Electric heating – Metal heating – For bonding with pressure
Reexamination Certificate
2001-09-27
2003-07-01
Shaw, Clifford C. (Department: 1725)
Electric heating
Metal heating
For bonding with pressure
Reexamination Certificate
active
06586701
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a resistance welding method as stated in the heading of claim 1 as well as a device as stated in the heading of claim 9.
BACKGROUND OF THE INVENTION
During resistance welding using direct current, the welding electrodes are heated dissimilarly, whereby the welding electrode with positive polarity gets warmer than the welding electrode with negative polarity. This is due to the Peltier heat, and Joule's heat. The heating of the electrode with positive polarity on one side causes a reduction of serviceable life or endurance of this electrode as well as shifting of the position of a welding spot created during welding from the desired middle position in the direction of the warmer electrode with positive polarity. This is especially true for material with higher heat conductivity, such as aluminum.
In order to avoid these disadvantages, it is known to use alternating current for welding.
A method and a device for resistance welding with alternating current is known from DE 41 13 117 C1. With this method a sequence of positive medium frequency current pulses is first created on the primary side of a welding transformer, and then a sequence of negative medium frequency current pulses is created and transferred to the welding electrodes connected to secondary side of the transformer. This results in alternating current. One disadvantage of the known method exists in the fact that the welding transformer not only has to transfer the medium frequency current pulses, but also the resulting current using low frequency, because the welding alternating current is gained on the primary side of the transformer. The welding transformer required for this is large and heavy, as well as costly to produce. Furthermore, the welding alternating current must not have a rectangular shape in the known device, because the transfer behavior will not allow such a shape.
Similar devices are known from DE 30 05 083 C2 and EP 0 261 328 A1.
A device for electric welding is also known from DE 295 08 868 U1.
A method for resistance welding is known from DE 44 40 351 C1, as stated in the heading of claim 1, with which a direct voltage applied to the welding electrodes is commutated during the welding operation in order to produce a welding alternating current. According to the printed publication, this should avoid the welding spot being shifted toward the warmer positive electrode, and is therefore arranged in an asymmetrical way at a contact level, in which the work pieces to be welded are making contact. This interferes with the stability of the weld joint. The method known from the printed publication has proven that the formation of welding spots between the work pieces to be welded, which are asymmetrical at the contact level, cannot be eliminated reliably.
Resistance welding methods are also known from EP-A-0 688 626, U.S. Pat. No. 5,237,147, U.S. Pat. No. 4,973,815, EP-A-0 835 713, and EP-A-0 756 915.
SUMMARY OF THE INVENTION
The invention is based on the task of stating a process, as stated in the heading of claim 1, as well as a device, as stated in the heading of claim 11, which does not have the disadvantage of the known process or the known device, and which also reduces the risk of a formation of a welding spot that is asymmetrical with regard to the contact plane between the work pieces to be welded.
This task is solved as described in claim 1 with regard to the process, and as described in claim 11 with regard to the device.
In the process according to the invention, at least one parameter of the welding process is measured during the welding operation, i.e., during the formation of a welding spot or a weld seam. According to the invention, a commutation of the direct voltage then takes place during the welding operation according to at least one measured parameter. The measured parameter can, for instance, be the temperature of the welding electrodes, which are hereinafter referred to as electrodes. For example, if the measured temperature shows that the electrode with positive polarity is heated more, the electrodes are commutated. The electrode initially with negative polarity is now heated more, and therefore the colder electrode is heated more than the other electrode now with negative polarity, until the temperature difference is neutralized. If the electrode now with positive polarity is heated more, the commutation is repeated. In this way, a temperature difference between the welding electrodes can be nearly eliminated, if the formation of a welding spot that is symmetrical with regard to the contact plane between the work pieces to be welded is desired. If the formation of a welding spot that is asymmetrical with regard to the contact plane is not desired, this can be achieved in the process relating to the invention by controlling the temperature of the welding electrodes by controlling the commutation in any desired way.
Additionally, the teaching according to the invention enables equal wear on the electrodes, thereby increasing their serviceable life or endurance. This prevents premature wear and reduces setup time necessary due to exchanging the electrodes. In this way, the welding process can be operated at less cost.
The process and the device according to the invention are suited for spot and seam welding, and especially for welding of aluminum.
An improvement of the teaching according to the invention includes that in order to influence the formation of a welding spot at the contact plane between the work pieces to be welded and/or to influence the serviceable life or endurance of the electrodes, at least one known value of the welding alternating current according to at least one parameter of the welding process measured during the welding operation is influenced. In this way, an adjustment of the process relating to the invention to, for instance, different types of work pieces to be welded, is possible, and the flexibility of the process relating to the invention is increased.
An improvement of the design mentioned above includes that the known values of the welding alternating current at least include
the ratio of the duration of a positive half wave at the duration of a negative half wave of the welding alternating current (balance), and/or
a time distance between a positive half wave, and a negative half wave of the welding alternating current (dead time), and/or
the curve shape of the positive half wave and/or the curve shape of the negative half wave of the welding alternating current and/or
the amplitude of the positive half wave and/or the amplitude of the negative half wave of the welding alternating current and/or
the mark space ratio of the welding alternating current.
By selecting one or more of these known values, the welding operation can be influenced within additional limits in the desired way. The known values can be adjusted separately, or at least partially in combination with each other and/or influenced during the welding process. During the welding process the known values can also either be essentially sustained, or changed.
Generally, any parameter of the welding process can be used as a basis for influencing known values. According to an improvement of the design, the parameters of the welding process include at least the temperature of the welding electrodes, and/or
the thickness and/or the material of the work pieces to be welded, and/or
the force with which the welding electrode contact the work pieces to be welded, and/or
the degree of wear at the welding electrodes, and/or
an electric resistance existing between the work pieces to be welded at the beginning of the welding process, and/or
the total duration of the welding time, during which the welding operation took place at unchanged polarity of the electrodes since a previous commutation of the direct voltage, and/or
the number of weld joints, especially the weld points or weld seams created at unchanged polarity since a previous commutation of the direct voltage, and/or
the ratio of duration, during which the polarity of an electrode was
Shaw Clifford C.
Shlesinger & Arkwright & Garvey LLP
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