Method and apparatus for a contact start plasma cutting process
First Claim
1. A system for plasma cutting comprised of:
- a power supply having a first power output and a second power output;
a cutting torch electrically connected to the first power output and the second power output, and having an electrode, an air input and a nozzle that form at least a part of an air flow path;
a source of air connected to the air flow path; and
a valve in the air flow path, wherein the valve has a no electrode contact position that causes a pressure to bring the electrode out of contact with the nozzle, and wherein the valve has an electrode contact position that causes a pressure to bring the electrode into contact with the nozzle.
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Abstract
An plasma cutter, including a power supply, a cutting torch (with a nozzle), a source of air and a valve, is disclosed. The cutting torch is connected to the two power source outputs (cathode and anode). Air is supplied to the nozzle through the valve from the air supply. In one position the valve allows air to flow from the air source to the nozzle. In a second position the valve prevents air from flowing from the air supply to the nozzle and also vents the nozzle and torch. The torch has a movable electrode and the nozzle is in a fixed position. The nozzle and electrode are each electrically connected to a different one of the power outputs. The electrode is biased (preferably by a spring) to be in contact with the nozzle. However, air flowing into the torch and electrode overcomes the bias and moves the electrode away from the nozzle. If the arc is absent and the user desires current, then the valve is moved to prevent air from flowing into the torch and to vent the torch. Also, the valve is moved to provide air flow (thus purging the torch) when the power supply is powered up.
51 Citations
11 Claims
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1. A system for plasma cutting comprised of:
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a power supply having a first power output and a second power output;
a cutting torch electrically connected to the first power output and the second power output, and having an electrode, an air input and a nozzle that form at least a part of an air flow path;
a source of air connected to the air flow path; and
a valve in the air flow path, wherein the valve has a no electrode contact position that causes a pressure to bring the electrode out of contact with the nozzle, and wherein the valve has an electrode contact position that causes a pressure to bring the electrode into contact with the nozzle. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
the torch includes a movable electrode and a nozzle in a fixed position;
the electrode is electrically connected to the first power output;
the nozzle is electrically connected to the second power output;
the electrode is biased to be in contact with the nozzle; and
the electrode is in the air flow path, wherein air flow into the torch causes the bias to be overcome, and moves the electrode away from the nozzle.
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3. The apparatus of claim 2 wherein the torch includes a trigger switch having an on position indicating that output current is desired, and an off position indicating that output current is not desired, and wherein the power source includes:
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means for sensing the absence of an arc;
means for moving the valve to the electrode contact position in the event the arc is absent; and
means for maintaining a pilot current in the event the trigger switch is in the on position and the arc is absent.
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4. The apparatus of claim 3 wherein the power supply includes means for detecting the absence of current flowing in the electrode, and means for providing a reduced output voltage in the event the absence of output current is detected.
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5. The apparatus of claim 4 wherein the power supply includes means for providing air flow into the torch when the trigger switch is moved from the on position to the off position.
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6. The apparatus of claim 3 wherein the power supply includes means for providing air flow into the torch when the trigger switch is moved from the on position to the off position.
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7. The apparatus of claim 4 wherein the power supply includes means for providing air flow into the torch when power supply is powered up.
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8. The apparatus of claim 3 wherein the power supply includes means for providing air flow into the torch when power supply is powered up.
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9. A plasma cutting torch comprised of:
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a movable electrode connected to a first power output;
a nozzle in a fixed position and connected to a second power output;
a spring connected to the electrode that biases the electrode to be in contact with the nozzle;
an air flow path, including an air input, wherein air flow in the air flow path causes the bias to be overcome, and moves the electrode away from the nozzle; and
a valve in the air flow path, wherein the valve has a no electrode contact position that causes a pressure to exert a force sufficient to overcome the bias and move the electrode away from the nozzle, and wherein the valve has an electrode contact position that causes a pressure to exert a force insufficient to overcome the bias and move the electrode away from the nozzle.
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10. A system for plasma cutting comprised of:
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a power supply having a first power output and a second power output;
a cutting torch electrically connected to the first power output and the second power output, and having an air flow path including an input and a nozzle, and having a trigger switch having an on position indicating that output current is desired, and an off position indicating that output current is not desired;
a source of air connected to the air flow path;
a valve in the air flow path, wherein the valve has a no electrode contact position that causes a pressure to exert a force sufficient to overcome the bias and move the electrode away from the nozzle, and wherein the valve has an electrode contact position that causes a pressure to exert a force insufficient to overcome the bias and move the electrode away from the nozzle; and
wherein the power supply includes means for maintaining an air flow to the torch when the trigger switch is moved from the on position to the off position. - View Dependent Claims (11)
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Specification