Metal deforming – By extruding through orifice – By rotating impeller means
Reexamination Certificate
2002-04-09
2003-10-28
Tolan, Ed (Department: 3725)
Metal deforming
By extruding through orifice
By rotating impeller means
Reexamination Certificate
active
06637249
ABSTRACT:
The present invention relates to a device for manufacturing copper or copper-based metal objects by continuously operated extrusion, where the material to be extruded is fed to the extrusion member by means of a feed member that is made to rotate.
The GB patent No. 1,370,894 introduces a method where the material to be processed is fed to a groove between two separate members. In the practical applications of said method, the groove has a curved shape, in which case one member is a wheel, and the groove is formed on the circumference of the wheel. In the other member, there is formed an abutment that essentially fills said groove and forms a closed end for the groove. Further, in the vicinity of said closed end of the groove, there is made a extrusion aperture, through which the material to be processed is extruded to produce a metal object of the shape defined by the extrusion aperture.
In the continuously operated extrusion process according to the GB patent 1370894, the material to be extruded is conveyed to the extrusion proper. In connection with the extrusion process, the temperature of the material to be extruded rises to the range of 650-800° C., in which case the wheel is subjected to the influences of high temperature. At the same time, strain is directed to the wheel owing to the extrusion. On the other hand, when the wheel receives new material to be extruded, the wheel is for that part subjected to a lower temperature than during the extrusion process, and it does not suffer similar strain as in the extrusion range proper. Consequently, the wheel is at the different stages subjected to various temperature ranges and various intensities of strain. The wheel is among the most central members of the continuously operated extrusion device, but the working life of the wheel remains fairly low, among others due to the various tensions directed thereto at the different stages. Moreover, the structure of the wheel sets limitations to the design of the groove, which in turn enhances the creation of extrusion defects in the extrusion product. In addition, the design of the groove affects the tension distributions created in the wheel.
The object of the present invention is to alleviate the drawbacks of the prior art and to achieve a new and improved device for the continuously operated extrusion of copper or copper-based metal objects, in which device the shape of the groove formed in the wheel serving as the metal feed member, as well as the material used in the coating of said groove, essentially improve both the working life of the wheel and its operational behaviour. The essential novel features of the invention are apparent from the appended claims.
According to the invention, the material feed member provided in a continuously operated extrusion device of copper and copper-based metal objects is essentially wheel-shaped, and said feed member is installed supported on its axis, so that said feed member can be rotated around its axis. On the circumference of the wheel-shaped feed member, there is formed a groove, the outer surface of which groove advantageously forms part of the outer surface of the feed member. The groove formed on the circumference of the wheel-shaped feed member advantageously has two essentially parallel walls that are connected by a curved part constituting the bottom of said groove. The walls that are connected to the curved part constituting the groove bottom can also be at least partly curved, advantageously so that said walls approach each other when proceeding towards the groove aperture provided on the circumference of the feed member. Thus the groove has a profile that is essentially U-shaped or essentially near to a U-shaped profile. Further, the inner surface of the feed member groove is coated with a metal coating. By using the groove profile and metal coating according to the invention in the feed member groove, the working life of the feed member can be essentially increased, and at the same time both the yield and quality of the product obtained from the extrusion device can be improved. Moreover, the extended working life of the feed member reduces the time spent in the maintenance of the extrusion device and thus increases the degree of utilization of the continuously operated extrusion device.
According to the invention, the groove provided on the feed member circumference is designed so that the ratio of the groove width to the groove height is within the range of 0.5-2.0, advantageously 1.0-1.5, when measured at the widest and on the other hand highest spot of the groove. The groove provided on the outer circumference of the feed member can also be designed so that the inner surface of the groove is curved also in the vicinity of the aperture located near the surface of the circumference. In that case the widest spot of the groove is essentially deviant from the feed member circumference.
The coating material employed in the feed member groove is advantageously a metal, such as nickel, that is essentially well adhesive with the copper or copper-based material processed in the continuously operated extrusion device. The employed coating can also be some other metal, such as aluminium, zinc, cobalt, magnesium or silver, mixtures or compounds of these, or platinum or gold. Moreover, the employed coatings can be non-metallic coatings that are well adhesive with copper or copper-based materials. The thickness of the coating in the feed member groove is 1-1000 micrometers, advantageously 2-100 micrometers.
When employing, according to the invention, in the feed member of a continuously operated extrusion device, an essentially U-shaped or essentially near U-shaped groove, both the durability and operation of the feed member can advantageously be improved. The groove is now made mechanically durable, and it enables an additional optimization of the groove shape, so that roughening is not needed at the groove bottom. Further, thermal fluctuations in the vicinity of the feed member surface are reduced, and the heat transfer from the groove towards the inside of the feed member is distributed in a more advantageous fashion. Moreover, the quality of the product obtained from the extrusion is improved, because the flowing of the extruded material in the extrusion area is improved. As the quality of the extruded product is improved, the quantity of scrap created in the process is reduced; the reduced amount of scrap further reduces the thermal load on the feed member surface, and consequently the wearing of the feed member due to thermal fatigue.
The use of a coating that is well adhesive with copper or some copper-based material in the groove of the feed member of a continuously operated extrusion device results in that the lining provided in the groove sticks adhesively in place without any mechanical roughening of the groove surface, which would essentially speed up both the growing of fatigue crack and breaking of the feed member. Furthermore, the coating prevents a mechanical contact between the feed member and the material to be extruded, wherefore the chances that the extruded material should induce a brittleness in the feed member is essentially reduced. Moreover, the brittleness induced by the extruded material is essentially slighter on a smooth surface than on a roughened surface. In addition to these advantages, the coating according to the invention advantageously serves as a thermal preventive layer, slowing down heat conduction to the feed member, owing to which phenomenon the operation temperature of the feed member can be lowered.
REFERENCES:
patent: 4044587 (1977-08-01), Green et al.
patent: 4650408 (1987-03-01), Anderson et al.
patent: 4953382 (1990-09-01), Ashok et al.
patent: 1370894 (1974-10-01), None
patent: 2103133 (1983-02-01), None
patent: 2208618 (1989-04-01), None
patent: 59-209419 (1984-11-01), None
patent: 83/00299 (1983-02-01), None
Morgan & Finnegan , LLP
Outokumpu Oyj
Tolan Ed
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