CN1087300A - Exchange welding welding arc control method - Google Patents

Exchange welding welding arc control method Download PDF

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Publication number
CN1087300A
CN1087300A CN 93119445 CN93119445A CN1087300A CN 1087300 A CN1087300 A CN 1087300A CN 93119445 CN93119445 CN 93119445 CN 93119445 A CN93119445 A CN 93119445A CN 1087300 A CN1087300 A CN 1087300A
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welding
voltage
circuit
arc
control
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CN 93119445
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CN1031246C (en
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潘际銮
焦向东
张骅
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Tsinghua University
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Tsinghua University
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Abstract

The present invention relates to a kind of welding welding arc control method, comprise external characteristic control circuit, PWM pulsewidth modulated intergrated circuit, main converter drive circuit, main converter circuit, inverter, motor-driven and test the speed several sections such as part, inverter commutation control constantly, T-flip flop and inverter driving.Control system of the present invention can improve the stability that exchanges the MIG welding arc, do not improve the power supply floating voltage, do not adding the stabilising arc high-voltage pulse, not under the situation with the welding wire of arc stabilizer, exchange MIG welding with " double concave current waveform ", reach stable arc, continuous welding and eliminate the purpose of arc blow.

Description

Exchange welding welding arc control method
The present invention relates to a kind ofly in exchanging welding, the method to welding arc is controlled belongs to welding equipment and technology field.
Traditional MIG weldering (welding) used source of welding current all is the direct current source of welding current, and connection is a dc reverse connection.Direct current MIG welds also the same with other direct current welding method arc blow problem that has, the existence of this phenomenon will certainly have influence on welding quality, arc extinction occurs and cause welding discontinuous as meeting, defectives such as last through welding, end fusion appear, even more serious during the deep groove backing welding, can't implement welding.Adopt in the automatic welding system of arc length closed-loop control,, cause system to enter in the vicious circle of short-circuit arc-current interruption sometimes and go owing to arc blow makes arc voltage can not represent arc length to cause system's misoperation.The years of researches achievement has accumulated the method that many kinds overcome arc blow harm, as the removal of workpiece remanent magnetism, the homogenising in workpiece magnetic field, the variation of earth point and (the Metal Construetion such as change of welding direction, July, 1984) these methods or need supplementary equipment therefore perhaps need extra work, make troubles all for Welder author, do not have general adaptability yet, as large-scale component, complex component, work such as on-the-spot installation all can't be competent at.Method of AC welding is a kind of very strong method of adaptability that can thoroughly solve the arc blow problem.
When the method for AC welding of making power supply with power frequency sine wave of traditional concept is used in the MIG weldering, need to use the flux-cored wire (Welding Research Abroad, No.8/9,1985) that in welding agent, has added arc stabilizer.Also the someone adopts the rectangular-wave alternating-current source of welding current to carry out MIG weldering (Kobe Steel's skill newspaper of bare wire, VO1.39, No.4,1989) high pressure that can produce the 330-400 volt during this power work is added to the electric arc two ends constantly in commutation and is beneficial to stabilising arc, expense is big, dangerous to human body on the other hand on the one hand for this high-tension apparatus.
The objective of the invention is to develop a kind of control method of the MIG of interchange welding arc, improve the stability that exchanges the MIG welding arc, do not improving the power supply floating voltage, do not adding the stabilising arc high-voltage pulse, also do not using under the situation with the welding wire of arc stabilizer, exchange the MIG welding with " double concave current waveform ", reach stable arc, continuous welding is also eliminated the purpose of arc blow.
Content of the present invention is: welding welding arc control method, form by following each several part:
1, is used for welding current and weldingvoltage signal from electric arc are compared with set-point, to realize the external characteristic control circuit of system's closed-loop control, by voltage to frequency converter VFC, alternative simulant electronic switch SW 1And SW 2, feedback uses operational amplifier A 1And A 2, logic control diode D 1And D 2, signal compose operation amplifier A 3And A 4, four select an analog switch IC 6And light idol IC circuit 5Form.
2, the pulse width modulator PWM that is used for the magnitude of voltage control impuls width that provides according to external characteristic control circuit.
3, the main transformer that is used for the signal from pulse width modulator is carried out power amplification changes drive circuit, by the two poles of the earth triode BG 2Form.
4, be used for becoming than High Level DC Voltage of rectifier output welded the main converter of using than low dc voltage, by one group of large power triode T 1Be formed in parallel, with on-off mode work.
5, be used for DC voltage is become the bridge-type inverter of alternating voltage, by four groups of high-power FET T 2, T 3, T 4, T 5The brachium pontis pipe group that is formed in parallel is formed.
6, the driving of wire feeding motor and the part that tests the speed.
7, be used for the signal that the voltage-frequency converter VFC with external characteristic control circuit provides, isolate through the light idol and trigger monostable, the inverter commutation of the trailing edge control inverter commutation of monostable output signal is control section constantly, by monostable circuit IC 1With monochromatic light idol buffer circuit IC 3Form.
8, be used to receive the trailing edge of monostable output, make trigger IC 2Output change current potential, resolve into the T-flip flop of two road signals again, by T-flip flop IC 2And signal processing unit BG 1Form.
9, be used to drive the drive circuit of bridge-type inverter, by four road light idol isolator IC 4And four tunnel push-pull type amplifying circuits are formed.
Description of drawings:
Fig. 1 is a logic block-diagram of the present invention.
Fig. 2 is a main circuit schematic diagram of the present invention.
Fig. 3 is the control circuit schematic diagram.
Fig. 4 is the control waveform figure that is drawn by control system of the present invention.
Fig. 5 is system's output external characteristic curve.
Fig. 6 is the current waveform of system's output.
Below in conjunction with accompanying drawing, introduce content of the present invention in detail.Among Fig. 1, the 1st, external characteristic control circuit, the 2nd, PWM pulsewidth modulated intergrated circuit, the 3rd, main converter drive circuit, the 4th, main converter circuit, the 5th, inverter, the 6th, the driving of wire feeding motor and the part that tests the speed, the 7th, the inverter commutation is controlled constantly, and the 8th, T-flip flop, the 9th, inverter driving circuit.
The output that exchanges welding current has been experienced, as the process of Fig. 2.The sinusoidal voltage of transformer output becomes DC voltage behind rectifier bridge, again through Switching Power Supply (by one group of large power triode T 1, filter inductance L, capacitor C 1And sustained diode 7Form) DC voltage that the amplitude that is transformed into is lower, after inverter (by four groups of high-power FET T 2, T 3, T 4, T 5Form) be transformed into square wave alternating-current voltage, weld to welding wire.
The electric current output that is used to exchange the MIG welding need be controlled especially.Referring to Fig. 3, (among Fig. 3, Ug 1-Ug 8Be 8 voltage given values, G 2-G 5For inverter four road drives signal, I is a current signal, and U is a voltage signal, V fBe the wire feed rate signal, B is for driving signal), voltage to frequency converter VFC output pulse signal, two level of height pass through switch SW 1And SW 2Difference gating Ug 1, Ug 3And Ug 2, Ug 4, Ug 1, Ug 2Through the feedback operational amplifier A 1Compare control circuit I with current feedback signal I bAnd I d, (referring to Fig. 5, among Fig. 5, I bBe back ground current, I pBe pulse current, I dFor pulse current allows maximum, U bBe floating voltage, U pBe pulse voltage, 1,2 is two operating points.)。Ug 3And Ug 4Through the feedback operational amplifier A 2Relatively control voltage U with feedback voltage signal U bAnd U pThis two paths of signals is through diode D 1, D 2Behind the logical combination, control pulse width modulator PWM output, the pulse frequency of this signal is fixed as 16KHZ, and pulsewidth becomes with PWM input terminal voltage value, after two-stage triode BG 2The power amplification circuit of forming drives main switch T 1Thereby, realize the closed-loop control of output voltage, electric current.
The output signal of voltage-frequency converter VFC is at control SW 1And SW 2The time, again by monochromatic light idol buffer circuit IC 3Make photoelectricity and isolate (referring to Fig. 3 and Fig. 4).IC 3Output signal is just opposite with the signal of voltage-frequency converter VFC, IC 3The trailing edge of signal removes to trigger monostable circuit IC 1, the output pulse width of this monostable circuit is tps 2=tpr 2, IC 1The trailing edge of signal removes to trigger T-flip flop IC again 2, IC 2Output Q through one-level reverser BG 1(Fig. 3), the signal after Q signal reaches is oppositely isolated and four road push-pull driver circuits through four road light idol, forms two groups of grid driving signal G 2, G 5And G 3, G 4, make high-power FET T 2, T 5And T 3, T 4Alternate conduction.
T-flip flop IC 2The Q end signal isolate IC by light idol simultaneously again 5After, gating four selects an analog switch, when Q is low level, and X=X 0=Ug 8, Y=Y 0=Ug 6, when Q is high level, X=X 3=Ug 7, Y=Y 3=Ug 5, x and y signal in varing proportions with wire feed rate signal V fAddition, operational amplifier A 3And A 4Output control frequency and the pulsewidth of voltage-frequency converter VFC respectively.
Among Fig. 6, last figure is DC side current waveform I 1, figure below is ac-side current waveform I 2, polarity (1) expression welding wire just connects, and I spare connects negative, i.e. reversal connection.Polarity (2) expression welding wire connects negative, and workpiece just connects, and promptly just connects.t Pr1, t Pr2Be respectively the pulse current time in two kinds of different change procedure Semi-polarity (1) times, t BrBe the lonely current time of the dimension in polarity (1) time.t Ps1, t Ps2Be respectively the pulse current time in two kinds of different change procedure Semi-polarities (2) time range, t BsBe the back ground current time in polarity (2) time range.Time t Pr2=t Ps2By monostable circuit IC 1Control, t Ps1By U G7Control, t Pr1By Ug 8Control, t BsBy Ug 5Control, t BrBy Ug 6Control.
By the result of above-mentioned Comprehensive Control, just obtained concave-concave AC current waveform as the signal of Fig. 6.The course of work of this " double concave current waveform " is such: in (referring to Fig. 2) inverter, and T 2, T 5Be one group, T 3, T 4Be one group, every group of brachium pontis pipe closed simultaneously and is open-minded.Work as T 2, T 5Pipe is opened, T 3, T 4When pipe was closed, welding wire connect negative, and workpiece just connects, and was called positive polarity (2), worked as T 3, T 4Manage open-minded, T 2, T 5When pipe was closed, welding wire just connect, and workpiece connects negative, was called reversed polarity (1), and positive and negative alternating polarity workpiece has promptly been realized interchange MIG welding.
If initial polarity is polarity (1) (with reference to figure 6), generator characteristic is (1), and the electric arc operating point is 1(Fig. 5) welding current is Ib, after a period of time, and power supply output external characteristic (2), the electric arc operating point is 2, welding current becomes Ip, duration t Pr2After, electric arc has entered the hard arc state in polarity (1), inverter commutation this moment, and polarity becomes polarity (2), and the power supply output external characteristic is constant, and welding current is Ip still, and arc energy is reliably promptly ignited again, crosses time t Ps1After, power supply output external characteristic (1), welding current are Ib, duration t BsAfter, power supply output external characteristic (2), the source of welding current becomes Ip once more, and electric arc enters the hard arc state once more in polarity (2), crosses time t Ps2After, the inverter commutation, polarity becomes polarity (1), and the power supply output external characteristic still remains unchanged, and welding current is Ip, crosses time t Pr1After, entered the initial circulation of this section.So move in circles, just formed " double concave current waveform " shown in Figure 6.Time t wherein Pr2=t Ps2Be about 1.5 milliseconds, t Bs, t Ps1, t Pr1, t BrVs becomes with solder wire convey speed.
Handy control system of the present invention was once carried out the interchange MIG weldering of φ 1.0 welding wires, and protective gas is Ar+15%CO 2, when average current was 110A, electric arc was still very stable, and transition does not have the arc blow phenomenon, t for spraying and axial granule mixed transition Ps2=1.5ms, t Ps1=t Ps1=2ms, t Br=15ms, t Bs=13ms, Ip=370A, Ib=40A.

Claims (1)

1, a kind of welding welding arc control method comprises:
(1) is used for the pulse width modulator PWM of the magnitude of voltage control impuls width that provides according to external characteristic control circuit;
(2) be used for the signal from pulse width modulator is carried out the main converter drive circuit of power amplification, by two-stage triode BG 2Form;
(3) be used for becoming than High Level DC Voltage of rectifier output welded the main converter of using than low dc voltage, by one group of large power triode T 1Be formed in parallel, with on-off mode work;
(4) be used for DC voltage is become the bridge-type inverter of alternating voltage, by four groups of high-power FET T 2, T 3, T 4, T 5The brachium pontis pipe group that is formed in parallel is formed;
(5) wire feeding motor drives and the part that tests the speed;
It is characterized in that this control system also comprises:
(6) be used for the welding current from electric arc, the weldingvoltage signal is compared with set-point, to realize the external characteristic control circuit of system's closed-loop control, by voltage to frequency converter VFC, alternative simulant electronic switch SW 1And SW 2, feedback uses operational amplifier A 1And A 2, logic control diode D 1And D 2, signal compose operation amplifier A 3And A 4Four select an analog switch, IC 6And light idol IC circuit 5Form;
(7) be used for the signal that the voltage-frequency converter VFC with external characteristic control circuit provides, isolate through the light idol and trigger monostable, the inverter commutation of the trailing edge control inverter commutation of monostable output signal is control section constantly, by monostable circuit IC 1With monochromatic light idol buffer circuit IC 3Form;
(8) be used to receive the trailing edge of monostable output signal, make trigger IC 2Output changes current potential, resolves into the T-flip flop of two road signals again, by T-flip flop IC 2And signal processing unit BG 1Form;
(9) bridge-type inverter drive circuit is by four road light idol isolator IC 4And four tunnel push-pull types drive the amplifying circuit composition.
CN 93119445 1993-10-29 1993-10-29 Arc control method for a.c. metal inertgas arc welding Expired - Fee Related CN1031246C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 93119445 CN1031246C (en) 1993-10-29 1993-10-29 Arc control method for a.c. metal inertgas arc welding

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 93119445 CN1031246C (en) 1993-10-29 1993-10-29 Arc control method for a.c. metal inertgas arc welding

Publications (2)

Publication Number Publication Date
CN1087300A true CN1087300A (en) 1994-06-01
CN1031246C CN1031246C (en) 1996-03-13

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CN 93119445 Expired - Fee Related CN1031246C (en) 1993-10-29 1993-10-29 Arc control method for a.c. metal inertgas arc welding

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101758317A (en) * 2008-12-22 2010-06-30 株式会社大亨 Double-wire welding control method
CN101977719A (en) * 2009-02-24 2011-02-16 松下电器产业株式会社 Arc welding machine
CN108356391A (en) * 2017-01-27 2018-08-03 林肯环球股份有限公司 For the device and method using the welding of AC waveforms

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101758317A (en) * 2008-12-22 2010-06-30 株式会社大亨 Double-wire welding control method
CN101758317B (en) * 2008-12-22 2015-08-12 株式会社大亨 Double-wire welding control method
CN101977719A (en) * 2009-02-24 2011-02-16 松下电器产业株式会社 Arc welding machine
CN108356391A (en) * 2017-01-27 2018-08-03 林肯环球股份有限公司 For the device and method using the welding of AC waveforms
CN108356391B (en) * 2017-01-27 2022-04-08 林肯环球股份有限公司 Apparatus and method for welding with AC waveform

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