Electric heating – Metal heating – By arc
Reexamination Certificate
2001-05-11
2003-05-13
Shaw, Clifford C. (Department: 1725)
Electric heating
Metal heating
By arc
C219S074000
Reexamination Certificate
active
06563085
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to welding machines. More specifically, it relates to a welding machine that senses one or more conditions of a welding job and automatically sets operating parameters.
BACKGROUND OF THE INVENTION
Metal-inert-gas (MIG) welding is one well known type of welding process. There are a number of different types of power supplies used for MIG welding. Examples of MIG power supplies include phase controlled, pulse width modulated and inverter power supplies. MIG welding is performed using a variety of wire diameters, wire material, and gasses. The wire and gas used depends on the plate or workpiece thickness and material. Wire diameter, wire material, gas and plate thickness are referred to herein as welding conditions.
Most MIG welding machines use at least three parameters to control the welding process. These parameters are: wire feed speed and/or current, voltage, and inductance. Some MIG welding machines also have an inductance control that affects the response of the power source or supply. Typically, a MIG welding machine will have switches and/or knobs on the front panel to select some or all of the operating parameters. The process of setting one or more of these parameters is called herein machine set up.
Some prior art welding machines (as used herein welding machine refers to the power source, controller, wire feeder, and may include a gas source and other ancillary equipment used to effectuate a weld) are capable of controlling the welding arc to optimize the weld. However, proper control requires optimal operating parameters (current and/or wire feed speed and voltage) for the particular welding conditions (wire diameter, wire material and gas mixture used, as well as the plate thickness and joint type that is being welded). Prior art welding machines require the operator to calculate setup parameters (i.e., voltage, current and/or wire feed speed) from tables or equations using the above welding conditions inputs as independent variables. Alternatively, the appropriate settings may be chosen based on past experience, or by trial and error.
If the operator provides erroneous data, or doesn't properly calculate the setup parameters, the result may be poor quality welds or inefficient use of the welding machine or consumables (gas and wire). Thus, the weld quality is dependent upon the operator properly determining setup parameters. It is not unusual for the operators to improperly select the setup parameters and have such poor quality welds that a service call is required.
Accordingly, it would be desirable for a welding machine to automatically sense one or more of the conditions which enter into the decision for setting wire feed speed and/or current and voltage. Moreover, it would be desirable to automatically set one or more of feed speed and/or current or voltage, in response to the sensed condition. Such a welding machine should be capable of utilizing the wide variety of power supplies.
SUMMARY OF THE PRESENT INVENTION
According to a first embodiment of the invention a welding machine includes a power source and a wire feeder. At least one sensor senses at least one welding condition. A set up circuit is coupled to the sensor, the power source, and the wire feeder. The set up circuit automatically sets up the welding machine in response to the sensor.
According to one alternative the sensor is a wire sensor. In another alternative the welding machine includes a source of gas and a gas sensor. Another alternative includes a workpiece thickness sensor. The set up circuit further automatically sets up the welding machine in response to the additional sensors.
Yet another embodiment uses a diameter sensor and a material sensor as part of the wire sensor. Other alternative configurations of the sensor include a bar code reader, an analog proximity detector, a plurality of proximity detector, and a displacement sensor.
Other embodiments provides for the gas sensor to include a cyclic voltametry gas microsensor, a bar code reader, or a plurality of gas connections. The thickness detector may include a strain gauge or displacement sensor.
Other principal features and advantages of the invention will become apparent to those skilled in the art upon review of the following drawings, the detailed description and the appended claims.
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Abstract/Zusammenfassung/Abrege XS 9830363810 MA.
Blank Leon
Herwig Warren
Lanouette Andre
Corrigan George R.
Illinois Tool Works Inc.
Shaw Clifford C.
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