초록 ▼

A system and process for stamping parts having tolerances below 1000 nanometers. The inventive system and process is particularly suited for producing optoelectronic parts. The system includes a stamping press and one or a progression of stamping stations for supporting a punch and die. The stamping

A system and process for stamping parts having tolerances below 1000 nanometers. The inventive system and process is particularly suited for producing optoelectronic parts. The system includes a stamping press and one or a progression of stamping stations for supporting a punch and die. The stamping stations are designed to maintain substantial alignment of the punch and die with minimal moving components. The stamping station includes a shaft for rigidly guiding the punch to the die. The stamping press is capable of providing the punch with the necessary force to perform the stamping operations. The system includes an interface system for interfacing the force of the press with the punch, while simultaneously structurally decoupling the press from the punch. The system also includes a locating sub-plate, for locating the stamping station in alignment relative to each other, and means for in-line machine stock material before entry into the stamping stations.

대표청구항 ▼

We claim: 1. An apparatus for producing a part, comprising: a tool comprising complementary punch and die; a die holder supporting the die; a punch guide having a shaft guiding the punch in relation to the die, wherein the shaft is sized and shaped to receive the punch in slidable contact, and wher

We claim: 1. An apparatus for producing a part, comprising: a tool comprising complementary punch and die; a die holder supporting the die; a punch guide having a shaft guiding the punch in relation to the die, wherein the shaft is sized and shaped to receive the punch in slidable contact, and wherein the punch and the shaft have flat sliding contact surfaces in a sliding direction; and an interface capable of mechanically interfacing a force from a press with the punch, wherein the punch is structurally decoupled from the press. 2. The apparatus of claim 1, wherein the die holder includes a pocket nesting a mating surface of the die in confronting orientation with a mating surface of the punch. 3. The apparatus of claim 2, further comprising a backup plate attachable to the die holder over the pocket to secure the die within the pocket. 4. The apparatus of claim 1, further comprising a spacer disposed between the die holder and the punch guide, such that a workspace is defined between the die holder and punch guide where the punch engages with the die to produce the part. 5. The apparatus of claim 4, wherein the punch guide, the die holder and the spacer are provided as a unitary structure. 6. The apparatus of claim 4, wherein the punch guide, the die holder and the spacer are provided as a monolithic structure. 7. The apparatus of claim 1, further comprising a stop disposed between the press and the punch, along a stroke path of the press, for limiting translation of the punch through the shaft. 8. The apparatus of claim 1, further comprising a stop disposed along a stroke path of the punch, limiting translation of the punch through the shaft. 9. The apparatus of claim 8, wherein the punch includes a catch adapted to engage the stop, such that when the catch engages the stop, the stop limits further translation of the punch towards the die. 10. The apparatus of claim 1, further comprising biasing means coupled to the punch, the biasing means being biased when the punch translates towards the die under the force of the press, the biasing means being capable of moving the punch away from the die when the force is removed. 11. A system for producing a part, comprising: a press having a press bed and a press ram: at least one stamping station supported on the press bed supporting complementary punch and die, each stamping station comprising: a die holder supporting the die; a punch guide having a shaft guiding the punch relative to the die, wherein the shaft is sized and shaped to receive the punch in slidable contact, and wherein the punch and the shaft have flat sliding contact surfaces in a sliding direction; and an interface capable of mechanically coupling a force from the press ram with the punch, wherein the punch is structurally decoupled from the press ram. 12. The system of claim 11, wherein the interface comprises a ball attached to the punch and a socket attached to the press rain, wherein when ball engages the socket, the press ram is capable of coupling the force from the press ram to the punch, but being structurally decoupled from the punch. 13. The system of claim 11, wherein the interface comprises a ball attached to the press ram and a socket attached to the punch, wherein when ball engages the socket, the press ram is capable of coupling the force from the press rain to the punch, but being structurally decoupled from the punch. 14. The system of claim 11, wherein the lnterface comprises: an actuator plate coupled to the press ram, the actuator plate being disposed within the shaft between the punch and the press ram, wherein the actuator plate is capable of translating longitudinally along the shaft towards and away from the punch; and a valve supplying the shaft with low-pressure hydraulic fluid; wherein when the actuator plate translates towards the punch holder, a uniform, unidirectionally orthogonal farce is exerted on the punch to move the punch towards the die. 15. The system of claim 14, wherein the valve is located between the actuator plate and the punch, the actuator plate being capable of closing the valve when the actuator plate engages the valve as the actuator plate translates towards the punch. 16. The system of claim 15, further comprising a working pressure relief valve coupled to the shaft for actively controlling face exerted on the punch for producing the part. 17. The system of claim 16, further comprising a stop pressure relief valve coupled to the shaft for actively controlling a maximum force exerted on the punch. 18. The system of claim 14, further comprising a stop block located between the punch and the die holder, the stop block inhibiting translation of the punch towards the die holder when the punch bolder contacts the stop block. 19. The system of claim 18, further comprising a spacer disposed between the die holder and the stop block to position the stop block relative to the die holder. 20. The system of claim 14, wherein the interface further comprises a ball attached to the actuator plate and a socket attached to the press ram, wherein when ball engages the socket, the press rum is capable of coupling the force from the press ram to the actuator plate, but being structurally decoupled from the actuator plate. 21. The system of claim 11, further comprising a device in-line machining a work piece before it enters the stamping station. 22. The system of claim 11, further comprising a locating subplate having indexing features adapted to receive the stamping stations and to align the stamping stations relative to each other. 23. The system of claim 22, wherein the indexing features comprise grooves machined on a surface of a subplate. 24. A system as in claim 11, further comprising: a locating subplate having indexing features adapted to receive the stamping station and to align the stamping station relative to another stamping station; and a device in-line machining a work piece before it enters the stamping station. 25. A process for producing parts, comprising the steps of: providing a stamping system for producing a part as in claim 11, wherein the stamping system is configured to produce parts having tolerances within 1000 nanometers; and stamping parts using the stamping system.