Claims
- 1. An apparatus adapted to be used for the automatic handling of sheets from which leaflets are formed, said apparatus comprising:a transfer unit for conveying sheets; an accumulator station disposed adjacent said transfer unit, said accumulator station being adapted to receive sheets from said transfer unit and to accumulate said sheets in a stack, said accumulator station comprising a plurality of air-pressure apertures to supply pressurized air against a portion of said stack of sheets; a sensor associated with said accumulator station, said sensor being adapted to generate a signal indicative of whether the height of said stack of sheets in said accumulator station is at least a minimum height; a sheet feeder being adapted to periodically remove sheets from said stack of sheets, said sheet feeder being adapted to remove sheets from said stack of sheets at a substantially constant rate, said sheet feeder comprising: a rotatable vacuum roll adapted to remove a sheet from the bottom of said stack of sheets at said accumulator station; a vacuum generator operatively coupled to said vacuum roll for creating a suction pressure within an interior portion of said vacuum roll; and a motor for causing said vacuum roll to be rotatably driven at a substantially constant rate; and a control mechanism operatively coupled to said sensor and said sheet feeder, said control mechanism being adapted to cause said sheet feeder to remove said sheets from said accumulator station as long as the height of said stack of sheets is at least said minimum height as determined by said sensor, said control mechanism being adapted to cause said sheet feeder to cease removal of said sheets from said accumulator station if the height of said stack of sheets falls below said minimum height as determined by said sensor, said control mechanism comprising an actuator mechanism operatively coupled to said vacuum generator that selectively eliminates said suction pressure, in response to said signal generated by said sensor, while said vacuum roll is being rotatably driven by said motor.
- 2. An apparatus as defined in claim 1 wherein said vacuum generator comprises:a vacuum pump; a conduit pneumatically connecting said vacuum pump to said interior portion of said vacuum roll; and a valve operatively coupled to said conduit, said valve being capable of selectively closing said conduit in response to said signal generated by said sensor.
- 3. An apparatus as defined in claim 1 wherein said control mechanism comprises a pulse-shaping circuit operatively coupled to receive said signal from said sensor, said pulse-shaping circuit causing said sheet feeder to cease removal of said sheets from said accumulator station for a minimum period of time after the height of said stack of sheets falls below said minimum height as determined by said sensor.
- 4. An apparatus as defined in claim 1 wherein said control mechanism limits the rate at which said sheet feeder transitions between an on state in which said sheet feeder removes sheets from said accumulator station and an off state in which said sheet feeder does not remove sheets from said accumulator station.
- 5. An apparatus as defined in claim 1 wherein said control mechanism comprises a valve actuator.
- 6. An apparatus as defined in claim 1 wherein said transfer unit comprises a plurality of conveyor belts.
- 7. An apparatus as defined in claim 1 wherein said transfer unit comprises:a first set of conveyor belts; a second set of conveyor belts; and a support structure for supporting said first and second sets of conveyor belts, said support structure being adapted to cause a stream of sheets to be received between said first set of conveyor belts and a second set of conveyor belts.
- 8. An apparatus adapted to be used for the automatic handling of sheets from which leaflets are formed, said apparatus comprising:a transfer unit for conveying sheets; an accumulator station disposed adjacent said transfer unit, said accumulator station being adapted to receive sheets from said transfer unit and to accumulate said sheets in a stack; a sensor associated with said accumulator station, said sensor being adapted to generate a signal indicative of whether the height of said stack of sheets in said accumulator station is at least a minimum height; a sheet feeder being adapted to periodically remove sheets from said stack of sheets, said sheet feeder being adapted to remove sheets from said stack of sheets at a substantially constant rate, said sheet feeder comprising: a rotatable vacuum roll adapted to remove a sheet from the bottom of said stack of sheets at said accumulator station; a vacuum generator operatively coupled to said vacuum roll for creating a suction pressure within an interior portion of said vacuum roll; and a motor for causing said vacuum roll to be rotatably driven at a substantially constant rate; and a control mechanism operatively coupled to said sensor and said sheet feeder, said control mechanism being adapted to cause said sheet feeder to remove said sheets from said accumulator station as long as the height of said stack of sheets is at least said minimum height as determined by said sensor, said control mechanism being adapted to cause said sheet feeder to cease removal of said sheets from said accumulator station if the height of said stack of sheets falls below said minimum height as determined by said sensor, said control mechanism comprising an actuator mechanism operatively coupled to said vacuum generator that selectively eliminates said suction pressure, in response to said signal generated by said sensor, while said vacuum roll is being rotatably driven by said motor.
- 9. An apparatus as defined in claim 8 wherein said vacuum generator comprises:a vacuum pump; a conduit pneumatically connecting said vacuum pump to said interior portion of said vacuum roll; and a valve operatively coupled to said conduit, said valve being capable of selectively closing said conduit in response to said signal generated by said sensor.
- 10. An apparatus as defined in claim 8 wherein said control mechanism comprises a pulse-shaping circuit operatively coupled to receive said signal from said sensor, said pulse-shaping circuit causing said sheet feeder to cease removal of said sheets from said accumulator station for a minimum period of time after the height of said stack of sheets falls below said minimum height as determined by said sensor.
- 11. An apparatus as defined in claim 8 wherein said control mechanism limits the rate at which said sheet feeder transitions between an on state in which said sheet feeder removes sheets from said accumulator station and an off state in which said sheet feeder does not remove sheets from said accumulator station.
- 12. An apparatus as defined in claim 8 wherein said control mechanism comprises a valve actuator.
- 13. An apparatus as defined in claim 8 wherein said transfer unit comprises a plurality of conveyor belts.
- 14. An apparatus as defined in claim 8 wherein said transfer unit comprises:a first set of conveyor belts; a second set of conveyor belts; and a support structure for supporting said first and second sets of conveyor belts, said support structure being adapted to cause a stream of sheets to be received between said first set of conveyor belts and a second set of conveyor belts.
- 15. An apparatus adapted to be used for the automatic handling of sheets from which leaflets are formed, said apparatus comprising:a transfer unit for conveying sheets; an accumulator station disposed adjacent said transfer unit, said accumulator station being adapted to receive sheets from said transfer unit and to accumulate said sheets in a stack; a sensor associated with said accumulator station, said sensor being adapted to generate a signal indicative of whether the height of said stack of sheets in said accumulator station is at least a minimum height; a sheet feeder being adapted to periodically remove sheets from said stack of sheets, said sheet feeder comprising: a rotatable vacuum roll adapted to remove a sheet from the bottom of said stack of sheets at said accumulator station; a vacuum generator operatively coupled to said vacuum roll for creating a suction pressure within an interior portion of said vacuum roll; and a motor for causing said vacuum roll to be rotatably driven; and a control mechanism operatively coupled to said sensor and said sheet feeder, said control mechanism being adapted to cause said sheet feeder to remove said sheets from said accumulator station as long as the height of said stack of sheets is at least said minimum height as determined by said sensor, said control mechanism being adapted to cause said sheet feeder to cease removal of said sheets from said accumulator station if the height of said stack of sheets falls below said minimum height as determined by said sensor.
- 16. An apparatus as defined in claim 15 wherein said vacuum generator comprises a vacuum pump.
- 17. An apparatus as defined in claim 15 wherein said control mechanism comprises a pulse-shaping circuit operatively coupled to receive said signal from said sensor, said pulse-shaping circuit causing said sheet feeder to cease removal of said sheets from said accumulator station for a minimum period of time after the height of said stack of sheets falls below said minimum height as determined by said sensor.
- 18. An apparatus as defined in claim 15 wherein said control mechanism limits the rate at which said sheet feeder transitions between an on state in which said sheet feeder removes sheets from said accumulator station and an off state in which said sheet feeder does not remove sheets from said accumulator station.
- 19. An apparatus as defined in claim 15 wherein said control mechanism comprises a valve actuator.
- 20. An apparatus as defined in claim 15 wherein said transfer unit comprises a plurality of conveyor belts.
- 21. An apparatus as defined in claim 15 wherein said transfer unit comprises:a first set of conveyor belts; a second set of conveyor belts; and a support structure for supporting said first and second sets of conveyor belts, said support structure being adapted to cause a stream of sheets to be received between said first set of conveyor belts and a second set of conveyor belts.
- 22. An apparatus as defined in claim 15 wherein said accumulator station has a plurality of air-pressure apertures to supply pressurized air against a portion of said stack of sheets.
Parent Case Info
This appln is a con't of Ser. No. 09/579,870 filed May 26, 2000 U.S. Pat. No. 6,257,568 which is a con't of Ser. No. 09/047,716 filed Mar. 25, 1998, U.S. Pat. No. 6,095,512.
US Referenced Citations (25)
Continuations (2)
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Number |
Date |
Country |
Parent |
09/579870 |
May 2000 |
US |
Child |
09/898609 |
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US |
Parent |
09/047716 |
Mar 1998 |
US |
Child |
09/579870 |
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US |