CN105704860A - High-reliability LED street lamp device - Google Patents

Abstract

The invention discloses a high-reliability LED street lamp device, which comprises a switching power supply, a drive circuit, a light-emitting diode lamp bank and a lightning protection circuit, wherein the lightning protection circuit comprises a first piezoresistor, a second piezoresistor, a first gas discharge tube, a first inductor, a second inductor, a first TVS diode and a second TVS diode; one end of the first piezoresistor is connected to an output end of the switching power supply and one end of the first inductor; the other end of the first piezoresistor is connected to one end of the second piezoresistor and one end of the first gas discharge tube; the other end of the second piezoresistor is connected to one end of the second inductor; the other end of the first gas discharge tube is connected with one end of the first TVS diode and one end of the second TVS diode; the other end of the first TVS diode is connected with the other end of the first inductor and an input end of the drive circuit; and the other end of the second TVS diode is connected with the other end of the second inductor. By the high-reliability LED street lamp device disclosed by the invention, the reliability of the LED street lamp device is improved through arranged two-stage lightning protection.

Description

High reliability LEDy street lamp device

Technical field

The present invention relates to traffic light technical field, be specifically related to a kind of high reliability LEDy street lamp device。

Background technology

Roadway illumination (roadlighting) is to arrange lighting on road, provides the visibility of necessity at night to vehicle and pedestrian。Roadway illumination can improve transportation condition, alleviate driver fatigue, and is conducive to improving road passage capability and ensureing traffic safety, additionally can beautify the appearance of the city。Along with the development of urban construction, urban lighting construction increasingly pays attention to the requirement of the image in city, roadway illumination and Landscape Lighting and quantity is continuously increased。Light emitting diode (LED, Light-emittingDiode) it is a kind of new type light source of Development and Production in recent years, there is due to it advantages such as power consumption little (electric current only has 10 milliamperes ~ 20 milliamperes), brightness high (light intensity is up to up to ten thousand milli candelas), volume little (diameter is minimum up to 3 millimeters), lightweight (a light emitting diode only heavy zero point several grams), life-span length (average life 100,000 hours), now progressively replace high-pressure mercury lamp to make street lamp。

Fig. 1 is the structural representation of common LEDy street lamp device, and described LEDy street lamp device includes Switching Power Supply 11, drive circuit 12 and LED light lamp group 13。Wherein, described Switching Power Supply 11 is suitable to alternating voltage is converted to DC voltage is that described drive circuit 12 is powered；Described drive circuit 12 is suitable to DC voltage is converted to constant current；Described LED light lamp group 13 is suitable to carry out luminescence under the driving of constant current。Owing to LEDy street lamp device is arranged on open air, its decorating position is higher, is subject to direct lightning strike and is broken by internal electronic element, thus the input of described Switching Power Supply 11 is usually provided with lightning-protection module。But, the high voltage transient that lightning-protection module in described Switching Power Supply 11 is only capable of preventing thunder and lightning from causing damages the electronic device in described Switching Power Supply 11 by AC power cord, the high voltage transient that thunder and lightning causes still enters described drive circuit 12 possibly through the direct current supply line between described Switching Power Supply 11 and described drive circuit 12, causes the electronic component in described drive circuit 12 to damage。

Summary of the invention

The problem being the high voltage transient that thunder and lightning causes and damaging the drive circuit in LEDy street lamp device to be solved by this invention。

The present invention is achieved through the following technical solutions:

A kind of high reliability LEDy street lamp device, including Switching Power Supply, drive circuit and LED light lamp group, it is characterized in that, also including the lightning protection circuit being connected between described Switching Power Supply and described drive circuit, described lightning protection circuit includes the first varistor, the second varistor, the first gas-discharge tube, the first inductance, the second inductance, the first TVS diode and the second TVS diode；One end of described first varistor connects the outfan of described Switching Power Supply and one end of described first inductance, the other end of described first varistor connects one end of described second varistor and one end of described first gas-discharge tube, the other end of described second varistor connects one end and first of described second inductance with reference to ground wire, the other end of described first gas-discharge tube connects one end of described first TVS diode, one end of described second TVS diode and protective grounding line, the other end of described first TVS diode connects the other end of described first inductance and the input of described drive circuit, the other end of described second TVS diode connects the other end and second of described second inductance with reference to ground wire。

Optionally, described Switching Power Supply includes the lightning-protection module, EMI circuit, primary rectifier filter circuit, power conversion unit, secondary commutation filter circuit, sample circuit, voltage stabilizing loop and the PWM controller that are sequentially connected with, and the outfan of described PWM controller connects described power conversion unit。

Optionally, described lightning-protection module includes the first electric fuse, the 3rd varistor, the second gas-discharge tube, the 4th varistor, the 5th varistor and the 3rd gas-discharge tube；One end of described first electric fuse connects live wire; the other end of described first electric fuse connects one end of described 3rd varistor and one end of described 5th varistor; the other end of described 3rd varistor connects one end of described second gas-discharge tube; the other end of described second gas-discharge tube connects one end of zero line and described 4th varistor; the other end of described 4th varistor connects the other end of described 5th varistor and one end of described 3rd gas-discharge tube, and the other end of described 3rd gas-discharge tube connects protective grounding line。

Optionally, described second gas-discharge tube and described 3rd gas-discharge tube are ceramic gas discharge tube。

Optionally, described lightning-protection module includes the second electric fuse, the 3rd electric fuse, the 4th electric fuse, the 6th varistor, the 7th varistor, the 8th varistor and the 4th gas-discharge tube；One end of described second electric fuse connects one end of live wire and described 4th electric fuse, the other end of described second electric fuse connects one end of described 6th varistor, the other end of described 6th varistor connects one end of described 7th varistor and one end of described 4th gas-discharge tube, the other end of described 7th varistor connects one end of described 3rd electric fuse, the other end of described 3rd electric fuse connects one end of zero line and described 8th varistor, the other end of described 8th varistor connects the other end of described 4th electric fuse, the other end of described 4th gas-discharge tube connects protective grounding line。

Optionally, described 4th gas-discharge tube is ceramic gas discharge tube。

The present invention compared with prior art, has such advantages as and beneficial effect:

High reliability LEDy street lamp device provided by the invention, by lightning protection circuit of connecting between Switching Power Supply and drive circuit, it is prevented that the electronic component that the high voltage transient that thunder and lightning causes enters drive circuit and damages in drive circuit。Lightning protection circuit collectively forms two-stage lightning protection with the lightning-protection module in Switching Power Supply, improves the reliability of LEDy street lamp device。

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by the embodiment of the present invention, constitutes the part of the application, is not intended that the restriction to the embodiment of the present invention。In the accompanying drawings:

Fig. 1 is the structural representation of common LEDy street lamp device；

Fig. 2 is the structural representation of the high reliability LEDy street lamp device of the embodiment of the present invention；

Fig. 3 is the structural representation of the Switching Power Supply of the embodiment of the present invention；

Fig. 4 is the circuit diagram of the lightning-protection module of an embodiment of the present invention；

Fig. 5 is the circuit diagram of the lightning-protection module of another kind embodiment of the present invention。

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearly understand, below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, and exemplary embodiment and the explanation thereof of the present invention are only used for explaining the present invention, not as a limitation of the invention。

Embodiment

Fig. 2 is the structural representation of the high reliability LEDy street lamp device of the embodiment of the present invention, and described high reliability LEDy street lamp device includes Switching Power Supply 11, drive circuit 12, LED light lamp group 13 and lightning protection circuit 21。The concrete structure of described Switching Power Supply 11, described drive circuit 12 and described LED light lamp group 13 is similar with prior art with function, does not repeat them here。Described lightning protection circuit 21 is connected between described Switching Power Supply 11 and described drive circuit 12, namely described Switching Power Supply 11 connects described drive circuit 12 by described lightning protection circuit 21, and described lightning protection circuit 21 includes the first varistor RV1, the second varistor RV2, the first gas-discharge tube FD1, the first inductance L1, the second inductance L2, the first TVS diode TVS1 and the second TVS diode TVS2。

Specifically, RV1 one end of described first varistor connects the outfan of described Switching Power Supply 11 and one end of described first inductance L1, the other end of described first varistor RV1 connects one end of described second varistor RV2 and one end of described first gas-discharge tube FD1, the other end of described second varistor RV2 connects one end and first of described second inductance L2 with reference to ground wire GND1, the other end of described first gas-discharge tube FD1 connects one end of described first TVS diode TVS1, one end of described second TVS diode TVS2 and protective grounding line PGND, the other end of described first TVS diode TVS1 connects the other end of described first inductance L1 and the input of described drive circuit 12, the other end of described second TVS diode TVS2 connects the other end and second of described second inductance L2 with reference to ground wire GND2。First with reference to the reference ground wire that ground wire GND1 is described Switching Power Supply 11, and described second with reference to the reference ground wire that ground wire GND2 is described drive circuit 12。

During the high voltage transient caused without thunder and lightning between described Switching Power Supply 11 and described drive circuit 12, described first varistor RV1 and described second varistor RV2 presents high-impedance state, described first TVS diode TVS1 and described second TVS diode TVS2 is in cut-off state, and the output voltage that described Switching Power Supply 11 produces is that described drive circuit 12 is powered by described first inductance L1 and described second inductance L2；When introducing the high voltage transient that thunder and lightning causes between described Switching Power Supply 11 and described drive circuit 12; the resistance of described first varistor RV1 and described second varistor RV2 reduces; described first gas-discharge tube FD1 is punctured by the high voltage transient on power line by described first varistor RV1; described first gas-discharge tube FD1 is punctured by described second varistor RV2 by first with reference to the high voltage transient on ground wire GND1; thus the high voltage transient caused by thunder and lightning is released to greatly, described drive circuit 12 being protected by protective grounding line PGND。Further, described first TVS diode TVS1 and described second TVS diode TVS2 is for absorbing residual voltage, and described first inductance L2 and described second inductance L2 plays the effect of time delay, is used for ensureing that varistor is than the action of TVS pipe elder generation。

Fig. 3 is the structural representation of the Switching Power Supply 11 of the embodiment of the present invention, described Switching Power Supply includes the lightning-protection module 31, EMI circuit 32, primary rectifier filter circuit 33, power conversion unit 34, secondary commutation filter circuit 36, sample circuit 37, voltage stabilizing loop 38 and the PWM controller 35 that are sequentially connected with, and the outfan of described PWM controller 35 connects described power conversion unit 34。Wherein, described power conversion unit 34 includes transformator and power switch pipe, the outfan of described secondary commutation filter circuit 36 is the outfan of described Switching Power Supply 11, described sample circuit 37 and described voltage stabilizing loop 38 constitute feedback branch, and described PWM controller 35 is for controlling the turn-on and turn-off of power switch pipe。The structure of described Switching Power Supply 11 is similar with prior art, and modules also can adopt existing circuit, and the present embodiment provides the physical circuit of described lightning-protection module 31。

Fig. 4 is the circuit diagram of the described lightning-protection module 31 of an embodiment of the present invention, and described lightning-protection module 31 includes the first electric fuse F1, the 3rd varistor RV3, the second gas-discharge tube FD2, the 4th varistor RV4, the 5th varistor RV5 and the 3rd gas-discharge tube FD3。

Specifically, one end of described first electric fuse F1 connects live wire L, the other end of described first electric fuse F1 connects one end of described 3rd varistor RV3 and one end of described 5th varistor RV5, the other end of described 3rd varistor RV3 connects one end of described second gas-discharge tube FD2, the other end of described second gas-discharge tube FD2 connects one end of zero line N and described 4th varistor RV4, the other end of described 4th varistor RV4 connects the other end of described 5th varistor RV5 and one end of described 3rd gas-discharge tube FD3, the other end of described 3rd gas-discharge tube FD3 connects protective grounding line PGND。Further, described second gas-discharge tube FD2 and described 3rd gas-discharge tube FD3 can be ceramic gas discharge tube。

The described lightning-protection module 31 that the present embodiment provides, described 3rd varistor RV3 and described second gas-discharge tube FD2 is connected between live wire L and zero line N, for the high voltage transient that clamper thunder and lightning causes between live wire L and zero line N；Protective grounding line PGND is connected, for the high voltage transient that thunder and lightning of releasing causes on zero line N after described 4th varistor RV4 and described 3rd gas-discharge tube FD3 series connection；Protective grounding line PGND is connected, for the high voltage transient that thunder and lightning of releasing causes on live wire L after described 5th varistor RV5 and described 3rd gas-discharge tube FD3 series connection。Lightning-protection module 31 circuit of the present embodiment is simple, it is possible to carry out common mode and difference touches full guard。

Fig. 5 is the circuit diagram of the described lightning-protection module 31 of another kind embodiment of the present invention, and described lightning-protection module 31 includes the second electric fuse F2, the 3rd electric fuse F3, the 4th electric fuse F4, the 6th varistor RV6, the 7th varistor RV7, the 8th varistor RV8 and the 4th gas-discharge tube FD4。

Specifically, one end of described second electric fuse F2 connects one end of live wire L and described 4th electric fuse F4, the other end of described second electric fuse F2 connects one end of described 6th varistor RV6, the other end of described 6th varistor RV6 connects one end of described 7th varistor RV7 and one end of described 4th gas-discharge tube FD4, the other end of described 7th varistor RV7 connects one end of described 3rd electric fuse F3, the other end of described 3rd electric fuse F3 connects one end of zero line N and described 8th varistor RV8, the other end of described 8th varistor RV8 connects the other end of described 4th electric fuse F4, the other end of described 4th gas-discharge tube FD4 connects protective grounding line PGND。Further, described 4th gas-discharge tube FD4 can be ceramic gas discharge tube。

The described lightning-protection module 31 that the present embodiment provides, described 8th varistor RV8 is connected between live wire L and zero line N, for the high voltage transient that clamper thunder and lightning causes between live wire L and zero line N；Protective grounding line PGND is connected, for the high voltage transient that thunder and lightning of releasing causes on live wire L after described second electric fuse F2, described 6th varistor RV6 and described 4th gas-discharge tube FD4 series connection；Protective grounding line PGND is connected, for the high voltage transient that thunder and lightning of releasing causes on zero line N after described 3rd electric fuse F3, described 7th varistor RV7 and described 4th gas-discharge tube FD4 series connection。Lightning-protection module 31 circuit of the present embodiment is simple, it is possible to carry out common mode and difference touches full guard。

Above-described detailed description of the invention; the purpose of the present invention, technical scheme and beneficial effect have been further described; it is it should be understood that; the foregoing is only the specific embodiment of the present invention; the protection domain being not intended to limit the present invention; all within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention。

Claims (6)

1. a high reliability LEDy street lamp device, including Switching Power Supply, drive circuit and LED light lamp group, it is characterized in that, also including the lightning protection circuit being connected between described Switching Power Supply and described drive circuit, described lightning protection circuit includes the first varistor, the second varistor, the first gas-discharge tube, the first inductance, the second inductance, the first TVS diode and the second TVS diode；

One end of described first varistor connects the outfan of described Switching Power Supply and one end of described first inductance, the other end of described first varistor connects one end of described second varistor and one end of described first gas-discharge tube, the other end of described second varistor connects one end and first of described second inductance with reference to ground wire, the other end of described first gas-discharge tube connects one end of described first TVS diode, one end of described second TVS diode and protective grounding line, the other end of described first TVS diode connects the other end of described first inductance and the input of described drive circuit, the other end of described second TVS diode connects the other end and second of described second inductance with reference to ground wire。

2. high reliability LEDy street lamp device according to claim 1, it is characterized in that, described Switching Power Supply includes the lightning-protection module, EMI circuit, primary rectifier filter circuit, power conversion unit, secondary commutation filter circuit, sample circuit, voltage stabilizing loop and the PWM controller that are sequentially connected with, and the outfan of described PWM controller connects described power conversion unit。

3. high reliability LEDy street lamp device according to claim 2, it is characterised in that described lightning-protection module includes the first electric fuse, the 3rd varistor, the second gas-discharge tube, the 4th varistor, the 5th varistor and the 3rd gas-discharge tube；

One end of described first electric fuse connects live wire; the other end of described first electric fuse connects one end of described 3rd varistor and one end of described 5th varistor; the other end of described 3rd varistor connects one end of described second gas-discharge tube; the other end of described second gas-discharge tube connects one end of zero line and described 4th varistor; the other end of described 4th varistor connects the other end of described 5th varistor and one end of described 3rd gas-discharge tube, and the other end of described 3rd gas-discharge tube connects protective grounding line。

4. high reliability LEDy street lamp device according to claim 3, it is characterised in that described second gas-discharge tube and described 3rd gas-discharge tube are ceramic gas discharge tube。

5. high reliability LEDy street lamp device according to claim 2, it is characterized in that, described lightning-protection module includes the second electric fuse, the 3rd electric fuse, the 4th electric fuse, the 6th varistor, the 7th varistor, the 8th varistor and the 4th gas-discharge tube；

One end of described second electric fuse connects one end of live wire and described 4th electric fuse, the other end of described second electric fuse connects one end of described 6th varistor, the other end of described 6th varistor connects one end of described 7th varistor and one end of described 4th gas-discharge tube, the other end of described 7th varistor connects one end of described 3rd electric fuse, the other end of described 3rd electric fuse connects one end of zero line and described 8th varistor, the other end of described 8th varistor connects the other end of described 4th electric fuse, the other end of described 4th gas-discharge tube connects protective grounding line。

6. high reliability LEDy street lamp device according to claim 5, it is characterised in that described 4th gas-discharge tube is ceramic gas discharge tube。