RU118397U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, containing a housing with a printed circuit board fixed in it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen, characterized in that it is equipped with at least one block power supply and luminaire attachment assembly in various operating conditions, and the body is made of a heat-conducting material and consists of two compartments, one compartment is for accommodating a power supply unit for light-emitting diodes, the second compartment is for placing light-emitting diodes with the possibility of effective heat transfer, and on the outer surface of the body longitudinal ribs, one compartment of the body is made in the form of a segment of a hollow □ -shaped metal profile with elements of the fixture of the lamp made together with the body, and the second compartment of the body is in the form of a segment of a U-shaped metal profile, while the space between the secondary optical system and protective m, a screen made of metal is filled with a sealing material, and the luminaire attachment point is equipped with additional elements and is designed to be attached to the console of a street pole, to a wall or ceiling of a room or building. ! 2. A light-emitting diode lamp according to claim 1, characterized in that the housing and the PCB substrate of the light-emitting diodes are made of an aluminum alloy. ! 3. A light-emitting diode lamp according to claim 1, characterized in that the PCB substrate of the light-emitting diodes is fixed to the lamp body using self-tapping screws. ! 4. LED lamp according to claim 1, characterized in that the power supply unit

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" 02.14.2011, op. 06/27/2011

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 lack of operational reliability due to poorly developed fins of the housing and as a result of poor heat dissipation from the LEDs, resulting in a decrease in the brightness of the LEDs at a relatively low ambient temperature and the lamp ceases to correspond to the declared characteristics of the light flux, as well as additional installation of the unit fixture mountings.

Closest to the claimed device is the "LED lamp" described in the patent for utility model No. 112341 class. F21S 8 \ 00 s.14.07.2011, op. 01/10/2012

The known device comprises a housing with a printed circuit board fixed on it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, a protective screen made of optically transparent material, and a layer of additionally deposited on the inner surface of the protective screen optically transparent mass having a relief formed by a set of lenses made in a three-dimensional coordinate system along the entire surface of the tertiary layer optical system.

A disadvantage of the known device is the lack of operational reliability due to poorly developed fins of the housing and, as a result, poor heat dissipation from the LEDs, resulting in a decrease in the brightness of the LEDs at a relatively low ambient temperature and the lamp no longer meets the declared characteristics of the light flux, as well as the need for additional installation fixture mountings.

The purpose of the claimed utility model is to increase operational reliability by improving heat dissipation by increasing the area of the outer surface of the housing, filling the space between the secondary optical system with a heat-conducting compound, applying a layer of heat-conducting paste on the aluminum substrate of the printed circuit board, and also by using the housing to unify the fixture mounting for various operating conditions.

This goal is achieved by the fact that in the LED lamp containing the housing, with a printed circuit board fixed on it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen, according to the utility model, is equipped with at least one power supply unit and a fixture mounting fixture in various operating conditions, and the casing is made of heat-conducting material and consists of two compartments, one compartment for accommodating the pi of light-emitting diodes, and the second compartment for accommodating light-emitting diodes with the possibility of efficient heat transfer, and longitudinal ribs are made on the outer surface of the housing, while one housing compartment is made in the form of a segment of a hollow "" -shaped metal profile with fastening elements for the lamp in various operating conditions and the second compartment of the casing - in the form of a segment of a "P" -shaped metal profile, while the space between the secondary optical system and the protective screen made of metal lla, is filled with a sealing material, a lamp mounting unit is provided with additional elements and adapted to mount to the console street post, a wall or the ceiling of the building or premises.

The heat-conducting profile of the housing and the substrate of the LED matrix is made of aluminum alloy, the substrate of the LED matrix is fixed to the housing using self-tapping screws.

In this case, the power supply unit contains an electronic self-healing current fuse, a half-wave rectifier, a pulsed voltage to stabilized current converter for powering light-emitting diodes, which includes a temperature sensor.

In addition, a layer of heat-conducting paste is applied to the aluminum substrate of the printed circuit board, a heat-conducting organosilicon compound is used as a sealing material, and the fixture's fixture is made in the form of at least two hooks made together with the housing, and a ring-nut connected by means of fasteners details.

Supply of the luminaire with a power supply unit containing an electronic current-resettable 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 be operated in electric networks with frequent, with frequent voltage drops, which also provides high reliability during operation.

Supply of the luminaire with the mounting unit allows you to create a universal design of the lamp with the points of the mounting unit in an optimal place on the housing. For example, the implementation of the fixture mounting fixture, consisting of two hooks made in conjunction with the housing, and the eye - nuts, connected by fasteners. This design allows for flexibility in the installation of the lamp to the ceiling of the building, as well as to unify the method of mounting the lamp, i.e. to mount the lamp both on the wall and on cantilever pipes of different diameters, which creates convenience in the operation of the lamps and increases its operational reliability.

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. Due to the use of the original design housing, the operational parameters are improved - preservation of the light output level in real operating conditions.

In addition, applying a layer of heat-conducting paste to the aluminum substrate of the printed circuit board and making a protective shield of metal also increases the efficiency of heat removal from the LEDs, and, therefore, increases the reliability during operation.

Filling the LEDs with a heat-conducting compound improves heat transfer from light-emitting diodes to the radiator case. In addition, filling with a compound allows you to protect the lamp from external influences (temperature extremes, dust, vibration, unauthorized influences and other factors). Thus, filling with a compound ensures stability in a wide range of operating temperatures, a high level of protection against external influences, and thereby increases 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 is a General view of the inventive device, figure 2 is a mounting unit of the inventive device

The LED lamp (see Fig. 1) contains a housing 1 with a printed circuit board 2 fixed on it, on which 3-n light-emitting diodes (where n> 1) are placed with an integrated primary optical system, each of which has a 4-n secondary optical system , a protective screen 5 made of metal, and is also equipped with at least one power supply unit 6 and a node 7 (see figure 2) for mounting the lamp in various operating conditions. The housing 1 is made of heat-conducting material and consists of two compartments, with one compartment 1-1- for accommodating the power supply unit 6 of 3-n light-emitting diodes, and the second compartment 1-2 - for accommodating 3-n light-emitting diodes with the possibility of efficient heat transfer. On the outer surface of the housing 1 made longitudinal ribs 1-3, while one compartment 1-1 of the housing 1 is made in the form of a segment of a hollow " "-Shaped metal profile with elements 1-4 of the fixture mounting in various operating conditions made in conjunction with the housing, and the second compartment 1-2 of the housing 1 - in the form of a segment of a" P "-shaped metal profile. The space between the secondary optical system 4-1 ... 4-n and the protective screen 5 is filled with sealing material 8, and the luminaire mounting unit 7 is adapted to be mounted to the ceiling of a room or building. Moreover, the fastening element 1-4 is made in the form of two hooks 1-4-1, 1-4-2, made together with the housing 1 (see figure 1, figure 2) for mounting the lamp, and is an element of the mounting unit 7 (see figure 2), which is also equipped with an eye-nut 9. All elements of the attachment unit 7 are connected by means of fasteners 10, which are a bolt 10-1 and washers 10-2 (flat and rover). In this case, a layer of heat-conducting paste 11 is applied to the substrate of the printed circuit board 2.

The purpose and implementation of the nodes of the claimed device is as follows.

The housing 1 is a supporting structure for light-emitting diodes 3-n and the power supply unit 6, made of heat-conducting material, for example, aluminum alloy AD-31. The aluminum profile of the housing 1 consists of two compartments 1-1, 1-2. The outer surface of the housing 1 of the lamp is the working surface of the radiator for efficient heat dissipation from LEDs 3-n. The surface of the outer longitudinal ribs 1-3 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.

One compartment 1-1 of the housing 1 is made in the form of a segment of a hollow " "-Shaped metal profile with elements 1-4 of the lamp mounting unit 7, made in conjunction with the housing, and the second compartment 1-2 of the housing 1 - in the form of a segment of a" P "-shaped metal profile, with the space between the secondary optical system 4 and the protective screen 5, filled with sealing material 8.

Light emitting diodes 3-n are connected in series and / or in parallel, and are connected to at least one power supply unit 6 (not shown in FIG. 1). 3-n light-emitting diodes are mounted on a printed circuit board 2 with an aluminum substrate fixed to the lamp housing 1 by means of self-tapping screws. At the same time, a layer of heat-conducting paste 11 is deposited on the aluminum substrate of the board 2. The application of a layer of heat-conducting paste 11 on the aluminum substrate allows more efficient heat removal from the 3-n LEDs.

3-n light emitting diodes are equipped with 4-n secondary optics to form a luminous intensity curve.

To protect the 3-n LEDs from external influences and improve the heat dissipation from them, the space between their secondary 4-n optical system and the protective screen 5 is filled with a heat-conductive casting compound 8. As a heat-conductive casting compound 8, an organosilicon compound, for example, Sylgard 160, is used Silicone Elastomer Kit.

The power supply unit 6 serves to power, stabilize the current of 3-n LEDs and limit their heating temperature and contains an electronic self-healing current fuse, a half-wave rectifier, a pulse voltage to voltage stabilized current converter for powering the LEDs, which includes a temperature sensor. The power supply unit 6 has a protection level of at least IP65. To increase fault tolerance, the lamp may contain several power supply units 6.

The fixture mounting unit 7 is made in the form of hooks 1-4-1, 1-4-2, made together with the housing 1, as well as an eye-nut 9 with fasteners 10, which are a bolt 10-1 and washers 10-2 (flat and hover)

LED lamp works as follows.

When the luminaire is connected to the AC mains, the input voltage is supplied to the input of block 6, which feeds the 3-n LEDs, respectively. Then, the voltage through the electronic resettable current fuse, a half-wave rectifier and a pulse converter of the voltage of the power supply unit 6 is converted into a stabilized current, after which the stabilized current is supplied to the 3-n light-emitting diodes, ensuring their luminescence. 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 temperature of heating of 3-n light-emitting diodes is exceeded due to convection air flows inside the housing 1, the temperature sensor of the power supply unit 6 is activated and the lamp is turned off until the temperature drops to safe. After turning off the AC mains, the luminescence of 3-n light-emitting diodes ceases.

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 (8)

1. LED lamp, comprising a housing with a printed circuit board fixed on it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen, characterized in that it is equipped with at least one unit power supply and fixture mounting fixture under various operating conditions, and the casing is made of heat-conducting material and consists of two compartments, one compartment - for accommodating the power supply unit of light-emitting diodes, the second compartment - d To accommodate light-emitting diodes with the possibility of efficient heat transfer, with longitudinal ribs made on the outer surface of the housing, one housing compartment is made in the form of a segment of a hollow--shaped metal profile with elements of the fixture attachment unit made together with the housing, and the second housing compartment is in the form of a segment A U-shaped metal profile, while the space between the secondary optical system and the protective screen made of metal is filled with sealing material, and the assembly epleniya lamp provided with additional elements and adapted to mount to the console street post, a wall or the ceiling of the building or premises. 2. The LED lamp according to claim 1, characterized in that the housing and the substrate of the printed circuit board of the light emitting diodes are made of aluminum alloy. 3. The LED lamp according to claim 1, characterized in that the substrate of the PCB of the light emitting diodes is fixed to the lamp housing using self-tapping screws. 4. The LED lamp according to claim 1, characterized in that the power supply unit contains an electronic self-healing current fuse, a half-wave rectifier, a pulse voltage to stabilized current converter for powering light-emitting diodes, which includes a temperature sensor, 5. The LED lamp according to claim 1, characterized in that a layer of heat-conducting paste is applied to the aluminum substrate of the printed circuit board. 6. The LED lamp according to claim 1, characterized in that a heat-conducting compound is used as the sealing material. 7. The LED lamp according to claim 6, characterized in that an organosilicon compound is used as the heat-conducting material. 8. The LED lamp according to claim 1, characterized in that the mounting unit of the lamp in various operating conditions is made in the form of at least two hooks, made together with the housing, and an eye-nut with fasteners.