RU118398U1 - LED LAMP - Google Patents

Abstract

1. LED luminaire containing a housing, installed in it, at least two matrixes of LEDs mounted on printed circuit boards, and a power supply, and the body is made in the form of a piece of metal profile from a heat-conducting material with a compartment for the power supply, a compartment for placing matrices LEDs and with elements of the fixture of the lamp in various operating conditions, and above the LEDs are optically transparent lenses of the secondary optics, characterized in that it is equipped with additional elements of the fixing unit of the housing, which is made in the form of an H-shaped profile, and the compartment for the power supply is equipped with a protective casing made of metal, printed circuit boards are made with substrates of heat-conducting material, and between the optically transparent lenses of the secondary optics there is a sealing material that fills the space between the LEDs, while the elements of the housing attachment unit are made with the possibility of attaching the LED lamp to the console of the street pole a, to a wall or ceiling of a room or building. ! 2. The LED lamp according to claim 1, characterized in that the metal profile and substrates of the LED matrices are made of an aluminum alloy! 3. The LED lamp according to claim 1, characterized in that the substrates of the LED matrices are fixed to the housing with self-tapping screws! 4. LED lamp according to claim 1, characterized in that the ends of the body are closed with removable side covers! 5. LED lamp according to claim 1, characterized in that the power supply contains an electronic self-healing current fuse, a full-wave rectifier, a pulse converter�

Description

The utility model relates to the field of energy-saving technologies, in particular when saving energy used for lighting highways, streets, roads, squares, bridges, tunnels, courtyards, warehouses, industries, etc.

A known device, which is an analogue of the claimed device, is described in the patent for utility model N 105968 C. F21V 1 \ 00 "LED lamp" dated 02.14.2011, op.27.06.2011

The well-known LED lamp (paragraph 3 of patent No. 105968) contains a housing in which the LEDs are mounted, mounted on the board and connected to the power supply, while the body and board are made of aluminum, the sealing material is a light-conducting compound, which is filled in at the level of the LED, the cover is a protective glass made, for example, of polycarbonate, and the housing is prefabricated.

A disadvantage of the known device is the decrease in reliability due to the need to use special elements for mounting the lamp.

Closest to the claimed device is the "LED Lamp" described in the patent for utility model No. 102748 class. F21S 13 \ 00 s.28.09.2010, op.10.03.2011.

The known device comprises a housing, at least two matrixes of LEDs installed in it and a unit for supplying them, the housing being made of heat-conducting material with a compartment for the power supply unit, a compartment for arranging LED arrays, shaped, and elements made on the housing for mounting the lamp in various operating conditions, and the housing is made in the form of a segment of a hollow metal profile, consisting of a U-shaped compartment for placing a light source on high-power LEDs, a compartment in to accommodate the power supplies of the LEDs and the cylindrical compartment for mounting the lamp on the console tube of the lighting support, while on the outer surface of the compartments to accommodate high-power LEDs and power supplies, heat-removing fins of the same material are placed, increasing the area of the outer surface of the lamp.

A disadvantage of the known device is insufficient sealing (from moisture, dust, etc.), which reduces the reliability during its operation.

The purpose of the claimed utility model is to increase reliability during operation by ensuring stable light intensity over the entire range of supply voltages and stable operation in a wide range of operating temperatures, a high level of protection against external influences by providing the necessary sealing, preventing moisture condensation in the outdoor lamp housing , and reducing corrosion inside structural elements, as well as the unification of fixture mounting for various operating conditions.

This goal is achieved in that the LED lamp containing the housing, installed in it, at least two matrix LEDs mounted on printed circuit boards, and a power supply, moreover, the housing is made in the form of a piece of metal profile of heat-conducting material with a compartment for the power supply, a compartment for the placement of LED arrays and with elements of the fixture mount unit in various operating conditions, and optically transparent secondary optics lenses are located above the LEDs, according to the utility model, sleep It is equipped with additional elements of the housing attachment unit, which is made in the form of an “Y” shaped profile, the compartment under the power supply unit being provided with a protective casing made of metal, the printed circuit boards are made with substrates of heat-conducting material, there is a sealing material between the optically transparent lenses of the secondary optics, filling the space between LEDs, and the elements of the housing attachment unit are configured to mount the LED lamp to the console of the street post, to the wall or ceiling of the room or building I am.

The metal profile and the substrate of the matrix of LEDs are made of aluminum alloy, the substrate of the matrix of LEDs are fixed to the case using self-tapping screws, and the ends of the case are closed by removable side covers

In addition, the power supply unit contains an electronic self-healing current fuse, a half-wave rectifier, a pulsed voltage to stabilized current converter for supplying LED groups, which includes a temperature sensor, the LEDs in the matrix are connected in series and / or in parallel, and a layer of heat-conducting paste is applied to the matrix substrate .

At the same time, the elements of the fastener are made in the form of hooks and stops made together with the housing, equipped with a bracket and connected by means of fasteners.

The execution of the housing in the form of a piece of metal profile made of heat-conducting material with a compartment for the power supply and a compartment for the placement of LED arrays allows you to create a monolithic technological design that effectively removes heat from the LEDs. Through the use of an original design housing, operational parameters are improved - preserving the level of light output in real operating conditions

Filling the LEDs with a compound allows you to protect the lamp from external influences (temperature extremes, dust, vibrations, unauthorized influences, and other factors). The compound has a sufficiently high thermal conductivity and can be poured under normal production conditions. The use of a heat-conducting compound also improves heat transfer from the LEDs to the radiator case. Thus, filling with a compound provides a high level of protection against external influences, stability in a wide range of operating temperatures and, thereby, increases operational reliability.

The implementation of the node for mounting the lamp, consisting of hooks and stops made in conjunction with the housing, and the supply of the bracket allows you to unify the method of mounting and provide flexibility when installing the lamp on cantilever pipes of different diameters, and also allows you to mount the lamp, both on the wall and the ceiling, which creates convenience in the operation of the lamp and increases its operational reliability.

Supply of the luminaire with a power supply unit containing an electronic current self-resetting fuse ensures stable operation of the luminaire in a wide range of operating temperatures and supply voltages with a short exit time to the mode (no more than 1 second), allows the luminaire to operate with electric networks with frequent, with frequent voltage drops, which also provides high reliability during operation.

Providing the housing with removable side covers allows you to provide a high level of protection against external influences, creates convenience in the operation of the lamps and increases its operational reliability.

Compared with the prototype in the claimed utility model, the design is improved and the manufacturing technology is improved, therefore, the claimed technical solution has novelty, differing from it in essential features, and can be widely used for lighting highways, streets, roads, squares, bridges, tunnels, yards, warehouses, industries, etc., i.e. meets the criterion of "industrial applicability".

The invention is illustrated by drawings, where:

figure 1 - General view of the inventive device, figure 2 - the mount of the inventive device

LED lamp (see figure 1) contains a housing 1, installed in it, at least two matrix 2-1, 2-2 LEDs and power blocks 3-1, 3-2, while the housing 1 is made of heat-conducting material An “H” shaped metal profile, consisting of two “P” shaped compartments 4-1, 4-2, power units 3-1, 3-2 are placed in compartment 4-1, compartment 4-2 is placed for the placement of matrices 2-1 2-2 LEDs, while at the same time elements 1-1, 1-2 are made in the form of hooks 1-1, 1-2 and stops 1-3, 1-4, made together with the body along with the housing 1 (see Fig. .2) for fixing the lamp in various conditions operating conditions, which are elements of the mount unit 5 (see FIG. 2), as well as brackets 11 connected by means of fasteners 12-1, 12-2, 13-1, 13-2, 14-1, 14-2. Moreover, on the outer surface of compartments 4-1, 4-2, heat-sink fins made of aluminum alloy are placed, secondary optics 7-1-n ... 7-2-n are installed on the LEDs 6-1-n ... 6-2-n, and the space between secondary optics 7-1-n ... 7-2-n is filled with a heat-conducting compound 8 that completely covers the LED matrices 2-1, 2-2, and a layer of heat-conducting paste is applied to the aluminum substrate 9. Compartment 4-1 is made in the form of "P" -shaped part “H” of the shaped profile with a protective casing 10 of metal, and the mounting unit 5 is configured to mount the LED lamp to the console street pillar, to the wall or ceiling of a room or building.

The purpose and implementation of the nodes of the claimed device is as follows. The housing 1 is a supporting structure for matrices 2-1, 2-2 of LEDs and power blocks 3-1, 3-2, made of a heat-conducting material, for example, aluminum alloy AD-31, "N" shaped metal profile, consisting of two "P" shaped compartments 4-1, 4-2. The outer surface of the housing 1 of the lamp is the working surface of the radiator for efficient heat removal from the LEDs 6-1-n ... 6-2-n. The surface of the outer ribs of the housing 1 is made wavy to increase the area of the outer surface of the housing 1 and, therefore, improve heat transfer to the surrounding space. The housing 1 is made by extrusion. In this case, the ends of the housing 1 are closed by removable side covers (not shown in FIG. 1).

Matrices 2-1, 2-2 of the LEDs are LEDs 6-1-n ... 6-2-n connected in series and / or in parallel, and connected to the power supply units 3-1, 3-2. LEDs 6-1-n ... 6-2-n are mounted on printed circuit boards with aluminum substrates and mounted on the lamp housing 1 using self-tapping screws. At the same time, a layer of heat-conducting paste 9 is applied to the aluminum substrates of the boards. Application of a layer of heat-conducting paste 9 on aluminum substrates allows more efficient heat removal from the 6-1-n ... 6-2-n LEDs.

Power supply units 3-1.3-2 are used to power, stabilize the current of LEDs 6-1 ... 6-n and limit their heating temperature. Each of the blocks 3-1, 3-2 contains an electronic resettable current fuse, a half-wave rectifier, a pulse voltage to stabilized current converter for powering the LEDs, which includes a temperature sensor. Blocks 3-1, 3-2 have a protection level of at least IP65. Blocks 3-1, 3-2 can be several to increase the fault tolerance of the lamp.

The LEDs 6-1-n ... 6-2-n are equipped with secondary optics 7-1-n ... 7-2-n to form a light intensity curve.

To protect the 6-1-n ... 6-2-n LEDs from external influences and improve heat dissipation from them, the space between them is filled with a heat-conductive casting compound 8. As a heat-conductive fill compound 8, an organosilicon compound, for example, Sylgard 160 Silicone Elastomer Kit, is used.

The fixture mounting unit 5 is made in the form of hooks 1-1, 1-2 and stops 1-3, 1-4, made together with the housing 1, as well as the brackets 11 connected by means of fasteners 12-1, 12-2, 13-1, 13-2, 14-1, 14-2, and allows you to use this mount, both on the cantilever pipe of different diameters, and on the wall or ceiling.

LED lamp works as follows. When the luminaire is connected to the AC mains, the input voltage is supplied to the input of blocks 3-1, 3-2, which supply the LEDs of group 6-1-n and 6-2-n, respectively. Then the voltage is converted into a stabilized current through an electronic self-healing current fuse, a half-wave rectifier and a pulse voltage converter of power supply units 3-1, 3-2, and then the stabilized current is supplied to the LEDs of group 6-1-n ... 6-2-n, providing them glow. For short-term excesses of the input voltage, which can damage the lamp, or overloads in the LED circuits, this fuse blows and turns off the lamp. The next time you turn on the lamp will work again. When the heating temperature of the LEDs of group 6-1-n and 6-2-n is exceeded inside the housing 1, the temperature sensors of the power supply units 3-1, 3-2 are activated and the lamp is turned off until the temperature drops to safe. After turning off the AC mains, the glow of the LEDs of groups 6-1-n and 6-2-n stops.

In comparison with the prototype, the claimed utility model improves the operational reliability of the luminaires, providing stability of light intensity over the entire range of supply voltages and operating temperatures, protects against external influences, unifies the method of fastening and creates ease of use.

Claims (10)

1. LED lamp containing a housing, installed in it, at least two matrix LEDs mounted on printed circuit boards, and a power supply, moreover, the housing is made in the form of a piece of metal profile of heat-conducting material with a compartment for the power supply, a compartment for the placement of matrices light-emitting diodes and with elements of the luminaire mounting unit under various operating conditions, and optically transparent secondary lenses are located above the LEDs, characterized in that it is equipped with additional elements of the the case, which is made in the form of an H-shaped profile, and the compartment under the power supply is equipped with a protective casing of metal, printed circuit boards are made with substrates of heat-conducting material, and between the optically transparent lenses of the secondary optics there is a sealing material filling the space between the LEDs, while the elements of the housing attachment unit are adapted to mount the LED lamp to the street post console, to the wall or ceiling of the room or building. 2. The LED lamp according to claim 1, characterized in that the metal profile and the substrate of the matrix LEDs are made of aluminum alloy 3. The LED lamp according to claim 1, characterized in that the substrate of the matrix LEDs are mounted on the housing using self-tapping screws, 4. The LED lamp according to claim 1, characterized in that the ends of the housing are closed by removable side covers 5. The LED lamp according to claim 1, characterized in that the power supply contains an electronic resettable current fuse, a half-wave rectifier, a pulsed voltage to stabilized current converter for powering the LED groups, which includes a temperature sensor, 6. The LED lamp according to claim 1, characterized in that the LEDs in the matrix are connected in series and / or in parallel, 7. The LED lamp according to claim 1, characterized in that a layer of heat-conducting paste is applied to the matrix substrate. 8. The LED lamp according to claim 1, characterized in that a heat-conducting compound is used as the sealing material. 9. The LED lamp according to claim 8, characterized in that an organosilicon compound is used as the heat-conducting compound. 10. The LED lamp according to claim 1, characterized in that the elements of the mounting unit are made in the form of hooks and stops made in conjunction with the housing, equipped with a bracket and connected by means of fasteners.