WO2015118808A1 - アーク溶接装置およびアーク溶接方法 - Google Patents
アーク溶接装置およびアーク溶接方法 Download PDFInfo
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- WO2015118808A1 WO2015118808A1 PCT/JP2015/000210 JP2015000210W WO2015118808A1 WO 2015118808 A1 WO2015118808 A1 WO 2015118808A1 JP 2015000210 W JP2015000210 W JP 2015000210W WO 2015118808 A1 WO2015118808 A1 WO 2015118808A1
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- arc welding
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K9/00—Arc welding or cutting
- B23K9/16—Arc welding or cutting making use of shielding gas
- B23K9/173—Arc welding or cutting making use of shielding gas and of a consumable electrode
Definitions
- the present disclosure relates to an arc welding apparatus and an arc welding method, and particularly relates to supply control of shield gas used for gas shielded arc welding.
- arc is generated in a shielding gas atmosphere and welding is performed to prevent oxidation and nitridation of the weld metal.
- a preflow for supplying a shielding gas is performed before the arc is generated in order to reliably shield the welded portion.
- a post flow is performed to maintain the supply of shielding gas even after the arc is extinguished.
- FIG. 5 is a diagram illustrating a state of a torch switch, a gas solenoid valve, and a welding output in a conventional gas metal arc welder.
- the gas solenoid valve is turned on during the postflow time T12. If the torch switch is turned on again before the postflow time T12 (for example, 10 seconds) elapses, the welding output is turned on without preflow. If the torch switch is not turned on after the welding output is turned off and the postflow time T12 elapses, the gas solenoid valve is automatically turned off.
- a conventional gas metal arc welder when a preflow time T11 and a postflow time T12 set in advance have elapsed, the gas solenoid valve is automatically turned off and the supply of shield gas is stopped.
- the preflow time T11 or the postflow time T12 it is necessary to extend the preflow time T11 or the postflow time T12 in order to prepare or maintain the shielding gas atmosphere.
- the torch is operated again and the supply of the shield gas can be resumed.
- the shield gas atmosphere is temporarily deteriorated.
- the present disclosure provides an arc welding apparatus and an arc welding method capable of extending the preflow time and the afterflow time without interruption by operating a torch switch by an operator.
- an arc welding apparatus of the present disclosure includes an arc welding torch, a shield gas supply device, and an arc welding power supply device.
- the arc welding torch has a torch switch.
- the shield gas supply device supplies shield gas to the arc welding torch.
- the arc welding power supply device is connected to an arc welding torch and a shield gas supply device.
- the first operation is performed on the torch switch at the first time point while the shield gas is being supplied, so that the stop time for stopping the supply of the shield gas from the first time point.
- the supply of the shield gas is continued at the second time point when the first period has elapsed.
- the arc welding method of the present disclosure has a first step and a second step.
- the shielding gas is supplied by operating the torch switch of the arc welding torch.
- the stop time for stopping the supply of the shield gas by performing the first operation on the torch switch at the first time point during the supply of the shield gas in the first step The supply of the shielding gas is continued at the second time when the first period has elapsed from the first time.
- the supply time of the shield gas can be arbitrarily adjusted by the operator operating the torch switch.
- FIG. 1 is a diagram illustrating a schematic configuration of an arc welding apparatus according to an embodiment of the present disclosure.
- FIG. 2 is a timing chart showing the relationship between the torch switch, shield gas supply, and welding output in the arc welding method according to the embodiment of the present disclosure.
- FIG. 3 is a timing chart showing the relationship between the torch switch, shield gas supply, and welding output in the arc welding method according to the embodiment of the present disclosure.
- FIG. 4 is a timing chart showing the relationship between the torch switch, shield gas supply, and welding output in the arc welding method according to the embodiment of the present disclosure.
- FIG. 5 is a diagram illustrating a state of a torch switch, a gas solenoid valve, and a welding output in a conventional gas metal arc welder.
- FIG. 1 is a diagram showing a schematic configuration of arc welding according to the present embodiment.
- 2 to 4 are time charts showing the relationship between the torch switch, shield gas supply, and welding output in the arc welding method of the present embodiment.
- the arc welding apparatus 1 includes an arc welding power supply device 2, an arc welding torch 3, a shield gas supply device 4, and a wire feeding device 5.
- the arc welding power supply device 2 includes a welding output control unit 21, a gas supply control unit 22, a main control unit 23, a wire feed control unit 24, and an output terminal 25.
- the arc welding torch 3 has a torch switch 31.
- the shield gas supply device 4 includes a gas cylinder 41 and a gas supply valve 42.
- the main control unit 23 is connected to the welding output control unit 21, the gas supply control unit 22, and the wire feed control unit 24.
- the main control unit 23 discriminates the operation of the torch switch 31 by the operator, and controls the welding output control unit 21, the gas supply control unit 22, and the wire feed control unit 24 by outputting signals.
- the main control unit 23 also has a function for measuring time (time keeping function).
- the main control unit 23 also stores a gas supply set time T1 (first period), an afterflow time T2 (third period), and a second operation determination time T3 (second period).
- the gas supply control unit 22 is connected to the gas supply valve 42 of the shield gas supply device 4, and controls opening and closing of the gas supply valve 42 based on a signal from the main control unit 23. Thereby, the shielding gas supplied from the gas cylinder 41 to the arc welding torch 3 is controlled.
- the wire feeding control unit 24 is connected to the wire feeding device 5 and controls the wire feeding device 5 based on a signal from the main control unit 23. Thereby, feeding of the wire 51 which is a consumable electrode supplied from the wire feeder 5 to the arc welding torch 3 is controlled.
- the welding output control unit 21 is connected to the output terminal 25 and controls the welding output via the output terminal 25 based on a signal from the main control unit 23.
- the output terminal 25 consists of two terminals, one terminal is connected to the wire 51 via the arc welding torch 3, and the other terminal is connected to the base material 6 that is an object to be welded. Thereby, the welding output between the base material 6 and the wire 51 is controlled.
- the welding output is a welding voltage and a welding current, and the control of the welding output is to control one or both of the welding voltage and the welding current.
- the arc 7 is generated between the wire 51 and the base material 6 by the welding output from the welding output control unit 21, and welding is performed on the base material.
- the gas cylinder 41 is connected to the arc welding torch 3 through the gas supply valve 42 and supplies the internal shielding gas to the arc welding torch 3.
- FIG. 2 a method for extending and stopping the supply of shielding gas without generating welding output will be described.
- the lower part indicates OFF and the upper part indicates ON.
- the state where the torch switch 31 is pressed is turned on, and the state where the torch switch 31 is not pressed is turned off.
- the state where the shield gas is supplied is turned on, and the state where the shield gas is not supplied is turned off.
- the state where the welding output is output is turned on, and the state where the welding output is not output is turned off.
- ON of the welding output is a state in which a welding voltage including a no-load voltage output and a welding current are output from the two output terminals 25 of the arc welding power supply device 2.
- the shield gas is supplied.
- a first operation for example, single click
- the main control unit 23 outputs a signal indicating that the first operation has been performed to the gas supply control unit 22.
- the gas supply control unit 22 controls the gas supply valve 42 based on the signal from the main control unit 23, and starts supplying shield gas for the gas supply set time T1.
- the gas supply set time T1 is controlled by setting a stop time for stopping the supply of the shield gas by the time measuring function of the main control unit 23.
- the main control unit 23 performs the gas supply control unit when the gas supply set time T1 has passed (when the set stop time is reached).
- a signal for stopping the supply of the shielding gas is output to 22.
- the gas supply control unit 22 controls the gas supply valve 42 based on the signal from the main control unit 23 and stops the supply of the shield gas.
- the main control unit 23 sets the gas supply set time T1 from the time point A to a stop time for stopping the supply of the shield gas by performing the first operation during the gas supply set time T1. It changes to the time B which passed. Then, when the operation of the torch switch 31 is not performed by the time point B, the main control unit 23 outputs a signal for stopping the supply of the shield gas to the gas supply control unit 22 at the time point B.
- the gas supply control unit 22 controls the gas supply valve 42 based on the signal from the main control unit 23 to stop the supply of the shield gas. Thereby, the operator can extend the time for supplying the shield gas without interrupting the supply of the shield gas by operating the torch switch 31.
- the control for extending the supply of shielding gas (changing the stop time) can be performed not only once but also a plurality of times.
- the main control unit 23 changes the stop time for stopping the supply of the shield gas to be the time point C by the third operation being performed during the gas supply set time T1. Specifically, the main control unit 23 changes the stop time so as to be the time point D when the third operation ends. Then, the main control unit 23 outputs a signal for stopping the supply of the shield gas to the gas supply control unit 22 at the time C (specifically, the time D when the third operation is finished).
- a third operation for example, double click
- the main control unit 23 may delete the stop time without changing the stop time and may output a signal for stopping the supply of the shield gas to the gas supply control unit 22.
- the gas supply control unit 22 controls the gas supply valve 42 based on the signal from the main control unit 23 to stop the supply of the shield gas. That is, the supply of shield gas can be stopped regardless of the remaining time of the gas supply set time T1. Thereby, the operator can determine the timing to stop the supply of the shield gas by operating the torch switch 31.
- a single click is set.
- the torch switch 31 is turned on and off within 0.3 seconds. That is, the on-state time of the torch switch 31 is 0.3 seconds or less.
- a double click is set.
- the single click described above is performed twice at intervals of 0.3 seconds or less.
- the operator can arbitrarily change the amount of shield gas supplied before welding output by operating the torch switch 31. That is, according to the first operation, the shield gas can be supplied without interruption (shield gas supply can be extended), the working time can be shortened, and the amount of shield gas consumed can also be reduced. Further, the third operation can reduce the amount of shield gas consumed without excessively supplying shield gas. And since it can control only by operation of the torch switch 31 by an operator, work efficiency improves. Note that the extension of the supply of the shield gas by the first operation is performed at a point A when the first operation is started, as shown in FIG. Thereby, work start can be accelerated. Further, the supply of the shielding gas by the first operation may be performed at the time when the first operation is completed. The shield gas is stopped by the third operation at the time point D when the third operation is completed, as shown in FIG. Since the third operation is to stop the shielding gas, it is not executed until the operation is confirmed. Thereby, insufficient supply of shield gas can be avoided.
- a welding output is generated.
- the main control unit 23 confirms that the second operation is being performed.
- the signal shown is output to the welding output control unit 21.
- the welding output control unit 21 generates a welding output at the output terminal 25 based on a signal from the main control unit 23. Since the supply of the shield gas is continued when the welding output is generated, the main control unit 23 deletes the set stop time at the time point E.
- the wire 51 that is a consumable electrode is fed to the arc welding torch 3 using the wire feeding device 5, so that at the time point E, the main control unit 23 performs the second operation.
- a signal indicating that the wire has been disconnected is output to the wire feed control unit 24.
- the wire feeding control unit 24 controls the feeding of the wire 51 by the wire feeding device 5 based on the signal from the main control unit 23.
- TIG Tungsten Inert Gas
- the main control unit 23 outputs a signal for stopping the welding output to the welding output control unit 21 at the time point F because the second operation is completed while the welding output is being generated.
- the welding output control unit 21 stops the welding output to the output terminal 25 based on the signal from the main control unit 23.
- the main control unit 23 outputs a signal for stopping the feeding of the wire 51 to the wire feeding control unit 24.
- the wire feeding control unit 24 stops feeding the wire 51 by the wire feeding device 5 based on the signal from the main control unit 23.
- the main control unit 23 Since the welding output has occurred, at time F, the main control unit 23 newly sets a stop time for stopping the supply of the shield gas to time G when the afterflow time T2 has elapsed from time F. As described with reference to FIG. 2, the control for extending or stopping the supply of the shielding gas is performed if the first operation or the third operation is performed on the torch switch 31. If the operator does not operate the torch switch 31, the main control unit 23 outputs a signal for stopping the supply of the shield gas to the gas supply control unit 22 at the time point G and stops the supply of the shield gas.
- the second operation for example, long press is set.
- long press for example, the torch switch 31 is turned on and off so as to maintain the on state of the torch switch 31 for more than 0.3 seconds. In this case, it is determined that the second operation is being performed when 0.3 seconds have passed since the torch switch 31 was turned on. The time required until the second operation is confirmed is the determination time T3.
- the supply time of the shield gas until the welding output is started, the timing for starting the welding output, the timing for stopping the welding output, and the welding output stop The operator can arbitrarily control the later supply time of the shield gas by operating the torch switch 31.
- the set values of the gas supply set time T ⁇ b> 1 and the afterflow time T ⁇ b> 2 can be arbitrarily changed with respect to the main control unit 23 of the arc welding power supply device 2.
- the main control unit 23 has a time measuring function to measure time.
- the main control unit 23 performs only the operation of the input torch switch 31 with the welding output control unit 21 and the gas supply. You may output to the control part 22 or the wire feed control part 24.
- FIG. And the welding output control part 21, the gas supply control part 22, and the wire feed control part 24 may have a time measuring function, and may control themselves.
- a single click of the torch switch 31 is performed as the first operation
- a long press of the torch switch 31 is performed as the second operation
- a double click of the torch switch 31 is performed as the third operation.
- the time during which the torch switch 31 is kept on may be the first operation.
- the first operation may be performed by clicking a predetermined number of times after the on-state of the torch switch 31 is continued for a predetermined time, or the first operation may be performed by variously combining the duration of the on-state of the torch switch 31 and the number of clicks. Good.
- the number of clicks in the second operation may be set.
- welding output is started when the torch switch 31 is double-clicked, and then the welding output is output when the torch switch 31 is double-clicked again.
- the second operation may be performed by variously combining the on-time duration of the torch switch 31 and the number of clicks.
- the third operation may be performed by variously combining the duration of the ON state of the torch switch 31 and the number of clicks.
- the supply time of the shield gas can be arbitrarily adjusted by the operation of the torch switch by the operator, and this is industrially useful as an arc welding apparatus and an arc welding method using the shield gas.
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Abstract
Description
図1~図4を用いて、本実施の形態のアーク溶接装置1について説明する。図1は、本実施の形態のアーク溶接の概略構成を示す図である。図2~図4は、本実施の形態のアーク溶接方法における、トーチスイッチとシールドガスの供給と溶接出力との関係を示すタイムチャートである。
2 アーク溶接電源装置
3 アーク溶接用トーチ
4 シールドガス供給装置
5 ワイヤ送給装置
6 母材
7 アーク
A 時点
B 時点
C 時点
D 時点
E 時点
F 時点
G 時点
H 時点
I 時点
21 溶接出力制御部
22 ガス供給制御部
23 主制御部
24 ワイヤ送給制御部
25 出力端子
31 トーチスイッチ
41 ガスボンベ
42 ガス供給用バルブ
51 ワイヤ
T1 ガス供給設定時間
T2 アフターフロー時間
T3 判定時間
T11 プレフロー時間
T12 ポストフロー時間
Claims (9)
- トーチスイッチを有するアーク溶接用トーチと、
シールドガスを前記アーク溶接用トーチに供給するシールドガス供給装置と、
前記アーク溶接用トーチおよび前記シールドガス供給装置が接続されたアーク溶接電源装置とを備え、
前記シールドガスが供給されている間の第1の時点に、前記トーチスイッチに第1の操作を行うことにより、前記シールドガスの供給を停止する停止時間が前記第1の時点から第1の期間が経過した第2の時点に設定されて前記シールドガスの供給が継続されるアーク溶接装置。 - 前記シールドガスが供給されている間に、前記トーチスイッチに前記第1の操作とは異なる第2の操作を行うことにより、前記停止時間が削除されて前記シールドガスの供給が継続され、アークを発生させる制御が行われる請求項1に記載のアーク溶接装置。
- 前記アークを発生させる制御は、前記第2の操作が開始されてから第2の期間が経過した第3の時点に開始される請求項2に記載のアーク溶接装置。
- 前記第2の操作が終了する第4の時点に、前記アークを発生させる制御が終了し、前記停止時間が前記第4の時点から第3の期間が経過した第5の時点に設定されて前記シールドガスの供給が継続する請求項2または3に記載のアーク溶接装置。
- 前記シールドガスが供給されている間の第6の時点に、前記トーチスイッチに前記第1の操作および前記第2の操作とは異なる第3の操作を行うことにより、前記停止時間が前記第6の時点に設定されて前記シールドガスの供給が停止する請求項2~4のいずれかに記載のアーク溶接装置。
- 前記第3の操作は、前記トーチスイッチをダブルクリックすることである請求項5に記載のアーク溶接装置。
- 前記第2の操作は、前記トーチスイッチのオン状態を継続することである請求項2~6のいずれかに記載のアーク溶接装置。
- 前記第1の操作は、前記トーチスイッチをシングルクリックすることである請求項1から7のいずれかに記載のアーク溶接装置。
- アーク溶接用トーチのトーチスイッチを操作して、シールドガスを供給する第1の工程と、
前記第1の工程において、前記シールドガスが供給されている間の第1の時点に、前記トーチスイッチに第1の操作を行うことにより、前記シールドガスの供給を停止する停止時間が、前記第1の時点から第1の期間が経過した第2の時点に設定されて前記シールドガスの供給が継続される第2の工程と、を備えたアーク溶接方法。
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JP2015561198A JP6600812B2 (ja) | 2014-02-04 | 2015-01-20 | アーク溶接装置およびアーク溶接方法 |
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US11213907B2 (en) | 2017-01-04 | 2022-01-04 | Illinois Tool Works Inc. | Methods and systems for selecting welding schedules in a welding-type torch |
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JPH02295674A (ja) * | 1989-05-08 | 1990-12-06 | Hitachi Seiko Ltd | アーク溶接装置 |
JPH08206837A (ja) * | 1994-10-29 | 1996-08-13 | Hyundai Heavy Ind Co Ltd | ガスメタルアーク溶接機の保護ガスプレフロー時間制御装置 |
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US11213907B2 (en) | 2017-01-04 | 2022-01-04 | Illinois Tool Works Inc. | Methods and systems for selecting welding schedules in a welding-type torch |
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CN105579178B (zh) | 2018-12-25 |
JPWO2015118808A1 (ja) | 2017-03-23 |
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CN105579178A (zh) | 2016-05-11 |
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