An end plunger for end feeding during a hydroforming process (such as tube hydroforming) has at least one releasable seal. The effect of the releasable seal is that it avoids pressurizing the blank in a nip area, thereby reducing friction and wear, and allowing increased end feeding with a given end
An end plunger for end feeding during a hydroforming process (such as tube hydroforming) has at least one releasable seal. The effect of the releasable seal is that it avoids pressurizing the blank in a nip area, thereby reducing friction and wear, and allowing increased end feeding with a given end feeding force. The releasable seal may be actuable, for sealing or releasing. The plunger may be modular or monolithic. A kit and method may incorporate the end plunger.
대표청구항▼
1. An end plunger for end feeding in a hydroforming process, the end plunger comprising: a body having a strength to communicate an end feeding force onto a blank, the body having: a bearing surface at a base end for bearing the end feeding force;an insertion end opposite the base end, the insertion
1. An end plunger for end feeding in a hydroforming process, the end plunger comprising: a body having a strength to communicate an end feeding force onto a blank, the body having: a bearing surface at a base end for bearing the end feeding force;an insertion end opposite the base end, the insertion end bearing a mandrel having a shape and size for insertion within a channel of the blank; anda gripping surface for gripping the blank at its channel;wherein the mandrel has one or more seals defining a sealing area for sealing against an interior volume of the blank channel, a length of the sealing area is more than a mean radius of the OD of the mandrel,whereby, during an end feeding operation, a seal is lost at one axial location due to bulging of the blank, and a seal remains at an axial position where the blank has undergone less bulging. 2. The end plunger of claim 1 wherein the body comprises a fluid communication channel for conducting high pressure fluid between the sealed interior volume of the blank and one of a pressurized fluid injector and vent. 3. The end plunger of claim 1 wherein the body is formed of a single part having a plurality of independently attachable or removable seals. 4. The end plunger of claim 1 wherein the bearing surface is an adapter for coupling the end plunger to a ram of one of a pneumatic, and a hydraulic cylinder. 5. The end plunger of claim 1 wherein the gripping surface interfaces a butt end of the blank channel. 6. The end plunger of claim 1 wherein the mandrel has, across the sealing area, one or more of: a same cross-section; a same cross-sectional area; a same cross-sectional shape; a same cross-sectional shape and orientation; a same cross-sectional shape with a curvature and/or torsion along the mandrel section; a circular cross-section; an elliptical cross-section; and a circular cross-section but for one or more flattened sides. 7. The end plunger of claim 1 wherein the sealing area is more than 2 cm long. 8. The end plunger of claim 1 wherein the body is generally cylindrical, and the bearing surface at the base end has a larger diameter than the mandrel. 9. The end plunger of claim 1 wherein the sealing area includes a plurality of independently releasable seals for sequential release during the end feeding. 10. The end plunger of claim 9 wherein the plurality of independently releasable seals comprise: at least one toric seal;2-5 seals;at least one toric seal with a O (solid or hollow), X, U, V, T, square (solid or hollow), star or asterix profile;a proximal seal designed to seal a lip of the blank;a proximal seal having a pac-man or L shaped cross-section;a distal seal defining an insertion tip of the insertion end;different types, gages, strengths or dimensions of seals;a seal that is actuable to seal or release;a seal that is compression activated as a part of a gasket; ora seal that is compression activated as a part of a gasket, where the activation is provided by electric, electromagnetic, fluid dynamic, and/or mechanical actuation. 11. A method for end feeding, the method comprising: placing a blank in a hydroforming die with a channel section of the blank lying in an entry channel of the die;inserting a mandrel section of an end plunger into the channel section of the blank;bringing a gripping surface of the end plunger into contact with the channel section of the blank;establishing a first seal for sealing the end plunger against an interior volume of the blank at a first position remote from the channel section;applying a high pressure forming fluid into the interior volume of the blank to bulge the blank outwardly, and end feeding the blank by applying an end feeding force to the end plunger, which communicates the force to the blank at the gripping surface, while the first seal isolates a section of the blank from the channel to the first seal, from the fluid pressure;bulging the blank until the first seal is broken; andmaintaining a second seal between the blank and the end plunger at a position within the channel. 12. The method of claim 11 wherein applying the high pressure forming fluid comprises injecting the high pressure forming fluid through a fluid passage that extends through the end plunger. 13. The method of claim 11 further comprising a previous step of preconfiguring the end plunger for establishing the first and second seals at appropriate locations for the die, the blank, the forming fluid pressure and temperature, and the end feeding procedure. 14. The method of claim 11 wherein establishing the first seal comprises actuating a gasket to effect the sealing. 15. The method of claim 11 wherein: placing the blank in the hydroforming die comprises placing a plurality of channel sections of the blank in corresponding respective entry channels of the die;inserting the mandrel section of the end plunger comprises inserting respective mandrel sections of respective end plungers in each of the plurality of channel sections; andbringing the gripping surface of the end plunger into contact with the channel section of the blank, is performed for each end plunger at each channel section. 16. The method of claim 15 wherein end feeding is performed at two or more of the end plungers. 17. The method of claim 15 wherein end feeding is performed at two or more of the end plungers, and the forces of the end feeding are substantially balanced. 18. The method of claim 17 wherein the blank is tubular, and the end feeding is provided coaxially at two opposite ends. 19. A kit comprising: an end plunger having a body for communicating an end feeding force onto a blank, the body having a mandrel section for insertion into a blank, the mandrel section having a proximal seal for sealing the end plunger against an interior volume of the blank at a first section of the blank, and a distal seal for sealing the end plunger against the interior volume at a second section of the blank; and one or more of the following: a die having a cavity with a shape to receive and enclose the blank with the end plunger inserted into the blank, with a gripping surface of the end plunger gripping the blank, while a channel section of the blank extends through an entry channel of the die, which has a diameter that closely matches an outer diameter of the channel section, in which the first section is within the channel and the second section lies beyond the channel; orinstructions for enclosing the blank in a die with the end plunger inserted into the blank, with a gripping surface of the end plunger gripping the blank, while a channel section of the blank extends through an entry channel of the die, which has a diameter that closely matches an outer diameter of the channel section, in which the first section is within the channel and the second section lies beyond the channel. 20. The kit of claim 19 further comprising the blank, or instructions for producing the blank. 21. An end plunger for end feeding in a hydroforming process, the end plunger comprising: a body formed of a plurality of parts, including one independently attachable or removable module for each of a plurality of seals, the body having a strength to communicate an end feeding force onto a blank, the body comprising: a bearing surface at a base end for bearing the end feeding force;an insertion end opposite the base end, the insertion end bearing a mandrel having a shape and size for insertion within a channel of the blank; anda gripping surface for gripping the blank at its channel;wherein the plurality of seals are provided on the mandrel, and define a sealing area for sealing against an interior volume of the blank channel,wherein a length of the sealing area is great enough so that during an end feeding operation, a seal is lost at one of the plurality of seals due to bulging of the blank, and a seal remains at another of the plurality of seals at an axial position where the blank has undergone less bulging. 22. The end plunger of claim 21 wherein the body comprises a fluid communication channel for conducting high pressure fluid between the sealed interior volume of the blank and one of a pressurized fluid injector and vent. 23. The end plunger of claim 21 wherein the gripping surface interfaces a butt end of the blank channel. 24. The end plunger of claim 21 wherein the mandrel has, across the sealing area, one or more of: a same cross-section; a same cross-sectional area; a same cross-sectional shape; a same cross-sectional shape and orientation; a same cross-sectional shape with a curvature and/or torsion along the mandrel section; a circular cross-section; an elliptical cross-section; and a circular cross-section but for one or more flattened sides. 25. The end plunger of claim 21 wherein the sealing area length is more than a mean radius of the OD of the mandrel. 26. The end plunger of claim 21 wherein the body is generally cylindrical, and the bearing surface at the base end has a larger diameter than the mandrel. 27. The end plunger of claim 21 wherein the sealing area includes a plurality of independently releasable seals for sequential release during the end feeding. 28. The end plunger of claim 27 wherein the plurality of independently releasable seals comprise: at least one toric seal;2-5 seals;at least one toric seal with a O (solid or hollow), X, U, V, T, square (solid or hollow), star or asterix profile;a proximal seal designed to seal a lip of the blank;a proximal seal having a pac-man or L shaped cross-section;a distal seal defining an insertion tip of the insertion end;different types, gages, strengths or dimensions of seals;a seal that is actuable to seal or release;a seal that is compression activated as a part of a gasket; ora seal that is compression activated as a part of a gasket, where the activation is provided by electric, electromagnetic, fluid dynamic, and/or mechanical actuation. 29. An end plunger for end feeding in a hydroforming process, the end plunger comprising: a body having a strength to communicate an end feeding force onto a blank, the body comprising: a bearing surface at a base end for bearing the end feeding force;an insertion end opposite the base end, the insertion end bearing a mandrel having a shape and size for insertion within a channel of the blank;a plurality of independently releasable seals on the mandrel for sequential release during the end feeding, the plurality of seals defining a sealing area for sealing against an interior volume of the blank channel;a spacer for separating the independently releasable seals; anda gripping surface for gripping the blank at its channel;wherein a length of the sealing area is great enough so that during an end feeding operation, one of the plurality of seals is lost due to bulging of the blank, and another of the plurality of seals remains at an axial position where the blank has undergone less bulging.
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