CN205902181U - Pulse highlight device that many fluorescent tubes were lighted in proper order - Google Patents

Abstract

The utility model discloses a pulse highlight device that many fluorescent tubes were lighted in proper order, a serial communication port, including a plurality of fluorescent tube module, power driving module, a plurality of trigger module and sequence control module, a plurality of fluorescent tube modules connect in parallel power driving module's output, a plurality of trigger module are connected with a plurality of fluorescent tube module one -to -ones, sequence control module's output with a plurality of fluorescent tube module one -to -ones are connected. This scheme adopts a power driving module to drive a plurality of pulse fluorescent tubes, has reduced power driving module's use, the cost is reduced, and this life who has also lengthened the pulse fluorescent tube is greatly lighted in order to many fluorescent tubes in addition.

Description

A kind of pulse strong-light device of many fluorescent tubes sequential illumination

Technical field

This utility model is related to pulse strong-light technical field, particularly to a kind of pulse strong-light dress of many fluorescent tubes sequential illumination Put.

Background technology

Pulse strong-light technology be a kind of using the pulse engineering technology sparking with special noble gases fluorescent tube, with arteries and veins The form of punching excites strong white light, the approximate sunlight of spectral distribution, and light intensity is equivalent to arrival earth surface sunlight intensity Thousands of or even tens thousand of times of light source technology a kind of advanced in the world.It is killed all kinds of using instantaneous, high intensity pulsed light energy Microorganism, thus the shortcoming that compensate for traditional thermal sterilization, chemical sterilization.

Traditional pulse strong-light device is made up of an electric power driving module and a flashlight.When actually used, need Want multiple traditional pulse hard light devices to combine and can be only achieved preferable effect.Yet with drive module cost relatively Height, thus leading to the very high and traditional pulse strong-light device of use cost of whole pulse strong-light device to concentrate in together, Not only heat dissipation capacity is big, and service life is shorter, and this more causes the use cost of whole pulse strong-light device.

Utility model content

High for traditional pulse strong-light device use cost, the defect such as service life is short, the purpose of this utility model is A kind of pulse strong-light device of many fluorescent tubes sequential illumination is proposed, it simultaneously drives multiple flashlights using an electric power driving module Manage, and pulse fluorescent tube is lighted by assigned frequency, to solve the above problems.

This utility model solves its technical problem and be the technical scheme is that

A kind of pulse strong-light device of many fluorescent tubes sequential illumination, including

Several fluorescent tube modules；

Electric power driving module, it provides for several fluorescent tube modules described and lights required suitable voltage, described several Fluorescent tube module is connected in parallel on the outfan of described electric power driving module；

Several trigger modules, it provides a trigger being used for lighting for several fluorescent tube modules described, and with The triggering end of several fluorescent tube modules described connects one to one；And

Sequence control module, its be several trigger modules described provide ignition frequency signal, and if outfan with described A dry trigger module connects one to one.

Further, described electric power driving module includes charging circuit, oscillating circuit and power circuit, described charging circuit bag Include the first current rectifying and wave filtering circuit, the second current rectifying and wave filtering circuit and booster circuit；The input of described first current rectifying and wave filtering circuit with Alternating current power supply connects, and its outfan exports a d. c. voltage signal, and described power circuit and oscillating circuit are by described unidirectional current Pressure signal is converted into a high-frequency oscillation voltage signal, and described booster circuit is connected with described oscillating circuit, and by described high frequency vibrating Swing voltage signal boosting, described second current rectifying and wave filtering circuit by boost after high-frequency oscillation voltage signal after rectifying and wave-filtering, Export a high-voltage pulse direct current signal, and be loaded onto the two ends of described fluorescent tube module.

Further, described charging circuit includes: resistance r1, resistance r2, resistance r3, resistance r4, resistance r5, resistance r6, electricity Hold c1, electric capacity c2, electric capacity c3, electric capacity c4, electrochemical capacitor c5, electric capacity c6, electric capacity c7, electric capacity c8, electric capacity c9, inductance l1, inductance L2, inductance l3, inductance l4, inductance l5, inductance l6, inductance l7, bridge rectifier diode d1, light emitting diode d2, diode d3, Diode d4, diode d5, diode d6, diode d7, diode d8 and n-channel mos pipe q1；

One end of described resistance r1 connects alternating current power supply, and its other end connects one end of electric capacity c1 and one end of inductance l1, The other end of described inductance l1 connects electric capacity c2, electric capacity c4 and bridge rectifier diode d1 respectively；

One end of inductance l2 connects alternating current power supply, and its other end connects electric capacity c3, electric capacity c4 and bridge rectifier diode d1, The other end of described electric capacity c3 is connected with the other end of described electric capacity c2；

One end of inductance l3 connects described bridge rectifier diode d1, the positive pole of electrochemical capacitor c5 and electric capacity c6, inductance l3 The other end connect the drain electrode of n-channel mos pipe q1, the source electrode of described n-channel mos pipe q1 connects resistance r3, and its grid connects electricity One end of resistance r2, the other end of described resistance r2 connects the positive pole of described light emitting diode d2, and described light emitting diode d2's is negative Pole connects the other end of described resistance r3 and one end of electric capacity c7, the other end ground connection of described electric capacity c7 respectively；

The other end of the negative pole of described electrochemical capacitor c5 and electric capacity c6 is simultaneously connected on described bridge rectifier diode；

Described inductance l4, inductance l5, inductance l6 and inductance l7 are cascaded successively from beginning to end, the other end of described inductance l4 Connect the positive pole of described diode d8, the negative pole of described diode d8 connects the positive pole of described diode d7, described diode d7 Negative pole connect one end of outfan out1 and electric capacity c9, the other end of electric capacity c9 connects described electric capacity c8, described diode d5 Negative pole, and the other end of electric capacity c9 is also connected with the connection end of described inductance l4 and inductance l5, and the other end of described electric capacity c8 is even Meet outfan out2；

The connection end of described inductance l4 and inductance l5 connects the positive pole of described diode d6, the negative pole of described diode d6 with The positive pole of described diode d5 connects；

Described inductance l5 is connected the other end of electric capacity c8 with the junction of inductance l6, and is grounded；

Described inductance l6 is connected the positive pole of described diode d4 with the junction of inductance l7, and its negative pole connects described resistance r4 One end, the other end of described resistance r4 connects power supply vcc；

The other end of described inductance l7 connects the positive pole of described diode d3, and its negative pole connects resistance r5, described resistance r5 The other end add 13v voltage.

Described inductance l1 and the band core inductance that described inductance l2 is same core；

Described inductance l3, described inductance l4, inductance l5, inductance l6 and the band core inductance that inductance l7 is same core；

The source electrode of described n-channel mos pipe q1 is connected at the j3 of port, and its grid is connected to port out3；

The positive pole of the negative pole, the negative pole of light emitting diode d2 and diode d4 of described electrochemical capacitor c5 connects equipotential voltage.

Further, described power circuit includes resistance r6, resistance r7, resistance r8, electric capacity c10, electrochemical capacitor c11, two poles Pipe d9 and stabilivolt d10；Described resistance r6 and resistance r7 series connection, the other end of described resistance r7 connect resistance r8, electric capacity c10 and The negative pole of diode d9, the other end of described resistance r8 connects positive pole, the negative pole of stabilivolt d10 and the power supply of electrochemical capacitor c11 Vcc, another termination of the negative pole of described electrochemical capacitor c11, the positive pole of stabilivolt d10, the positive pole of diode d9 and electric capacity c10 Ground, the other end of described resistance r6 connects to port hv.

Further, described oscillating circuit includes resistance r9, resistance r10, resistance r11, resistance r12, resistance r13, resistance R14, resistance r15, resistance r16, resistance r17, electric capacity c12, electrochemical capacitor c13, electric capacity c14, electric capacity c15, electric capacity c16, vibration Chip ic1 and opto-coupler chip ic2；

Described vibration chip ic1 is provided with 8 ports, and its port 1 is connected with described resistance r11, its port 2 and described resistance R17, resistance r15 connect, and are connected with the other end of described resistance r11, and its port 3 is respectively with electric capacity c16 and resistance r14 even Connect, its port 4 is connected with described resistance r13 and electric capacity c15, the other end of its port 5 and described resistance r13 and described electric capacity C14 connects, and its port 6 is connected with the positive pole of described resistance r10, electric capacity c12 and described electrochemical capacitor c13, its port 7 with described Resistance r12 connection, its port 8 and described electrochemical capacitor c13, electric capacity c12, the other end of electric capacity c16, electric capacity c15 and electric capacity c14 Connect；

Described resistance r10 is connected with described r9, another termination+300v voltage of described resistance r9；

The other end connectivity port out3 of described resistance r12；

The other end connectivity port j3 of described resistance r14；

The other end connectivity port hv of described resistance r17；

Described opto-coupler chip ic2 is provided with 4 ports, and its port 1 is connected with described resistance r16, and described resistance r16's is another End is connected with port powcont；Its port 2 is grounded；Its port 3 is connected with the other end of described resistance r15, its port 4 and institute The port 8 stating vibration chip ic1 connects.

Further, described sequence control module includes fuse f1, resistance r21, electric capacity c19, diode d11, diode D22, diode d13, diode d14, electrochemical capacitor c20, resistance r22, electric capacity c21, diode d15, power supply chip ic4, electricity Solution electric capacity c22, electric capacity c23, switching mode power supply transformer t1, diode d16, resistance r23, band core inductance l10, electric capacity c24, light Coupling chip ic6, diode d17, electrochemical capacitor c25, electric capacity c26, resistance r24, inductance c27, chip ic5, electric capacity c29, electric capacity C30, chip ic7, resistance r28, resistance r29, resistance r30, resistance r31, resistance r32, resistance r25, resistance r26, electric capacity c28, Resistance r27 and audion q2；

One end of described fuse f1 connects alternating current, the other end described resistance r21 together and electric capacity in parallel C19 connects the positive pole of negative pole to described diode d14 and diode d11, and the positive pole also with described diode d12 for the other end Connect with the negative pole of diode d13, the negative pole of described diode d14 and the positive pole of diode d11 are also another with alternating current power supply End connects, and the positive pole of described diode d13 and d14 is connected with the negative pole of described electrochemical capacitor c20, and is grounded, described diode The negative pole of d11 and d12 is connected with the positive pole of described electrochemical capacitor c20, and the positive pole of described electrochemical capacitor c20 is also by being connected in parallel on one The described resistance r22 rising and electric capacity c21 connects to the negative pole of described diode d15, and the positive pole of described diode d15 is by described Switching mode power supply transformer t1 is connected with the negative pole of described diode d11 and d12；The port 5,6,7 and 8 of described power supply chip ic4 All it is connected with the positive pole of described diode d15, its port 1 and 2 is grounded, its port 3 and described electric capacity c23 and opto-coupler chip ic6 Port 4 connect, the other end of described electric capacity c23 is connected with the negative pole of described electrochemical capacitor c22, and is grounded, its port 4 and institute The negative pole of the positive pole and diode d16 of stating electrochemical capacitor c22 connects, and its port 4 is also by resistance r23 and described opto-coupler chip The port 6 of ic6 connects, and the positive pole of described diode d16 is connected with described inductance c24 by described band core inductance l10, described The two ends of inductance c24 are all grounded；The port 1 of described opto-coupler chip ic6 is connected with one end of resistance r25, its port 3 and described three The colelctor electrode of pole pipe q2 connects, the grounded emitter of described audion q2, and by described resistance r27 and described audion q2's Base stage connects, and one end of described electric capacity c28 is connected with the base stage of described audion q2, the current collection of the other end and described audion q2 Pole connects, and one end of described resistance r26 is connected with the base stage of described audion q2, the other end of the other end and described resistance r25 Connect with resistance r32, the other end of described resistance r25 is also connected with the negative pole of described diode d17 and the positive pole of electrochemical capacitor c25 Connect, the positive pole of described diode d17 is connected with the negative pole of described electrochemical capacitor c25 by described switch transformer t1, described electricity The minus earth of solution electric capacity c25, the negative pole of described diode d17 is by the vin end of described resistance r24 and described chip ic5 even Connect, the negative pole of described electrochemical capacitor c25 is also parallel with described electric capacity c26 and c27, and the other end of described electric capacity c26 and c27 is respectively Connect to the two ends of described resistance r24, the gnd end ground connection of described chip ic5, the vout end of described chip ic5 is in parallel Described electric capacity c29 and c30 ground connection, and being also connected with the port 1 of chip ic7 and port 4, the port 2 of described chip ic7 by with Described resistance r31 is connected with the port 1 of output p1, and the end of described resistance r30 and output p1 is passed through in the port 3 of described chip ic7 Mouth 2 connection, the port 5 of described chip ic7 is passed through described resistance r28 and is connected with the port 5 of output p1, the port of described output p1 4 ground connection, the other end of described resistance r32 is connected with the port 1 of output p2, and the port 2 of described output p2 is grounded.

Further, the ignition frequency of described fluorescent tube module is 2 hertz.

The beneficial effects of the utility model are: this programme adopts an electric power driving module to drive multiple pulse fluorescent tubes, subtracts Lack the use of electric power driving module, reduced cost, and many fluorescent tubes have been lighted this in order and also substantially prolongs pulse fluorescent tube Service life.

Brief description

Fig. 1 is this utility model overall structure block diagram.

Fig. 2 is electric power driving module structured flowchart.

Fig. 3 is charging circuit configuration figure.

Fig. 4 is circuit construction of electric power figure.

Fig. 5 is oscillating circuit structure chart.

Fig. 6 is the circuit structure diagram of sequence control module.

Specific embodiment

Below in conjunction with accompanying drawing, this utility model is described further.

As shown in figure 1, this utility model is a kind of pulse strong-light device of many fluorescent tubes sequential illumination, including several fluorescent tubes Module 01, electric power driving module 02, some trigger modules 03 and sequence control module 04；Wherein, several fluorescent tube module 01 phases Mutually it is connected in parallel, is carried in the outfan of electric power driving module 02, electric power driving module 02 can provide for fluorescent tube module 01 Light required suitable voltage, several trigger modules 03 and the triggering end of several fluorescent tube modules 01 connect one to one, use In providing one to be used for the trigger lighted for several fluorescent tube modules；The outfan of sequence control module 04 is touched with several Send out module 03 to connect one to one, it provides ignition frequency signal for several trigger modules 03.

As shown in Fig. 2 electric power driving module 02 includes charging circuit 021, oscillating circuit 023 and power circuit 022, described Charging circuit 021 includes the first current rectifying and wave filtering circuit 0211, the second current rectifying and wave filtering circuit 0213 and booster circuit 0212；Wherein, The input of the first current rectifying and wave filtering circuit 0211 is connected with alternating current power supply, and its outfan exports a d. c. voltage signal；Power supply Described d. c. voltage signal is converted into a high-frequency oscillation voltage signal, described booster circuit by circuit 022 and oscillating circuit 023 0212 is connected with oscillating circuit 023, and described high-frequency oscillation voltage signal is boosted, and described second current rectifying and wave filtering circuit 0213 will High-frequency oscillation voltage signal after boosting, after rectifying and wave-filtering, exports a high-voltage pulse direct current signal, and is loaded onto described lamp The two ends of tube module 01.

As shown in figure 3, charging circuit 021 includes resistance r1, resistance r2, resistance r3, resistance r4, resistance r5, resistance r6, electricity Hold c1, electric capacity c2, electric capacity c3, electric capacity c4, electrochemical capacitor c5, electric capacity c6, electric capacity c7, electric capacity c8, electric capacity c9, inductance l1, inductance L2, inductance l3, inductance l4, inductance l5, inductance l6, inductance l7, bridge rectifier diode d1, light emitting diode d2, diode d3, Diode d4, diode d5, diode d6, diode d7, diode d8 and n-channel mos pipe q1；

One end of described resistance r1 connects alternating current power supply, and its other end connects one end of electric capacity c1 and one end of inductance l1, The other end of described inductance l1 connects electric capacity c2, electric capacity c4 and bridge rectifier diode d1 respectively；

One end of inductance l2 connects alternating current power supply, and its other end connects electric capacity c3, electric capacity c4 and bridge rectifier diode d1, The other end of described electric capacity c3 is connected with the other end of described electric capacity c2；

One end of inductance l3 connects described bridge rectifier diode d1, the positive pole of electrochemical capacitor c5 and electric capacity c6, inductance l3 The other end connect the drain electrode of n-channel mos pipe q1, the source electrode of described n-channel mos pipe q1 connects resistance r3, and its grid connects electricity One end of resistance r2, the other end of described resistance r2 connects the positive pole of described light emitting diode d2, and described light emitting diode d2's is negative Pole connects the other end of described resistance r3 and one end of electric capacity c7, the other end ground connection of described electric capacity c7 respectively；

The other end of the negative pole of described electrochemical capacitor c5 and electric capacity c6 is simultaneously connected on described bridge rectifier diode；

Described inductance l4, inductance l5, inductance l6 and inductance l7 are cascaded successively from beginning to end, the other end of described inductance l4 Connect the positive pole of described diode d8, the negative pole of described diode d8 connects the positive pole of described diode d7, described diode d7 Negative pole connect one end of outfan out1 and electric capacity c9, the other end of electric capacity c9 connects described electric capacity c8, described diode d5 Negative pole, and the other end of electric capacity c9 is also connected with the connection end of described inductance l4 and inductance l5, and the other end of described electric capacity c8 is even Meet outfan out2；

The connection end of described inductance l4 and inductance l5 connects the positive pole of described diode d6, the negative pole of described diode d6 with The positive pole of described diode d5 connects；

Described inductance l5 is connected the other end of electric capacity c8 with the junction of inductance l6, and is grounded；

Described inductance l6 is connected the positive pole of described diode d4 with the junction of inductance l7, and its negative pole connects described resistance r4 One end, the other end of described resistance r4 connects power supply vcc；

The other end of described inductance l7 connects the positive pole of described diode d3, and its negative pole connects resistance r5, described resistance r5 The other end add 13v voltage.

Described inductance l1 and the band core inductance that described inductance l2 is same core；

Described inductance l3, described inductance l4, inductance l5, inductance l6 and the band core inductance that inductance l7 is same core；

The source electrode of described n-channel mos pipe q1 is connected at the j3 of port, and its grid is connected to port out3；

The positive pole of the negative pole, the negative pole of light emitting diode d2 and diode d4 of described electrochemical capacitor c5 connects equipotential voltage.

As shown in figure 4, power circuit 022 include resistance r6, resistance r7, resistance r8, electric capacity c10, electrochemical capacitor c11, two Pole pipe d9 and stabilivolt d10；Described resistance r6 and resistance r7 series connection, the other end of described resistance r7 connects resistance r8, electric capacity c10 With the negative pole of diode d9, the positive pole of other end connection electrochemical capacitor c11 of described resistance r8, the negative pole of stabilivolt d10 and electricity Source vcc, another termination of the negative pole of described electrochemical capacitor c11, the positive pole of stabilivolt d10, the positive pole of diode d9 and electric capacity c10 Ground, the other end of described resistance r6 connects to port hv.

As shown in figure 5, oscillating circuit 023 includes resistance r9, resistance r10, resistance r11, resistance r12, resistance r13, resistance R14, resistance r15, resistance r16, resistance r17, electric capacity c12, electrochemical capacitor c13, electric capacity c14, electric capacity c15, electric capacity c16, vibration Chip ic1 and opto-coupler chip ic2；

Described vibration chip ic1 is provided with 8 ports, and its port 1 is connected with described resistance r11, its port 2 and described resistance R17, resistance r15 connect, and are connected with the other end of described resistance r11, and its port 3 is respectively with electric capacity c16 and resistance r14 even Connect, its port 4 is connected with described resistance r13 and electric capacity c15, the other end of its port 5 and described resistance r13 and described electric capacity C14 connects, and its port 6 is connected with the positive pole of described resistance r10, electric capacity c12 and described electrochemical capacitor c13, its port 7 with described Resistance r12 connection, its port 8 and described electrochemical capacitor c13, electric capacity c12, the other end of electric capacity c16, electric capacity c15 and electric capacity c14 Connect；

Described resistance r10 is connected with described r9, another termination+300v voltage of described resistance r9；

The other end connectivity port out3 of described resistance r12；

The other end connectivity port j3 of described resistance r14；

The other end connectivity port hv of described resistance r17；

Described opto-coupler chip ic2 is provided with 4 ports, and its port 1 is connected with described resistance r16, and described resistance r16's is another End is connected with port powcont；Its port 2 is grounded；Its port 3 is connected with the other end of described resistance r15, its port 4 and institute The port 8 stating vibration chip ic1 connects.

As shown in fig. 6, sequence control module 04 includes fuse f1, resistance r21, electric capacity c19, diode d11, diode D22, diode d13, diode d14, electrochemical capacitor c20, resistance r22, electric capacity c21, diode d15, power supply chip ic4, electricity Solution electric capacity c22, electric capacity c23, switching mode power supply transformer t1, diode d16, resistance r23, band core inductance l10, electric capacity c24, light Coupling chip ic6, diode d17, electrochemical capacitor c25, electric capacity c26, resistance r24, inductance c27, chip ic5, electric capacity c29, electric capacity C30, chip ic7, resistance r28, resistance r29, resistance r30, resistance r31, resistance r32, resistance r25, resistance r26, electric capacity c28, Resistance r27 and audion q2；

One end of described fuse f1 connects alternating current, the other end described resistance r21 together and electric capacity in parallel C19 connects the positive pole of negative pole to described diode d14 and diode d11, and the positive pole also with described diode d12 for the other end Connect with the negative pole of diode d13, the negative pole of described diode d14 and the positive pole of diode d11 are also another with alternating current power supply End connects, and the positive pole of described diode d13 and d14 is connected with the negative pole of described electrochemical capacitor c20, and is grounded, described diode The negative pole of d11 and d12 is connected with the positive pole of described electrochemical capacitor c20, and the positive pole of described electrochemical capacitor c20 is also by being connected in parallel on one The described resistance r22 rising and electric capacity c21 connects to the negative pole of described diode d15, and the positive pole of described diode d15 is by described Switching mode power supply transformer t1 is connected with the negative pole of described diode d11 and d12；The port 5,6,7 and 8 of described power supply chip ic4 All it is connected with the positive pole of described diode d15, its port 1 and 2 is grounded, its port 3 and described electric capacity c23 and opto-coupler chip ic6 Port 4 connect, the other end of described electric capacity c23 is connected with the negative pole of described electrochemical capacitor c22, and is grounded, its port 4 and institute The negative pole of the positive pole and diode d16 of stating electrochemical capacitor c22 connects, and its port 4 is also by resistance r23 and described opto-coupler chip The port 6 of ic6 connects, and the positive pole of described diode d16 is connected with described inductance c24 by described band core inductance l10, described The two ends of inductance c24 are all grounded；The port 1 of described opto-coupler chip ic6 is connected with one end of resistance r25, its port 3 and described three The colelctor electrode of pole pipe q2 connects, the grounded emitter of described audion q2, and by described resistance r27 and described audion q2's Base stage connects, and one end of described electric capacity c28 is connected with the base stage of described audion q2, the current collection of the other end and described audion q2 Pole connects, and one end of described resistance r26 is connected with the base stage of described audion q2, the other end of the other end and described resistance r25 Connect with resistance r32, the other end of described resistance r25 is also connected with the negative pole of described diode d17 and the positive pole of electrochemical capacitor c25 Connect, the positive pole of described diode d17 is connected with the negative pole of described electrochemical capacitor c25 by described switch transformer t1, described electricity The minus earth of solution electric capacity c25, the negative pole of described diode d17 is by the vin end of described resistance r24 and described chip ic5 even Connect, the negative pole of described electrochemical capacitor c25 is also parallel with described electric capacity c26 and c27, and the other end of described electric capacity c26 and c27 is respectively Connect to the two ends of described resistance r24, the gnd end ground connection of described chip ic5, the vout end of described chip ic5 is in parallel Described electric capacity c29 and c30 ground connection, and being also connected with the port 1 of chip ic7 and port 4, the port 2 of described chip ic7 by with Described resistance r31 is connected with the port 1 of output p1, and the end of described resistance r30 and output p1 is passed through in the port 3 of described chip ic7 Mouth 2 connection, the port 5 of described chip ic7 is passed through described resistance r28 and is connected with the port 5 of output p1, the port of described output p1 4 ground connection, the other end of described resistance r32 is connected with the port 1 of output p2, and the port 2 of described output p2 is grounded.

Operation principle of the present utility model is as follows: electric power driving module 02 provides a suitable pulse for fluorescent tube module 01 Voltage, and fluorescent tube module 01 just can be lighted only when receiving the trigger of trigger module 03, and the time lighted have suitable Sequence control module 04 determines, sequence control module 04 can send a frequency signal lighted to trigger module 03, specifically real During applying, find through a large amount of tests of research staff, the ignition frequency of fluorescent tube module 01 is optimal in 2 hertz, this Sample neither affect sterilization etc. using effect, can make again fluorescent tube have time enough radiate, thus reach one preferably flat Weighing apparatus point, makes the service life of fluorescent tube obtain greatly extending.

Additionally, use only an electric power driving module in this utility model, but can drive multiple fluorescent tube modules simultaneously 01, this greatly reduces with respect to traditional pulse strong-light device, use cost, because in whole pulse strong-light device, electricity The cost of source drive module occupies the overwhelming majority of totle drilling cost, and fluorescent tube module is in fact relatively inexpensive.And traditional pulse is strong Electro-optical device can only drive a fluorescent tube module by an electric power driving module, in use, generally requires multiple electric power driving modules, because And relatively costly, and it is big to take up room, line is numerous and diverse.And this utility model thoroughly overcomes these problems.

Of the present utility model ultimate principle and principal character and of the present utility model advantage have been shown and described above.One's own profession The technical staff of industry it should be appreciated that this utility model is not restricted to the described embodiments, described in above-described embodiment and description Principle of the present utility model is simply described, on the premise of without departing from this utility model spirit and scope, this utility model is also Have various changes and modifications, these changes and improvements both fall within the range of claimed this utility model.This utility model Claimed scope is by appending claims and its equivalent thereof.

Claims (7)

1. a kind of pulse strong-light device of many fluorescent tubes sequential illumination is it is characterised in that include

Several fluorescent tube modules；

Electric power driving module, it is that required suitable voltage, several fluorescent tubes described are lighted in described several fluorescent tube modules output Wired in parallel is in the outfan of described electric power driving module；

Several trigger modules, it is that described several fluorescent tube modules convey a trigger being used for lighting, and with described The triggering end of several fluorescent tube modules connects one to one；And

Sequence control module, it is that frequency signal is lighted in the conveying of described several trigger modules, and outfan with described several Trigger module connects one to one.

2. as claimed in claim 1 a kind of pulse strong-light device of many fluorescent tubes sequential illumination it is characterised in that described power supply drive Dynamic model block includes charging circuit, oscillating circuit and power circuit, and described charging circuit includes the first current rectifying and wave filtering circuit, second whole Stream filter circuit and booster circuit；The input of described first current rectifying and wave filtering circuit is connected with alternating current power supply, and its outfan exports One d. c. voltage signal, described d. c. voltage signal is converted into a high-frequency oscillation voltage by described power circuit and oscillating circuit Signal, described booster circuit is connected with described oscillating circuit, and described high-frequency oscillation voltage signal is boosted, described second rectification High-frequency oscillation voltage signal after boosting after rectifying and wave-filtering, is exported a high-voltage pulse direct current signal by filter circuit, and plus It is loaded onto the two ends of described fluorescent tube module.

3. as claimed in claim 2 a kind of pulse strong-light device of many fluorescent tubes sequential illumination it is characterised in that described charging is electric Road includes: resistance r1, resistance r2, resistance r3, resistance r4, resistance r5, resistance r6, electric capacity c1, electric capacity c2, electric capacity c3, electric capacity c4, Electrochemical capacitor c5, electric capacity c6, electric capacity c7, electric capacity c8, electric capacity c9, inductance l1, inductance l2, inductance l3, inductance l4, inductance l5, electricity Sense l6, inductance l7, bridge rectifier diode d1, light emitting diode d2, diode d3, diode d4, diode d5, diode D6, diode d7, diode d8 and n-channel mos pipe q1；

One end of described resistance r1 connects alternating current power supply, and its other end connects one end of electric capacity c1 and one end of inductance l1, described The other end of inductance l1 connects electric capacity c2, electric capacity c4 and bridge rectifier diode d1 respectively；

One end of inductance l2 connects alternating current power supply, and its other end connects electric capacity c3, electric capacity c4 and bridge rectifier diode d1, described The other end of electric capacity c3 is connected with the other end of described electric capacity c2；

One end of inductance l3 connects described bridge rectifier diode d1, the positive pole of electrochemical capacitor c5 and electric capacity c6, and inductance l3's is another One end connects the drain electrode of n-channel mos pipe q1, and the source electrode of described n-channel mos pipe q1 connects resistance r3, and its grid connects resistance r2 One end, the other end of described resistance r2 connects the positive pole of described light emitting diode d2, and the negative pole of described light emitting diode d2 divides Do not connect the other end of described resistance r3 and one end of electric capacity c7, the other end ground connection of described electric capacity c7；

The other end of the negative pole of described electrochemical capacitor c5 and electric capacity c6 is simultaneously connected on described bridge rectifier diode；

Described inductance l4, inductance l5, inductance l6 and inductance l7 are cascaded successively from beginning to end, and the other end of described inductance l4 connects The positive pole of described diode d8, the negative pole of described diode d8 connects the positive pole of described diode d7, and described diode d7's is negative Pole connects one end of outfan out1 and electric capacity c9, the other end of electric capacity c9 connect described electric capacity c8, described diode d5 negative Pole, and the other end of electric capacity c9 is also connected with the connection end of described inductance l4 and inductance l5, the other end connection of described electric capacity c8 is defeated Go out to hold out2；

The connection end of described inductance l4 and inductance l5 connects the positive pole of described diode d6, the negative pole of described diode d6 with described The positive pole of diode d5 connects；

Described inductance l5 is connected the other end of electric capacity c8 with the junction of inductance l6, and is grounded；

Described inductance l6 is connected the positive pole of described diode d4 with the junction of inductance l7, and its negative pole connects the one of described resistance r4 End, the other end of described resistance r4 connects power supply vcc；

The other end of described inductance l7 connects the positive pole of described diode d3, and its negative pole connects resistance r5, and described resistance r5's is another One end adds 13v voltage；

Described inductance l1 and the band core inductance that described inductance l2 is same core；

Described inductance l3, described inductance l4, inductance l5, inductance l6 and the band core inductance that inductance l7 is same core；

The source electrode of described n-channel mos pipe q1 is connected at the j3 of port, and its grid is connected to port out3；

The positive pole of the negative pole, the negative pole of light emitting diode d2 and diode d4 of described electrochemical capacitor c5 connects equipotential voltage.

4. as claimed in claim 2 a kind of pulse strong-light device of many fluorescent tubes sequential illumination it is characterised in that described power supply is electric Road includes resistance r6, resistance r7, resistance r8, electric capacity c10, electrochemical capacitor c11, diode d9 and stabilivolt d10；Described resistance r6 With resistance r7 series connection, the other end connection resistance r8 of described resistance r7, the negative pole of electric capacity c10 and diode d9, described resistance r8 The other end connect the positive pole of electrochemical capacitor c11, the negative pole of stabilivolt d10 and power supply vcc, the negative pole of described electrochemical capacitor c11, The other end ground connection of the positive pole of stabilivolt d10, the positive pole of diode d9 and electric capacity c10, the other end of described resistance r6 connect to Port hv.

5. as claimed in claim 2 a kind of pulse strong-light device of many fluorescent tubes sequential illumination it is characterised in that described vibration is electric Road include resistance r9, resistance r10, resistance r11, resistance r12, resistance r13, resistance r14, resistance r15, resistance r16, resistance r17, Electric capacity c12, electrochemical capacitor c13, electric capacity c14, electric capacity c15, electric capacity c16, vibration chip ic1 and opto-coupler chip ic2；

Described vibration chip ic1 is provided with 8 ports, and its port 1 is connected with described resistance r11, its port 2 and described resistance r17, Resistance r15 connects, and is connected with the other end of described resistance r11, and its port 3 is connected with electric capacity c16 and resistance r14 respectively, its Port 4 is connected with described resistance r13 and electric capacity c15, and its port 5 is connected with the other end of described resistance r13 and described electric capacity c14 Connect, its port 6 is connected with the positive pole of described resistance r10, electric capacity c12 and described electrochemical capacitor c13, its port 7 and described resistance R12 connects, and its port 8 is connected with the other end of described electrochemical capacitor c13, electric capacity c12, electric capacity c16, electric capacity c15 and electric capacity c14 Connect；

Described resistance r10 is connected with described r9, another termination+300v voltage of described resistance r9；

The other end connectivity port out3 of described resistance r12；

The other end connectivity port j3 of described resistance r14；

The other end connectivity port hv of described resistance r17；

Described opto-coupler chip ic2 is provided with 4 ports, and its port 1 is connected with described resistance r16, the other end of described resistance r16 with Port powcont connects；Its port 2 is grounded；Its port 3 is connected with the other end of described resistance r15, and its port 4 is shaken with described The port 8 swinging chip ic1 connects.

6. as claimed in claim 1 a kind of pulse strong-light device of many fluorescent tubes sequential illumination it is characterised in that described order control Molding block includes fuse f1, resistance r21, electric capacity c19, diode d11, diode d22, diode d13, diode d14, electricity Solution electric capacity c20, resistance r22, electric capacity c21, diode d15, power supply chip ic4, electrochemical capacitor c22, electric capacity c23, Switching Power Supply Transformator t1, diode d16, resistance r23, band core inductance l10, electric capacity c24, opto-coupler chip ic6, diode d17, electrolysis electricity Hold c25, electric capacity c26, resistance r24, inductance c27, chip ic5, electric capacity c29, electric capacity c30, chip ic7, resistance r28, resistance R29, resistance r30, resistance r31, resistance r32, resistance r25, resistance r26, electric capacity c28, resistance r27 and audion q2；

One end of described fuse f1 connects alternating current, and described resistance r21 together and electric capacity c19 connects the other end in parallel It is connected to the negative pole of described diode d14 and the positive pole of diode d11, and the positive pole and two also with described diode d12 for the other end The negative pole of pole pipe d13 connects, and the negative pole of described diode d14 and the positive pole of diode d11 are also connected with the other end of alternating current power supply Connect, the positive pole of described diode d13 and d14 is connected with the negative pole of described electrochemical capacitor c20, and be grounded, described diode d11 and The negative pole of d12 is connected with the positive pole of described electrochemical capacitor c20, and the positive pole of described electrochemical capacitor c20 is also by being connected in parallel Described resistance r22 and electric capacity c21 connects to the negative pole of described diode d15, and the positive pole of described diode d15 passes through described switch Mains transformer t1 is connected with the negative pole of described diode d11 and d12；The port 5,6,7 and 8 of described power supply chip ic4 all with The positive pole of described diode d15 connects, and its port 1 and 2 is grounded, the end of its port 3 and described electric capacity c23 and opto-coupler chip ic6 Mouthfuls 4 connections, the other end of described electric capacity c23 is connected with the negative pole of described electrochemical capacitor c22, and ground connection, its port 4 and described electricity The negative pole of the positive pole of solution electric capacity c22 and diode d16 connects, and its port 4 is also by resistance r23 and described opto-coupler chip ic6's Port 6 connects, and the positive pole of described diode d16 is connected with described inductance c24 by described band core inductance l10, described inductance The two ends of c24 are all grounded；The port 1 of described opto-coupler chip ic6 is connected with one end of resistance r25, its port 3 and described audion The colelctor electrode of q2 connects, the grounded emitter of described audion q2, and the base stage by described resistance r27 and described audion q2 Connect, one end of described electric capacity c28 is connected with the base stage of described audion q2, the other end is connected with the colelctor electrode of described audion q2 Connect, one end of described resistance r26 is connected with the base stage of described audion q2, the other end of the other end and described resistance r25 and electricity Resistance r32 connects, and the other end of described resistance r25 is also connected with the negative pole of described diode d17 and the positive pole of electrochemical capacitor c25, The positive pole of described diode d17 is connected with the negative pole of described electrochemical capacitor c25 by described switch transformer t1, described electrolysis electricity Hold the minus earth of c25, the negative pole of described diode d17 is connected with the vin end of described chip ic5 by described resistance r24, institute The negative pole stating electrochemical capacitor c25 is also parallel with described electric capacity c26 and c27, and the other end of described electric capacity c26 and c27 connects respectively To the two ends of described resistance r24, the gnd end ground connection of described chip ic5, the vout end of described chip ic5 in parallel described Electric capacity c29 and c30 is grounded, and is also connected with the port 1 of chip ic7 and port 4, the port 2 of described chip ic7 by with described Resistance r31 is connected with the port 1 of output p1, and the port 3 of described chip ic7 is passed through described resistance r30 and connected with the port 2 of output p1 Connect, the port 5 of described chip ic7 is passed through described resistance r28 and is connected with the port 5 of output p1, and the port 4 of described output p1 connects Ground, the other end of described resistance r32 is connected with the port 1 of output p2, and the port 2 of described output p2 is grounded.

7. as claimed in claim 2 a kind of pulse strong-light device of many fluorescent tubes sequential illumination it is characterised in that described fluorescent tube mould The ignition frequency of block is 2 hertz.