Stock ejector assembly

The invention claimed is: 1. In a multi-station progressive metal forming die having at least two mutually converging and diverging die members between which an elongate stock strip is shifted longitudinally to form parts from the stock strip, the improvement of a stock ejector assembly, comprising: a stock ejector body with an outer end portion oriented toward the stock strip, an inner end portion oriented away from the stock strip, and a medial portion between the outer end portion and the inner end portion, wherein: said outer end portion includes a shoulder with an outer end surface and an inner end surface; said inner end portion includes a threaded shank portion that secures the assembly to one of the die members; and said medial portion includes a shoulder with an outer end surface and an inner end surface; a stripper with an outer end portion arranged toward the stock strip and an inner end portion oriented away from the stock strip, wherein: said outer end portion includes an aperture with a first diameter; said inner end portion includes an aperture with a second diameter, which is less than the first diameter of the outer end portion, forming a generally annular shoulder that engages said inner end surface of the shoulder of the outer end portion of the stock ejector body; and a spring member having a generally hollow interior that is received over said stock ejector body, an outer end oriented toward the stock strip that engages the inner end portion of the stripper, and an opposite inner end oriented away from the stock strip that engages the outer end surface of the shoulder of the medial portion of the stock ejector body. 2. A metal forming die as set forth in claim 1 , including: a spacer having a generally hollow interior that is received over a portion of the threaded shank portion of the inner end portion of the stock ejector body, an outer end surface oriented toward the stock strip that engages the inner end surface of the shoulder of the medial portion of the stock ejector body, and an inner end surface oriented away from the stock strip. 3. A metal forming die as set forth in claim 2 , wherein: said outer end portion of the stock ejector body includes an aperture. 4. A metal forming die as set forth in claim 3 , wherein: said aperture includes a portion shaped to receive a hex tool for installation or removal of the stock ejector assembly from the die member. 5. A metal forming die as set forth in claim 4 , wherein: said stock ejector body includes a taper to the inner end surface of the shoulder of the outer end portion. 6. A metal forming die as set forth in claim 5 , wherein: the aperture in the outer end portion of the stock ejector body includes a tapered surface. 7. A stock ejector assembly for metal forming dies having at least two mutually converging and diverging die members between which parts are formed from a stock strip, comprising: a stock ejector body with an outer end portion oriented toward the stock strip, an inner end portion oriented away from the stock strip, and a medial portion between the outer end portion and the inner end portion, wherein: said outer end portion includes a shoulder with an outer end surface and an inner end surface; said inner end portion includes a threaded shank portion that secures the assembly to one of the die members; and said medial portion includes a shoulder with an outer end surface and an inner end surface; a stripper with an outer end portion arranged toward the stock strip and an inner end portion oriented away from the stock strip, wherein: said outer end portion includes an aperture with a first diameter; said inner end portion includes an aperture with a second diameter, which is less than the first diameter of the outer end portion, forming a generally annular shoulder that engages said inner end surface of the shoulder of the outer end portion of the stock ejector body; and a spring member having a generally hollow interior that is received over said stock ejector body, an outer end oriented toward the stock strip that engages the inner end portion of the stripper, and an opposite inner end oriented away from the stock strip that engages the outer end surface of the shoulder of the medial portion of the stock ejector body. 8. A stock ejector assembly as set forth in claim 7 , including: a spacer having a generally hollow interior that is received over a portion of the threaded shank portion of the inner end portion of the stock ejector body, an outer end surface oriented toward the stock strip that engages the inner end surface of the shoulder of the medial portion of the stock ejector body, and an inner end surface oriented away from the stock strip. 9. A stock ejector assembly as set forth in claim 8 , wherein: said outer end portion of the stock ejector body includes an aperture. 10. A stock ejector assembly as set forth in claim 9 , wherein: said aperture includes a portion shaped to receive a hex tool for installation or removal of the stock ejector assembly from the die member. 11. A stock ejector assembly as set forth in claim 10 , wherein: said stock ejector body includes a taper to the inner end surface of the shoulder of the outer end portion. 12. A stock ejector assembly as set forth in claim 11 , wherein: the aperture in the outer end portion of the stock ejector body includes a tapered surface. 13. In a method for making a multi-station progressive metal forming die having at least two mutually converging and diverging die members between which an elongate stock strip is shifted longitudinally to form parts from the stock strip, with the improvement of at least one stock ejector assembly, comprising: forming a stock ejector body with an outer end portion oriented toward the stock strip, an inner end portion oriented away from the stock strip, and a medial portion between the outer end portion and the inner end portion, including: forming said outer end portion includes a shoulder with an outer end surface and an inner end surface; forming said inner end portion includes a threaded shank portion that secures the assembly to one of the die members; and forming said medial portion includes a shoulder with an outer end surface and an inner end surface; forming a stripper with an outer end portion arranged toward the stock strip and an inner end portion oriented away from the stock strip, including: forming said outer end portion includes an aperture with a first diameter; forming said inner end portion includes an aperture with a second diameter, which is less than the first diameter of the outer end portion, forming a generally annular shoulder that engages said inner end surface of the shoulder of the outer end portion of the stock ejector body; selecting a spring member with a generally hollow interior, an outer end oriented toward the stock strip, and an opposite inner end oriented away from the stock strip; inserting said spring member over said outer end portion of the stock ejector body with the inner end of the spring member engaging the outer end surface of the shoulder of the medial portion of the stock ejector body; inserting the stripper over said outer end portion of the stock ejector body; inserting a tool into the stripper; moving the tool toward the inner end portion of the stock ejector body, thereby compressing the stock ejector assembly, allowing the inner end portion of the stripper moves past the shoulder of the outer end portion of the stock ejector body; removing the tool to permit the spring to push the stripper toward the outer end of the stock ejector body, allowing the annular s