RU2628762C2 - Light-emitting-diode lamp for low-voltage electric circuit - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: light-emitting-diode lamp comprises the aluminium printed-circuit board in the form of the oblongated plate, which has a zone with flat surface in the center portion, two remote zones with flat surface and zones with cambered face of a different camber that are situated among the plate zones with flat surface; the light-emitting diodes that are mounted on the external face of the plate flat zone; the printed conductors that are supplied with the jumper straps, which are located at the recesses that are fitted within the plate in the zone with flat surface; the electroinsulating connector, in which the plate remote zones are fixed, each of which has an outlet, which is designed with a possibility of the electrical connection; and the light diffuser, which is fixedly attached to the plate flat zone.

EFFECT: technological effectiveness improvement, design simplification and enhancement of the capability of the light-emitting diode oscillator power selection.

6 cl, 4 dwg

Description

Technical field

The solution relates to lighting engineering, namely to LED light sources for ceiling lights powered by low-voltage electrical circuits, and can be a direct replacement for halogen lamps used in lighting devices that are built into ceilings and walls.

State of the art

For use in luminaires built into the ceiling, usually use low-voltage halogen lamps with socles G4, G9 and the like. Since halogen lamps have an almost circular radiation pattern, and the luminous flux, most often, needs to be directed to the lower hemisphere, spherical or other reflectors are used. If LEDs are used as a radiation source, then a reflector is not required, since the radiation pattern of LEDs does not exceed 160 °.

To supply a halogen lamp in a low voltage network of 12, 24, 36 and 48 volts, a voltage source with a sufficiently high current is required, and the efficiency of halogen lamps is relatively low, as a rule, does not exceed 20 lm / W.

For LEDs, a current source and a radiator are required for heat dissipation despite the fact that the efficiency of the LEDs is more than 100 lm / W.

In this regard, the creation of lamps with halogen and LED light sources is significantly different, since the LEDs and their control circuit must be protected from atmospheric humidity, while a halogen lamp is completely sealed and practically not affected by the environment.

A known LED lamp comprising a tubular dielectric housing, a diffuser mounted on one end of the tubular housing, an LED on the transverse board and a heat-conducting plate with a power circuit located inside the tube, and contact pins for connecting to a low-voltage control circuit (CN 202 901964 U, F21S 2 / 00, published 04.24.2013).

The known solution is difficult to manufacture and does not have the means of efficient heat removal, which limits the choice of power of the LED used.

Known LED lamp for connecting to a low-voltage control circuit, containing LEDs mounted on several longitudinally mounted boards mounted on a common frame that is part of the lamp housing, power supply elements and contact pins for connecting to a low-voltage circuit (US 872343 B2, Н05В 37/02 published on 05/13/2014).

The described analogue seems to be conceptual in nature, since the description does not contain information sufficient to implement the invention.

A known LED lamp for connecting to a low-voltage control circuit, comprising a diffuser, LEDs placed on a dielectric board mounted on a heat sink aluminum radiator, and contact pins isolated from the material of the radiator, configured to connect to a low-voltage source (CN 102374426, F21S 2/00, published on March 14, 2012).

This solution does not have the means of efficient heat dissipation and limits the power of the LED used.

The solution according to CN 102374426 is selected as the closest prototype.

The technical result of the claimed invention is to increase the manufacturability of the LED lamp, simplifying its design and expanding the choice of power of LED emitters.

The claimed technical result is achieved using the following set of features.

LED lamp containing an aluminum printed circuit board in the form of an elongated plate having a portion with a flat surface in the middle part, two remote sections with a flat surface and sections with a curved surface of different curvatures located between the sections of the board with a flat surface; LEDs located on the outer surface of the flat section of the board; printed conductors equipped with hinged jumpers located in recesses made in the circuit board in a section with a curved surface; an electrical insulating connector in which remote sections of the board are fixed, each of which is equipped with a terminal configured to connect to a power source; and a light diffuser mounted on a flat portion of the board.

LED lamp may differ in that the board has an expanded middle part to accommodate the required number of LEDs.

To improve the manufacturability of the design, on the bending section of the board has a number of linearly arranged through holes that determine the place of greatest curvature of the surface of the board. A series of through holes has a recess, or, alternatively, a through hole of large diameter, to accommodate a hinged jumper connecting the printed conductors in the area of the board with a curved surface of greatest curvature.

The LED lamp can be equipped with hard leads similar to pin leads for GU5, GU3, or GU10 sockets for connecting to a low voltage power source.

Brief Description of the Drawings

The claimed solution is illustrated by the following graphic materials:

FIG. 1 - Plan view of the lamp.

FIG. 2 is an axial section of the lamp shown in FIG. one.

FIG. 3 is a plan view of the lamp shown in FIG. 1, without diffuser.

FIG. 4 - View of the board with the extended middle part before the bending operation.

The LED lamp contains an aluminum printed circuit board 1 in the form of an elongated curved plate having a section 2 with a flat surface in the middle part, two remote sections 3 with a flat surface and sections 4 with a curved surface of different curvature located between the flat sections 2 and 3 of the surface of the board 1; LEDs 5 located on the outer surface of the flat portion 2 of the board 1; printed conductors (not shown) on the board 1, hinged jumpers 6 located in the recesses 7 made in the board 1; an electrical insulating connector 8, in which remote sections 3 of the board are fixed, each of which is equipped with a hard output 9 made with the possibility of connecting to a low voltage power source (not shown) located outside the lamp; and a light diffuser 10 mounted on the surface of the flat portion 2 of the board 1; a number of linearly arranged technological through holes 11 defining a bending line of the board 1.

The LED lamp operates from an external low-voltage voltage source that is isolated from the mains in accordance with the standards of the country of use.

The basis of the design is an aluminum printed circuit board 1, having a section 2 with a flat surface in the middle part for LEDs 5 and printed conductors of the supply circuit. In the remote areas 3 of the board 1, the SMT technology is soldered to pin 9, for example, from a steel wire coated with a layer of copper.

In order to avoid rupture of the printed conductors during the board bending process, the conductors are connected to the bending section by hinged jumpers 6, which, after completion of the operation, end up in recesses 7 made in the board 1.

The insulating connector 8 provides structural rigidity, electrical safety of the lamp and can be made of plastic having satisfactory electrical characteristics and technological properties.

Manufacturing ability

The manufacturing technology of LED lamp elements is widely known, well mastered and provided with high-performance technological machines of varying degrees of automation.

Claims (6)

1. An LED lamp for a low voltage electrical circuit, comprising an aluminum printed circuit board in the form of an elongated plate having a portion with a flat surface in the middle portion, two remote portions with a flat surface and portions with a curved surface of different curvatures located between portions of the board with a flat surface; LEDs located on the outer surface of the flat section of the board; an electrical insulating connector in which remote sections of the board are fixed, each of which is equipped with a terminal configured to connect to a power source; and a light diffuser mounted on the surface of the flat portion of the board. 2. The LED lamp according to claim 1, characterized in that the aluminum printed circuit board has an expanded middle part for accommodating LEDs. 3. The LED lamp according to claim 1, characterized in that the conclusions connected to the remote areas of the board are made rigid. 4. The LED lamp according to claim 1, characterized in that a series of linearly arranged through holes are made on the curved surface of the printed circuit board. 5. The LED lamp according to claim 1, characterized in that the printed conductors are connected by hinged jumpers located on a portion of the board with a curved surface and located in recesses made in the board. 6. The LED lamp according to claim 1, characterized in that the recess for accommodating the hinged lintel is made in the form of a through hole.

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