IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0164089
(2002-06-06)
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발명자
/ 주소 |
- Gleason, Robert C.
- Bannayan, John
- Schumacher, Frederick A.
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출원인 / 주소 |
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대리인 / 주소 |
Fitzpatrick, Cella, Harper &
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인용정보 |
피인용 횟수 :
7 인용 특허 :
13 |
초록
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A grinding system for grinding feedstock includes a transport apparatus, a grinding apparatus, and a controller. The transport apparatus continuously transports feedstock of an arbitrarily long length at a desired feed rate, and the grinding apparatus grinds the feedstock transported by the transpor
A grinding system for grinding feedstock includes a transport apparatus, a grinding apparatus, and a controller. The transport apparatus continuously transports feedstock of an arbitrarily long length at a desired feed rate, and the grinding apparatus grinds the feedstock transported by the transport apparatus. The controller controls a grinding position of the grinding apparatus and a longitudinal position of the feedstock during grinding to be coordinated with each other.
대표청구항
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1. A grinding system for grinding elongate feedstock, said system comprising:a transport apparatus adapted to continuously and controllably transport feedstock at a desired feed rate, wherein said transport apparatus comprises a plurality of carriages for moving the feedstock, and wherein said trans
1. A grinding system for grinding elongate feedstock, said system comprising:a transport apparatus adapted to continuously and controllably transport feedstock at a desired feed rate, wherein said transport apparatus comprises a plurality of carriages for moving the feedstock, and wherein said transport apparatus controls the feed rate by controlling movement of the plurality of carriages; a grinding apparatus adapted to grind the feedstock transported by said transport apparatus; and a controller adapted to control a grinding position of said grinding apparatus and a longitudinal position of the feedstock during grinding without regard to an endpoint of the feedstock, wherein said controller is a multi-axis controller system that operates according to a program loaded therein, wherein said transport apparatus comprises: a motor system controlled by said controller; and the plurality of carriages, and wherein the motor system moves each of the plurality of carriages independently. 2. A grinding system according to claim 1,wherein each of the plurality of carriages moves back and forth along a track within a predetermined travel span set, and wherein a first carriage of the plurality of carriages reaches an end of its travel span at a time different from when a second carriage of the plurality of carriages reaches an end of its travel span. 3. A grinding system according to claim 2, whereina first axis of said controller is dedicated to controlling a lateral position of said grinding apparatus, a second axis of said controller is dedicated to controlling movement of the first carriage back and forth along a track, a third axis of said controller is dedicated to controlling movement of the second carriage back and forth along the track, and a fourth axis of said controller is dedicated to controlling the second and third axes, such that the feedstock is moved at the desired feed rate. 4. A grinding system according to claim 3, wherein said controller controls the grinding position of said grinding apparatus and the longitudinal position of the feedstock to be coordinated with each other.5. A grinding system according to claim 1, wherein said transport apparatus comprises:a rotation apparatus adapted to rotate the feedstock about its longitudinal axis. 6. A grinding system according to claim 5, wherein the rotation apparatus comprises:a plurality of pulleys coupled together by a common shaft; and a motor adapted to drive at least one pulley of the plurality of pulleys, such that movement of the at least one pulley causes the shaft to rotate, thus causing remaining ones of the plurality of pulleys to move in synchronicity. 7. A grinding system according to claim 6,wherein said transport apparatus comprises a plurality of collet assemblies respectively supported by the plurality of carriages, wherein each of the plurality of collet assemblies comprises a collet with a closed position, in which the collet grasps and holds the feedstock such that the feedstock moves along with the collet assembly, and an opened position, in which the collet assembly and the collet move independent of the feedstock, and wherein the rotation apparatus causes each collet to rotate relative to its corresponding collet assembly. 8. A grinding system according to claim 7,wherein each of the plurality of collet assemblies is formed of a plurality of portions positioned around a bar, such that a first portion is attached to a corresponding carriage assembly and a second portion is slidable relative to the bar, and wherein a collet is arranged within the bar, such that the bar and the collet move in unison. 9. A grinding system according to claim 8, wherein the second portion of each collet assembly includes a sleeve positioned in the bar for closing the collet, such that the second portion and the sleeve slide relative to the bar to close the collet.10. A grinding system according to claim 9,wherein compressed air causes the sleeve to close the collet, and wherein any movement of the second portion by the compressed air does not cause a spurious change in position of the feedstock during grinding. 11. A grinding system according to claim 10, wherein movement of the sleeve to close the collet does not cause movement of the collet in a longitudinal direction.12. A grinding system according to claim 8, wherein one of an electromagnetic device, a ferro-fluidic device, a hydraulic device, and a compressed-air device is used to open and close the collet.13. A grinding system according to claim 7, wherein at least one collet is holding the feedstock at any time during grinding, such that the feedstock continuously rotates and advances forward at the feed rate.14. A grinding system according to claim 1, wherein said grinding apparatus is a centerless grinder.15. A grinding system according to claim 14,wherein said grinding apparatus comprises: a work wheel for grinding the feedstock; a bottom support unit for providing bottom support to the feedstock during grinding; and a back support unit for providing back support to the feedstock during grinding, wherein the bottom support unit is movable relative to the back support unit. 16. A grinding system according to claim 15, wherein the bottom support unit is in a fixed position relative to the work wheel, such that the work wheel and the bottom support unit move together.17. A grinding system according to claim 1, wherein said grinding apparatus is an OD grinder with a bushing unit for centering the feedstock.18. A grinding system according to claim 1, wherein said controller controls said transport apparatus to continuously and controllably move the feedstock in a forward direction and in a backward direction.19. A grinding system according to claim 1, wherein the grinding position of said grinding apparatus is adjusted by said controller during grinding of the feedstock.20. A method of grinding elongate feedstock, said method comprising the steps of:continuously and controllably transporting feedstock at a desired feed rate, using a transport apparatus, wherein the transport apparatus comprises a plurality of carriages for moving the feedstock, and wherein the transport apparatus controls the feed rate by controlling movement of the plurality of carriages; grinding the feedstock transported by the transport apparatus, using a grinding apparatus; and controlling a grinding position of the grinding apparatus and a longitudinal position of the feedstock during grinding, using a controller, without regard to an endpoint of the feedstock, wherein the controller is a multi-axis controller system that operates according to a program loaded therein, wherein the transport apparatus comprises: a motor system controlled by the controller; and the plurality of carriages, and wherein the motor system moves each of the plurality of carriages independently. 21. A method according to claim 20,wherein each of the plurality of carriages moves back and forth along a track within a predetermined travel span set, and wherein a first carriage of the plurality of carriages reaches an end of its travel span at a time different from when a second carriage of the plurality of carriages reaches an end of its travel span. 22. A method according to claim 21, wherein said controlling step comprises:using a first axis of the controller to control a lateral position of the grinding apparatus, using a second axis of the controller to control movement of the first carriage back and forth along a track, using a third axis of the controller to control movement of the second carriage back and forth along the track, and using a fourth axis of the controller to control the second and third axes, such that the feedstock is moved at the desired feed rate. 23. A method according to claim 22, wherein said controlling step includes controlling the grinding position of the grinding apparatus and the longitudinal position of the feedstock to be coordinated with each other.24. A method according to claim 21, further comprising the step of rotating the feedstock about its longitudinal axis using a rotation apparatus, wherein the rotation apparatus is part of the transport apparatus.25. A method according to claim 24, wherein said rotating step comprises using a motor to drive at least one pulley of a plurality of pulleys coupled together with a common shaft, such that movement of the at least one pulley causes the shaft to rotate, thus causing remaining ones of the plurality of pulleys to move in synchronicity.26. A method according to claim 25,wherein the transport apparatus comprises a plurality of collet assemblies respectively supported by the plurality of carriages, wherein each of the plurality of collet assemblies comprises a collet with a closed position, in which the collet grasps and holds the feedstock such that the feedstock moves along with the collet assembly, and an opened position, in which the collet assembly and the collet move independent of the feedstock, and wherein said rotating step comprises rotating each collet relative to its corresponding collet assembly. 27. A method according to claim 26,wherein each of the plurality of collet assemblies is formed of a plurality of portions positioned around a bar, such that a first portion is attached to a corresponding carriage assembly and a second portion is slidable relative to the bar, wherein a collet is arranged within the bar, and wherein, in said transporting step, the bar and the collet move in unison. 28. A method according to claim 27,wherein the second portion of each collet assembly includes a sleeve positioned in the bar for closing the collet, and wherein said transporting step includes sliding the second portion and the sleeve relative to the bar to close the collet. 29. A method according to claim 28,wherein said transporting step comprises using compressed air to cause the sleeve to close the collet, and wherein any movement of the second portion by the compressed air does not cause a spurious change in position of the feedstock during grinding. 30. A method according to claim 29, wherein movement of the sleeve to close the collet does not cause movement of the collet in a longitudinal direction.31. A method according to claim 27, wherein, in said transporting step, one of an electromagnetic device, a ferro-fluidic device, a hydraulic device, and a compressed-air device is used to open and close the collet.32. A method according to claim 26, wherein, during said grinding step, at least one collet is holding the feedstock at any time, such that the feedstock continuously rotates and advances forward at the feed rate.33. A method according to claim 20, wherein said grinding step is performed using a centerless grinder.34. A method according to claim 33,wherein said grinding step comprises: grinding the feedstock using a work wheel; providing bottom support to the feedstock during grinding using a bottom support unit; and providing back support to the feedstock during grinding using a back support unit, wherein the bottom support unit is movable relative to the back support unit. 35. A method according to claim 34, wherein said controlling step includes moving the work wheel and the bottom support unit together.36. A method according to claim 20, wherein said grinding step is performed using an OD grinder with a bushing unit for centering the feedstock.37. A method according to claim 20, wherein said controlling step includes controlling the transport apparatus to continuously and controllably move the feedstock in a forward direction and in a backward direction.38. A method according to claim 20, wherein the grinding position of the grinding apparatus is adjusted by the controller during grinding of the feedstock.39. A grinding system for grinding elongate feedstock, said system comprising:transport means for continuously and controllably transporting feedstock at a desired feed rate, wherein said transport means comprises a plurality of carriages for moving the feedstock, and wherein said transport means controls the feed rate by controlling movement of the plurality of carriages; grinding means for grinding the feedstock transported by said transport means; and control means for controlling a grinding position of said grinding means and a longitudinal position of the feedstock during grinding without regard to an endpoint of the feedstock, wherein said control means is a multi-axis controller system that operates according to a program loaded therein, wherein said transport means comprises: a motor system controlled by said control means; and the plurality of carriages, and wherein the motor system moves each of the plurality of carriages independently. 40. A grinding system according to claim 39,wherein each of the plurality of carriages moves back and forth along a track within a predetermined travel span set, and wherein a first carriage of the plurality of carriages reaches an end of its travel span at a time different from when a second carriage of the plurality of carriages reaches an end of its travel span. 41. A grinding system according to claim 40, whereina first axis of said control means is dedicated to controlling a lateral position of said grinding means, a second axis of said control means is dedicated to controlling movement of the first carriage back and forth along a track, a third axis of said control means is dedicated to controlling movement of the second carriage back and forth along the track, and a fourth axis of said control means is dedicated to controlling the second and third axes, such that the feedstock is moved at the desired feed rate. 42. A grinding system according to claim 41, wherein said control means controls the grinding position of said grinding means and the longitudinal position of the feedstock to be coordinated with each other.43. A grinding system according to claim 39, wherein said transport means comprises rotation means for rotating the feedstock about its longitudinal axis.44. A grinding system according to claim 43, wherein the rotation means comprises:a plurality of pulleys coupled together by a common shaft; and a motor adapted to drive at least one pulley of the plurality of pulleys, such that movement of the at least one pulley causes the shaft to rotate, thus causing remaining ones of the plurality of pulleys to move in synchronicity. 45. A grinding system according to claim 44,wherein said transport means comprises a plurality of collet assemblies respectively supported by the plurality of carriages, wherein each of the plurality of collet assemblies comprises a collet with a closed position, in which the collet grasps and holds the feedstock such that the feedstock moves along with the collet assembly, and an opened position, in which the collet assembly and the collet move independent of the feedstock, and wherein the rotation means causes each collet to rotate relative to its corresponding collet assembly. 46. A grinding system according to claim 45,wherein each of the plurality of collet assemblies is formed of a plurality of portions positioned around a bar, such that a first portion is attached to a corresponding carriage assembly and a second portion is slidable relative to the bar; and wherein a collet is arranged within the bar, such that the bar and the collet move in unison. 47. A grinding system according to claim 46, wherein the second portion of each collet assembly includes a sleeve positioned in the bar for closing the collet, such that the second portion and the sleeve slide relative to the bar to close the collet.48. A grinding system according to claim 47,wherein compressed air causes the sleeve to close the collet, and wherein any movement of the second portion by the compressed air does not cause a spurious change in position of the feedstock during grinding. 49. A grinding system according to claim 48, wherein movement of the sleeve to close the collet does not cause movement of the collet in a longitudinal direction.50. A grinding system according to claim 46, wherein one of an electromagnetic device, a ferro-fluidic device, a hydraulic device, and a compressed-air device is used to open and close the collet.51. A grinding system according to claim 45, wherein at least one collet is holding the feedstock at any time during grinding, such that the feedstock continuously rotates and advances forward at the feed rate.52. A grinding system according to claim 39, wherein said grinding means is a centerless grinder.53. A grinding system according to claim 52,wherein said grinding means comprises: a work wheel for grinding the feedstock and a bottom support unit for providing bottom support to the feedstock during grinding; and a back support unit for providing back support to the feedstock during grinding, wherein the bottom support unit is movable relative to the back support unit. 54. A grinding system according to claim 53, wherein the bottom support unit is in a fixed position relative to the work wheel, such that the work wheel and the bottom support unit move together.55. A grinding system according to claim 39, wherein said grinding means is an OD grinder with a bushing unit for centering the feedstock.56. A grinding system according to claim 39, wherein said control means controls said transport means to continuously and controllably move the feedstock in a forward direction and in a backward direction.57. A grinding system according to claim 39, wherein the grinding position of said grinding means is adjusted by said control means during grinding of the feedstock.
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