Metal deforming – Tool and/or tool holder – Tool comprising closed periphery deforming passageway
Reexamination Certificate
2000-07-27
2001-11-13
Crane, Daniel C. (Department: 3725)
Metal deforming
Tool and/or tool holder
Tool comprising closed periphery deforming passageway
Reexamination Certificate
active
06314787
ABSTRACT:
This application is a 371 of PCT/DK99/00056, filed Feb. 3, 1999, now WO 99/39848, published Aug. 12, 1999.
The invention relates to a forming tool having a die made from steel, sintered hard metal or ceramics, which die has a forming cavity having at least one critical reference value, a biasing ring, which surrounds the die and bears against it with radial pre-stress, and a carrier supporting the die and the biasing ring, the die and the biasing ring having tapered contact surfaces and being displaceable relative to one another.
The die cavity is used for the formation of workpieces by extrusion. Consequently, the workpieces, for example cylinders, cones, polygons or toothed arrangements, must have a high degree of accuracy, which requires forming tools having a very high degree of precision. The high pressure occurring during the forming process results in major resilient deformations of the die with the consequence that the final workpiece dimensions depart noticeably from the manufactured dimensions of the forming tools. Because of the complex distribution of pressure in cold flow tools, the resilient return after discontinuation of the process pressure and subsequent ejection of the workpiece from the die can be calculated only with difficulty, it frequently being the case that tools have to be scrapped as unusable either because they lack the dimensions necessary for highly accurate tool components from the outset or because they lack those dimensions as a result of wear after a certain period of operation.
DE 92 03 080 U discloses a forming tool of the kind described at the beginning. In that instance, the die is clamped in between two plates, which are connected to one another by means of posts. The biasing ring can be displaced relative to the die with the aid of a hydraulic ram. The tapered contact surfaces in that arrangement make it possible for the internal dimensions of the die to be varied steplessly without its being necessary for the die to be disassembled or reconditioned. It is therefore possible to correct inaccuracies, whether they have arisen during manufacture or as a result of wear in operation. In that arrangement, however, it is disadvantageous that the potential for correction is small.
It is known from DE 38 34 996 C2 or DE 43 11 249 C2 to surround the biasing ring by a reinforcement, which bears against it with pre-stress and consists of a wound band or of sintered hard metal. The reinforcement allows substantially higher pressures to be applied during extrusion. The die and the biasing ring have tapered contact surfaces, by means of which they can be brought into a prespecified fixed association with one another.
The problem underlying the invention is to provide a forming tool of the kind mentioned at the beginning that has a greater potential for correction.
The problem is solved according to the invention by an arrangement in which the biasing ring is surrounded by a reinforcement, which bears against it with pre-stress, and the biasing ring and the reinforcement are mounted in a fixed position on the carrier, and the die is displaceable relative to the carrier and capable of being locked, by locking means on the carrier, in positions that can be selected.
The reinforcement makes it possible, when the die is being adjusted, for substantially larger corrections to be made than previously, without the die or biasing ring or reinforcement breaking. Manufacture of the forming tool becomes cheaper because the critical reference values can subsequently be brought within the required tolerance ranges with great precision by displacement of the die relative to the biasing ring. Even when tools have become worn, it is possible to re-establish the critical reference value, so that the forming tools have a long service life. It should, however, be borne in mind that the reinforcement prevents the biasing ring from being adjustable and therefore the adjusting measures should be performed on the die.
It is advantageous for the carrier to be a housing surrounding the die, the biasing ring and the reinforcement. In that housing it is possible to mount securely, in a fixed position, the biasing ring and the reinforcement. In some cases, the outer wall of the housing can be used as additional reinforcement.
The housing suitably consists of two pieces connected to one another. In that way the die, the biasing ring and the reinforcement are especially easy to install. It is, however, also possible to manufacture a one-piece housing by injection-moulding about a core.
A housing comprising a cup-shaped piece and a base screwed thereto has proved especially suitable.
In a preferred embodiment, provision is made for the reinforcement to be formed by a wound band. Whereas, when a conventional outer ring is used as reinforcement, the maximum permissible radial pre-stress is approximately from 125 to 135% of the minimum pre-stress required for operation, the loading in the case of a band reinforcement may be 200% of the minimum pre-stress. When the band reinforcement is used, therefore, the range of adjustment is three times greater than in the case of a conventional reinforcement.
Furthermore, it is advantageous for there to be guided in the housing a ram having an exposed end face. With the aid of that ram, which can be actuated from the outside, for example by a hydraulic press, it is possible for the die to be displaced in the biasing ring.
Provision is advantageously made for the locking means to have two stops formed by threaded rings, which can be screwed into the housing, each of which stops is associated with an end face of the die. Such threaded rings allow the die to be locked securely in position after it has been steplessly adjusted.
In that arrangement, it is advisable for one of the threaded rings to act on the end face of the die by way of the interposed ram. By that means it is possible to arrange both threaded rings at the end faces of the housing so as to be freely accessible.
Spacer rings are preferably provided for bearing against the end faces of the die. By that means, the die can be displaced through a greater distance even when the locking means have only a limited range of adjustment.
It is especially advantageous for the inner face of the biasing ring to have undergone pre-treatment to reduce the surface roughness. There is then no risk that the die will be displaced jerkingly when it is being adjusted.
In a further embodiment, provision is made for the die to consist of at least two pieces positioned axially one behind the other. That is advisable when more than one critical reference value has to be met.
In that context, it is advisable for the second die piece in the direction of the narrowing of the taper to have a tapered surface having an angle of taper different from that of the first die piece. The difference in the slope of the tapered surfaces ensures that, when the die is displaced, both die pieces are subjected to a defined loading.
REFERENCES:
patent: 1986777 (1935-01-01), Patterson
patent: 2539716 (1951-01-01), Bairstow
patent: 2559679 (1951-07-01), See
patent: 3440862 (1969-04-01), Phillips
patent: 3628370 (1971-12-01), Phillips
patent: 3740990 (1973-06-01), Prajsnar
patent: 3810382 (1974-05-01), Strandell
patent: 409994 (1946-07-01), None
patent: 1304954 (1987-04-01), None
patent: 1736655 (1992-05-01), None
Crane Daniel C.
Danfoss A/S
Lee, Mann, Smith, McWilliams, Sweeney & Olhson
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