Metal fusion bonding – Including means to provide heat by friction between...
Reexamination Certificate
2002-05-16
2004-10-05
Silverman, Stanley S. (Department: 1754)
Metal fusion bonding
Including means to provide heat by friction between...
C228S112100, C228S049400
Reexamination Certificate
active
06799708
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a device for joining workpieces by the method known as friction stir welding, wherein the workpieces are disposed adjacent one another in the areas in which they are to be joined. The device includes a rotatable shaft with a free end forming a first shoulder and being provided with a pin-like projection which, while being rotated at high speed is moved into contact with the workpieces and plasticizes the workpieces in the contact area. At its free end, the pin-like projection is provided with a second shoulder having a diameter larger than the pin-like projection so as to form between the first and second shoulders a space in which the workpieces are accommodated.
A friction stir welding apparatus is known for example from EP-B-0 615 480. The friction stir welding (FSW) has been known basically for several years and has been continually further developed. Originally, the friction stir welding was performed in such a way that two workpieces which were to be joined by friction stir welding were moved relative to each other in the area in which they were to be joined while they were pressed against each other with a predetermined adjustable force. As a result of the heat generated by the friction, the material of the workpieces was finally plasticized in the area of jointure. Upon sufficient plastification, the materials of the two workpieces intermix sufficiently so that, upon cooling, the desired weld connection between the two workpieces is formed.
In the apparatus referred to above, a pin-like projection which is rotated by a drive or, respectively, a motor at a suitably high speed, is placed between the adjoining edges of two workpieces disposed adjacent each other. The pin-like projection is suitably guided for example by a special guide structure or a robot and moved, for example, along a butt seam of the workpieces to be joined. When, after the beginning of the welding procedure, the material of the workpieces is sufficiently plasticized by the frictional heat generated by the rotation of the pin-like projection, the pin-like projection is moved along the seam between the adjoining workpieces while the pin-like projection is continued to be rotated whereby an elongated continuous butt weld is formed.
With the known apparatus, the workpieces are held in the area of the butt joint in spaced relationship by two stops with a diameter exceeding that of the pin-like projection which is disposed between the two stops. The opposite sides of the two stops form quasi-shoulders, which are disposed at opposite sides of the workpieces in the area of the welding seam to be formed and which rotate adjacent the surfaces of the workpieces to be joined. If, for example, a pressure is applied by the apparatus normal to the surfaces at one side of the two workpieces, the engagement pressure at the opposite side of the workpieces to be joined is correspondingly reduced because the shoulders are disposed at a certain distance from each other. For this reason, a suitable counter support must be provided by separate support means, which can be provided at reasonable expenses for plate-like workpieces such as metal sheets but which is generally impossible to provide for friction stir welding joints of workpieces having a complicated shape.
Furthermore, in many manufacturing operation, for example, in motor vehicle or airplane manufacturing, manufacturing robots are used which have multiple functions and relatively large outer supports for establishing the weld joint not only form obstacles but can simply not be provided. In addition, the robots can generally not provide the relatively large engagement forces or they can provide them only with high additional expenses.
It is desirable to eliminate the need for a robot to provide large forces and to provide a large operational area for the robot and furthermore to reduce the loads on the workpieces to be joined.
It is therefore the object of the present invention to provide a device for joining workpieces by friction stir welding, wherein, for forming a weld seam in accordance with the friction stir welding procedure, no welding seam support or rather no outer support structure is required and whereby also welding seams extending three-dimensionally can be produced in such a way that no plasticized material can escape. With the use of manufacturing robots, no large forces should be required from the robots for forming the weld seam and the workpieces to be joined should be held close together in the area in which they are to be welded together without the need for outer support means. Furthermore, the devices should be inexpensive and simple.
SUMMARY OF THE INVENTION
In a device for butt joining workpieces by friction stir welding along a connecting area, including a shaft having a driven end and, at the opposite end, a pin-like projection to be disposed in the connecting area of the workpieces, whereby, upon rotation of the shaft the workpiece material in contact with the pin-like projection is plasticized, first and second stops with first and second shoulders are provided on the device and disposed at opposite sides of the workpieces and at least one of the stops is movably relative to the other and biased toward the other with a controllable force for engaging the workpieces therebetween during the friction stir welding procedure.
The advantage of the solution according to the invention resides mainly in the fact that the forces required for the engagement of the workpieces to be joined are generated internally in the device so that no outer support structure is required. As a result, welding seams can be made also with complicated workpieces for example welding seams which extend three dimensionally in the space can be made without the need for a support which, so far, was needed to secure the base of the seam and to support the workpieces. Also, the workpieces are not warped during the establishment of the welding seam, or even destroyed. By the engagement of the stops or, respectively, the shoulders of the two stops with the respective sides of the workpieces to be joined, also material plasticized during the welding procedure cannot escape. In summary, it can be said the device according to the invention has the advantage that the engagement forces are provided by the stops disposed at opposite sides of the workpieces and these forces are oppositely directed so that they cancel each other and do not bias the workpieces toward one side or the other. In this way, also thin-walled workpieces can be welded together without being damaged. Also, workpieces in the form of hollow profile structures can be welded in this way and workpieces of complicated shapes which could not be achieved with the known apparatus. Finally, also the flexibility of the friction stir welding is increased with the device according to the invention beyond what has been achievable with prior art equipment.
In a preferred embodiment of the invention, a housing is provided for supporting and guiding a shaft, which includes a piston element provided with a pin-like projection. The piston is axially movable back and forth in a cylinder formed in the housing. By suitable actuation of the piston the thickness of the workpieces to be joined can be taken into account and the force desired for the engagement of the workpieces for forming the welding seam can be easily generated.
It is basically possible to provide for the back and forth movement of the piston element and consequently, the pressure applied to the workpieces engaged between the two stops in various ways, for example, electromotively or pneumatically. It has been found however, to be particularly advantageous to operate the piston hydraulically especially of the robot is operated by hydraulically since pressurized hydraulic fluid is then available at the location of the device.
The pressure applied to the opposite sides of the workpieces in the area in which the welding seam is to be formed may be adjusted as desired, as pointed out already earlier, depending on t
Dos Santos Jorge
von Strombeck Alexander
Bach Klaus J.
Cooke Colleen P.
GKSS - Forschungszentrum Geesthacht GmbH
Silverman Stanley S.
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