CN106061086B - A kind of pulse strong-light device of more fluorescent tube sequential illuminations - Google Patents
A kind of pulse strong-light device of more fluorescent tube sequential illuminations Download PDFInfo
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- CN106061086B CN106061086B CN201610575628.3A CN201610575628A CN106061086B CN 106061086 B CN106061086 B CN 106061086B CN 201610575628 A CN201610575628 A CN 201610575628A CN 106061086 B CN106061086 B CN 106061086B
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B41/00—Circuit arrangements or apparatus for igniting or operating discharge lamps
- H05B41/14—Circuit arrangements
- H05B41/30—Circuit arrangements in which the lamp is fed by pulses, e.g. flash lamp
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Abstract
The invention discloses a kind of pulse strong-light devices of more fluorescent tube sequential illuminations, it is characterized in that, including several fluorescent tube modules, electric power driving module, several trigger modules and sequence control module, several fluorescent tube modules are connected in parallel on the output end of the electric power driving module, several trigger modules connect one to one with several fluorescent tube modules, and the output end of the sequence control module connects one to one with several fluorescent tube modules.This programme drives multiple pulse fluorescent tubes using an electric power driving module, reduces the use of electric power driving module, reduces cost, and more fluorescent tubes light the service life that this also substantially prolongs pulse fluorescent tube in order.
Description
Technical field
The present invention relates to pulse strong-light technical field, more particularly to a kind of pulse strong-light device of more fluorescent tube sequential illuminations.
Background technology
Pulse strong-light technology is a kind of pulse engineering technology that utilization sparks and special inert gas fluorescent tube, with arteries and veins
The form of punching excites strong white light, spatial distribution approximation sunlight, and luminous intensity, which is equivalent to, reaches earth surface sunlight intensity
A kind of thousands of or even tens thousand of times of light source technology advanced in the world.It is killed all kinds of using instantaneous, high intensity pulsed light energy
Microorganism, the shortcomings that compensate for traditional thermal sterilization, chemical sterilization.
Traditional pulse strong-light device is made of an electric power driving module and a flashlight.In actual use, it needs
It wants multiple traditional pulse hard light devices to combine and can be only achieved ideal effect.However due to the cost of drive module compared with
Height concentrates in together so as to cause the very high and traditional pulse strong-light device of the use cost of entire pulse strong-light device,
Not only heat dissipation capacity is big, but also service life is shorter, this more causes the use cost of entire pulse strong-light device.
Invention content
It is high for traditional pulse strong-light device use cost, the defects of service life is short, the purpose of the present invention is to propose to
A kind of pulse strong-light device of more fluorescent tube sequential illuminations uses an electric power driving module while driving multiple pulse fluorescent tubes,
And pulse fluorescent tube is lighted by assigned frequency, to solve the above problems.
The technical solution adopted by the present invention to solve the technical problems is:
A kind of pulse strong-light device of more fluorescent tube sequential illuminations, including
Several fluorescent tube modules;
Electric power driving module provides for several described fluorescent tube modules and lights required suitable voltage, it is described several
Fluorescent tube module is connected in parallel on the output end of the electric power driving module;
Several trigger modules provide a trigger signal for lighting for several described fluorescent tube modules, and with
The triggering end of several fluorescent tube modules connects one to one;And
Sequence control module provides ignition frequency signal for several described trigger modules, and if output end with it is described
A dry trigger module connects one to one.
Further, the electric power driving module includes charging circuit, oscillating circuit and power circuit, the charging circuit packet
Include the first current rectifying and wave filtering circuit, the second current rectifying and wave filtering circuit and booster circuit;The input terminal of first current rectifying and wave filtering circuit with
AC power connects, and output end exports a d. c. voltage signal, the power circuit and oscillating circuit by the direct current
Pressure signal is converted into a high-frequency oscillation voltage signal, and the booster circuit is connect with the oscillating circuit, and by the high frequency vibrating
Swing voltage signal boosting, second current rectifying and wave filtering circuit by the high-frequency oscillation voltage signal after boosting after rectifying and wave-filtering,
A high-voltage pulse direct current signal is exported, and is loaded onto the both ends of the fluorescent tube module.
Further, the charging circuit includes:Resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, capacitance C1, electricity
Hold C2, capacitance C3, capacitance C4, electrolytic capacitor C5, capacitance C6, capacitance C7, capacitance C8, capacitance 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 the resistance R1 connects AC power, and the other end connects one end of one end and inductance L1 of capacitance C1,
The other end of the inductance L1 is separately connected capacitance C2, capacitance C4 and bridge rectifier diode D1;
One end of inductance L2 connects AC power, and the other end connects capacitance C3, capacitance C4 and bridge rectifier diode D1,
The other end of the capacitance C3 is connect with the other end of the capacitance C2;
One end of inductance L3 connects the bridge rectifier diode D1, the anode of electrolytic capacitor C5 and capacitance C6, inductance L3
Other end connection N-channel MOS pipe Q1 drain electrode, the source electrode of the N-channel MOS pipe Q1 connects resistance R3, grid connection electricity
One end of R2 is hindered, the other end of the resistance R2 connects the anode of the light emitting diode D2, and the light emitting diode D2's is negative
Pole is separately connected one end of the other end and capacitance C7 of the resistance R3, the other end ground connection of the capacitance C7;
The cathode of the electrolytic capacitor C5 and the other end of capacitance C6 are simultaneously connected on the bridge rectifier diode;
The inductance L4, inductance L5, inductance L6 and inductance L7 are cascaded from beginning to end successively, the other end of the inductance L4
The anode of the diode D8 is connected, the cathode of the diode D8 connects the anode of the diode D7, the diode D7
Cathode connection output end OUT1 and capacitance C9 one end, the other end of capacitance C9 connects the capacitance C8, the diode D5
Cathode, and the other end of capacitance C9 is also connected with the connecting pin of the inductance L4 and inductance L5, and the other end of the capacitance C8 connects
Meet output end OUT2;
The inductance L4 connects the anode of the diode D6 with the connecting pin of inductance L5, the cathode of the diode D6 with
The anode connection of the diode D5;
The inductance L5 connect the other end of capacitance C8 with the junction of inductance L6, and is grounded;
The inductance L6 connect the anode of the diode D4 with the junction of inductance L7, and cathode connects the resistance R4
One end, the other end connection power supply VCC of the resistance R4;
The other end of the inductance L7 connects the anode of the diode D3, and cathode connects resistance R5, the resistance R5
The other end add 13V voltages.
The inductance L1 and inductance L2 is the band core inductance of same core;
The inductance L3, the inductance L4, inductance L5, inductance L6 and inductance L7 are the band core inductance of same core;
The source electrode of the N-channel MOS pipe Q1 is connected at the J3 of port, and grid is connected to port OUT3;
The anode of the cathode of the electrolytic capacitor C5, the cathode of light emitting diode D2 and diode D4 connects equipotential voltage.
Further, the power circuit includes resistance R6, resistance R7, resistance R8, capacitance C10, electrolytic capacitor C11, two poles
Pipe D9 and voltage-stabiliser tube D10;The resistance R6 and resistance R7 series connection, other end connection resistance R8, the capacitance C10 of the resistance R7 and
The cathode of diode D9, the anode of the other end connection electrolytic capacitor C11 of the resistance R8, the cathode and power supply of voltage-stabiliser tube D10
VCC, the cathode of the electrolytic capacitor C11, the anode of voltage-stabiliser tube D10, the anode of diode D9 and capacitance C10 another termination
The other end on ground, the resistance R6 is connected to port HV.
Further, the oscillating circuit includes resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, resistance
R14, resistance R15, resistance R16, resistance R17, capacitance C12, electrolytic capacitor C13, capacitance C14, capacitance C15, capacitance C16, oscillation
Chip IC 1 and opto-coupler chip IC2;
The oscillation chip IC 1 is equipped with 8 ports, and port 1 is connect with the resistance R11, port 2 and the resistance
R17, resistance R15 connections, and connect with the other end of the resistance R11, port 3 connects with capacitance C16 and resistance R14 respectively
It connects, port 4 is connect with the resistance R13 and capacitance C15, the other end and the capacitance of the port 5 and resistance R13
The anode of C14 connections, port 6 and the resistance R10, capacitance C12 and the electrolytic capacitor C13 are connect, port 7 with it is described
The other end of resistance R12 connections, port 8 and the electrolytic capacitor C13, capacitance C12, capacitance C16, capacitance C15 and capacitance C14
Connection;
The resistance R10 is connect with the R9, another termination+300V voltages of the resistance R9;
The other end connectivity port OUT3 of the resistance R12;
The other end connectivity port J3 of the resistance R14;
The other end connectivity port HV of the resistance R17;
The opto-coupler chip IC2 is equipped with 4 ports, and port 1 is connect with the resistance R16, and the resistance R16's is another
End is connect with port PO WCONT;Its port 2 is grounded;Its port 3 is connect with the other end of the resistance R15, port 4 and institute
The port 8 for stating oscillation chip IC 1 connects.
Further, the sequence control module includes fuse F1, resistance R21, capacitance C19, diode D11, diode
D22, diode D13, diode D14, electrolytic capacitor C20, resistance R22, capacitance C21, diode D15, power supply chip IC4, electricity
Solve capacitance C22, capacitance C23, switching mode power supply transformer T1, diode D16, resistance R23, band core inductance L10, capacitance C24, light
Coupling chip IC 6, diode D17, electrolytic capacitor C25, capacitance C26, resistance R24, inductance C27, chip IC 5, capacitance C29, capacitance
C30, chip IC 7, resistance R28, resistance R29, resistance R30, resistance R31, resistance R32, resistance R25, resistance R26, capacitance C28,
Resistance R27 and triode Q2;
One end of the fuse F1 connects alternating current, and the other end passes through the resistance R21 and capacitance that are connected in parallel
C19 is connected to the anode of the cathode and diode D11 of the diode D14, and anode of the other end also with the diode D12
It is connected with the cathode of diode D13, the cathode of the diode D14 and the anode of diode D11 are also another with AC power
The anode of end connection, the diode D13 and D14 is connect with the cathode of the electrolytic capacitor C20, and is grounded, the diode
The cathode of D11 and D12 is connect with the anode of the electrolytic capacitor C20, and the anode of the electrolytic capacitor C20 is also by being connected in parallel on one
The resistance R22 and capacitance C21 risen is connected to the cathode of the diode D15, and the anode of the diode D15 is described in
Switching mode power supply transformer T1 is connect with the cathode of the diode D11 and D12;The port 5,6,7 and 8 of the power supply chip IC4
It is all connect with the anode of the diode D15, port 1 and 2 is grounded, the port 3 and capacitance C23 and opto-coupler chip IC6
Port 4 connect, the other end of the capacitance C23 connect with the cathode of the electrolytic capacitor C22, and ground connection, port 4 and institute
The anode for stating electrolytic capacitor C22 is connected with the cathode of diode D16, and port 4 also passes through resistance R23 and the opto-coupler chip
The port 6 of IC6 connects, and the anode of the diode D16 is connect by the band core inductance L10 with the inductance C24, described
The both ends of inductance C24 are all grounded;The port 1 of the opto-coupler chip IC6 is connect with one end of resistance R25, port 3 and described three
The collector of pole pipe Q2 connects, the emitter ground connection of the triode Q2, and passes through the resistance R27's and triode Q2
Base stage connects, and one end of the capacitance C28 is connect with the base stage of the triode Q2, the current collection of the other end and the triode Q2
Pole connects, and one end of the resistance R26 is connect with the base stage of the triode Q2, the other end of the other end and the resistance R25
It is connected with resistance R32, the other end of the resistance R25 also connects with the cathode of the diode D17 and the positive of electrolytic capacitor C25
It connects, the anode of the diode D17 is connect by the switch transformer T1 with the cathode of the electrolytic capacitor C25, the electricity
The cathode ground connection of capacitance C25 is solved, the cathode of the diode D17 is connected by the ends Vin of the resistance R24 and the chip IC 5
It connects, the cathode of the electrolytic capacitor C25 is also parallel with the capacitance C26 and C27, the other end difference of the capacitance C26 and C27
The both ends of the resistance R24 are connected to, the ends the GND ground connection of the chip IC 5, the ends Vout of the chip IC 5 pass through parallel connection
The capacitance C29 and C30 ground connection, and also connect with the port of chip IC 71 and port 4, the port 2 of the chip IC 7 by with
The resistance R31 is connect with the port 1 of output P1, and the port 3 of the chip IC 7 passes through the resistance R30 and exports the end of P1
Mouth 2 connects, and the port 5 of the chip IC 7 is connect by the resistance R28 with the port 5 of output P1, the port of the output P1
The other end of 4 ground connection, the resistance R32 is connect with the port 1 of output P2, and the port 2 of the output P2 is grounded.
Further, the ignition frequency of the fluorescent tube module is 2 hertz.
The beneficial effects of the invention are as follows:This programme drives multiple pulse fluorescent tubes using an electric power driving module, reduces
The use of electric power driving module reduces cost, and more fluorescent tubes light this and also substantially prolong making for pulse fluorescent tube in order
Use the service life.
Description of the drawings
Fig. 1 is overall structure block diagram of the present invention.
Fig. 2 is electric power driving module structure diagram.
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 implementation mode
Below in conjunction with attached drawing, the present invention will be further described.
As shown in Figure 1, the present invention is a kind of pulse strong-light device of more fluorescent tube sequential illuminations, including several fluorescent tube modules
01, electric power driving module 02, several trigger modules 03 and sequence control module 04;Wherein, several fluorescent tube modules 01 are mutual simultaneously
It is linked togather, loads the output end in electric power driving module 02, electric power driving module 02 can be provided for fluorescent tube module 01 and be lighted
Required suitable voltage, several trigger modules 03 and the triggering end of several fluorescent tube modules 01 connect one to one, for for
Several fluorescent tube modules provide a trigger signal for lighting;The output end of sequence control module 04 and several trigger modes
Block 03 connects one to one, and ignition frequency signal is provided 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, it is 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 terminal of first current rectifying and wave filtering circuit 0211 is connect with AC power, and output end exports a d. c. voltage signal;Power supply
Circuit 022 converts the d. c. voltage signal to a high-frequency oscillation voltage signal, the booster circuit with oscillating circuit 023
0212 connect with oscillating circuit 023, and the high-frequency oscillation voltage signal is boosted, and second current rectifying and wave filtering circuit 0213 will
High-frequency oscillation voltage signal after boosting exports a high-voltage pulse direct current signal, and be loaded onto the lamp after rectifying and wave-filtering
The both ends of tube module 01.
As shown in figure 3, charging circuit 021 includes resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, capacitance C1, electricity
Hold C2, capacitance C3, capacitance C4, electrolytic capacitor C5, capacitance C6, capacitance C7, capacitance C8, capacitance 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 the resistance R1 connects AC power, and the other end connects one end of one end and inductance L1 of capacitance C1,
The other end of the inductance L1 is separately connected capacitance C2, capacitance C4 and bridge rectifier diode D1;
One end of inductance L2 connects AC power, and the other end connects capacitance C3, capacitance C4 and bridge rectifier diode D1,
The other end of the capacitance C3 is connect with the other end of the capacitance C2;
One end of inductance L3 connects the bridge rectifier diode D1, the anode of electrolytic capacitor C5 and capacitance C6, inductance L3
Other end connection N-channel MOS pipe Q1 drain electrode, the source electrode of the N-channel MOS pipe Q1 connects resistance R3, grid connection electricity
One end of R2 is hindered, the other end of the resistance R2 connects the anode of the light emitting diode D2, and the light emitting diode D2's is negative
Pole is separately connected one end of the other end and capacitance C7 of the resistance R3, the other end ground connection of the capacitance C7;
The cathode of the electrolytic capacitor C5 and the other end of capacitance C6 are simultaneously connected on the bridge rectifier diode;
The inductance L4, inductance L5, inductance L6 and inductance L7 are cascaded from beginning to end successively, the other end of the inductance L4
The anode of the diode D8 is connected, the cathode of the diode D8 connects the anode of the diode D7, the diode D7
Cathode connection output end OUT1 and capacitance C9 one end, the other end of capacitance C9 connects the capacitance C8, the diode D5
Cathode, and the other end of capacitance C9 is also connected with the connecting pin of the inductance L4 and inductance L5, and the other end of the capacitance C8 connects
Meet output end OUT2;
The inductance L4 connects the anode of the diode D6 with the connecting pin of inductance L5, the cathode of the diode D6 with
The anode connection of the diode D5;
The inductance L5 connect the other end of capacitance C8 with the junction of inductance L6, and is grounded;
The inductance L6 connect the anode of the diode D4 with the junction of inductance L7, and cathode connects the resistance R4
One end, the other end connection power supply VCC of the resistance R4;
The other end of the inductance L7 connects the anode of the diode D3, and cathode connects resistance R5, the resistance R5
The other end add 13V voltages.
The inductance L1 and inductance L2 is the band core inductance of same core;
The inductance L3, the inductance L4, inductance L5, inductance L6 and inductance L7 are the band core inductance of same core;
The source electrode of the N-channel MOS pipe Q1 is connected at the J3 of port, and grid is connected to port OUT3;
The anode of the cathode of the electrolytic capacitor C5, the cathode of light emitting diode D2 and diode D4 connects equipotential voltage.
As shown in figure 4, power circuit 022 includes resistance R6, resistance R7, resistance R8, capacitance C10, electrolytic capacitor C11, two
Pole pipe D9 and voltage-stabiliser tube D10;The resistance R6 and resistance R7 series connection, other end connection resistance R8, the capacitance C10 of the resistance R7
With the cathode of diode D9, the anode of the other end connection electrolytic capacitor C11 of the resistance R8, the cathode and electricity of voltage-stabiliser tube D10
Source VCC, the cathode of the electrolytic capacitor C11, the anode of voltage-stabiliser tube D10, the anode of diode D9 and capacitance C10 another termination
The other end on ground, the resistance R6 is connected 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, capacitance C12, electrolytic capacitor C13, capacitance C14, capacitance C15, capacitance C16, oscillation
Chip IC 1 and opto-coupler chip IC2;
The oscillation chip IC 1 is equipped with 8 ports, and port 1 is connect with the resistance R11, port 2 and the resistance
R17, resistance R15 connections, and connect with the other end of the resistance R11, port 3 connects with capacitance C16 and resistance R14 respectively
It connects, port 4 is connect with the resistance R13 and capacitance C15, the other end and the capacitance of the port 5 and resistance R13
The anode of C14 connections, port 6 and the resistance R10, capacitance C12 and the electrolytic capacitor C13 are connect, port 7 with it is described
The other end of resistance R12 connections, port 8 and the electrolytic capacitor C13, capacitance C12, capacitance C16, capacitance C15 and capacitance C14
Connection;
The resistance R10 is connect with the R9, another termination+300V voltages of the resistance R9;
The other end connectivity port OUT3 of the resistance R12;
The other end connectivity port J3 of the resistance R14;
The other end connectivity port HV of the resistance R17;
The opto-coupler chip IC2 is equipped with 4 ports, and port 1 is connect with the resistance R16, and the resistance R16's is another
End is connect with port PO WCONT;Its port 2 is grounded;Its port 3 is connect with the other end of the resistance R15, port 4 and institute
The port 8 for stating oscillation chip IC 1 connects.
As shown in fig. 6, sequence control module 04 includes fuse F1, resistance R21, capacitance C19, diode D11, diode
D22, diode D13, diode D14, electrolytic capacitor C20, resistance R22, capacitance C21, diode D15, power supply chip IC4, electricity
Solve capacitance C22, capacitance C23, switching mode power supply transformer T1, diode D16, resistance R23, band core inductance L10, capacitance C24, light
Coupling chip IC 6, diode D17, electrolytic capacitor C25, capacitance C26, resistance R24, inductance C27, chip IC 5, capacitance C29, capacitance
C30, chip IC 7, resistance R28, resistance R29, resistance R30, resistance R31, resistance R32, resistance R25, resistance R26, capacitance C28,
Resistance R27 and triode Q2;
One end of the fuse F1 connects alternating current, and the other end passes through the resistance R21 and capacitance that are connected in parallel
C19 is connected to the anode of the cathode and diode D11 of the diode D14, and anode of the other end also with the diode D12
It is connected with the cathode of diode D13, the cathode of the diode D14 and the anode of diode D11 are also another with AC power
The anode of end connection, the diode D13 and D14 is connect with the cathode of the electrolytic capacitor C20, and is grounded, the diode
The cathode of D11 and D12 is connect with the anode of the electrolytic capacitor C20, and the anode of the electrolytic capacitor C20 is also by being connected in parallel on one
The resistance R22 and capacitance C21 risen is connected to the cathode of the diode D15, and the anode of the diode D15 is described in
Switching mode power supply transformer T1 is connect with the cathode of the diode D11 and D12;The port 5,6,7 and 8 of the power supply chip IC4
It is all connect with the anode of the diode D15, port 1 and 2 is grounded, the port 3 and capacitance C23 and opto-coupler chip IC6
Port 4 connect, the other end of the capacitance C23 connect with the cathode of the electrolytic capacitor C22, and ground connection, port 4 and institute
The anode for stating electrolytic capacitor C22 is connected with the cathode of diode D16, and port 4 also passes through resistance R23 and the opto-coupler chip
The port 6 of IC6 connects, and the anode of the diode D16 is connect by the band core inductance L10 with the inductance C24, described
The both ends of inductance C24 are all grounded;The port 1 of the opto-coupler chip IC6 is connect with one end of resistance R25, port 3 and described three
The collector of pole pipe Q2 connects, the emitter ground connection of the triode Q2, and passes through the resistance R27's and triode Q2
Base stage connects, and one end of the capacitance C28 is connect with the base stage of the triode Q2, the current collection of the other end and the triode Q2
Pole connects, and one end of the resistance R26 is connect with the base stage of the triode Q2, the other end of the other end and the resistance R25
It is connected with resistance R32, the other end of the resistance R25 also connects with the cathode of the diode D17 and the positive of electrolytic capacitor C25
It connects, the anode of the diode D17 is connect by the switch transformer T1 with the cathode of the electrolytic capacitor C25, the electricity
The cathode ground connection of capacitance C25 is solved, the cathode of the diode D17 is connected by the ends Vin of the resistance R24 and the chip IC 5
It connects, the cathode of the electrolytic capacitor C25 is also parallel with the capacitance C26 and C27, the other end difference of the capacitance C26 and C27
The both ends of the resistance R24 are connected to, the ends the GND ground connection of the chip IC 5, the ends Vout of the chip IC 5 pass through parallel connection
The capacitance C29 and C30 ground connection, and also connect with the port of chip IC 71 and port 4, the port 2 of the chip IC 7 by with
The resistance R31 is connect with the port 1 of output P1, and the port 3 of the chip IC 7 passes through the resistance R30 and exports the end of P1
Mouth 2 connects, and the port 5 of the chip IC 7 is connect by the resistance R28 with the port 5 of output P1, the port of the output P1
The other end of 4 ground connection, the resistance R32 is connect with the port 1 of output P2, and the port 2 of the output P2 is grounded.
Working principle of the present invention is as follows:Electric power driving module 02 is that fluorescent tube module 01 provides a suitable pulse electricity
Pressure, and fluorescent tube module 01 only can just be lighted when receiving the trigger signal of trigger module 03, and there is sequence in the time lighted
Control module 04 determines that sequence control module 04 can send frequency signal that one is lighted to trigger module 03, be embodied
In the process, find that the ignition frequency of fluorescent tube module 01 is best in 2 hertz, in this way by a large amount of tests of research staff
The using effects such as sterilization are neither influenced, and fluorescent tube can be made to have time enough heat dissipation, to reach a preferable balance
Point makes the service life of fluorescent tube obtain greatly extending.
In addition, using only an electric power driving module in the present invention, multiple fluorescent tube modules 01 can be but driven simultaneously, this
Relative to traditional pulse strong-light device, use cost greatly reduces, because in entire pulse strong-light device, power drives
The cost of module occupies the overwhelming majority of totle drilling cost, and fluorescent tube module is in fact relatively inexpensive.And traditional pulse strong-light device
Can only electric power driving module drive a fluorescent tube module, in use, generally require multiple electric power driving modules, thus cost
It is higher, and occupied space is big, line is complicated.And the present invention thoroughly overcomes these problems.
The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention.The technology of the industry
Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this
The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes
Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its
Equivalent thereof.
Claims (3)
1. a kind of pulse strong-light device of more fluorescent tube sequential illuminations, which is characterized in that including
Several fluorescent tube modules;
Electric power driving module lights required suitable voltage, several described fluorescent tubes for several fluorescent tube modules output
Output end of the wired in parallel in the electric power driving module;
Several trigger modules convey a trigger signal for lighting for several described fluorescent tube modules, and with it is described
The triggering end of several fluorescent tube modules connects one to one;And
Sequence control module lights frequency signal for several trigger modules conveying, and output end with it is described several
Trigger module connects one to one;
The electric power driving module includes charging circuit, oscillating circuit and power circuit, and the charging circuit includes the first rectification
Filter circuit, the second current rectifying and wave filtering circuit and booster circuit;The input terminal of first current rectifying and wave filtering circuit connects with AC power
It connects, output end exports a d. c. voltage signal, and the power circuit converts the d. c. voltage signal with oscillating circuit
For a high-frequency oscillation voltage signal, the booster circuit is connect with the oscillating circuit, and by the high-frequency oscillation voltage signal
High-frequency oscillation voltage signal after boosting after rectifying and wave-filtering, is exported a high pressure by boosting, second current rectifying and wave filtering circuit
Pulsed DC signal, and it is loaded onto the both ends of the fluorescent tube module;
The charging circuit includes:Resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, capacitance C1, capacitance C2, capacitance C3,
Capacitance C4, electrolytic capacitor C5, capacitance C6, capacitance C7, capacitance C8, capacitance C9, inductance L1, inductance L2, inductance L3, inductance L4, electricity
Feel 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 the resistance R1 connects AC power, and the other end connects one end of one end and inductance L1 of capacitance C1, described
The other end of inductance L1 is separately connected capacitance C2, capacitance C4 and bridge rectifier diode D1;
One end of inductance L2 connects AC power, and the other end connects capacitance C3, capacitance C4 and bridge rectifier diode D1, described
The other end of capacitance C3 is connect with the other end of the capacitance C2;
One end of inductance L3 connects the bridge rectifier diode D1, the anode of electrolytic capacitor C5 and capacitance C6, and inductance L3's is another
One end connects the drain electrode of N-channel MOS pipe Q1, and the source electrode of the N-channel MOS pipe Q1 connects resistance R3, and grid connects resistance R2
One end, the other end of the resistance R2 connects the anode of the light emitting diode D2, the cathode point of the light emitting diode D2
One end of the other end and capacitance C7 of the resistance R3, the other end ground connection of the capacitance C7 are not connected;
The cathode of the electrolytic capacitor C5 and the other end of capacitance C6 are simultaneously connected on the bridge rectifier diode;
The inductance L4, inductance L5, inductance L6 and inductance L7 are cascaded from beginning to end successively, the other end connection of the inductance L4
The anode of the diode D8, the cathode of the diode D8 connect the anode of the diode D7, and the diode D7's is negative
Pole connects one end of output end OUT1 and capacitance C9, the other end of capacitance C9 connect the capacitance C8, the diode D5 it is negative
Pole, and the other end of capacitance C9 is also connected with the connecting pin of the inductance L4 and inductance L5, the other end connection of the capacitance C8 is defeated
Outlet OUT2;
The inductance L4 connects the anode of the diode D6 with the connecting pin of inductance L5, the cathode of the diode D6 with it is described
The anode connection of diode D5;
The inductance L5 connect the other end of capacitance C8 with the junction of inductance L6, and is grounded;
The inductance L6 connect the anode of the diode D4 with the junction of inductance L7, and cathode connects the one of the resistance R4
End, the other end connection power supply VCC of the resistance R4;
The other end of the inductance L7 connects the anode of the diode D3, and cathode connects resistance R5, and the resistance R5's is another
One end adds 13V voltages;
The inductance L1 and inductance L2 is the band core inductance of same core;
The inductance L3, the inductance L4, inductance L5, inductance L6 and inductance L7 are the band core inductance of same core;
The source electrode of the N-channel MOS pipe Q1 is connected at the J3 of port, and grid is connected to port OUT3;
The anode of the cathode of the electrolytic capacitor C5, the cathode of light emitting diode D2 and diode D4 connects equipotential voltage;
The power circuit includes resistance R6, resistance R7, resistance R8, capacitance C10, electrolytic capacitor C11, diode D9 and voltage-stabiliser tube
D10;The resistance R6 and resistance R7 series connection, other end connection resistance R8, the capacitance C10 of the resistance R7 and bearing for diode D9
Pole, the anode of the other end connection electrolytic capacitor C11 of the resistance R8, the cathode and power supply VCC of voltage-stabiliser tube D10, the electrolysis
The other end ground connection of the cathode of capacitance C11, the anode of voltage-stabiliser tube D10, the anode of diode D9 and capacitance C10, the resistance R6
The other end be connected to port HV.
2. a kind of pulse strong-light device of more fluorescent tube sequential illuminations as described in claim 1, which is characterized in that the oscillation electricity
Road include resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, resistance R14, resistance R15, resistance R16, resistance R17,
Capacitance C12, electrolytic capacitor C13, capacitance C14, capacitance C15, capacitance C16, oscillation chip IC 1 and opto-coupler chip IC2;
The oscillation chip IC 1 is equipped with 8 ports, and port 1 is connect with the resistance R11, the port 2 and resistance R17,
Resistance R15 connections, and connect with the other end of the resistance R11, port 3 is connect with capacitance C16 and resistance R14 respectively,
Port 4 is connect with the resistance R13 and capacitance C15, and the other end and the capacitance C14 of the port 5 and resistance R13 connect
It connects, port 6 is connect with the anode of the resistance R10, capacitance C12 and the electrolytic capacitor C13, port 7 and the resistance
The other end company of R12 connections, port 8 and the electrolytic capacitor C13, capacitance C12, capacitance C16, capacitance C15 and capacitance C14
It connects;
The resistance R10 is connect with the R9, another termination+300V voltages of the resistance R9;
The other end connectivity port OUT3 of the resistance R12;
The other end connectivity port J3 of the resistance R14;
The other end connectivity port HV of the resistance R17;
The opto-coupler chip IC2 is equipped with 4 ports, and port 1 connect with the resistance R16, the other end of the resistance R16 and
Port PO WCONT connections;Its port 2 is grounded;Its port 3 is connect with the other end of the resistance R15, and port 4 shakes with described
The port 8 for swinging chip IC 1 connects.
3. a kind of pulse strong-light device of more fluorescent tube sequential illuminations as described in claim 1, which is characterized in that the fluorescent tube mould
The ignition frequency of block is 2 hertz.
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| CN1109673A (en) * | 1994-03-26 | 1995-10-04 | 阙盛明 | Energy-saving electronic ballast shared by multiple lamps |
| CN2267602Y (en) * | 1996-08-05 | 1997-11-12 | 上海金东广告装璜公司 | Capacity current stabilization type parallel neon lamp |
| CN101309544A (en) * | 2008-07-07 | 2008-11-19 | 上海海想自动控制技术有限公司 | Power-supply apparatus and method for multiple gas discharge lamp electronic ballasts |
| CN104596177A (en) * | 2014-12-29 | 2015-05-06 | 合肥华凌股份有限公司 | Refrigerator |
| CN205902181U (en) * | 2016-07-20 | 2017-01-18 | 常州市兰诺光电科技有限公司 | Pulse highlight device that many fluorescent tubes were lighted in proper order |
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Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1109673A (en) * | 1994-03-26 | 1995-10-04 | 阙盛明 | Energy-saving electronic ballast shared by multiple lamps |
| CN2267602Y (en) * | 1996-08-05 | 1997-11-12 | 上海金东广告装璜公司 | Capacity current stabilization type parallel neon lamp |
| CN101309544A (en) * | 2008-07-07 | 2008-11-19 | 上海海想自动控制技术有限公司 | Power-supply apparatus and method for multiple gas discharge lamp electronic ballasts |
| CN104596177A (en) * | 2014-12-29 | 2015-05-06 | 合肥华凌股份有限公司 | Refrigerator |
| CN205902181U (en) * | 2016-07-20 | 2017-01-18 | 常州市兰诺光电科技有限公司 | Pulse highlight device that many fluorescent tubes were lighted in proper order |
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