RU2222750C2 - Light-emitting diode unit - Google Patents

Abstract

FIELD: instrumentation engineering; composite information unit manufacture. SUBSTANCE: light-emitting diodes have straight leads and cross-sectional area of printed-circuit board hole exceeds that of light-emitting diode lead by 1.1 to 3 times. Printed-circuit board has its surface on installation end of light-emitting diodes covered with synthetic material layer such as silicone compound. Reflector can be mounted on printed-circuit board surface. EFFECT: enhanced reliability, manufacturability, reduced cost. 3 cl, 1 dwg

Description

 The invention relates to the design of the LED block and can be used in instrumentation, mainly in the production of information screens, which include many LED blocks.

 Large information screens are mounted at a considerable height. In this case, to improve the visibility of the screen, the LED blocks as a whole or the LEDs in them should be oriented at the same angle, set based on the height of the screen.

 The known design of the LED block, see patent US 5268828, MKI5 F 21 V 21/00, publ. 12/07/93, which includes a printed circuit board with vertically mounted LEDs and a holder for the printed circuit board with means for angular orientation of the printed circuit board relative to the supporting surface of the holder.

 The disadvantages of the LED block are the increased dimensions due to the inclination of the printed circuit board with LEDs in the holder.

 The design of the LED block is also known, see patent US 5400229, IPC6 F 21 V 19/00, publ. 03/21/95, which includes a housing with a beveled supporting surface and two LED orientation devices installed in the housing and a printed circuit board with LEDs vertically mounted on it.

 The disadvantages of the LED block is the increased complexity and high construction cost due to the presence of two LED orientation devices.

 For the prototype of the claimed invention, the design of the LED unit, the certificate of the Russian Federation for utility model 17103 U1, MPK7 H 01 L 33/00, publ. 03/10/01, including a printed circuit board with LEDs installed on it. A distinctive feature of the prototype is the location of the LEDs at an acute angle to the plane of the printed circuit board.

 The disadvantage of the prototype is the implementation of the tilt of the LED to the plane of the circuit board due to the bending of the leads of the LED, which during production can lead to mechanical damage to the LED and its failure.

 The objective of the invention is the creation of a reliable, technologically advanced and cheap design of the LED unit with the ability to orient the LEDs during the manufacturing process at a given angle to the plane of the printed circuit board.

 This problem is solved in the LED block, which includes a printed circuit board and many LEDs installed in the holes of the printed circuit board at a given angle to its surface.

 The problem is solved in that the leads of the LEDs are made straight, the cross-sectional area of the hole of the printed circuit board exceeds the cross-sectional area of the output of the LED by 1.1-3 times, and the surface of the printed circuit board from the installation side of the LEDs is covered with a layer of synthetic material that holds the leads and cases of the LEDs. In this case, an organosilicon compound can be used as a synthetic material, and a reflector can be installed on the surface of the printed circuit board.

 The drawing shows the design of the LED block in the context.

 The LED block includes a printed circuit board 1 with holes 2 made therein for the leads of the LEDs, LEDs 3 with leads 4 installed in the holes 2, and a layer of synthetic material 5 deposited on the surface of the printed circuit board 1. On the board 1 with LEDs 3 can be installed array reflector 6.

 The invention can be implemented as follows. In the printed circuit board 1, holes 2 are made, the cross-sectional area of which exceeds the cross-sectional area of the LED output 1.1-3 times. The LEDs 3 are installed with pins 4 in the holes 2 to a predetermined depth and at a given angle to the surface of the circuit board 1. To maintain a given depth of supply of the conclusions 4 of the LEDs 3 into the holes 2 of the circuit board 1 and a given angle, a special conductor is used. After installing the findings of 4 LEDs 3 in the holes 2 of the printed circuit board 1, conclusions 4 are soldered to the printed conductors of the board 1.

 After cooling the solder, the conductor is removed.

 The circuit board 1 with the LEDs 3 mounted on it is poured with synthetic material 5 at least from the installation side of the LEDs 5. For example, an organosilicon compound can be used as synthetic material 5. After curing, the synthetic material 5 performs the functions of sealing the block and means for holding the terminals 4 and the LED housings 3 at a given angle to the surface of the circuit board 1 during operation of the LED block. A reflective or light-absorbing coating may be applied to the surface of the synthetic material.

 If necessary, a grating reflector 6 can be installed on the board 1 with LEDs 3. It is installed before filling the printed circuit board 1 with synthetic material 5 or after filling before the start of the polymerization process.

 The resulting design of the LED block meets the requirements of reliability, manufacturability and low cost and allows you to set the required angle of inclination of the LEDs relative to the surface of the printed circuit board during production.

Claims (3)

1. An LED unit including a printed circuit board and a plurality of LEDs installed in the holes of the printed circuit board at a predetermined angle to its surface, characterized in that the LED leads are straight, the cross-sectional area of the hole of the printed circuit board exceeds 1, the cross-sectional area of the LED output 1-3 times, and the surface of the PCB from the installation side of the LEDs is covered with a layer of synthetic material that holds the leads and the housing of the LEDs. 2. The LED unit according to claim 1, characterized in that an organosilicon compound is used as a synthetic material. 3. The LED unit according to one of claims 1 or 2, characterized in that a reflector is installed on the surface of the printed circuit board.