Electric heating – Metal heating – For bonding with pressure
Reexamination Certificate
2000-12-04
2002-07-02
Dunn, Tom (Department: 1725)
Electric heating
Metal heating
For bonding with pressure
C073S582000, C073S588000
Reexamination Certificate
active
06414260
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a welding electrode with a configuration for the introduction of ultrasound for the testing of weld joints.
2. Description of the Prior Art
Testing resistance welded joints by means of ultrasound is generally known, for example through the technical journal “Schwei&bgr;en & Schneiden”, 1997, No. 1, pp. 15. Herein the welding region, thus that region of the workpiece to be welded, onto which the welding electrodes act, is impinged with ultrasonic waves from an ultrasound transmitter. The ultrasonic waves, either after permeation through the welding region or after reflection on this welding region, are received by means of an ultrasonic receiver. By evaluating the received ultrasonic waves conclusions can be drawn regarding the temperature course in the workpiece to be welded and the growth of the welding spot. It is herein especially advantageous that the testing of the weld joint takes place still during the welding process such that parameters of the welding process, for example the welding current or the welding time, can be adapted as a function of the evaluation of the received ultrasonic signals. In this way defective weld joints are reliably avoided.
Through EP 02 48 177 a configuration for the introduction of ultrasound in the testing of resistance welded joints is known, which comprises welding electrodes with electrode caps and an ultrasound transmitter for acting upon the welding region with ultrasonic waves. The ultrasound transmitter is disposed on the inside on the bottom of the electrode cap and generates ultrasound signals with a frequency of approximately 5 MHz. The ultrasound signals are received by an ultrasound receiver after their permeation through the welding region, which receiver is disposed inside the electrode cap of a welding electrode which during the welding process is disposed oppositely. Similar configurations are also known through U.S. Pat. No. 3 384 733 and DE-AS 2,655,415.
A disadvantage of the known configurations comprises that when replacing the electrode cap which represents a wearing part, the ultrasound transmitter must be removed and attached on the new electrode. This is time consuming and involves expenses.
A further disadvantage of the known configurations comprises that the electric feed lines for the ultrasound transmitter must be guided through the entire electrode shaft up to the electrode cap, which is made difficult thereby that a large portion of the inner volume of the electrode shaft, as a rule, is taken up by feed lines for cooling means for cooling the electrode cap, such that for the electric feed lines not much space is available. In addition, the electric feed lines of the ultrasound transmitter must be insulated against the cooling water and the ultrasound transmitter must be sealed against the penetration of cooling water. The same disadvantages relate to the ultrasound receiver disposed in corresponding manner within the other welding electrode.
Through DE 43 25 858 C2 a configuration is known of the relevant type for the introduction of ultrasound in the testing of resistance welded joints, which comprises a welding electrode having an electrode cap and an ultrasound transmitter disposed remote from the electrode cap, for impinging the welding region with ultrasonic waves. In the known configuration the ultrasound transmitter is attached on the outer electrode shaft of the electrode or on an electrode holder of the welding electrode and impinges the welding region with shear waves. By attaching the ultrasound transmitter on the outer electrode shaft or on the electrode holder the structure of the known configuration is indeed simplified.
However, one disadvantage comprises that in the known configuration due to the coupling of the sound waves from the outer surface of the electrode the impingement of the welding region with longitudinal ultrasonic waves is not possible since herein a damping of the longitudinal ultrasonic waves would occur to a considerable degree and would make difficult the evaluation of the ultrasonic waves after their permeation through the welding region or their reflection on this welding region.
BRIEF SUMMARY OF THE INVENTION
The invention is based on the task of specifying a welding electrode which is simple in structure and which is suitable for an impingement of the welding region with longitudinal ultrasonic waves.
The teaching according to the invention builds first on the recognition that within the scope of a simple structure of the welding electrode it is of advantage if the ultrasound transmitter is disposed spaced apart from the welding region. Building hereon, the fundamental concept of the teaching according to the invention comprises irradiating the ultrasonic waves axially into the welding electrode or axially or obliquely into a channel of the welding electrode which is filled with a sound-transmitting medium. In this way an impingement of the welding region is also possible with longitudinal ultrasonic waves without attenuations of the ultrasonic waves occurring to such a degree that the evaluation of the ultrasonic waves is impaired after their permeation through the welding region or their reflection on this welding region.
By the disposition of the ultrasound transmitter spaced apart from the welding region, the structure of the device according to the invention is simply formed since it is not required to lead the electric feed lines of the ultrasound transmitter up to the electrode tip or cap.
The development according to the invention permits in simple and precise manner an impingement of the welding region with ultrasonic waves and by evaluating the ultrasonic waves after permeation through the welding region or reflection on this welding region, the testing of the weld joint during or after completion of the welding process and a control of the parameters of the welding process as a function of this evaluation. In this way, defective weld joints are avoided or at least decreased. This saves time- and thus cost-intensive finishing or reworking.
The welding electrode can therein be developed for example integrally and with a pocket bore as the channel or in two components comprising an electrode shaft with a continuous bore as a channel and an electrode cap.
An ultrasound receiver for the reception of the ultrasonic waves after permeation through the welding region or reflection on this welding region can be formed as a separate element apart from the configuration. According to a further development of the teaching according to the invention, the configuration comprises, however, an ultrasound receiver for the reception of ultrasonic waves after permeation through the welding region or reflection on this welding region. In this embodiment the impingement of the welding region with ultrasonic waves as well as also the reception of the ultrasonic waves takes place through the configuration according to the invention, which can additionally comprise an evaluation unit for evaluating the signals received by the ultrasound receiver.
In principle, the ultrasound transmitter can be separated from the channel into which it irradiates the ultrasonic waves by a component of the configuration, provided it is ensured that the damping of the ultrasonic waves during the passing through this component are kept in limits, within which, in the required manner, an evaluation of the ultrasonic waves is still possible after their permeation through the welding region or reflection on this welding region. An especially advantageous further development of the teaching according to the invention provides that the ultrasound transmitter is directly connected with the channel. In this way a damping of the ultrasonic waves before their entrance into the channel is avoided. This permits a precise evaluation of the ultrasonic waves.
The ultrasound transmitter can, in principle, be disposed at any desired site provided the irradiation of the ultrasonic waves into the channel in the required manner is ensured.
The conf
Flanagan John R.
Flanagan & Flanagan
Stoner Kiley
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