper of which with the help of grooves-slots connected with at least two guides of the housing.

So, the implementation of the lamp housing collapsible consisting of a base with a set of heat-removing guides mounted on it, including air flow guides of the head and middle parts and holder guides, provides efficient heat dissipation from LEDs and from LED arrays, allowing the installation of LEDs and arrays of different power , to provide more efficient street lighting, especially at different distances between the supports on which the lights are mounted.

The relationship of the guides with the sides of the base, the plates with the help of grooves-slots provides strictly specified distances between the guides, which allows more efficient heat dissipation.

The signs of the LEDs in the matrix and each matrix mounted in the windows of the base are made of the same or different power, the base, side walls, radiator and guides of the housing, the head part and the holder are made of heat-releasing material, for example, aluminum, steel, the relationship of the air guide guides of the holder with each other using at least three plates, the outer sides of the lower plates of the holder are made with grooves-slots for the guides stepped for fixing on them decreasing according to the dimensions of the guides, the mechanism of fixing the lamp on the tubular console of the support in the form of a bracket holder with threaded holes for the fixing bolts mounted in the grooves of the lower part of its guides, the execution of the guides of the lamp housing a semicircular oval streamline, forming together in the lower part a recess for placing at least one LED matrix with protective glasses therein, making a protective glass in the form of at least one mounted lens an opposite the LED, while in the grooves of each of the guides in the lower part of the recess forming an additional protective glass is mounted, the upper and side outer surfaces of the guides of the housing, its head and holder are made, when viewed from above, an oval streamlined shape, expanding towards the center and decreasing towards its edges or concave, as well as the execution of the Central part of the lamp housing formed by the guides, when viewed from above cylindrical, and the guides of the head of the lamp and holder in the form truncated cones or oval, apex directed to the edges of the Central part of the lamp housing, the guides of the air flow of the head of the housing are adjustable with the possibility of their installation radially using at least one distributor with grooves for the guides at an angle increasing from 0 to 30 from the center line ° to the longitudinal axis of the luminaire more specifically reveal the design features of the luminaire and make it possible to achieve the objective of the proposed invention.

The holes for the tubular support bracket in the guides of the holder with a recess for the retainer and the corresponding protrusion on the tubular support prevents rotation of the lamp housing relative to the tubular support console.

According to the patent information search, the features of the proposed device are new, have an inventive step and are industrially feasible.

Figure 1 schematically shows the proposed LED lamp side view with a holder removed from the housing with a mechanism for fixing the lamp on a tubular support.

Figure 2 presents the cross section of the lamp along aa.

Figure 3 presents the guide air flow holder with a hole made in it.

Figure 4 presents the extreme guide of the air flow holder, mounted between the guides of the holder and the guides of the Central part of the lamp housing.

Figure 5 presents the guide air flow of the Central part of the body, covering the radiator.

Figure 6 shows the key-retainer position of the lamp housing on the tubular support console.

Figure 7 shows a top view of the lamp housing of an oval convex shape without a radiator, LEDs and LED matrices.

On Fig shows a top view of the lamp housing concave without radiator, LEDs and LED matrices.

Figure 9 shows a top view of the lamp housing with a cylindrical central part without a radiator, LEDs and LED matrices.

Figure 10 shows a tubular support with a key-retainer mounted on it.

Figure 11 shows an embodiment of the distributor of the guides of the head of the lamp. Figure 12 shows the lamp from below with three LED arrays.

The LED lamp proposed as the alleged invention consists of a base 1 with sides 2 on which grooves-slots 3 are made at a predetermined distance “L” for installation of the air flow guides 4 of the central part of the lamp housing. The guides 5 of the holder are mounted in the corresponding grooves of the three plates. The sides 2 of the base 1 are connected to the holder by means of at least two first guide rails of the holder adjacent to the housing and included in the slots 6 made in the guides of the holder. On the basis of 1 mounted radiator 7 with heat-removing longitudinally made ribs. The guides 5 of the holder are interconnected by means of two plates 8, made stepped to fix on them the guides of the holder that are reduced in size, and the upper 9 plate, by means of the slots 10, is connected with the guides of the holder and connected with, by the grooves-slots 11 in the guides, at least two guides of the air flow 4 of the Central part of the housing, forming an additional heat sink housing located above the radiator 7 with a gap. The hole 12 for the tubular console of the support 13 is made with a recess 14 for the latch key 15 of the position of the lamp on the tubular cantilever support 13. In the lower part of the guides 5 of the holder, grooves 16 are made for the strap 17 of the lamp fixing mechanism on the cantilever support 13. The extreme guide 18 of the holder adjacent to the central part of the housing there is no hole for the tubular console of the support with slots 6 made therein for the sides 2 of the base 1 for the strap 17 of the locking mechanism, for the plates 8 and for the upper plate 9 of the holder. The air flow guides 19 of the head part of the lamp housing in a particular case are mounted parallel to the longitudinal axis of the lamp. In this case, the guides 19 using the distributors 20 installed between them with grooves 21 for the guides 19 can be installed at different angles to the longitudinal axis of the lamp. The distributor 20 is fixed on the base 1 with screws and holes 22. With increasing distances between the supports on which the proposed fixtures are installed, the power of the LEDs 23 and the power of the LED arrays 24 can be increased, providing good heat dissipation from the LEDs and LED arrays using heat-removing elements of the housing .

The protective glass 25 with the recesses-lenses 26 made therein can be covered by an additional glass 27 included in the slots 28 of the side guides 4 of the middle part of the housing. The outer contour of the guides of the holder, the Central and its head parts of the housing when viewed from above can be made convex or concave, and the Central part of the lamp housing can be made cylindrical.

In the recess 29 formed in the lower central part of the housing by the side guides 4 on the base 1, for example, three matrices 24 are fixed, which can be installed with different capacities or with LEDs in them of different capacities. The windows 30 in the base 1 are made for installation in them and fastening by means of the holes 31 of the LED arrays 24 in direct contact with the radiator 7.

The proposed LED lamp operates as follows:

Initially, the assembly of the lamp. In this case, depending on the power of the LEDs 23 or on the power of the LED arrays 24, the distance “L” is selected between the heat-conducting guides 4, 5, 19. After installing the LED arrays 24 and the protective glass 25 and / or 27, the lamp is attached to the cantilever tube support 13 by installing holes 12 of the guides 5 of the holder on the tubular console of the support 13 with a key-retainer 15 of the housing position, and the subsequent fixing of the lamp housing on the support using bolts of the locking mechanism mounted on the strap 17.

When the lamp LEDs are turned on, the light emitted by them illuminates the street, and the heat emitted by the LEDs 23 or LED matrices 24 is heat through the radiator 7 mounted on the base 1 and the associated guides 4, 5, 19, including including an additional housing, which is effectively removed to surrounding area. In this case, all the guides of the holder, the Central and head parts provide air flow to the longitudinally made fins of the radiator 7.

With an increased distance between the supports, LEDs 23 or LED arrays 24 of greater power are used, which ensures street illumination, including between the supports.

Currently, several prototypes of the lamp have been manufactured, which are installed on tubular consoles on the supports of the streets of Barnaul. Preliminary tests have shown positive results.

At the end of the tests, a decision will be made on the production of the proposed buildings.

Claims (11)

1. LED lamp, comprising a housing with a radiator mounted on it, fastening elements of an LED matrix, a protective glass and a holder with a hole and a mechanism for attaching a tubular support console, characterized in that the lamp housing is collapsible in the form of a base, in the windows of which in the central at least one LED matrix is mounted on its parts, a radiator is mounted on the base above the windows, longitudinal side walls are fixed on the sides of the base, connected by grooves-slots with Avalanche air flow mounted above the radiator and at least two guides of the holder air flow made in the form of ribs and mounted perpendicular to the longitudinal axis of the lamp, while the head part of the body is made in the form of air flow guides mounted mainly parallel to the longitudinal axis of the lamp, and the lamp holder is made of a set of air flow guides, additionally connected to each other using at least three plates, the upper of which, by means of grooves-slots, is connected with at least two guides of the housing. 2. The lamp according to claim 1, characterized in that the LEDs in the matrix and each matrix mounted in the windows of the base are made of the same or different power. 3. The lamp according to claim 1, characterized in that the plates, side walls, radiator and guide bodies, the head part and the holder are made of heat-removing material, for example aluminum, steel. 4. The lamp according to claim 1, characterized in that the guides of the holder’s air flow are interconnected using at least three plates, the outer sides of the lower plates of the holder are made with grooves-slots for the guides that are stepped for fixing on them guides that are reduced in size . 5. The lamp according to claim 1, characterized in that the mechanism for fixing the lamp on the tubular console of the support is made in the form of a bracket holder with threaded holes in it for locking bolts mounted in grooves of the lower part of its guides. 6. The lamp according to claim 1, characterized in that the guide bodies of the lamp are made of a semicircular oval streamlined shape, forming in the aggregate in the lower part of the lamp a recess for placing at least one LED matrix with protective glasses in it. 7. The lamp according to claim 1, characterized in that the protective glass is made in the form of at least one lens mounted opposite the LED, while in the grooves of each of the rails in the lower part forming the recess, an additional protective glass is mounted. 8. The lamp according to claim 1, characterized in that the upper and lateral outer surfaces of the guides of the housing, its head part and holder, when viewed from above, are oval streamlined, expanding towards the center and decreasing towards its edges or concave. 9. The lamp according to claim 1, characterized in that the central part of the lamp housing formed by the guides, when viewed from above, is cylindrical, and the guides of the head of the lamp and holder are made in the form of truncated cones or oval, with a vertex directed to the edges of the central part of the lamp housing . 10. The lamp according to claim 1, characterized in that the air flow guides of the head of the housing are adjustable so that they can be installed radially using at least one distributor with grooves for the guides at an angle from 0 to 30 ° increasing from the center line longitudinal axis of the lamp. 11. The lamp according to claim 1, characterized in that the hole for the tubular console of the support in the guide rails of the holder is made with a recess for the latch preventing rotation of the lamp housing relative to the tubular console of the support, and a corresponding protrusion is made on the tubular support.

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