IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0112980
(2002-03-29)
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발명자
/ 주소 |
- Holverson, Todd
- Nikodym, Anthony
- Zhang, Lin
- Barhorst, Steven
- Reynolds, Jon
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
28 인용 특허 :
8 |
초록
▼
A method and apparatus for MIG welding is disclosed. When in an ac mode the output is unbalanced, or the balance may be controlled. The balance may be controlled to provide a desired deposition rate and/or to obtain a desired dilution. The frequency may be any frequency, for example 30 Hz, 60 Hz, 90
A method and apparatus for MIG welding is disclosed. When in an ac mode the output is unbalanced, or the balance may be controlled. The balance may be controlled to provide a desired deposition rate and/or to obtain a desired dilution. The frequency may be any frequency, for example 30 Hz, 60 Hz, 90 Hz, or more. The weld path may have groove with angle of less than 50 degrees. A consumable, cored, wire may be used, and provide at rates of 30 or 35 pounds per hour using a single arc. In various embodiments the balance may have a negative portion of at least 1.5 times the positive portion. The process may be started using an extended negative portion, for example 0.5 or 0.75 seconds.
대표청구항
▼
A method and apparatus for MIG welding is disclosed. When in an ac mode the output is unbalanced, or the balance may be controlled. The balance may be controlled to provide a desired deposition rate and/or to obtain a desired dilution. The frequency may be any frequency, for example 30 Hz, 60 Hz, 90
A method and apparatus for MIG welding is disclosed. When in an ac mode the output is unbalanced, or the balance may be controlled. The balance may be controlled to provide a desired deposition rate and/or to obtain a desired dilution. The frequency may be any frequency, for example 30 Hz, 60 Hz, 90 Hz, or more. The weld path may have groove with angle of less than 50 degrees. A consumable, cored, wire may be used, and provide at rates of 30 or 35 pounds per hour using a single arc. In various embodiments the balance may have a negative portion of at least 1.5 times the positive portion. The process may be started using an extended negative portion, for example 0.5 or 0.75 seconds. reference voltage but is below the switching voltage.6. The wire electric-discharge machining apparatus according to claim 3, wherein the relative feed rate determining unit gradually increases the amount of change in the relative feed rate per unit voltage change as the measured voltage comes closer to the switching voltage, and outputs a relative feed rate having a greater amount of change per unit voltage than the case in which the measured voltage exceeds the switching voltage, immediately before the measured voltage reaches the switching voltage.7. The wire electric-discharge machining apparatus according to claim 1, wherein the relative feed rate determining unit outputs a constant relative feed rate when the measured voltage exceeds the short circuit reference voltage but is below the switching voltage.8. The wire electric-discharge machining apparatus according to claim 7, wherein the constant relative feed rate is decided by multiplying a predetermined target feed rate by a preset ratio.9. The wire electric-discharge machining apparatus according to claim 1, wherein the relative feed rate determining unit sets a switching speed having a value lower than the predetermined target feed rate, and calculates the switching voltage by using the relationship between the measured voltage and the relative feed rate based on the switching speed.10. A wire electric-discharge machining apparatus according to claim 1, further comprising a control parameter switching unit which sets a reference voltage and a target feed rate based on predetermined machining conditions.11. A wire-electric discharge machining apparatus according to claim 1, wherein said short circuit reference voltage is a preset voltage which determines whether the generation of the discharge is impossible due to contact between the wire electrode and the work piece.12. A wire electric-discharge machining apparatus which comprises: a relative feed rate determining unit that decides a relative feed rate between a wire electrode and a workpiece based on a measured voltage between the wire electrode and the workpiece, and which carries out machining on the workpiece by generating a discharge between the wire electrode and the workpiece and relatively moving the wire electrode and the workpiece at the relative feed rate decided by the relative feed rate determining unit,wherein when the measured voltage exceeds a predetermined short circuit reference voltage, the relative feed rate determining unit outputs a positive relative feed rate in which an amount of change per unit voltage change becomes smaller as a difference between the measured voltage and the short circuit reference voltage decreases.13. A wire electric-discharge machining apparatus comprising: a machining power supply which applies a pulse-like voltage between a wire electrode and a workpiece;an average voltage measurement unit which measures an average voltage between the wire electrode and the workpiece;a control parameter switching unit which sets a reference voltage and a target feed rate based on predetermined machining conditions;a relative feed rate determining unit which decides a relative feed rate between the wire electrode and the workpiece based on a measured voltage between the wire electrode and the workpiece, and which carries out machining on the workpiece by generating a discharge between the wire electrode and the workpiece and relatively moving the wire electrode and the workpiece at the relative feed rate decided by the relative feed rate determining unit;a control parameter setting unit which sets a reference voltage and a target feed rate based on predetermined conditions; anda control unit which moves the wire electrode and the workpiece by a feed rate calculated by a driving unit.14. A wire electric-discharge machining apparatus comprising: a wire electrode;a machining power supply which applies a pulse-like voltage between the wire electrode and a workpiece to carry out machining on the workpiece;a driving unit which moves the wire electrode and the workpiece relatively to each other during the machining;a control unit which calculates a feed rate at which the wire electrode is fed relative to the workpiece and controls the driving unit so that the wire electrode and the workpiece move relatively to each other at the feed rate;a voltage measurement unit which measures a voltage between the wire electrode and the workpiece while the wire electrode and the workpiece move relatively to each other;an average voltage calculating unit which calculates an average voltage from voltages measured by the voltage measurement unit at different locations due to the relative movement of the wire electrode and the workpiece;a relative feed rate determining unit which decides a target relative feed rate between the wire electrode and the workpiece based on the average voltage according to predetermined conditions;a control parameter setting unit which sets a reference voltage, a shortcircuit reference voltage, and a switching voltage that is set between the shortcircuit reference voltage and the reference voltage based on predetermined conditions; anda control parameter switching unit which switches the target relative feed rate to a positive relative feed rate according to predetermined conditions, when the average voltage exceeds the short circuit reference voltage but is below the switching voltage.15. A wire electric-discharge machining apparatus comprising: a wire electrode;a machining power supply which applies a pulse-like voltage between the wire electrode and a workpiece to carry out machining on the workpiece;a driving unit which moves the wire electrode and the workpiece relatively to each other during the machining;a control unit which calculates a feed rate at which the wire electrode is fed relative to the workpiece and controls the driving unit so that the wire electrode and the workpiece move relatively to each other at the feed rate;an average voltage measurement unit which measures a voltage between the wire electrode and the workpiece while the wire electrode and the workpiece move relatively to each other, and calculates an average voltage from the voltages measured;a relative feed rate determining unit which decides a target relative feed rate between the wire electrode and the workpiece based on the average voltage according to predetermined conditions;a control parameter setting unit which sets a reference voltage, a shortcircuit reference voltage, and a switching voltage that is set between the shortcircuit reference voltage and the reference voltage based on predetermined conditions; anda control parameter switching unit which switches the target relative feed rate to a positive relative feed rate according to predetermined conditions, when the average voltage exceeds the short circuit reference voltage but is below the switching voltage. discharge parameters and the electrode withdrawals from the drilled hole and continues the next drilling hole on the workpiece. The present invention also provides a method of the same.
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