Electric heating – Metal heating – By arc
Reexamination Certificate
2002-05-04
2003-08-19
Dunn, Tom (Department: 1725)
Electric heating
Metal heating
By arc
Reexamination Certificate
active
06608280
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention concerns a method for heating at least two elements by means of laser beams, so as to either join or separate the elements.
The present invention relates in particular to a laser joining method for joining various workpieces made of plastic or plastic and other materials, with the upper workpiece facing the laser source comprising a material which is transparent to the laser beam, and the second workpiece comprising a material which is absorbent to the laser beam, so that the adjoining contact surfaces of the two workpieces melt and connect to each other during subsequent cooling under pressure; with a mask being arranged between the laser source and the workpieces to be connected so as to connect the workpieces in a particular joining area of the contact surface, with the structures of said mask being larger than the wavelength of the laser beam applied, with the laser source being set to the contact surface in such a way that a curtain-like laser beam is formed and that a line results at the contact surface, and that the laser beam and the mask are moved relative to each other. The invention also relates to a device for carrying out the method.
This method is described in the pending European patent application 99101816.9. This method of joining masks for microstructured components requires very high movement speeds of the laser beam and the components to be joined. In order to achieve the necessary melt temperature, a very high energy density of the laser irradiation is also required. However, currently available laser diode series of semiconductor lasers only achieve an output of max. 60-80 W. Yet there are diode stacks whose output is in the kW range, whose laser beam can also be brought to form a line, by means of a suitable optical arrangement. Advantageously the laser beam is directed so as to be perpendicular to the joining area of the contact surface in order to achieve as exact a projection as possible, in particular in the case of small structures, and to preclude any unnecessary shadow effects. Because of the design of such lasers in the form of diode stacks, the laser beam impinges on the mask at an angle. Due to the resulting inaccuracies, such an angle is not acceptable for the mask joining method.
To place or remove, for example surface mount device (SMD) semiconductor components onto a carrier, European patent application 99121031.1, which is also pending, describes a method for heating such components by means of laser beams with the wiring paths on or in a printed circuit board. The connection can take place by means of a solder or solely by respective heating of the parts to be joined without the use of solder (so-called microjoining). According to the method, a mask of material which is impermeable to laser beams is arranged between the laser source and the components, with the areas to be joined having been removed on said mask. All heating regions are then irradiated individually or simultaneously by means of one or several laser beams, so that the heating regions of the components are heated and joined or separated. Inter alia a line-shaped laser beam can be selected which moves in relation to the components and the carrier. While with this method, heating of the components usually takes place more slowly than with the above-mentioned laser joining method, the provision of the required energy density can also pose a problem.
It is thus the object of the present invention to propose an option for providing adequate energy density in order to achieve adequate heating for the purpose of joining or separating at least two elements made from the same or from different materials, including metals, alloys, plastics, ceramics, and organic or inorganic substances. In particular it is the object of the invention to provide a high-quality area joint in the region of the joining zone of objects adjoining in a plane, with at least one object being made of plastic, and with the joining zone being well defined.
SUMMARY OF THE INVENTION
According to the invention this object is met by the method of the present invention. Further advantageous embodiments of the method are described herein. Furthermore, this object is met by a device of the present invention. Further advantageous embodiments of the device are provided herein.
Accordingly, to generate high energy density in the joining area, laser beams of at least two diode lasers are brought together, and that subsequently, differing laser line lengths are generated by means of a zoom optics arrangement. This comprises for example a cylinder lens which can be moved in the direction of radiation, so as to be able to vary the distance to the mask. The relative movement between the laser beam and the components can either be achieved by moving the laser beam, for example by means of a movable deviation mirror, or by moving the components on an x-y table.
According to a preferred embodiment, a first laser beam aligned perpendicularly to the surface of the mask, is joined by at least one secondary laser beam arranged perpendicularly to the first laser beam, with such joining or admixing taking place via a beam splitter for each secondary laser beam, and with the resulting laser beam being directed onto the mask. To this effect a well-defined beam splitter is used which is highly transparent to one laser beam and highly reflective to the respective secondary laser beam impinging perpendicularly on the first laser beam. Preferably laser beams either of different wavelengths or of the same wavelength but of different polarisation are used. With this method and the respective device, a performance of 200-300 W can presently be achieved.
According to another preferred embodiment, several laser beams are focussed parallel to each other onto the joining area by means of a lens. To this effect the laser sources are arranged in close proximity (spacing approx. 1 mm) to each other. This close design can also limit the angle problem if the focal length of the focal line is sufficiently long. With this arrangement, at present an output of 200 W can be achieved.
This method and device thus make it possible to join plastic plates, molded parts or foils together or to other materials, for example metals, alloys, plastics, ceramics, semiconductor materials, organic or inorganic substances, with such joining occurring at short cycle times and providing high quality; or to surface-join finely-structured workpieces to the desired zone precisely, without damage to the structure, by not only providing adequate energy density in spite of the output of the individual lasers being insufficient, but also by making it possible to vary the line length. In this way high flexibility is achieved.
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Chen Jie-Wei
Leister Christiane
Bachman & LaPointe P.C.
Dunn Tom
Johnson Jonathan
Leister Process Technologies
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