RU179471U1 - LED CEILING LIGHT - Google Patents

Abstract

The technical solution relates to the field of electrical equipment, namely to lighting fixtures, and can be used as LED ceiling lights intended for use in everyday life, office premises and in production. The LED ceiling lamp contains a frame formed by a steel casing with a base and side walls . A power supply is fixed on the inside of the base of the casing. A mirror heat sink reflector made in the form of a thin-walled metal plate made of aluminum with high thermal conductivity, for example, alanode (anodized aluminum) is permanently attached to the casing. The heat sink reflector consists of two sections. The power supply is fixed on the base of the housing between the sections of the heat-reflecting reflector. At least one side of the heat-reflecting reflector is inclined at each side. LED modules are fixed on each side of the sections of the heat sink reflector. The opposite second side of each of the sections of the heat-reflecting reflector can be inclined and an LED module can be mounted on it. Each LED module is a single-sided printed circuit board in the form of an aluminum strip with a chain of LEDs placed on it. The light modules can be connected to the heat-reflecting reflector through heat sink gel or through heat sink rivets. Technical result from the use of all the essential features of a utility model tsya in increasing the coefficient of luminous flux of the lamp.

Description

The technical solution relates to the field of electrical equipment, namely to lighting fixtures, and can be used as LED ceiling lights intended for use in everyday life, office premises and in production.

From the current level of technology, a LED lamp is known that includes a radiator case with vertical heat-dissipating fins and at least one LED or LED module connected to a power supply (see RF patent No. 96696U1, IPC F21S 4/00 (2006.01), 2010).

The disadvantage of this device is the lack of structural capabilities for its use in conjunction with a ceiling.

Known linear LED lamp containing a housing formed mainly by a profile molded product; at least one end cover, made with the possibility of connection with the end face of the housing; LED module LED driver block; secondary optics. The body is made of aluminum by extrusion. The end cover is made of steel and is connected to the housing via magnetic inserts (see RF patent No. 150822, IPC F21S 8/00, 2015).

The disadvantage is the complexity of the design and the high complexity of its assembly. In addition, the disadvantage is low energy efficiency and a rather low coefficient of luminous flux.

Known LED ceiling lamp, which includes a prefabricated frame and mounted in it a heat-reflecting base-reflector with LED lighting modules and a light diffuser. The prefabricated frame consists of profiled sidewalls and corner lock connectors. The heat-reflecting base-reflector is made in the form of a thin-walled metal plate, on the inside of which LED modules are fixed. Each module is a single-sided printed circuit board with a chain of LEDs placed on it. The thin-walled metal plate is preferably made of metal with enhanced thermal conductivity, preferably aluminum or an aluminum alloy. Printed circuit boards may have an aluminum strip base. The bases of the printed circuit boards are connected to the heat sink reflector base of the lamp, preferably by means of double-sided heat-conducting tape. The light diffuser is made in the form of a sheet of translucent polymer. The luminaire is equipped with an external power supply, the wires of which are passed into the hole made in the heat-conducting base-reflector, while the edges of the hole are bordered by a sealant and / or sealant. (see RF patent No. 115441, IPC F21S 4/00 (2006.01), 2012). This decision was made as a prototype.

The disadvantage is the complexity of the design and the high complexity of its assembly. In addition, the disadvantage is low energy efficiency and a rather low coefficient of luminous flux.

The technical problem solved by the utility model is to simplify the design, increase the life of the light elements while increasing the light flux.

This problem is solved due to the fact that in the well-known LED ceiling lamp containing a frame, a power supply unit, a light diffuser, a heat sink reflector made in the form of a metal thin-walled aluminum plate with high thermal conductivity, on the inside of which LED modules are mounted, which are single-sided printed a board in the form of an aluminum strip with a chain of LEDs placed on it, in accordance with a utility model, the frame is formed by a steel case with a main By side and side walls, the heat-reflecting reflector is made mirror and consists of two sections, each of which has at least one side, is made inclined and an LED module is mounted on it.

The heat sink reflector is made of alanode (anodized aluminum).

The opposite second lateral side of each of the sections of the heat-reflecting reflector is made oblique and an LED module is mounted on it.

Light modules are connected to a heat sink reflector through a heat sink gel.

The light modules are connected to the heat sink reflector through heat sink rivets.

On the inside of the base of the housing between the sections of the heat-reflecting reflector, a power supply is fixed.

The technical result from the use of all the essential features of a utility model is to increase the coefficient of luminous flux of the lamp. The presence of a steel casing with a base and side walls, in which there is a mirrored heat-reflecting reflector connected to it, made of two sections, each of which at least one side is inclined with an LED module mounted on it, allows to increase the light flux coefficient lamp.

In addition, the area of illumination of the room from a single lamp increases, which allows to reduce the number of lamps required to illuminate a room of a certain area.

This additionally provides an increase in the service life of LED crystals, since the efficiency of the heat sink provided by the heat sink reflector, made in the form of a thin sheet of alanode and transferring heat to the steel casing, also has a sufficiently high thermal conductivity.

Figure 1 - cross section of the lamp with one inclined side of the heat-reflecting reflector.

FIG. 2 is a cross section of a luminaire with two sloping sides of a heat-reflecting reflector.

The LED ceiling light contains a frame formed by a steel casing 1 with a base 2 and side walls 3. On the inside of the base 2 of the casing, a power supply 4 is fixed.

Mirror heat-reflecting reflector 5, made in the form of a thin-walled metal plate made of aluminum with high thermal conductivity, for example, from alanode (anodized aluminum), is permanently attached to the housing 1. The heat sink reflector 5 consists of two sections 6, 7. The power supply 4 is fixed to the base 2 of the housing 1 between the heat sink reflector sections 6, 7.

In each section 6, 7 of the heat-reflecting reflector 5, at least one side 8 is made inclined. LED modules 10 are fixed on the side 9 of sections 6, 7 of the heat-reflecting reflector 5 in contact with the base 2 of the housing, and on the side inclined sides 8 of these sections. The opposite second side 11 of each of the sections 6, 7 of the heat-reflecting reflector can be made inclined and on it fixed LED module 10.

Each LED module 10 is a single-sided printed circuit board in the form of an aluminum strip with a chain of LEDs placed on it.

The light modules 10 can be connected to the heat-reflecting reflector 5 through a heat-removing gel (not shown conditionally) or by means of heat-removing rivets (not shown conventionally).

The housing 1 from the outer end side is covered by a light diffuser 12. The light diffuser 12 is a sheet of translucent polymer, for example, microprismatic polycarbonate type - crushed ice, thickness 2.5 mm, light transmission - not less than 92%, impact resistance - not less than 400 J, with a service life of at least 14 years.

LEDs are, for example, SMD diodes of white light with a color temperature of 2100K to 6500K.

The device operates as follows.

The lamp is installed in a standard cell of a false ceiling. A 24-42V power supply is connected to a 220 V network of a building or structure.

After the voltage is supplied to the LED modules, each of the LEDs begins to emit light. Discrete light fluxes from the diodes are mainly directed along the axis of the diode. Since in the luminaire, part of the light modules 10 are located on the inclined sides 8, 11 of the mirror heat sink, the light fluxes intersect within the gap between the mirror heat sink reflector 5 and the diffuser 12. The mirror heat sink reflector 5 amplifies the light flux, directs them towards the diffuser, which converts many discrete streams from the individual diodes of the light modules 10 into uniform diffused light. The luminous fluxes from the light modules 10 located on the inclined sides 8, 10 are directed perpendicular to these sides and thus the angle of illumination from the lamp is significantly increased, allowing you to cover a large area around it.

Mirror heat sink reflector 5 effectively removes heat from the light modules, partially transferring heat to the lamp housing. For better heat dissipation, the LED modules 10 are attached to the heat-reflecting reflector 5 through a heat-conducting gel or by means of heat-removing rivets.

The claimed utility model can be manufactured using well-known components on modern technological equipment.

The claimed lamp can be used as LED ceiling lights for domestic, office and industrial use.

Claims (6)

1. LED ceiling lamp containing a frame, a power supply, a light diffuser, a heat-reflecting reflector made in the form of a metal thin-walled aluminum plate with high thermal conductivity, on the inside of which LED modules are fixed, which are a single-sided printed circuit board in the form of an aluminum strip placed on it by a chain of LEDs, characterized in that the frame is formed by a steel body with a base and side walls, a heat sink reflector connected to the body atel configured mirror and consists of two portions, each of which has at least one lateral side is inclined and fixed on it LED module. 2. The LED ceiling lamp according to claim 1, characterized in that the mirror heat-reflecting reflector is made of alanode (anodized aluminum). 3. The LED ceiling lamp according to claim 1, characterized in that the opposite second side of each of the sections of the heat-reflecting reflector is made oblique and an LED module is fixed to it. 4. The LED ceiling lamp according to claim 1, characterized in that the light modules are connected to a heat sink reflector through a heat sink gel. 5. The LED ceiling lamp according to claim 1, characterized in that the light modules are connected to a heat sink reflector through heat sink rivets. 6. The LED ceiling lamp according to claim 1, characterized in that a power supply is fixed between the sections of the heat sink reflector on the inside of the housing base.

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