CN1164453A - Method for controlling inverse arc-welding power source time-varying output characteristics for carbon dioxide welding - Google Patents

Method for controlling inverse arc-welding power source time-varying output characteristics for carbon dioxide welding Download PDF

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CN1164453A
CN1164453A CN 97104402 CN97104402A CN1164453A CN 1164453 A CN1164453 A CN 1164453A CN 97104402 CN97104402 CN 97104402 CN 97104402 A CN97104402 A CN 97104402A CN 1164453 A CN1164453 A CN 1164453A
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stage
current
welding
arc
short circuit
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CN1042601C (en
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都东
韩赞东
张人豪
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Tsinghua University
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Tsinghua University
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Abstract

The method for controlling inverse arc-welding power source time-varying output characteristics for CO2 welding belongs to the field of welding process control and equipment automation. its method is characterized by dividing whole process of CO2 welding into six characteristic stages: 1. arcing stage by high-current; 2. constant voltage arc-stabilizing stage.; 3 transient stage from arcing to short-circuiting under low-current; 4. initial low-current stage of short-circuiting; 5. final high-current stage of short-circuiting; and 6. transient stage from short-circuiting process to arcing process under the low-current, and controlling current and voltage value of every characteristic stage so as to attain the goal of reducing spattering and improving formation.

Description

The inverter arc welding power source time-varying output characteristics control method that is used for the carbon dioxide welding
The present invention relates to the output characteristic controlling method of inverter arc welding power source, belong to Control Welding Process and equipment automatization field.
Adopt the CO of short circuiting transfer mode 2Gas shielded arc welding is energy-efficient owing to having, the rust-proofing low hydrogen, can be used for advantage such as all-position welding and obtained extensive use, but that it splashes is big, appearance of weld is not good enough.For this reason, many for a long time Welder authors are all seeking corrective measure, wherein realize that by welding equipment the control to electric arc and droplet transfer is method the most commonly used, mainly comprise the following aspects:
(1) in welding circuit, is connected in series dc inductance
Suitable inductance has not only limited the short circuit current climbing but also has limited peak value of short, helps reducing to splash.In addition, the energy storage of inductance can increase the energy during the arcing, and is significant to improving shaping.But this method limitation is big, and the welding current that same inductance adapts to is selected narrow range for use, and the numerical value of inductance also is difficult to realize fine tuning.
(2) pulsed wire feeding control
Pulsed wire feeding control is meant in arcing and begins to quicken wire feed mid-term that make molten drop obtain the kinetic energy of preshoot, the wire feed that slows down subsequently stops wire feed after short circuit.The short circuiting transfer frequency of this method is decided by the pulsed wire feeding frequency, thereby the control of short circuit transition is had certain effect, helps preventing that droplet size is excessive, guarantees appearance of weld.But the dynamic response of pulsed wire feeding system is poor, so the frequency of short circuiting transfer is restricted, the complex structure of pulsed wire feeding system simultaneously, and durability and reliability are difficult to guarantee.
(3) Current Waveform Control
The welding process Current Waveform Control is according to CO 2Splashing and compacting mechanism of weldering, in the different electric current of different phase output of droplet transfer, controlling splashes improves the purpose that is shaped to reach.As: the transition of negative pulse current induced, dual power supply Waveform Control Method, short circuit current waveform clipping control etc.The function ratio that these waveform controlling methods are realized is more single, is subjected to the restriction of traditional thyristor supply dynamic characteristic again simultaneously, thereby is difficult to reach the effect of anticipation.
Surface tension transition control is a kind of comparatively complicated waveform controlling method, has good effect aspect reducing to splash, but following two deficiencies are arranged: the one, be difficult to adapt to the continuous variation of dry extension of electrode in the semiautomatic welding termination process.The 2nd, only depend on surface tension transition molten drop reliability low, make the welding process poor stability.
Emerging insulating gate type bipolar transistor (IGBT) inverter arc welding power source has characteristics such as dynamic response is good, controllability excellence, for exploring new CO 2The welding process waveform controlling method provides the foundation.
The objective of the invention is to propose a kind of new inverter arc welding power source output characteristics real-time control method.This method is by detecting CO 2Short circuit in the welding process and arcing state, and adjust the output external characteristic of power supply in real time, be intended to reduce short circuiting transfer CO 2The splashing and improve appearance of weld of welding process, and guarantee that welding process is stable.
The inverter arc welding power source time-varying output characteristics control method that the present invention is used for the carbon dioxide welding is with CO 2The whole process that welding is finished from the striking to the short circuiting transfer is divided into six feature stages, controls its electric current, magnitude of voltage in each feature stage, reaches to reduce to splash, and improves the purpose that is shaped.Its six feature stages are: 1. big electric current arc stage; 2. constant voltage stabilising arc stage; 3. carry out the transition to the short circuit process stage from the arcing process under the little electric current; 4. little current phase of short circuit initial stage; 5. short circuit big current phase in latter stage; 6. under little electric current, carry out the transition to the arcing process stage from the short circuit process.Electric current, the voltage waveform of whole process are seen Fig. 1.
(1) big electric current arc stage (t1-t2):
The big electric current I of power supply output arcing H, its purpose is to give arc space bigger energy, improves appearance of weld, improves behind the short circuiting transfer stability of arcing process more simultaneously.
(2) the constant voltage stabilising arc stage (t2-t3):
Power supply output constant voltage U M,, strengthen welding process stability to strengthen the arc self-regulation effect.
(3) carry out the transition to short circuit process stage (t3-t4) from the arcing process under the little electric current:
Welding current is reduced to I L, grow up to prevent molten drop, and make it under less electromagnetic resistance, form foot bridge, reduce the instantaneous short-circuit number of times, reduce spatter loss coefficient.
(4) little current phase of short circuit initial stage (t4-t5):
After the molten drop short circuit, power supply continues output I LCertain hour, electromagnetic contractile force increases the compliance of droplet transfer to the inhibition of droplet transfer to reduce at this moment.
(5) short circuit big current phase in latter stage (t5-t6):
Power supply output short circuit current I m, to increase electromagnetic contractile force, make molten drop as early as possible transition finish.
(6) under little electric current, carry out the transition to arcing process stage (t6-t7) from the short circuit process:
Metal drop begins to occur constriction, and the load equivalent resistance value increases greatly, and electric current is along power supply flat characteristic decay, splashes thereby reduce the quick-fried metal when disconnected of short circuit foot bridge.By detection to load voltage, can judge that the droplet transfer finishes, short-circuit condition finishes, and enters the control stage at arcing initial stage more again.
In this control method, fixing T HAnd T M(t1-t3) time has guaranteed the uniformity of welding process molten drop and fusion penetration, and the flexible t3-t4 time can adapt to the interference that factors such as molten bath fluctuation and welding torch shake are brought, and guarantees that welding process is stable.
The electric current in above-mentioned six feature stages, Control of Voltage are to realize by the external characteristics of controlling power supply.The following (see figure 2) of the transfer process of generator characteristic:
1. big electric current arc stage (t1-t2):
Power work forces arc burning at higher constant current in 1. section (regularly 3ms) of output characteristics.
2. constant voltage stabilising arc stage (t2-t3):
Power work makes electric arc be in approximate pressure constant state in deciding 2. section (regularly 6ms) of frequency Fixed width output characteristics.The stability of welding process has a significant impact spatter and shaping, and power supply output constant voltage in the t2-t3 time increases the source of welding current and wire feed system self-regulating function, thereby increases the stability of system works for this reason.
Carry out the transition to short circuit process stage (t3-t4) from the arcing process under the 3. little electric current:
Power work is exported little electric current (40A) in 3. section of output characteristics, and electric arc works in this constant current state and continues to short circuit constantly.
4. little current phase of short circuit initial stage (t4-t5):
Power work in output characteristics 4. the section, after voltage detecting judgement arrival short-circuit condition, power supply continues the little electric current of 0.4ms output previous state, avoid entering short-circuit condition with big electric current this moment, make short circuit initial, even can not form once effective transition and produce the instantaneous short-circuit metal and splash owing to very big electromagnetic repulsive force hinders molten drop to the molten bath transition.
5. short circuit big current phase in latter stage (t5-t6):
Output characteristic of power source switches rapidly, makes short circuit load be in high value constant current state.Power work in output characteristics 5. the section.
6. under little electric current, carry out the transition to arc stage (t6-t7) from the short circuit process:
Welding current is along the decay of power supply output flat characteristic, and power work is in 6. section of output characteristics.
In order to realize the time-varying output characteristics conversion in above-mentioned six stages,, adopted " this pulse pulse width modulation (PWM) control " technology at the arc welding inverter output current regulating, its basic principle is as shown in Figure 3.Promptly between each pulse period of output of inverter, control circuit is handled the transient state information (but not mean value) of output current if, and Ig compares with set-point, determines the pulse width of the current output quantity uo of inverter control unit at once.The feedback signal processing links is only carried out shaping to regulate sensitivity and to improve the stability of a system to current transient information, do not exist filtering to lag behind, thereby system has excellent dynamic characteristic.In addition, the sampled point of current signal is chosen in the high-frequency inversion loop, the former limit of main transformer, thereby has fundamentally avoided the overcurrent of power switch component to damage.This technology is suitable for single-end ortho-exciting and full-bridge type inverter circuit structure.
Adopt designed power-supply system to carry out the welding procedure experiment, the result shows: increase electric current at the arcing initial stage, help improving arcing energy, improve appearance of weld (having significantly improved high coefficient of heap and fusion penetration); Reduce electric current in the arcing later stage, help the smooth short circuit of molten drop, reduce arc stage instantaneous short-circuit number of times, obviously reduced spatter loss coefficient.
Illustrate that accompanying drawing is as follows:
Fig. 1 is short circuiting transfer CO 2Weld ripples control Principle of Process figure.
Fig. 2 is each stage output characteristic of power source figure of welding process.
Fig. 3 is this pulse controlled basic principle figure.
Fig. 4 is micro-processor controlled inverter system theory diagram.
Fig. 5 knows other circuit working schematic diagram for welded condition.
Accompanying drawings embodiment is as follows:
Contravariant CO with time-varying output characteristics 2Arc Welding Power can adopt microcomputer control circuit to realize, also can adopt electronic control circuit directly to realize.Fig. 4 realizes CO for adopting the monolithic processor controlled inverter of 8O98 2The schematic block circuit diagram of arc welding Waveform Control.
Main circuit is that core constitutes with the insulating gate type bipolar transistor inverter, and its operating frequency is 25KHZ, specified output 400A.
Basic control circuit adopts " this pulse feedback " control to realize constant current output (I shown in Figure 2 H, I L, I m), and the control of flat characteristic (Us, Um) realizes by the fixed Fixed width working pulse frequently of inverter output.Its size can be controlled by adjusting electric current set-point Ig and voltage given value Ug.
Control System of Microcomputer detects three kinds of duties (short circuit, zero load, arcing) of welding process by the welded condition identification circuit, to determine the output time of different external characteristics among Fig. 2.The principle of welded condition identification circuit as shown in Figure 5, U among the figure Dth, U Hth, U KthBe respectively the short circuit threshold voltage, arcing threshold voltage and unloaded threshold voltage, arc voltage signal U fIt is the main foundation of judging welded condition.The welded condition identification circuit can produce corresponding interrupt signal when inverter enters a certain duty, single-chip microcomputer is discerned the residing state of welding process according to different interrupt requests, and further analyze the requirement of welding procedure by current-voltage sampling circuit, adjust the output external characteristic of power supply on this basis.
The parameter that Waveform Control need be determined is numerous, and for obtaining good welding effect, each waveform parameter needs rationally to cooperate.In monolithic processor controlled power-supply system, the reasonable cooperation of waveform parameter is by the realization of tabling look-up.When welding current (or wire feed rate) by after the keyboard input, microsystem is by tabling look-up 1 and carry out the arithmetic interpolation calculation and just can obtain suitable I S, I H, T H, U M, T MAnd I L
Table 1 wire feed rate and the Waveform Control parameter table of comparisons
Welding current (A) Wire feed rate (cm/min) ???I H???(A) ????T H???(ms) ???U M???(V) ???T M??(ms) ???I L???(A) ????I S????(A)
????40 ????134 ??120 ????2 ????25 ????6 ????25 ????300
????60 ????198 ??160 ????2 ????25 ????5 ????25 ????300
????80 ????250 ??200 ????2.5 ????26 ????5 ????30 ????300
????100 ????294 ??220 ????3 ????26 ????4 ????40 ????350
????150 ????409 ??240 ????3 ????28 ????4 ????55 ????350
????200 ????583 ??280 ????3.5 ????30 ????4 ????70 ????400
????250 ????771 ??300 ????3.5 ????32 ????4 ????80 ????400
Annotate: U MThe magnitude of voltage of power supply output during for load resistance R=1 Ω
Adopt above-mentioned power-supply system in that (carry out the welding procedure experiment in the current range of 60A~250A), the result shows, CO 2The spatter loss coefficient that becomes the external characteristics control method during welding is less than 3%, and weld seam is piled high coefficient ratio flat characteristic power supply and improved half, and the disturbance of dry extension of electrode is had very strong adaptability.

Claims (1)

1. an inverter arc welding power source time-varying output characteristics control method that is used for the carbon dioxide welding is characterized in that: with CO 2The whole process that welding is finished from the striking to the short circuiting transfer is divided into six feature stages, controls its electric current, magnitude of voltage in each feature stage, reaches to reduce to splash, and improves the purpose that is shaped, and its six feature stages are: 1. big electric current arc stage; 2. constant voltage stabilising arc stage; 3. carry out the transition to the short circuit process stage from the arcing process under the little electric current; 4. little current phase of short circuit initial stage; 5. short circuit big current phase in latter stage; 6. under little electric current, carry out the transition to the arcing process stage from the short circuit process, the Current Control in above-mentioned six feature stages realizes by inverter arc welding power source " this pulse control " technology, promptly between each pulse period of output of inverter, transient state information to output current if is handled, Ig compares with set-point, determines the pulse width of the current output quantity uo of inverter control unit at once.
CN97104402A 1997-05-30 1997-05-30 Method for controlling inverse arc-welding power source time-varying output characteristics for carbon dioxide welding Expired - Fee Related CN1042601C (en)

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CN97104402A CN1042601C (en) 1997-05-30 1997-05-30 Method for controlling inverse arc-welding power source time-varying output characteristics for carbon dioxide welding

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Application Number Priority Date Filing Date Title
CN97104402A CN1042601C (en) 1997-05-30 1997-05-30 Method for controlling inverse arc-welding power source time-varying output characteristics for carbon dioxide welding

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CN1042601C CN1042601C (en) 1999-03-24

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2005030421A1 (en) * 2003-09-26 2005-04-07 Tsinghua University Method and system for reducing spatter in short circuit transition procedure for gas-shielded welding
CN103008836A (en) * 2013-01-16 2013-04-03 伊达新技术电源(昆山)有限公司 Welding machine with function of short circuit arc molten drop control
CN103111732A (en) * 2013-01-25 2013-05-22 昆山华恒焊接股份有限公司 Control method of short circuiting transient process in consumable electrode gas shielded welding
EP1940578B1 (en) 2005-09-08 2017-05-24 Kemppi Oy Method for short-arc welding
CN114571037A (en) * 2022-03-28 2022-06-03 深圳市爱达思技术有限公司 Welding process control method and device

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100344402C (en) * 2003-09-26 2007-10-24 清华大学 Method and system for reducing splash in gas shielded welding of short-circuiting transfer

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5473139A (en) * 1993-01-18 1995-12-05 Toyota Jidosha Kabushiki Kaisha Pulsed arc welding apparatus having a consumable electrode wire

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2005030421A1 (en) * 2003-09-26 2005-04-07 Tsinghua University Method and system for reducing spatter in short circuit transition procedure for gas-shielded welding
EP1940578B1 (en) 2005-09-08 2017-05-24 Kemppi Oy Method for short-arc welding
CN103008836A (en) * 2013-01-16 2013-04-03 伊达新技术电源(昆山)有限公司 Welding machine with function of short circuit arc molten drop control
CN103111732A (en) * 2013-01-25 2013-05-22 昆山华恒焊接股份有限公司 Control method of short circuiting transient process in consumable electrode gas shielded welding
CN103111732B (en) * 2013-01-25 2015-12-02 昆山华恒焊接股份有限公司 The control method of short circuit transition in gas metal-arc welding
CN114571037A (en) * 2022-03-28 2022-06-03 深圳市爱达思技术有限公司 Welding process control method and device
CN114571037B (en) * 2022-03-28 2024-03-19 深圳市爱达思技术有限公司 Welding process control method and device

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