Probe for touch sensing

Details Probe for touch sensing Probe for touch sensing

2001-08-10

2003-05-13

Shaw, Clifford C. (Department: 1725)

Electric heating

Metal heating

By arc

C901S042000

Reexamination Certificate

active

06563084

ABSTRACT:

The present invention relates to the art of electric arc welding by a robot driven welding gun and more particularly to a novel probe used for touch sensing the position of the workpiece in a robot welding application.
BACKGROUND OF INVENTION
In welding where an electric arc welding gun is moved along a preselected path by a robotic mechanism, it is first necessary to determine the position of the workpiece prior to initiation of the welding operation. This can be done manually; however, mass production and operator free robot welding installations require a system for determining the location of the workpiece and, thus, orienting the gun with respect to the welding process to be accomplished. In practice this orientation procedure involves a computer program wherein the welding wire extending from the gun is moved into engagement with the workpiece at several positions to determine the actual spatial location of the welding path. The use of the welding wire to repeatedly engage the workpiece for sensing the position of the workpiece creates substantial difficulty, especially when the welding wire is aluminum. The torch or gun is moved by the robotic arm in several directions to use the welding wire as a touch sensing feeler. The several points detected by the wire generate the orientation of the workpiece. The wire must touch the workpiece several times and it must not bend, deflect or be forced back into the welding gun. It is often necessary to include a brake in the gun for holding the welding wire in the gun so it remains fixed with respect to the gun during the touch sensing sequence controlled by the computer operating the robot. The wire must extend from the gun a known fixed distance. This requires clipping of the wire and then extending the wire from the gun before the touch sensing sequence can be performed by the computer generated sequence of movements for the sensing procedure. To assure that the welding wire is not pushed back into the gun, the robotic touch sensing sequence often involves moving the gun at an angle with the wire extending out of the gun at an angle. This produces deflection of the wire and some inconsistencies in the location of the weld to be performed. Since the wire is quite fragile, the gun must be moved slowly during each of the touch sensing steps used to generate points for creating the location of the workpiece. This is the general background to which the present invention is directed.
In Debarbieri U.S. Pat. No. 4,642,752, a rigid feeler is mounted adjacent the welding torch or gun in a manner to detect a fixed portion of the workpiece to register the location of the workpiece. This type of fixed feeler has not been used extensively since it inhibits operation of the welding gun in confined areas. However, this patent is incorporated by reference herein as background information. Michelotti U.S. Pat. No. 4,530,456 and Mawson U.S. Pat. No. 4,284,871 show the use of a vertical sensing probe used to locate the height of a torch above the workpiece. Such probes operate in the Z axis and merely move downwardly with the soldering or welding torch until the probe is against the workpiece. This locates the height of the torch. There is no use of these devices to locate the path to be welded during a robotic welding operation. These two patents are also incorporated by reference as background information.
Toohey U.S. Pat. No. 4,439,664 is an example of a welding torch that uses the wire extending from the torch as a probe to locate the seam being welded. This disclosure is similar to the general concept used for robotic arc welding processes in that the welding wire itself forms the outwardly depending locating feeler. This particular patent shows a vertical movement of the welding gun for the purposes of locating the workpiece and not an angled use of the welding wire as is normal practice in arc welding processes now being performed in computer controlled robotic equipment. Toohey is also incorporated by reference as background information.
THE INVENTION
The present invention relates to a probe for touch sensing to determine the position of a workpiece in a robotic welding system and an improved system using the novel probe. In accordance with the invention, a rigid, elongated feeler with a touch tip is mounted in a mechanism adjacent the welding gun of the robotic welding system so that the contact point of the touch tip can be extended by instructions from the computer program to a fixed distance beyond the end of the welding gun. In this fixed extended position, the feeler is moved by a computer program to touch the workpiece at many locations. In practice, six to eight touches are used to determine the exact position of the workpiece preparatory to the welding operation. The feeler is fixed with respect to the welding gun so that the determined orientation calculated by the computer will determine the exact spatial location of the welding path to be processed by the computer movement of the welding gun. The invention does not present the problems associated with using the extended welding wire as the feeler moved into several locations for the purposes of generating a computer analysis of the exact location of the workpiece. When using the wire for the purposes of touch sensing, the wire can only be moved downward by the movement of the welding gun at a rate of about 15 millimeters per second. By using the present invention, the probe can be moved by the robotic arm at a rate of approximately 200 millimeters per second. Consequently, the six to eight steps used in a touch sensing program are performed using the present invention in about eight minutes. The same process using the extended welding wire requires over twenty minutes and causes bending of the wire causing less accurate location. Indeed, the wire must be held in the gun, clipped and extended a fixed distance before the wire is useable for the touch sensing program. The present invention allows the fixed feeler to be used rapidly without concern for distortion during the processing. When seven touches are necessary for locating a weld position, the use of the fixed feeler of the present invention is extremely advantageous by saving time and resulting in better accuracy.
The invention involves the novel probe and also the concept of retracting the probe after the touch sequence has been processed by the computer program used for the robotic welding of the workpiece. The probe is parallel to the wire and is moved into the extended operative position. Thereafter, it is retracted into an inoperative position where it is not capable of interference with movement of the welding gun during welding. The wire extending from the welding gun is not used for the location of the workpiece. Thus all of the disadvantages previously associated with such procedure are avoided. Although it is preferable that the feeler or probe be parallel to the welding gun the probe may be at a fixed angle to the welding gun. This position of the probe or feeler introduces complexity in the computer programming and also cause a certain amount of inaccuracy in the touch sensing process. By using the invention, there is no need to provide a brake in the gun to hold the welding wire in a fixed position for touch sensing. Furthermore, it is not necessary to contact the workpiece at an angle although this can be done if the computer program requires such orientation of the probe constructed in accordance with the present invention.
The retractable touch sensing probe is used on an arc welding robot to aid in the sensing of workpiece orientation. It is rigid and retractable so that there is no deformation of the sensing device. The cycle time is substantially reduced and the probe retracts, allowing unrestricted weld torch or gun movement along the weld path. In the practical implementation of the present invention, the probe consists of a pneumatic cylinder using a two way pneumatic solenoid valve to shift the rigid feeler into the extended touch position or the retracted operative position. A standard output bus m

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