KR102197810B1 - A Circuit Module for Protecting a Surge Current and Removing a Remnant Light and a LED Lighting Apparatus - Google Patents

Abstract

The present invention relates to a circuit module for surge protection and afterglow removal, and an LED lighting device including the same. The circuit module for surge protection and afterglow removal includes: an input control unit (12) which adjusts power introduced from an input unit (11); an afterglow removal circuit (13) including a pair of switch elements for opening and closing the power regulated by the input control unit (12); an output adjustment unit (14) which adjusts the output transmitted from the afterglow removal circuit (13); and a conversion unit (15) which converts the power of the output control unit (14) into power for the operation of the LED module (16).

Description

A Circuit Module for Protecting a Surge Current and Removing a Remnant Light and a LED Lighting Apparatus}

The present invention relates to a circuit module for surge protection and afterglow removal, and a lighting device having the same, and specifically, a circuit for surge protection and afterglow that can prevent surge and afterglow that may occur during the on-off process of the LED module. It relates to a module and an LED lighting device having the same.

During the power supply process, a voltage state of 5 to 6% or more compared to the supply voltage lasts for several cycles, or a surge phenomenon that generates an excessive impulse voltage in units of micro or milliseconds may cause damage to the power device. In addition, afterglow or residual light generated due to a leakage current or an abnormality in the power wiring system may cause a malfunction of the power device while impairing the comfort of the lighting environment, and shorten the life of the LED module. Therefore, it is necessary to prevent the occurrence of such a surge phenomenon or an afterglow phenomenon in the lighting device, and a related technology is known in the art. Patent Registration No. 10-1980584 discloses an LED lighting device having a surge protection function capable of protecting expensive LED elements from surge voltage/current caused by lightning. In addition, Patent Registration No. 10-1768179 discloses a device for preventing afterglow and delaying lighting of an LED lamp in order to eliminate a phenomenon in which the lighting is delayed and afterglow occurs even when the lamp is turned off. Surge phenomena can be generated from various causes, and it is advantageous to form an appropriate circuit together with the generation of afterglow and eliminate them. In addition, it is advantageous that the circuit having such a function is made of a module structure and can be simply connected to the lighting device. However, the prior art does not disclose a circuit module having such a structure.

The present invention has the following object to solve the problems of the prior art.

Prior art 1: Patent registration number 10-1980584 (Sekwang Industrial Lighting Co., Ltd., May 21, 2019 announcement) LED lighting device with surge protection function Prior art 2: Patent registration number 10-1768179 (Taeseok Precision Co., Ltd., 2017.08.16. Announcement) LED lamp turn off delay and afterglow prevention device

An object of the present invention is to provide a circuit module for surge protection and afterglow removal, and an LED lighting device having the same, capable of preventing surge phenomena and afterglow phenomena occurring due to various causes by being made in a single circuit module structure.

According to a preferred embodiment of the present invention, a circuit module for surge protection and afterglow removal includes: an input control unit that adjusts power introduced from the input unit; Afterglow removal circuit including a pair of switch elements for opening and closing the power regulated by the input control unit; An output control unit that adjusts an output transmitted from the afterglow removal circuit; And a conversion unit that converts the power of the output control unit into power for the operation of the LED module.

According to another suitable embodiment of the present invention, the input control unit and the output control unit are a varistor and a pair of triacs connected in parallel with each other.

According to another suitable embodiment of the present invention, a lighting device includes a substrate on which a plurality of LED elements are disposed; Operating element for operating the LED element; At least one protection module disposed on the substrate; And a heat dissipation plate in the form of a plate separated from each other at the rear of the substrate, and the protection module includes two varistors connected to an input side and an output side, and a pair of switching elements arranged in parallel between the two varistors to cause surge and afterglow. Prevent the phenomenon.

The circuit module for surge protection and afterglow removal according to the present invention has an advantage that both surge protection and afterglow removal are possible by a single circuit module. The circuit module according to the present invention is made in an independent module structure that can be connected to a lighting device, so that it is structurally simple and easy to connect to the LED module. The lighting device according to the present invention operates stably and has improved durability.

1 illustrates an embodiment of an operation structure of a circuit module for surge protection and afterglow removal according to the present invention.
2A and 2B illustrate an embodiment of a circuit module according to the present invention.
3A and 3B illustrate an embodiment of a lighting device according to the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so if they are not necessary for the understanding of the invention, they will not be described repeatedly, and well-known components will be briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment of.

1 shows an embodiment of an operation structure of a circuit module for surge protection and afterglow removal according to the present invention.

Referring to FIG. 1, a circuit module for surge protection and afterglow removal includes an input control unit 12 for controlling power introduced from the input unit 11; An afterglow removal circuit 13 including a pair of switch elements for opening and closing the power regulated by the input control unit 12; An output adjustment unit 14 for adjusting the output transmitted from the afterglow removal circuit 13; And a conversion unit 15 that converts the power of the output control unit 14 into power for the operation of the LED module 16.

AC power may be supplied to the LED module 16 through the input unit 11 and operated, and the AC power may be converted into DC power by the conversion unit 15. AC power input to the input unit 11 may be adjusted by the input control unit 12. The input control unit 12 may have a function of adjusting an input voltage or an input current having, for example, a variable resistor, a variable capacitor, or a similar function. For example, when a voltage larger than the predetermined range is introduced, the input control unit 12 may increase the resistance value to decrease the current value. Such a variable function can be made linearly, but preferably non-linearly. In addition, an input of a voltage or current out of a predetermined threshold value may be blocked. The input voltage or input current adjusted by the input control unit 12 may be transferred to the afterglow removal circuit 13. The afterglow removal circuit 13 may include two switch elements connected in parallel with each other, and a current or voltage in a predetermined range may be transmitted to the LED module 16 through the first switch element to operate the LED element. . On the contrary, a current or voltage outside a predetermined range may be transmitted to the ground electrode through the second switch unit. The first switch element and the second switch element may be selectively operated, and accordingly, the second switch element may be opened while the first switch element is connected. In addition, when the first switch element is opened, the second switch element may be connected. Various types of residual light or afterglow may be prevented due to leakage current or a wiring error by such an operation structure. The output control unit 14 may have a circuit structure similar to that of the input control unit 12, and may have a function of limiting the output for the operation of the LED module 16 to a predetermined range. The output control unit 14 may include elements such as variable resistors, variable capacitors or varistors, similar to the input control unit 12. The voltage or current regulated in a predetermined range by the output control unit 14 may be converted into driving power suitable for the operation of the LED module 16 by the conversion unit 15. For example, the conversion unit 15 may comprise a rectifier or similar element. The LED module 16 may include a plurality of LED elements, and may have various structures that can be used as a lighting device.

Hereinafter, a specific circuit structure of the circuit module described above will be described.

2A and 2B illustrate an embodiment of a circuit module according to the present invention.

Referring to FIG. 2A, the input control unit 12 and the output control unit 14 become a varistor and a pair of triacs connected in parallel with each other. AC power may be supplied from the input unit 11, and the surge protection circuit 21 and the afterglow removal circuit 13 may be installed between the input unit 11 and the output terminal OUT connected to the LED module. . The surge protection circuit 21 may include a pair of inductors 25a and 25b connected in parallel and a first varistor 24a connecting the pair of inductors 25a and 25b. In addition, the afterglow removal circuit 13 may be connected to each of the inductors 25a and 25b. The afterglow removal circuit 13 includes a pair of triacs 27a and 27b having a switch function connected to each of the inductors 25a and 25b; A first resistor R1 connecting a pair of triacs 27a and 27b connected in parallel with each other; Second and third resistors R2 and R3 connecting the other input terminals of each of the triacs 27a and 27b and the respective inductors 25a and 25b; And a capacitor 26 connecting the second and third resistors R2 and R3. The outputs of each of the triacs 27a and 27b may be connected to a rectifier 28 corresponding to a conversion unit. In addition, the power supplied by the rectifier 28 converted into DC current or voltage may be supplied to the LED module by flowing into the output terminal OUT through one terminal of the second varistor 24b corresponding to the surge protection circuit. In addition, the other terminal of the second varistor 24b may be connected to the ground electrode G corresponding to the reference potential.

2B, both terminals of the first varistor 24a are connected to the first and second triacs 27a and 27b, and the first, second and third resistors R1, R2, R3 and capacitor 26 Similar to FIG. 2A, may be connected to different terminals of the first barista 24a and to each of the triacs 27a and 27b. The inductor 25 is installed between the rectifier 28 and the output terminal OUT to prevent a sudden current from flowing into the LED module in an impulse form for a short time. In addition, in each of the circuit modules illustrated in FIGS. 2A and 2B, a fuse 23 is installed at the input side so that an input of power may be cut off when a transient current is introduced. In the presented embodiment, the first and second varistors 24a and 24b may have an operating voltage of 100 to 1,500 kV, and the trigger voltage of the first and second triacs 27a and 27b may be 30 to 100 V. . The capacitor 26 may be selected in the range of 10 to 1,000 pF, the inductors 25a, 25b, and 25 may be selected in the range of 1 to 100 mH, and the resistances R1, R2, R3 are 0.5 to It can have a resistance value of 20 kΩ. Each device value may be appropriately selected according to power consumption and use environment, and is not limited to the exemplary embodiments presented. The circuit module for surge protection and afterglow removal shown in FIGS. 2A and 2B may be made in the form of one circuit module, and specifically, may be made in the form of one chip or part. In the circuit module thus made, for example, two connection terminals may be formed, and the two connection terminals may be connected to the LED board and operated.

3A and 3B show an embodiment of a lighting device according to the present invention.

3A and 3B, the lighting device includes a substrate 33 on which a plurality of LED elements L1 to LN are disposed; An operation element 34 for operating the LED elements L1 to LN; At least one protection module 36 disposed on the substrate 33; And a plate-shaped heat dissipation plate (37_1 to 37_K) separated from each other at the rear of the substrate 33, and the protection module 36 is arranged in parallel between two varistors and two varistors connected to the input side and the output side. Surge and afterglow are prevented by a pair of switched elements. The lighting device may be applied to indoor or outdoor lighting, or may be used for various purposes, such as for home or work places, whereby the present invention is not limited.

The LED substrate 33 may be, for example, a PCB substrate, and may have a circular shape or a similar shape as a whole. A plurality of LED elements L1 to LN may be disposed on the LED substrate 33, and the LED substrate 33 may be fixed to the circular fixing bracket 31. In a structure in which a plurality of LED elements L1 to LN are arranged along concentric circles having different diameters, the operation elements 34 such as resistors, capacitors, and control chips may be disposed at the center of the LED substrate 33. In addition, at least one circuit module 36 for surge protection and afterglow removal may be disposed at a central portion of the LED substrate 33 together with the operation element 34. For example, the circuit module 36 may include two varistors and a pair of switching elements disposed in parallel between the two varistors. Alternatively, the circuit module 36 may include the circuit shown in FIG. 2A or 2B. Heat generated during the operation of the LED elements (L1 to LN) needs to be quickly released to the outside, and for this purpose, a dispersion substrate 33a having the same area as the LED substrate 33 is disposed behind the PCB substrate. In addition, the dispersion substrate 33a may be made of, for example, aluminum or a metal material having a high thermal conductivity similar thereto. At least one heat dissipation plate 37_1 to 37_K may be connected to the dispersion substrate 33a. For example, four heat dissipation plates 37_1 to 37_K may be disposed at equal intervals on the circumferential surface of the circular dispersion substrate 33a. One portion of each of the heat dissipation plates 37_1 to 37_K may be in contact with the circumferential surface of the dispersion substrate 33a while having a curved shape, and may have a triangular shape as a whole. Each of the heat dissipation plates 37_1 to 37_K may be made of the same or similar metal material as the dispersion substrate 33a, and may be made in a shape in which the dispersion substrate 33a extends. Specifically, a tangent line between a vertical line perpendicularly crossing each other with respect to the center of the circular spray substrate 33a and the intersection points CP1 to CP4 of the circumferential surface of the dispersion substrate 33a is the border of each of the radiating plates 37_1 to 37_K. Can be formed to match. The structure of the heat dissipation plates 37_1 to 37_K improves the heat dissipation efficiency and at the same time improves the space efficiency. The heat dissipation plates 37_1 to 37_K may be made in various structures and are not limited to the presented embodiments.

The circuit module for surge protection and afterglow removal according to the present invention has an advantage that both surge protection and afterglow removal are possible by a single circuit module. The circuit module according to the present invention is made in an independent module structure that can be connected to a lighting device, so that it is structurally simple and easy to connect to the LED module. The lighting device according to the present invention operates stably and has improved durability.

The present invention has been described in detail above with reference to the presented embodiments, but those of ordinary skill in this field will be able to make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

11: input unit 12: input adjustment unit
13: afterglow removal circuit 14: output control unit
15: conversion unit 16: LED module
21: surge protection circuit 23: fuse
25a, 25b: inductor 26: capacitor
27a, 27b: triac 28: rectifier
33: LED substrate 34: operating element
36: protection modules 37_1 to 37_K: heat sink

Claims (3)

An input control unit 12 that adjusts the power introduced from the input unit 11;
An afterglow removal circuit 13 including a pair of switch elements for opening and closing the power regulated by the input control unit 12;
An output adjustment unit 14 for adjusting the output transmitted from the afterglow removal circuit 13; And
Including a conversion unit 15 for converting the power of the output control unit 14 to power for the operation of the LED module 16,
The input control unit 12 and the output control unit 14 include a first varistor 24a connected to the afterglow removal circuit 13 and a second varistor connected to a rectifier 28 corresponding to the conversion unit 15 ( 24b),
The afterglow removal circuit 13 includes a pair of triacs connected in parallel with each other,
Both terminals of the first varistor (24a) are connected to the pair of triacs (27a, 27b) through a pair of inductors (25a, 25b), or the second varistor (24b) through the inductor (25) is connected to A circuit module for surge protection and afterglow removal connected to the output terminal of (28). delete A substrate 33 on which a plurality of LED elements L1 to LN are disposed;
An operation element 34 for operating the LED elements L1 to LN;
At least one protection module 36 disposed on the substrate 33; And
It includes plate-shaped heat dissipation plates 37_1 to 37_K separated from each other arranged at equal intervals so as to contact the circumferential surface of the dispersion substrate 33a having the same area as the substrate 33 disposed behind the substrate 33, ,
The protection module 36 is a lighting device, characterized in that it prevents a surge phenomenon and an afterglow phenomenon by two varistors connected to the input side and the output side, and a pair of switching elements arranged in parallel between the two varistors.

Images