Claims
- 1. An apparatus for directing a fluid in a selected pattern onto a moving substrate, said apparatus comprising:
- a nozzle connected to a rotatable servo arm and configured to direct said fluid on said moving substrate;
- supplying means for providing said fluid to said nozzle at a pressure which provides for a selected fluid flow rate from said nozzle;
- designating means for identifying a plurality of selected article lengths along said substrate;
- transporting means for moving said substrate at a predetermined speed along a machine direction past said nozzle during said directing of fluid onto said substrate;
- an actuating servo having a servo motor connected to rotate said servo arm, said servo arm transmitting a rotation of said servo motor to said nozzle to move said nozzle along a selected delivery path, and said servo motor including a passageway which allows a transport of said fluid through an interior of said servo motor; and
- regulating means connected to said actuating servo to control said servo motor by employing a selected, electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said actuating servo motor, said data set configured to move said actuating servo motor to provide a selected sequence of rotational movements of said servo arm in a predetermined correspondence with movement positions of said substrate to thereby direct said nozzle along said selected delivery path and provide said selected pattern onto each selected article length of said substrate.
- 2. An apparatus for directing a fluid in a selected pattern onto a moving substrate, said apparatus comprising:
- a nozzle connected to a movable support carried by a rotatable servo arm and configured to direct said fluid on said moving substrate;
- supplying means for providing said fluid to said nozzle at a pressure which provides for a selected fluid flow rate from said nozzle;
- designating means for identifying a plurality of selected article lengths along said substrate;
- transporting means for moving said substrate at a predetermined speed along a machine direction past said nozzle during said directing of fluid onto said substrate;
- an actuating servo having a servo motor, said servo motor having an output shaft attached to said servo arm, said servo arm transmitting a rotation of said servo motor to said nozzle to move said nozzle along a selected delivery path, said actuating servo providing an angular acceleration of at least about 200 radians/second.sup.2 to said nozzle and servo arm; and
- regulating means connected to said actuating servo to control said servo motor by employing a selected, electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said actuating servo motor, said data set configured to move said output shaft through a limited arc length of rotation to provide a selected sequence of rotational, back and forth movements of said output shaft and servo arm, said sequence of rotational back and forth movements of said output shaft and servo arm having a predetermined correspondence with said moving of said substrate to thereby direct said nozzle along said selected delivery path and provide said selected pattern onto each selected article length of said substrate.
- 3. An apparatus as recited in claim 2, wherein said transporting means is constructed to move said substrate at a speed of at least about 800 ft/min.
- 4. An apparatus as recited in claim 2, wherein said actuating servo is constructed to provide a rotational angular acceleration of said servo arm of at least about 1,000 radian/sec.sup.2.
- 5. An apparatus as recited in claim 4, wherein said actuating servo includes an electro-magnetic motor which rotates said actuator arm.
- 6. An apparatus as recited in claim 2, further comprising an energy storage system connected to said movable support to absorb torsional mechanical energy produced by a twisting motion of said actuating servo motor about a lengthwise axis of a fluid delivery conduit to move said nozzle about said directing path.
- 7. An apparatus as recited in claim 6, wherein said energy storage system comprises a torque tube, said torque tube is in a collinear alignment with an axis of rotation of said output shaft of the servo motor, and said torque tube is constructed to conduct said fluid to said nozzle.
- 8. An apparatus as recited in claim 6, wherein said energy storage system comprises a tubing coil, said tubing coil has a longitudinal axis located in a collinear alignment with an axis of rotation of said output shaft of the servo motor, and said tubing coil is constructed to conduct said fluid to said nozzle.
- 9. An apparatus as recited in claim 1, wherein
- said designating means includes a line encoder which provides article position data regarding a location of each of said selected lengths along said substrate; and
- said regulating means includes an actuator encoder which provides actuator data regarding a location of said nozzle, a comparator for comparing said actuator data to a set of path position data which is tabulated in correspondence with distance along said machine direction of each article length, and an output generator for producing a signal which directs a movement of said actuating servo to locate said nozzle in substantial accordance with said path position data.
- 10. An apparatus as recited in claim 9, wherein said designating means also provides marker data which correspond to the position and presence of individual article segments of said substrate.
- 11. An apparatus as recited in claim 2, wherein said each number is expressed in terms of a corresponding number of encoder counts provided by a motor encoder connected to said actuating servo.
- 12. The apparatus as recited in claim 2, wherein said nozzle and servo arm are configured to provide an overall rotational inertia of not more than about 1.6 lbs-inch-seconds.sup.2.
- 13. The apparatus as recited in claim 2, wherein said supplying means includes a conduit torque tube section and a conduit arm section;said servo motor output shaft connects to said conduit torque tube section to direct a twisting motion of said output shaft into said conduit torque tube section; and said conduit arm section extends radially away from a lengthwise axis of said conduit torque tube section and is connected to said nozzle.
- 14. An apparatus for cutting a moving substrate, said apparatus comprising:
- a cutter nozzle connected to a rotatable servo arm and configured to direct said fluid on said moving substrate, said cutter nozzle located at a radial distance of at least about 7.6 cm from an axis about which the cutter nozzle rotates, said cutter nozzle and servo arm configured to provide an overall rotational inertia of not more than about 1.6 lbs-inch-seconds.sup.2 ;
- supplying means for providing a cutting fluid to said cutter nozzle at a pressure which provides for a fluid flow rate from said cutter nozzle, said fluid flow rate sufficient to cut said substrate in a selected cut pattern;
- designating means for identifying a plurality of selected article lengths along said substrate, said article lengths defining a plurality of article segments which are interconnected along a machine direction of said apparatus;
- transporting means for moving said substrate at a predetermined speed of at least about 300 ft/min past said cutter nozzle along said machine direction during said cutting of said substrate;
- an actuating servo having a servo motor, said servo motor having an output shaft attached to said servo arm, said servo arm configured to transmit a rotation of said servo motor to said nozzle to move said cutter nozzle along a selected cutting path, said actuating servo providing an angular acceleration of at least about 200 radians/second.sup.2 to said nozzle and servo arm; and
- regulating means connected to said actuating servo to control said servo motor by employing a selected, electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said actuating servo motor, said data set configured to move said output shaft through a limited arc length of rotation to provide a selected sequence of back and forth rotational movements of said output shaft and servo arm, said sequence of back and forth rotational movements of said output shaft and servo arm having a predetermined correspondence with movement positions of said substrate to thereby direct said cutter nozzle along said selected cutting path and provide said selected cut pattern on each selected article length of said substrate.
- 15. An apparatus for cutting a moving substrate, said apparatus comprising:
- a cutter nozzle connected to a rotatable servo arm and configured to direct said fluid on said moving substrate;
- supplying means for providing a cutting fluid to said cutter nozzle at a pressure which provides for a fluid flow rate from said cutter nozzle, said fluid flow rate sufficient to cut said substrate in a selected cut pattern;
- designating means for identifying a plurality of selected article lengths along said substrate, said article lengths defining a plurality of article segments which are interconnected along a machine direction of said apparatus;
- transporting means for moving said substrate at a predetermined speed past said cutter nozzle along said machine direction during said cutting of said substrate;
- an actuating servo having a servo motor connected to said servo arm and said nozzle, said servo arm configured to transmit a rotation of said servo motor to said nozzle to move said cutter nozzle along a selected cutting path, and said servo motor including a passageway which allows a transport of said fluid through an interior of said servo motor; and
- regulating means connected to said actuating servo to control said servo motor by employing a selected, electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said actuating servo motor, said data set configured to move said actuating servo motor to provide a selected sequence of back and forth rotational movements of said output shaft and servo arm, said sequence of back and forth rotational movements of said output shaft and servo arm having a predetermined correspondence with movement positions of said substrate to thereby direct said cutter nozzle along said selected cutting path and provide said selected cut pattern on each selected article length of said substrate.
- 16. A method for directing a fluid in a selected pattern onto a moving substrate, said method comprising the steps of:
- (a) providing a nozzle connected to a rotatable servo arm;
- (b) supplying a selected fluid to said nozzle at a pressure which provides for a selected fluid flow rate from said nozzle;
- (c) identifying a plurality of selected article lengths along said substrate;
- (d) transporting said substrate to move said substrate past said nozzle along a machine direction at a predetermined speed during said directing of fluid onto said substrate;
- (e) servo actuating a rotation of said servo arm with a servo motor to move said nozzle along a selected delivery path, said servo motor having an output shaft attached to said servo arm, said servo arm transmitting a rotation of said servo motor to said nozzle to move said nozzle along said selected delivery path, said actuating servo providing an angular acceleration of at least about 200 radians/second.sup.2 to said nozzle and servo arm, and
- (f) regulating said servo actuating step (e) in accordance with an electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said servo motor, said data set configured to move said output shaft through a limited arc length to provide a selected sequence of back and forth rotational movements of said output shaft and servo arm, said sequence of back and forth rotational movements of said output shaft and servo arm having a predetermined correspondence with transporting positions of said substrate to thereby direct said nozzle along said selected delivery path and provide said selected pattern on each selected article length of said substrate.
- 17. A method as recited in claim 16, further comprising the step of providing an energy storage system for absorbing torsional mechanical energy and twisting motion produced by the actuating servo about a lengthwise axis of a fluid delivery conduit when moving said nozzle along said delivery path.
- 18. A method as recited in claim 17, wherein said energy storage system comprises a torque tube, said torque tube is in a collinear alignment with an axis of rotation of said output shaft of the servo motor, and said torque tube is constructed to conduct said fluid to said nozzle.
- 19. A method as recited in claim 17, wherein said energy storage system comprises a tubing coil, said tubing coil is in a collinear alignment with an axis of rotation of said output shaft of the servo motor and said tubing coil is constructed to conduct said fluid to said nozzle.
- 20. A method as recited in claim 16, wherein
- said identifying step (c) employs a line encoder which provides position data regarding a location of each selected length of said substrate along said machine direction of said substrate; and
- said regulating step (f) employs an actuator encoder connected to said servo motor which provides actuator data regarding a location of said nozzle, a comparator for comparing said actuator data to a set of path position data which is tabulated in correspondence with distance along said machine direction of each selected length along said substrate, and an output generator for producing a signal which directs a movement of said actuating servo to locate said nozzle in substantial accordance with said path position data.
- 21. A method as recited in claim 20, further comprising a gearing encoder configured to provide a machine-directional shift in said selected pattern relative to said selected lengths along said substrate.
- 22. A method as recited in claim 20, wherein said identifying step (c) provides marker data which correspond to the position and presence of an individual article segment of said substrate.
- 23. A method as recited in claim 16, wherein said servo actuating step (e) provides said nozzle with an angular acceleration of at least about 1,000 radian/sec.sup.2.
- 24. A method as recited in claim 16, wherein said each number is expressed in terms of a corresponding number of encoder counts provided by a motor encoder.
- 25. The method as recited in claim 16, further including a providing of said nozzle and servo arm with a rotational inertia of not more than about 1.6 lbs-inch-seconds.sup.2.
- 26. The method as recited in claim 16, wherein said supplying step (b) further includes supplying said fluid with a conduit torque tube section and a conduit arm section; connecting said servo motor output shaft to said conduit torque tube section to direct a twisting motion of said output shaft into said conduit torque tube section; extending said conduit arm section radially away from a lengthwise axis of said conduit torque tube section; and connecting said conduit arm section to said nozzle.
- 27. A method for cutting a moving substrate, said method comprising the steps of:
- (a) providing a cutter nozzle connected to a rotatable servo arm, said cutter nozzle located at a radial distance of at least about 7.6 cm from an axis about which the cutter nozzle rotates, said nozzle and servo arm configured to provide an overall rotational inertia of not more than about 1.6 lbs-inch-seconds.sup.2 ;
- (b) supplying a cutting fluid to said cutter nozzle at a pressure which provides for a fluid flow rate from said cutter nozzle, said fluid flow rate sufficient to cut said substrate in a selected cut pattern;
- (c) identifying a plurality of selected article lengths along said substrate, said article lengths defining a plurality of article segments which are interconnected along a machine direction of said substrate;
- (d) transporting said substrate to move said article segments past said cutter nozzle along said machine direction at a predetermined speed of at least about 300 ft/min during said cutting of said substrate;
- (e) servo actuating a rotation of said servo arm with a servo motor to move said cutter nozzle along a selected cutting path, said servo motor having an output shaft attached to said servo arm, said servo arm transmitting a rotation of said servo motor to said nozzle to move said nozzle along said selected delivery path, said actuating servo providing an angular acceleration of at least about 200 radians/second.sup.2 to said nozzle and servo arm; and
- (f) regulating said servo actuating step (e) in accordance with an electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said servo motor, said data set configured to move said output shaft through a limited arc to provide a selected sequence of back and forth rotational movements of said output shaft and servo arm, said sequence of back and forth rotational movements of said output shaft and servo arm having a predetermined correspondence with transporting positions of said substrate to thereby direct said cutter nozzle along said selected cutting path and provide said selected cut pattern on each selected article length of said substrate.
- 28. A method for directing a fluid in a selected pattern onto a moving substrate, said method comprising the steps of:
- (a) providing a nozzle connected to a rotatable servo arm;
- (b) supplying a selected fluid to said nozzle at a pressure which provides for a selected fluid flow rate from said nozzle;
- (c) identifying a plurality of selected article lengths along said substrate;
- (d) transporting said substrate to move said substrate past said nozzle along a machine direction at a predetermined speed during said directing of fluid onto said substrate;
- (e) servo actuating a rotation of said servo arm with a servo motor to move said nozzle along a selected delivery path, said servo motor having an output shaft attached to said servo arm, said servo arm transmitting a rotation of said servo motor to said nozzle to move said nozzle along said selected delivery path, said servo motor having a passageway which allows a transport of said fluid through an interior of said servo motor; and
- (f) regulating said servo actuating step (e) in accordance with an electronically stored data set which has a sequence of numbers with each number representing a desired motor angle provided for by said servo motor, said data set configured to move said output shaft to provide a selected sequence of rotational movements of said servo arm in a predetermined correspondence with transporting positions of said substrate to thereby direct said nozzle along said selected delivery path and provide said selected pattern on each selected article length of said substrate.
Parent Case Info
This application is a divisional of application Ser. No. 08/529,041 entitled "SERVO DRIVEN WATERCUTTER" and filed in the U.S. Patent and Trademark Office on Sep. 15, 1995, which is a continuation of application Ser. No. 08/423,424 entitled "SERVO DRIVEN WATERCUTTER" and filed in the U.S. Patent and Trademark Office on Apr. 18, 1995 and now abandoned. The entirety of this Application is hereby incorporated by reference.
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Divisions (1)
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529041 |
Sep 1995 |
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Continuations (1)
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423424 |
Apr 1995 |
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