CN203817590U - Full-digital polarity-variable multifunctional square-wave pulse welding power supply - Google Patents

Full-digital polarity-variable multifunctional square-wave pulse welding power supply Download PDF

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CN203817590U
CN203817590U CN201320839384.7U CN201320839384U CN203817590U CN 203817590 U CN203817590 U CN 203817590U CN 201320839384 U CN201320839384 U CN 201320839384U CN 203817590 U CN203817590 U CN 203817590U
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module
power supply
wave pulse
welding power
square wave
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CN201320839384.7U
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王振民
唐少杰
冯允樑
郭文龙
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South China University of Technology SCUT
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South China University of Technology SCUT
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Abstract

The utility model provides a full-digital polarity-variable multifunctional square-wave pulse welding power supply and relates to the technical field of welding equipment. The full-digital polarity-variable multifunctional square-wave pulse welding power supply is characterized by comprising a main circuit and a control circuit. The main circuit comprises a rectification filtration module, a front-stage inversion module, a medium frequency voltage transformation module, a quick rectification filtration module and a rear-stage inversion module. The rectification filtration module is connected with a three-phase alternating-current input power supply, and the rear-stage inversion module is connected with an arc load. The front-stage inversion module, the medium frequency voltage transformation module, the quick rectification filtration module and the rear-stage inversion module are connected with the control circuit so as to control power output through the control circuit. The full-digital polarity-variable multifunctional square-wave pulse welding power supply can achieve output of five current waveforms including direct current, direct current pulse, square wave, square wave pulse and pulse square wave; the main circuit of the welding power supply is of a double inversion structure, and the welding power supply is good in electric energy conversion efficiency and dynamic response performance.

Description

Digital Variable Polarity multifunctional square wave pulse welding power supply
Technical field
The utility model patent relates to technical field of welding equipment, specifically refers to a kind of digital Variable Polarity multifunctional square wave pulse welding power supply.
Background technology
Compare with traditional welding machine, the plurality of advantages such as that inverter type welder has is energy-efficient, lightweight, volume is little, dynamic property is good, is very beneficial for realizing precise treatment to control, and has become the mainstream development direction of welding equipment technology.But the model of inverter type welder is complicated, adopt simulation control or classical control to be difficult to obtain good control effect.In a lot of application scenarios, for reducing to greatest extent production run cost, often need welding machine to possess " a tractor serves several purposes " function simultaneously.For example, when the light-weight metals such as welding of aluminum, magnesium and alloy material thereof, need to adopt AC wave shape to weld to make full use of the negative electrode fragmentation of electric arc; Meanwhile, for guaranteeing welding procedure quality, need accurately to control the heat input of welding process, this just requires welding machine to carry out meticulous adjusting to the frequency of alternating current, amplitude and positive and negative half-wave dutycycle etc.; If there is at the scene the welding structural element of multiple material, may need to adopt the multiple welding methods such as TIG, MIG, ac square wave.Existing welding machine can't meet these demands, therefore develops a kind of multi-functional source of welding current, makes welding machine more meet current technical need.
Utility model content
The purpose of this utility model is to overcome shortcoming of the prior art with not enough, a kind of digital Variable Polarity multifunctional square wave pulse welding power supply is provided, and this source of welding current can be realized five kinds of current waveform outputs such as direct current, DC pulse, square wave, square-wave pulse and pulse square wave; This source of welding current main circuit adopts two inverter structure simultaneously, has good energy conversion efficiency and dynamic response performance.
In order to achieve the above object, the utility model is achieved by following technical proposals: a kind of digital Variable Polarity multifunctional square wave pulse welding power supply, is characterized in that: comprise main circuit and control circuit; Described main circuit comprises rectification filtering module, preceding-stage inversion module, intermediate frequency voltage changing module, quick rectification filtering module and the rear class inversion module connecting successively; Described rectification filtering module is connected with three-phase alternating current input power, and rear class inversion module is connected with arc load; Described preceding-stage inversion module, intermediate frequency voltage changing module, quick rectification filtering module and rear class inversion module are all connected to realize with control circuit by control circuit control power supply to be exported.The utility model source of welding current can be according to technological requirement, can realize five kinds of current waveform outputs such as direct current, DC pulse, ac square wave, square-wave pulse and pulse square wave, the frequency of current waveform, base value, peak value, dutycycle etc. all can be according to different welding procedure demand flexible modulation, thereby realize the accurate control of sweating heat input, can meet the high-quality welding demand of the multiple materials such as lightweight metal material, stainless steel, carbon steel.The main circuit of the utility model source of welding current adopts two inverter structure, can improve energy conversion efficiency and improve dynamic response performance.
Further scheme is: described preceding-stage inversion module adopts full-bridge inverting topological structure; Described preceding-stage inversion module adopts phase-shift soft switch mode of operation or hard switching mode of operation to realize the power change of current.Preceding-stage inversion module adopts full-bridge high-frequency inversion transformation technique, and transmitted power is strong, and energy conversion efficiency is high; The voltage that the power switch pipe of preceding-stage inversion module need to bear is simultaneously lower, can avoid the damage of power switch pipe.
Described rear class inversion module adopts two half-bridges topological structure in parallel.Rear class inversion module has adopted two half-bridges topological structure in parallel, can make full use of the current carrying capacity of the power switch pipe of rear class inversion module, has reduced manufacturing cost.
Described quick rectification filtering module adopts coupling reactance to realize high performance smothing filtering.Rectification filtering module has adopted coupling reactance fast, has effectively improved current ripples, is conducive to improve welding quality.
Further scheme is: described control circuit comprises ARM minimum system, high-frequency drive module, low frequency driving module, peak current detection module, current feedback module and human-computer interaction module;
Wherein, the input of high-frequency drive module is connected with ARM minimum system, and output is connected with preceding-stage inversion module; The input of low frequency driving module is connected with ARM minimum system, and output is connected with rear class inversion module; The output of peak current detection module is connected with ARM minimum system, and input is connected with intermediate frequency voltage changing module; The output of current feedback module is connected with ARM minimum system, and input is connected with quick rectification filtering module; Human-computer interaction module is for the setting of power supply output parameter, and human-computer interaction module is connected with ARM minimum system.Be provided with human-computer interaction module, make the control of power supply more accurate, it is more convenient to operate, and autgmentability and uniformity are better.
Described control circuit also comprises over-and under-voltage detection module, overheated detection module and motion detection module; The input of described over-and under-voltage detection module is connected with three-phase alternating current input power, and output is connected with ARM minimum system; Described overheated detection module is all connected with ARM minimum system with motion detection module.
The source of welding current also comprises widening parts, and widening parts is connected with ARM minimum system with relay module by CAN interface module; Described widening parts comprises in high-frequency arc strike device, feeder, cooling device, walking mechanism, wire-feed motor, magnetic control arc device and Tubesheet Welding head any one or more than one.
Preferred scheme is: described human-computer interaction module adopts digitizing tablet.
Described digitizing tablet comprises that model is ARM microprocessor two, keyboard, CPLD chip, orthogonal encoder, charactron and LED lamp and the peripheral auxiliary circuits of TM4C123FH6PM; Described ARM microprocessor two is connected with ARM minimum system, keyboard and CPLD chip respectively; Described CPLD chip is connected with orthogonal encoder, charactron and LED lamp respectively.The utility model source of welding current adopts the digitizing tablet based on " ARM+CPLD " twin-core structure, realizes multi-parameter and accurately sets and meticulous adjusting.
Preferred scheme is: described ARM minimum system comprises that model is ARM microprocessor one, chip power supply submodule, crystal oscillator submodule, JTAG debugging submodule and the reset submodule of LM4F232H5QC; Described ARM microprocessor is provided with the digital control software of the Variable Polarity Square-wave AC source of welding current based on FreeRTOS real-time kernel.Model is that the ARM microprocessor one of LM4F232H5QC is based on SOC level Cortex-M4 core A RM microprocessor, the ARM microprocessor that the utility model source of welding current be take based on Cortex-M4 kernel is core, take FreeRTOS as real-time kernel, realize the accurate control of multitask Real-Time Scheduling and welding procedure.
Compared with prior art, the utlity model has following advantage and beneficial effect:
1, the utility model source of welding current has been realized the Flexible Control to output current wave, improve the control accuracy of source of welding current output energy, can realize the output of the multiple waveforms such as direct current, DC pulse, ac square wave, square-wave pulse and pulse square wave, Technological adaptability is good, can meet the demand of multiple welding procedure; Be particularly useful for lightweight metal material;
2, the utility model source of welding current has been realized digital control, makes the square-wave pulse source of welding current have better uniformity, dynamic response performance and reliability;
3, the utility model source of welding current adopts two inversion topological structures, and dynamic response is good, can further raise the efficiency and reverse frequency, saves material, has reduced manufacturing cost.
Accompanying drawing explanation
Fig. 1 is the system architecture diagram of the utility model source of welding current;
Fig. 2 is the main circuit schematic diagram of the utility model source of welding current;
Fig. 3 is the control circuit structured flowchart of the utility model source of welding current;
Fig. 4 is the schematic diagram of the ARM minimum system of the utility model source of welding current;
Fig. 5 is the digitizing tablet structured flowchart of the utility model source of welding current.
The specific embodiment
Below in conjunction with accompanying drawing and the specific embodiment, the utility model is described in further detail.
Embodiment
A digital Variable Polarity multifunctional square wave pulse welding power supply, its system architecture diagram as shown in Figure 1.The source of welding current comprises main circuit 100 and control circuit 200.Main circuit 100 comprises rectification filtering module 101, preceding-stage inversion module 102, intermediate frequency voltage changing module 103, quick rectification filtering module 104 and the rear class inversion module 105 connecting successively; Rectification filtering module 101 is connected with three-phase alternating current input power, and rear class inversion module 105 is connected with arc load 106; Preceding-stage inversion module 102, intermediate frequency voltage changing module 103, quick rectification filtering module 104 and rear class inversion module 105 are all connected to realize the output of being controlled the sources of welding current by control circuit 200 with control circuit 200.The utility model source of welding current can be according to technological requirement, can realize 5 kinds of current waveform outputs such as direct current, DC pulse, ac square wave, square-wave pulse and pulse square wave, the frequency of current waveform, base value, peak value, dutycycle etc. all can be according to different welding procedure demand flexible modulation, thereby realize the accurate control of sweating heat input, can meet the high-quality welding demand of the multiple materials such as lightweight metal material, stainless steel, carbon steel, be particularly useful for the high-quality high-efficiency welding of lightweight metal material.
Main circuit 100 adopts two inverter structure, can improve energy conversion efficiency and improve dynamic response performance.Preceding-stage inversion module 102 adopts full-bridge inverting topological structure; Preceding-stage inversion module 102 adopts phase-shift soft switch mode of operation or hard switching mode of operation to realize the power change of current.Preceding-stage inversion module 102 adopts full-bridge high-frequency inversion transformation technique, and transmitted power is strong, and energy conversion efficiency is high; The voltage that the power switch pipe of preceding-stage inversion module 102 need to bear is simultaneously lower, can avoid the damage of power switch pipe.Rear class inversion module 105 adopts two half-bridges topological structure in parallel.Rear class inversion module 105 has adopted two half-bridges topological structure in parallel, can make full use of the current carrying capacity of the power switch pipe of rear class inversion module 105, has reduced manufacturing cost.Rectification filtering module 104 adopts coupling reactance to realize high performance smothing filtering fast, has effectively improved current ripples, is conducive to improve welding quality.
It is that example is introduced that the present embodiment source of welding current preceding stage inversion module 102 adopts hard switching mode of operation.The schematic diagram of main circuit 100 as shown in Figure 2.First, three-phase alternating current input power connects rectification filtering module 101, becomes more level and smooth direct current.Afterwards, flow into preceding-stage inversion module 102, process is by power switch tube S 1, power switch tube S 2, power switch tube S 3and power switch tube S 4the inverter bridge forming, the high frequency by power switch pipe turns on and off, and direct current is converted to high frequency square wave alternating current; Wherein, diode D 9, diode D 10, diode D 11, diode D 12be respectively power switch tube S 1, power switch tube S 2, power switch tube S 3and power switch tube S 4anti-paralleled diode, and resistance R 3, capacitor C 3, resistance R 4, capacitor C 4, resistance R 5, capacitor C 5, resistance R 6, capacitor C 6be respectively power switch tube S 1, power switch tube S 2, power switch tube S 3and power switch tube S 4absorbing circuit.When prime inversion module 102 works in soft switching mode, resistance R 3, resistance R 4, resistance R 5and resistance R 6value be zero.Then, square wave current inflow intermediate frequency voltage changing module 103 carries out step-down.Through the low pressure high-frequency ac square wave after step-down, enter quick rectification filtering module 104, become level and smooth direct current.L wherein 2-1, L 2-2for coupling reactance, can further reduce ripple current.Rear class inversion module 105 is two half-bridge parallel-connection structure, wherein power switch tube S 5and power switch tube S 7form a half-bridge, power switch tube S 6and power switch tube S 8another half-bridge, two half-bridge parallel operations.Work as power switch tube S 5and power switch tube S 6or power switch tube S 7and power switch tube S 8during full conducting, the source of welding current works in direct current output mode, by the adjusting to preceding-stage inversion module 102 duty cycle of switching, can export direct current and DC pulse current waveform.Work as power switch tube S 5and power switch tube S 6with power switch tube S 7and power switch tube S 8during alternate conduction, now the source of welding current works in AC mode, can output AC square wave, now, if modulated at the current value of 102 pairs of outputs of preceding-stage inversion module, and in 105 pairs of power switch tube S of rear class inversion module 5and power switch tube S 6with power switch tube S 7and power switch tube S 8frequency and the dutycycle of alternate conduction regulate, can obtain the Variable Polarity current waveform that frequency, dutycycle and current value all can soft readjustments, can meet the meticulous regulatory demand of the welding procedure energy such as ac square wave, square-wave pulse and pulse square wave.
The structured flowchart of control circuit 200 as shown in Figure 3.Control circuit 200 comprises ARM minimum system 205, high-frequency drive module 206, low frequency driving module 209, peak current detection module 207, current feedback module 208 and human-computer interaction module 210; And supply module 201.
Wherein, the input of high-frequency drive module 206 is connected with ARM minimum system 205, and output is connected with preceding-stage inversion module 102; The input of low frequency driving module 209 is connected with ARM minimum system 205, and output is connected with rear class inversion module 105; The output of peak current detection module 207 is connected with ARM minimum system 205, and input is connected with intermediate frequency voltage changing module 103; The output of current feedback module 208 is connected with ARM minimum system 205, and input is connected with quick rectification filtering module 104; Human-computer interaction module 210 is for the setting of power supply output parameter, and human-computer interaction module 210 is connected with ARM minimum system 205.Be provided with human-computer interaction module 210, make the control of power supply more accurate, it is more convenient to operate, and autgmentability and uniformity are better.
Control circuit 200 also comprises over-and under-voltage detection module 204, overheated detection module 203 and motion detection module 202; The input of over-and under-voltage detection module 204 is connected with three-phase alternating current input power, and output is connected with ARM minimum system 205; Overheated detection module 203 is all connected with ARM minimum system 205 with motion detection module 202.
The operation principle of the present embodiment source of welding current is: user sets current setting value by human-computer interaction module 210, human-computer interaction module 210 generates and sends current settings signal, ARM minimum system 205 received current setting signals are to set current value Changing Pattern, by current feedback module 208, detect the output current value of quick rectification filtering module 104, then this value and current setting value are compared, by the control software running on FreeRTOS real-time kernel, carry out digital regulated computing, then by PWM module, produce digital PWM signal, after the electrical isolation and amplification of high-frequency drive module 206, drive four power switch pipes of preceding-stage inversion module 102, control the dutycycle that it turns on and off, realize the constant-current characteristics closed-loop control of output current, make output current size meet the requirement of setting, simultaneously, dutycycle and the frequency values of the current waveform that ARM minimum system 205 is also set according to human-computer interaction module 210, by TIMER module controls GPIO port, produce the digital PWM signal of low frequency, then this signal is carried out to electrical isolation and amplification by low frequency driving module 209, then rear class inversion module 105 is carried out to low frequency modulations, obtain required dutycycle and frequency values.Control circuit is exactly by the Collaborative Control of preceding-stage inversion module 102 and rear class inversion module 105 being realized to the Flexible Control of multi-parameter waveform.
A preferred version of ARM minimum system 205 is that ARM minimum system 205 comprises that model is the ARM microprocessor one of LM4F232H5QC.ARM microprocessor is provided with the digital control software of the Variable Polarity Square-wave AC source of welding current based on FreeRTOS real-time kernel.Model is that the ARM microprocessor one of LM4F232H5QC is based on SOC level Cortex-M4 core A RM microprocessor.The general input/output port that ARM microprocessor one comprises 11 physics GPIO modules, support nearly 69 programmable I/O pins, the motion detection module 201 of welding process, overheated detection module 203, owe overvoltage detect 204 and relay module 212 be all directly connected with the GPIO module of ARM microprocessor one; Meanwhile, ARM microprocessor one also has the ADC module of two 12 bit resolutions, supports 22 tunnel input channels, sample rate is up to 1,000,000 time/second, peak current detection module 207 is all directly connected with the ADC module of ARM microprocessor one with current feedback module 208; ARM microprocessor one also has two PWM modules, can produce 16 road PWM output signals, so high-frequency drive module 206 is directly connected with the PWM module of ARM microprocessor one; ARM microprocessor one also has six general TIMER modules, can be used to control the low frequency pwm signal that GPIO port produces rear class inversion module 105 power switch pipes, so low frequency driving module 209 is directly connected with the GPIO port of ARM microprocessor one; ARM microprocessor one also has the general UART module of characteristic of eight 16C550 type serial line interfaces, possess the independent hardware FIFO that sends reception, so human-computer interaction module 210 is directly connected communication with the UART module of ARM microprocessor one.
The utility model source of welding current has built the digital control platform of the multi-functional Variable Polarity Square-wave AC source of welding current based on SOC level Cortex-M4 core A RM microprocessor and FreeRTOS real-time kernel first, digitlization, the digitlization of man-machine interaction and the digitlization that welding procedure is controlled that all PWM control have been realized, make the control of power supply more accurate, it is more convenient to operate, and autgmentability and uniformity are better.What simultaneously the utility model source of welding current took full advantage of SOC level M4 core A RM microprocessor enriches hardware resource and high-speed data disposal ability, is more conducive to the accurate control of sweating heat input.
The schematic diagram of ARM minimum system 205 as shown in Figure 4.ARM minimum system 205 also comprises chip power supply submodule, crystal oscillator submodule, JTAG debugging submodule and reset submodule.Chip power supply submodule comprises that model is the power supply chip of SPE117M; Crystal oscillator submodule consists of crystal oscillator Y1 and crystal oscillator Y2 and auxiliary circuit thereof; Reset submodule consists of interrupteur SW 1, resistance R 2 and capacitor C 1.
The built-in DSP functional module of ARM microprocessor one, for the SOC level chip based on Cortex-M4 kernel, it is the soul of whole circuit, its inside solidification has the digital control software of the Variable Polarity Square-wave AC source of welding current based on FreeRTOS real-time kernel, completes the action of current signal, welding gun, owes detection and the Processing tasks of the fault-signals such as overvoltage is overheated; In addition, also communicate by letter with digitizing tablet, realize the mutual of data; The given signal simultaneously human-computer interaction module being sended over and the signal of sampling carry out digital operation processing, according to calculation process result, the digital PWM signal that the PWM module of control ARM microprocessor one produces corresponding dutycycle goes to control preceding-stage inversion module 102 through high-frequency drive module 206, realizing current closed-loop controls, by the TIMER module of ARM microprocessor one, export corresponding low frequency digital pwm signal simultaneously, rear class inversion module 105 is carried out to low frequency modulations, to obtain required current waveform output, complete welding procedure and control.That utilizes ARM microprocessor one enriches pin and peripheral hardware and powerful data-handling capacity, the multi-parameter of the utility model source of welding current is regulated and control more conveniently, with low cost, easy and simple to handle, and exploitation integrated level is high, is easy to promote.
Human-computer interaction module 210 preferably adopts digitizing tablet.The structured flowchart of digitizing tablet as shown in Figure 5.Digitizing tablet comprises that model is ARM microprocessor two, keyboard, CPLD chip, orthogonal encoder, charactron and LED lamp and the peripheral auxiliary circuits of TM4C123FH6PM; ARM microprocessor two is connected with ARM minimum system, keyboard and CPLD chip respectively; CPLD chip is connected with orthogonal encoder, charactron and LED lamp respectively.Model is that the ARM microprocessor two of TM4C123FH6PM is based on Cortex-M4 kernel; CPLD chip adopts the chip that model is EPM240T100.The utility model source of welding current adopts the digitizing tablet based on " ARM+CPLD " twin-core structure, realizes multi-parameter and accurately sets and meticulous adjusting.Utilize the control ability of ARM microprocessor two and powerful operational capability, realize input and the calculation process of multi-parameter; Meanwhile, now setting and the demonstration of welding parameter of a large amount of programmable I/O cause for gossip that utilizes CPLD chip to have.ARM microprocessor two is communicated by letter and is realized instruction and transfer of data with CPLD chip by SSI, arrange and select the button of welding parameter to be connected with ARM microprocessor two, and the orthogonal encoder that adjustment welding parameter is set is first connected with CPLD chip, by the hardware deburring function of CPLD chip, remove the QEI interface that the burr producing in actual mechanical process is resent to ARM microprocessor two afterwards, draw the variation sizes values of the parameter that needs adjustment.The charactron that welding parameter shows is connected with CPLD chip.
The source of welding current also comprises widening parts 300, and widening parts 300 is connected with ARM minimum system 205 with relay module 212 by CAN interface module 211; Widening parts 300, according to concrete welding procedure demand, can comprise the functional units such as high-frequency arc strike device 308, feeder 307, cooling device 306, walking mechanism 305, wire-feed motor 303, magnetic control arc device 302, Tubesheet Welding head 301; Widening parts 300 is connected with relay module 212, the duty of each functional unit in relay module 212 control widening parts 300; Wire-feed motor 303, magnetic control arc device 302 and Tubesheet Welding head 301 can also be connected by CAN BUS to realize communication with CAN interface module 211.
The present embodiment has following characteristics:
1, total digitalization: the present embodiment has built the digital control platform of the multi-functional Variable Polarity Square-wave AC source of welding current based on SOC level Cortex-M4 core A RM microprocessor and FreeRTOS real-time kernel first, digitlization, the digitlization of man-machine interaction and the digitlization that welding procedure is controlled that all PWM control have been realized, make the control of power supply more accurate, it is more convenient to operate, and autgmentability and uniformity are better;
2, wide adaptability: what the present embodiment took full advantage of SOC level M4 core A RM microprocessor enriches hardware resource and high-speed data disposal ability, can be according to technological requirement, realize 5 kinds of current waveform outputs such as direct current, DC pulse, ac square wave, square-wave pulse and pulse square wave, the frequency of current waveform, base value, peak value, dutycycle etc. all can be according to different welding procedure demand flexible modulation, thereby realize the accurate control of sweating heat input, can meet the high-quality welding demand of the multiple materials such as lightweight metal material, stainless steel, carbon steel;
3, high efficiency: the present embodiment has adopted two inverter structure, preceding-stage inversion module adopts full-bridge high-frequency inversion transformation technique, and transmitted power is strong, and energy conversion efficiency is high, and the voltage that power tube bears is lower; In rectification filtering module, adopt coupling reactance fast, effectively improved current ripples, be conducive to improve welding quality; And adopted two half-bridge parallel-connection structures at rear class inversion module, and can make full use of the current carrying capacity of power tube, reduced manufacturing cost.
Above-described embodiment is preferably embodiment of the utility model; but embodiment of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under Spirit Essence of the present utility model and principle, substitutes, combination, simplify; all should be equivalent substitute mode, within being included in protection domain of the present utility model.

Claims (10)

1. a digital Variable Polarity multifunctional square wave pulse welding power supply, is characterized in that: comprise main circuit and control circuit; Described main circuit comprises rectification filtering module, preceding-stage inversion module, intermediate frequency voltage changing module, quick rectification filtering module and the rear class inversion module connecting successively; Described rectification filtering module is connected with three-phase alternating current input power, and rear class inversion module is connected with arc load; Described preceding-stage inversion module, intermediate frequency voltage changing module, quick rectification filtering module and rear class inversion module are all connected to realize with control circuit by control circuit control power supply to be exported.
2. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 1, is characterized in that: described preceding-stage inversion module adopts full-bridge inverting topological structure; Described preceding-stage inversion module adopts phase-shift soft switch mode of operation or hard switching mode of operation to realize the power change of current.
3. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 1, is characterized in that: described rear class inversion module adopts two half-bridges topological structure in parallel.
4. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 1, is characterized in that: described quick rectification filtering module adopts coupling reactance to realize high performance smothing filtering.
5. according to the digital Variable Polarity multifunctional square wave pulse welding power supply described in any one in claim 1 to 4, it is characterized in that: described control circuit comprises ARM minimum system, high-frequency drive module, low frequency driving module, peak current detection module, current feedback module and human-computer interaction module;
Wherein, the input of high-frequency drive module is connected with ARM minimum system, and output is connected with preceding-stage inversion module; The input of low frequency driving module is connected with ARM minimum system, and output is connected with rear class inversion module; The output of peak current detection module is connected with ARM minimum system, and input is connected with intermediate frequency voltage changing module; The output of current feedback module is connected with ARM minimum system, and input is connected with quick rectification filtering module; Human-computer interaction module is for the setting of power supply output parameter, and human-computer interaction module is connected with ARM minimum system.
6. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 5, is characterized in that: described control circuit also comprises over-and under-voltage detection module, overheated detection module and motion detection module; The input of described over-and under-voltage detection module is connected with three-phase alternating current input power, and output is connected with ARM minimum system; Described overheated detection module is all connected with ARM minimum system with motion detection module.
7. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 5, is characterized in that: also comprise widening parts, widening parts is connected with ARM minimum system with relay module by CAN interface module; Described widening parts comprises in high-frequency arc strike device, feeder, cooling device, walking mechanism, wire-feed motor, magnetic control arc device and Tubesheet Welding head any one or more than one.
8. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 5, is characterized in that: described human-computer interaction module adopts digitizing tablet.
9. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 8, is characterized in that: described digitizing tablet comprises that model is ARM microprocessor two, keyboard, CPLD chip, orthogonal encoder, charactron and LED lamp and the peripheral auxiliary circuits of TM4C123FH6PM; Described ARM microprocessor two is connected with ARM minimum system, keyboard and CPLD chip respectively; Described CPLD chip is connected with orthogonal encoder, charactron and LED lamp respectively.
10. digital Variable Polarity multifunctional square wave pulse welding power supply according to claim 5, is characterized in that: described ARM minimum system comprises that model is ARM microprocessor one, chip power supply submodule, crystal oscillator submodule, JTAG debugging submodule and the reset submodule of LM4F232H5QC.
CN201320839384.7U 2013-12-18 2013-12-18 Full-digital polarity-variable multifunctional square-wave pulse welding power supply Withdrawn - After Issue CN203817590U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103658933A (en) * 2013-12-18 2014-03-26 华南理工大学 All-digital variable polarity multifunctional square-wave pulse welding source
CN110076419A (en) * 2019-05-09 2019-08-02 北京石油化工学院 A kind of Digitizing And Control Unit for ultrahigh frequency pulses TIG weldering power supply
CN113732445A (en) * 2021-06-29 2021-12-03 华南理工大学 Auxiliary welding excitation power supply system and multi-mode current generation method

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103658933A (en) * 2013-12-18 2014-03-26 华南理工大学 All-digital variable polarity multifunctional square-wave pulse welding source
CN103658933B (en) * 2013-12-18 2016-01-20 华南理工大学 Digital Variable Polarity multifunctional square wave pulse welding power supply
CN110076419A (en) * 2019-05-09 2019-08-02 北京石油化工学院 A kind of Digitizing And Control Unit for ultrahigh frequency pulses TIG weldering power supply
CN113732445A (en) * 2021-06-29 2021-12-03 华南理工大学 Auxiliary welding excitation power supply system and multi-mode current generation method
CN113732445B (en) * 2021-06-29 2022-09-20 华南理工大学 Auxiliary welding excitation power supply system and multi-mode current generation method

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