Point forming processes
First Claim
1. A method of cold-forming workpieces in a multi-die machine comprising the steps of receiving a workpiece at a workstation, providing a set of tooling including die and tool units respectively supported on a die breast and slide, one of the tooling units being arranged to slide a limited distance on its supporting structure, a spring arranged to bias said one tooling unit towards the other tooling unit, the end faces of the die and tool units being arranged with mutual contact areas that are smooth, dispensing extrusion/cooling oil at the workstation in a manner that coats the exterior of the workpiece, the die and tool units being arranged such that their end faces engage before the slide reaches its forwardmost position while the spring maintains a contact force at their end faces, the relationship of the spring force and contact area being such that the end faces seal against escape of oil from the cavity formed by the die and tool units whereby forming pressure is imparted to the workpiece to produce a consequent hydrostatic pressure in the oil in the cavity that facilitates a high reduction in cross-section of the workpiece exceeding 55%.
3 Assignments
0 Petitions
Accused Products
Abstract
A set of tooling for a progressive forming machine comprising die and tool units having internal complementary cavity portions for receiving a workpiece, one of said units being arranged to slide a limited distance along its axis and to be biased by a spring force towards the other unit when the units are mounted in the forming machine, the units each having an end face with a smooth surface finish adapted to press against the smooth surface finish of the end face of the other unit, the end face area of one of the units being relatively small compared to its major cross-sectional area whereby a high contact pressure between the end faces is obtained for a given spring bias force such that extrusion/cooling oil coating a workpiece received in the cavity portions is restrained from leakage from the cavity portions across said end faces during a hydrostatic trapped extrusion of the workpiece in the die and tool units whereby the die and tool units are capable of shaping the workpiece to a degree beyond limits of conventional cold-forming processes.
11 Citations
5 Claims
- 1. A method of cold-forming workpieces in a multi-die machine comprising the steps of receiving a workpiece at a workstation, providing a set of tooling including die and tool units respectively supported on a die breast and slide, one of the tooling units being arranged to slide a limited distance on its supporting structure, a spring arranged to bias said one tooling unit towards the other tooling unit, the end faces of the die and tool units being arranged with mutual contact areas that are smooth, dispensing extrusion/cooling oil at the workstation in a manner that coats the exterior of the workpiece, the die and tool units being arranged such that their end faces engage before the slide reaches its forwardmost position while the spring maintains a contact force at their end faces, the relationship of the spring force and contact area being such that the end faces seal against escape of oil from the cavity formed by the die and tool units whereby forming pressure is imparted to the workpiece to produce a consequent hydrostatic pressure in the oil in the cavity that facilitates a high reduction in cross-section of the workpiece exceeding 55%.
- 3. A method of cold-forming with high reduction in area comprising operating a cold-forming machine with a die breast and a slide that reciprocates towards and away from the die breast, mounting a die on the die breast for limited sliding movement along a direction parallel to the slide motion, biasing the die with a spring towards the slide whereby the end faces of the die and cooperating tool are held together for a distance in the final portion of the advance stroke of the slide for a trap extrusion, inserting a cylindrical workpiece in the die, during insertion of the workpiece, flooding the workpiece with extrusion/cooling oil and maintaining a kickout pin closely fitted to a bore at the entrance to the die to exclude appreciable volume of oil apart from that coating the workpiece, the force of the spring being sufficiently high in relation to the contact area of the die and tool end faces and the finish of these end faces to be effective to seal against significant leakage of oil across these faces such that a trapped extrusion of the workpiece into the tool is augmented by a hydrostatic extrusion effect of the oil to achieve a high reduction of area of the workpiece exceeding 55% in the tool.
Specification