Patent application number | Description | Published |
20090008370 | AUTOMATIC CONSUMABLE AND TORCH LENGTH DETECTION VIA PRESSURE DECAY - A system and method for a plasma system includes a plasma torch actuated by a trigger, a consumable installed in the plasma torch, and a gas flow system constructed to receive pressurized gas and provide a gas flow to the plasma torch. A gas flow regulating system is included and configured to regulate the gas flow, and a sensing device is included and configured to monitor a gas pressure in the plasma torch. The plasma system also includes a controller configured to receive a signal from the sensing device and to determine one of a length parameter of the plasma torch and a type of the consumable therefrom. | 01-08-2009 |
20090230098 | METHOD FOR DETECTING CURRENT TRANSFER IN A PLASMA ARC - Methods and systems for transferring a plasma arc from between an electrode and a tip to between an electrode and a workpiece and back as dictated by the conditions at the cutting arc are provided. The present disclosure allows for arc transfer detection without use of a current sensor at the workpiece or knowledge of a precise pilot circuit limit value through a novel plasma arc control circuit. In one embodiment, the plasma arc control circuit provides a programmable current source and a current sink configured to limit current in a pilot arc control circuit. The pilot arc circuit may be configured to signal its limiting status to a controller, which may switch the pilot arc control circuit in or out of the current path. Certain embodiments may include a pulse width modulation control in the pilot arc control circuit for controlling current flow through the pilot arc circuit. | 09-17-2009 |
20090294413 | METHOD AND APPARATUS FOR PROPORTIONAL VALVE ACTUATION IN A PLASMA CUTTER - A system and method for automatically controlling gas pressure for a plasma cutter includes a plasma torch, a gas supply system to provide a pressurized gas to the plasma torch, and a proportional valve configured to regulate the pressurized gas. The proportional valve includes a body, a valve seat positioned therein and defining a valve orifice, and a plunger having a mating surface on one end that mates with the valve seat and the orifice and a pressure receiving surface on an opposite end. The proportional valve also includes an inlet to receive the pressurized gas and distribute the pressurized gas to the valve orifice and the pressure receiving surface of the plunger, an electrical solenoid having a chamber to electro-magnetically translate the plunger therein, and a bias urging the plunger toward the valve orifice in conjunction with the pressurized gas when electrical power is reduced to the electrical solenoid. | 12-03-2009 |
20090294415 | SYSTEM AND METHOD FOR START FLOW APPROACH CONTROL FOR A PROPORTIONAL VALVE IN A PLASMA CUTTER - A system and method for start flow approach control for a proportional valve in a plasma cutter is provided that includes a controller configured to determine a target gas pressure set point for a plasma cutting operation and determine a ramp pressure set point offset from the target gas pressure set point. The controller is also configured to apply a full-open drive signal to an air pressure-closing proportional valve and monitor a pressure of gas flow output from the air pressure-closing proportional valve via a sensing device. The controller is further configured to apply a ramping drive signal to the air pressure-closing proportional valve after the pressure of the gas flow has reached the ramp pressure set point and apply a target-pressure drive signal to the air pressure-closing proportional valve after the pressure of the gas flow has reached the target gas pressure set point. | 12-03-2009 |
20100078410 | METHOD AND APPARATUS FOR HIGH POWER DENSITY PLASMA CUTTING SYSTEM - A system and method for providing a high power density plasma cutting/welding-type system is disclosed. The plasma cutting system includes a housing and a power source disposed within the housing constructed to generate plasma cutting power. The plasma cutting system also includes a plasma torch actuated by a trigger and connected to the power source to produce a cutting arc. The plasma cutting system is constructed such that it has a power-to-weight ratio of at least 550 Watts per kilogram (W/kg). | 04-01-2010 |
20130220980 | METHOD AND APPARATUS FOR PROPORTIONAL VALVE ACTUATION IN A PLASMA CUTTER - A system and method for automatically controlling gas pressure for a plasma cutter includes a plasma torch, a gas supply system to provide a pressurized gas to the plasma torch, and a proportional valve configured to regulate the pressurized gas. The proportional valve includes a body, a valve seat positioned therein and defining a valve orifice, and a plunger having a mating surface on one end that mates with the valve seat and the orifice and a pressure receiving surface on an opposite end. The proportional valve also includes an inlet to receive the pressurized gas and distribute the pressurized gas to the valve orifice and the pressure receiving surface of the plunger, an electrical solenoid having a chamber to electro-magnetically translate the plunger therein, and a bias urging the plunger toward the valve orifice in conjunction with the pressurized gas when electrical power is reduced to the electrical solenoid. | 08-29-2013 |
20140001167 | WELDING SYSTEM UTILIZING A DISTRIBUTED POWER BUS | 01-02-2014 |
20140190944 | METHOD AND APPARATUS FOR AUTOMATICALLY CONTROLLING GAS PRESSURE FOR A PLASMA CUTTER - A system for providing a dynamically controlled plasma cutting system. The plasma cutting system includes a proportional valve and a sensing device arrangement and a controller connected to this arrangement. The system is configured to dynamically control gas flow in a plasma torch. The system measures gas pressure at a proportional valve and makes necessary gas pressure adjustments in the system by way of controlling a drive signal sent to the proportional valve to control gas flow. | 07-10-2014 |
Patent application number | Description | Published |
20090159571 | Plasma Cutter Having High Power Density - Systems and methods are provided for a torch power system having a high power density. In one embodiment, a system is provided that includes a torch power unit having a compressor and power electronics that include one or more power converters, wherein the torch power unit has a power output density of at least 2 watts per cubic inch, 80 watts per pound, or a combination thereof. A power conversion assembly for a torch power unit is provided that includes a single circuit board, a torch power converter mounted on the single circuit board, and a non-torch power converter mounted on the single circuit board. An electrical torch system is also provided that includes a circuit board and a power converter coupled to the circuit board, wherein the power converter includes a planar transformer, a foil wound transformer, or a combination thereof. | 06-25-2009 |
20090159572 | Plasma Cutter Having Thermal Model for Component Protection - A system is provided that includes a torch power unit. The torch power unit includes a monitor and/or control configured to determine a temperature of a component of the torch power unit based on the one or more inputs without a direct temperature measurement of the component. A method of operation is provided that includes receiving one or more inputs associated with a device, and estimating a temperature of the device based on the one or inputs without directly measuring temperature of the device. A tangible machine-readable medium is provided that includes code for determining a thermal capacity of the device, code for determining a thermal resistance of the device, and code for determining a temperature of the device based on thermal capacity and the thermal resistance method. | 06-25-2009 |
20090159575 | Plasma Cutter Having Microprocessor Control - A system is provided that includes a torch power unit, wherein the torch power unit includes a motor and a digital device coupled to the motor and configured to control the motor. A method of operation is provided that includes controlling one or more aspects of a torch power unit via a microprocessor, a digital signal processor, or a field programmable gate array, or a combination thereof. In another embodiment, a system is provided that includes a torch power unit that includes a torch, one or more components comprising a generator, a power converter, a compressor, a motor, a wire feeder, or a combination thereof, and a microprocessor configured to control the one or more components. | 06-25-2009 |
20090160573 | GFCI-Compatible Circuit for Plasma Cutting System - In one embodiment, a system is provided that includes a GFCI compatibility control configured to filter noise, improve symmetry between lines, or a combination thereof, when connecting a device to a GFCI-protected power source. In another embodiment a circuit for a torch power unit is provided that includes an inductor comprising a first coil and a second coil, wherein the total inductance for the first coil is substantially the same as the total inductance for the second coil, and a plurality of capacitors coupled to both the first and second coils. Another system is provided that includes a torch power unit. The torch power unit includes a compressor, a motor coupled to the compressor, and a GFCI compatibility control configured to filter noise, improve symmetry between lines, or a combination thereof, when connecting a device to a GFCI-protected power source. | 06-25-2009 |
20110073569 | WELDING SYSTEM WITH POWER LINE COMMUNICATION - Various welding systems that provide communication over auxiliary or weld power lines are provided. The disclosed embodiments may include a multi-process welding power supply that is communicatively coupled to a pendant via an auxiliary conduit that facilitates the exchange of data and power between components of the welding system. In some embodiments, the pendant may also include auxiliary outlets that allow an operator to power auxiliary devices at the weld location. The disclosed embodiments further include a pendant with a wire spool and wire feeder drive circuitry that is configured to activate spooling during MIG welding. Embodiments are provided that also allow for bidirectional data communication over a power line in networked welding systems. | 03-31-2011 |
20110309054 | MODULAR DIRECT CURRENT POWER SOURCE - A modular direct current power source is provided. One welding power supply system includes a plurality of hysteretic buck converters coupled in parallel. The hysteretic buck converters are configured to receive a common input and to provide combined output power to a common load based upon the common input. | 12-22-2011 |
20120152910 | WELDING GROUND CONNECTION SYSTEM AND METHOD - A grounding system is provided for welding applications. The system comprises a pair of contacts that are brought into close grounding contact with a workpiece, and a measurement circuit coupled to the contacts. The contacts may be urged into intimate contact with the workpiece by a biasing structure that pulls the contacts tightly against the workpiece. The measurement circuit may include a center-tap transformer having a secondary coupled to a ground lead and to the contacts. A primary winding of the transformer is coupled to an oscillator that executes a measurement test. The system may provide an indication of the quality of the ground in the form of an operator perceptible notification, a digitized value, or any other suitable form. | 06-21-2012 |
20130327748 | WELDING SYSTEM INRUSH CURRENT CONTROL SYSTEM AND METHOD - A welding component, such as a remote pendant or wire feeder includes an inrush current control circuit. The welding component may be coupled to a welding power source when the power sources is live and outputting power. Power is stored in the component, such as in capacitors, for operation of a local power supply, such as for an operator interface, display, and the like. Upon connection to the power source, the current application to the capacitors may be delayed to reduce or prevent arcing. The inrush current may also be limited, as may the voltage, to similarly reduce arcing and to provide additional benefits. | 12-12-2013 |
20130327751 | POLARITY SENSING WELDING WIRE FEEDER SYSTEM AND METHOD - A welding wire feeder includes a welding wire feed drive configured to drive welding wire towards a welding application, wire feed control circuitry coupled to and configured to control the welding wire feed drive. The welding wire feeder includes power conversion circuitry configured to receive polarized input power from a welding power source via input connections with defined polarities and to convert the polarized input power to welding output, sensing circuitry configured to detect the polarity of the polarized input power when connected to the input connections, and welding process control circuitry. The welding process control circuitry is coupled to the power conversion circuitry and the sensing circuitry. The welding process control circuitry is configured to provide the polarized input power to the power conversion circuitry only if the polarity of the polarized input power corresponds to the defined polarities of the input connections. | 12-12-2013 |
20130327752 | WELDING WIRE FEEDER POWER CONTROL SYSTEM AND METHOD - A method of operating a welding wire feeder includes receiving an input power signal from a power source and converting the input power signal to a bus power signal on an internal bus at a first time with a boost converter. The method also includes detecting bus voltage and bus current of the bus power signal on the internal bus and converting the bus power signal to a welding output signal at a second time with a buck converter. The welding output signal is suitable for a controlled waveform welding process. The method also includes detecting output voltage and output current of the weld output, and reducing a voltage ripple on the internal bus based at least in part on the detected bus and output current and/or voltages. | 12-12-2013 |
20130327753 | CONTROLLED WAVEFORM WELDING WIRE FEEDER SYSTEM AND METHOD - A welding wire feeder includes a welding wire feed drive configured to drive welding wire towards a welding application and wire feed control circuitry coupled to the welding wire feed drive. The wire feed control circuitry is also configured to control the drive of welding wire towards the welding application. The welding wire feeder also includes power conversion circuitry and welding process control circuitry coupled to the power conversion circuitry. The power conversion circuitry is configured to receive input power from a welding power source and to convert the input power to controlled waveform welding output. The welding process control circuitry is configured to provide control signals for conversion of the input power to the controlled waveform welding output. The welding wire feeder also includes a process operator interface coupled to the welding process control circuitry and configured to permit operator selection of a controlled waveform welding process. | 12-12-2013 |
20130327754 | WELDING WIRE FEEDER POWER APPLICATION SYSTEM AND METHOD - A method of operating a welding wire feeder includes receiving an input power from a welding power source, actuating a power relay to close and open a first current carrying path for application of the input power, and actuating bypass circuitry coupled in parallel to the power relay to close and open a second current carrying path in coordination with actuating the power relay. The method of operating the welding wire feeder also includes providing a welding wire to a welding torch. | 12-12-2013 |