Claims
- 1. A belt-driven machine for operating on a plurality of blanks, each blank defining a leading edge, comprising:
- a first machine section for receiving each blank from a feed mechanism in a machine direction and performing a first operation on each blank;
- a first synchronous belt driving the first machine section for synchronizing the performance of the first operation with the position of the leading edge of each blank;
- a rotating first upper roll and an rotating first lower roll defining a first nip for transporting each blank through the first machine section and performing the first operation on each blank,
- a first adjustment mechanism for adjusting the first nip to accommodate blanks of varying thickness, and
- a first automatic take-up for automatically maintaining tension in the first synchronous belt in response to adjustment of the first nip;
- a second machine section for receiving each blank from the first machine section and performing a second operation on each blank;
- a second synchronous belt for driving the second machine section; and
- a separable coupling for selectively transmitting rotational power from the first machine section to the second machine section and for synchronizing the performance of the second operation with the position of the leading edge of each blank.
- 2. The belt-driven machine of claim 1, further comprising:
- a rotating second upper roll and a rotating second lower roll defining a second nip for transporting each blank through the second machine section and performing the second operation on each blank,
- a second adjustment mechanism for adjusting the second nip to accommodate blanks of varying thickness, and
- a second automatic take-up for automatically maintaining tension in the second synchronous belt in response to adjustment of the second nip.
- 3. The belt-driven machine of claim 1, further comprising:
- a synchronous feed-mechanism belt driving the feed mechanism:
- a coupled-set of synchronous belt sprockets synchronously coupling a rotational power source to the synchronous feed-mechanism belt and to the first synchronous belt to synchronize the performance of the first operation with the position of the leading edge of each blank; and
- a separation facilitator for accommodating separation of the first and second machine sections at the separable coupling.
- 4. The belt-driven machine of claim 3, wherein the separation facilitator comprises free-wheeling rollers supporting a selected one of the machine sections and a linear track for rotatably guiding the rollers to facilitate moving the selected machine section into and out of engagement with the other machine section.
- 5. The belt-driven machine of claim 3, wherein the separation facilitator comprises:
- free-wheeling rollers supporting the first machine section; and
- a linear track for rotatably guiding the rollers to facilitate moving the first machine section opposite the machine direction to separate the first machine section from the second machine section, and to facilitate moving the first machine section in the machine direction to join the first machine section to the second machine section at the separable coupling.
- 6. The belt-driven machine of claim 1, wherein one of the operations comprises printing and the other operation comprises cutting.
- 7. The belt-driven machine of claim 1, wherein:
- the first adjustment mechanism adjusts the first nip to without substantially altering the position of the performance of the first operation with this respect to the leading edge of each blank.
- 8. The belt-driven machine of claim 7, wherein:
- the first automatic take-up comprises,
- a first pivoting arm,
- a first movable tension roller rotatably attached to an end of the first pivoting arm, the first movable tension roller positioned to vary tension in the first synchronous belt as the first pivoting arm pivots, and
- a first actuator attached to an opposing end of the first pivoting arm for automatically moving the opposing end of the first pivoting arm in response to changes in tension of the first synchronous belt; and
- the second automatic take-up comprises,
- a second pivoting arm,
- a second movable tension roller rotatably attached to an end of the second pivoting arm, the second movable tension roller positioned to vary tension in the second synchronous belt as the second pivoting arm pivots, and
- a second actuator attached to an opposing end of the second pivoting arm for automatically moving the opposing end of the second pivoting arm in response to changes in tension of the second synchronous belt.
- 9. The belt-driven machine of claim 8, wherein the first actuator comprises a first air cylinder and the second actuator comprises a second air cylinder.
- 10. The belt-driven machine of claim 7, wherein the first and second upper rolls and the first and second lower rolls rotate in the machine direction, and the separable coupling rotates in the cross-machine direction, further comprising:
- a first right-angle transmission configured to transmit rotational power in the machine direction at a first input shaft to rotational power in the cross-machine direction at a first output shaft, the first input shaft coupled to the first synchronous belt, the first output shaft coupled to the separable coupling, and;
- a second right-angle transmission configured to transmit rotational power in the cross-machine direction at a second input shaft to rotational power in the machine direction at a second output shaft, the second input shaft coupled to the separable coupling, the second output shaft coupled to the second synchronous belt.
- 11. The belt-driven machine of claim 7, wherein the first upper and lower rolls and the second upper and lower rolls are supported by a frame, the first upper roll is adjustable with respect to the frame, the first lower roll is fixed with respect to the frame, the second upper roll is fixed with respect to the frame, the second lower roll is adjustable with respect to the frame, the first synchronous belt drives the first upper roll, and the second synchronous belt drives the second lower roll, further comprising:
- a third synchronous belt for driving the fixed first lower roll so that adjustment of the first nip does not alter the position of the first operation with respect to the leading edge of each blank; and
- a fourth synchronous belt for driving the fixed second upper roll so that adjustment of the second nip does not alter the position of the second operation with respect to the leading edge of each blank.
- 12. The belt-driven machine of claim 11, wherein the first and second upper rolls and the first and second lower rolls rotate in the machine direction, and the separable coupling rotates in the cross-machine direction, further comprising:
- a first right-angle transmission configured to transmit rotational power in the machine direction at a first input shaft to rotational power in the cross-machine direction at a first output shaft, the first input shaft coupled to the third synchronous belt, the first output shaft coupled to the separable coupling;
- a second right-angle transmission configured to transmit rotational power in the cross-machine direction at a second input shaft to rotational power in the machine direction at a second output shaft and to rotational power in the cross-machine direction at a third output shaft, the second input shaft coupled to the separable coupling, the second output shaft coupled to the second synchronous belt; and
- a third right-angle transmission configured to transmit rotational power in the cross-machine direction at a third input shaft to rotational power in the machine direction at a fourth output shaft, the third input shaft coupled to the third output shaft, the fourth output shaft coupled to the fourth synchronous belt.
- 13. The belt-driven machine of claim 12, further comprising:
- a first upper synchronous sprocket coupling the first synchronous belt to the first upper roll;
- a first lower synchronous sprocket coupling the third synchronous belt to the first lower roll;
- a second upper synchronous sprocket coupling the fourth synchronous belt to the second upper roll;
- a second lower synchronous sprocket coupling the second synchronous belt to the second lower roll;
- a dual synchronous sprocket coupling the rotational power source to the first synchronous belt and to the synchronous feed-mechanism belt, the dual synchronous sprocket defining an equal number of belt-engaging teeth for engaging the first synchronous belt and the synchronous feed-mechanism belt;
- a third synchronous sprocket coupling the synchronous feed-mechanism belt to the feed mechanism;
- the first lower, second upper, second lower, and third synchronous sprockets each defining an equal number of belt-engaging teeth; and
- the first, second, and third right-angle transmissions each having a one-to-one input-to-output rotation ratio.
- 14. The belt-driven machine of claim 12, wherein the first upper roll is an impression roll, the first lower roll is a print roll, the second upper roll is a cutting roll, and the second lower roll is an anvil roll, further comprising:
- an upper feed roll driven by the first synchronous belt;
- a lower feed roll driven by the first synchronous belt; and
- a third nip defined by the upper feed roll and the lower feed roll for transporting each blank from the feed mechanism to the first nip.
- 15. The belt-driven machine of claim 12, further comprising:
- a lower pull roll driven by the second synchronous belt;
- an upper pull roll driven by the fourth synchronous belt; and
- a fourth nip defined by the upper pull roll and the lower pull roll for transporting each blank from the first nip to the second nip.
- 16. A belt-driven machine for operating on a plurality of blanks, each blank defining a leading edge, comprising:
- a first machine section comprising,
- a rotating first upper roll and an rotating first lower roll defining a first nip for transporting each blank through the first machine section and performing the first operation on each blank,
- a first synchronous belt driving the first machine section for synchronizing the performance of the first operation with the position of the leading edge of each blank,
- a first adjustment mechanism for adjusting the first nip to accommodate blanks of varying thickness without substantially altering the position of the performance of the first operation with respect to the leading edge of each blank, and
- a first automatic take-up for automatically maintaining tension in the first synchronous belt in response to adjustment of the first nip; and
- a second machine section comprising,
- a rotating second upper roll and a rotating second lower roll defining a second nip for transporting each blank through the second machine section and performing the second operation on each blank,
- a second synchronous belt driving the second machine section for synchronizing the performance of the second operation with the position of the leading edge of each blank,
- a second adjustment mechanism for adjusting the second nip to accommodate blanks of varying thickness without substantially altering the position of the performance of the second operation with respect to the leading edge of each blank, and
- a second automatic take-up for automatically maintaining tension in the second synchronous belt in response to adjustment of the second nip.
- 17. The belt-driven machine of claim 16, wherein one of the operations comprises printing and the other operation comprises cutting.
- 18. The belt-driven machine of claim 16, wherein the first operation comprises printing and the second operation comprises cutting.
- 19. The belt-driven machine of claim 16, wherein:
- the first automatic take-up comprises,
- a first pivoting arm,
- a first movable tension roller rotatably attached to an end of the first pivoting arm, the first movable tension roller positioned to varying tension in the first synchronous belt as the first pivoting arm pivots, and
- a first actuator attached to an opposing end of the first pivoting arm for automatically moving the opposing end of the first pivoting arm in response to changes in tension of the first synchronous belt; and
- the second automatic take-up comprises,
- a second pivoting arm,
- a second movable tension roller rotatably attached to an end of the second pivoting arm, the second movable tension roller positioned to vary tension in the second synchronous belt as the second pivoting arm pivots, and
- a second actuator attached to an opposing end of the second pivoting arm for automatically moving the opposing end of the second pivoting arm in response to changes in tension of the second synchronous belt.
- 20. The belt-driven machine of claim 19, wherein the first upper and lower rolls and the second upper and lower rolls are supported by a frame, the first upper roll is adjustable with respect to the frame, the first lower roll is fixed with respect to the frame, the second upper roll is fixed with respect to the frame, the second lower roll is adjustable with respect to the frame, the first synchronous belt drives the first upper roll, and the second synchronous belt drives the second lower roll, further comprising:
- a third synchronous belt for driving the fixed first lower roll so that adjustment of the first nip does not alter the position of the first operation with respect to the leading edge of each blank; and
- a fourth synchronous belt for driving the fixed second upper roll so that adjustment of the second nip does not alter the position of the second operation with respect to the leading edge of each blank.
- 21. The belt-driven machine of claim 20, wherein the first and second upper rolls and the first and second lower rolls rotate in the machine direction, and the separable coupling rotates in the cross-machine direction, further comprising:
- a first right-angle transmission configured to transmit rotational power in the machine direction at a first input shaft to rotational power in the cross-machine direction at a first output shaft, the first input shaft coupled to the third synchronous belt, the first output shaft coupled to the separable coupling;
- a second right-angle transmission configured to transmit rotational power in the cross-machine direction at a second input shaft to rotational power in the machine direction at a second output shaft and to rotational power in the cross-machine direction at a third output shaft, the second input shaft coupled to the separable coupling, the second output shaft coupled to the second synchronous belt; and
- a third right-angle transmission configured to transmit rotational power in the cross-machine direction at a third input shaft to rotational power in the machine direction at a fourth output shaft, the third input shaft coupled to the third output shaft, the fourth output shaft coupled to the fourth synchronous belt.
- 22. The belt-driven machine of claim 21, wherein the first upper roll is an impression roll, the first lower roll is a print roll, the second upper roll is a cutting roll, and the second lower roll is an anvil roll, further comprising:
- an upper feed roll driven by the first synchronous belt;
- a lower feed roll driven by the first synchronous belt;
- a third nip defined by the upper feed roll and the lower feed roll for transporting each blank from the feed mechanism to the first nip;
- a synchronous feed-mechanism belt driving the feed mechanism;
- a coupled-set of synchronous belt sprockets synchronously coupling the rotational power source to the first synchronous belt and the synchronous feed-mechanism belt;
- a lower pull roll driven by the second synchronous belt;
- an upper pull roll driven by the fourth synchronous belt; and
- a fourth nip defined by the upper pull roll and the lower pull roll for transporting each blank from the first nip to the second nip.
- 23. A belt-driven machine for operating on a plurality of blanks, each blank defining a leading edge, comprising:
- a feed mechanism coupled to a rotational power source for feeding the blanks in a machine direction;
- a synchronous feed-mechanism belt driving the feed mechanism;
- a first machine section comprising,
- a first frame;
- a rotating first upper roll and an rotating first lower roll defining a first nip for transporting each blank through the first machine section and performing a first operation on each blank,
- a first adjustment mechanism for adjusting the position of the first upper roll with respect to the first frame to adjust the first nip to accommodate blanks of varying thickness,
- a first synchronous belt driving the first upper roll,
- a third synchronous belt driving the first lower roll so that adjustment of the first nip does substantially not alter the position of the first operation with respect to the leading edge of each blank, and
- a first automatic take-up for automatically maintaining tension in the first synchronous belt in response to adjustment of the first nip;
- a coupled-set of synchronous belt sprockets synchronously coupling the rotational power source to the synchronous feed-mechanism belt and to the first synchronous belt to synchronize the performance of the first operation with the position of the leading edge of each blank;
- a second machine section comprising,
- a second frame;
- a rotating second upper roll and a rotating second lower roll defining a second nip for transporting each blank through the second machine section and performing the second operation on each blank,
- a second adjustment mechanism for adjusting the position of the second lower roll to adjust the second nip to accommodate blanks of varying thickness,
- a second synchronous belt driving the second lower roll,
- a fourth synchronous belt driving the second upper roll so that adjustment of the second nip does not substantially alter the position of the second operation with respect to the leading edge of each blank, and
- a second automatic take-up for automatically maintaining tension in the second synchronous belt in response to adjustment of the second nip;
- a separable coupling for rotating in the cross-machine direction to selectively transmit rotational power from the first machine section to the second machine section and to synchronize the performance of the second operation with the position of the leading edge of each blank;
- a first right-angle transmission configured to transmit rotational power in the machine direction at a first input shaft to rotational power in the cross-machine direction at a first output shaft, the first input shaft coupled to the third synchronous belt, the first output shaft coupled to the separable coupling;
- a second right-angle transmission configured to transmit rotational power in the cross-machine direction at a second input shaft to rotational power in the machine direction at a second output shaft and to rotational power in the cross-machine direction at a third output shaft, the second input shaft coupled to the separable coupling, the second output shaft coupled to the second synchronous belt;
- a third right-angle transmission configured to transmit rotational power in the cross-machine direction at a third input shaft to rotational power in the machine direction at a fourth output shaft, the third input shaft coupled to the third output shaft, the fourth output shaft coupled to the fourth synchronous belt; and
- a separation facilitator for accommodating separation of the first and second machine sections at the separable coupling comprising free-wheeling rollers supporting a selected one of the machine sections and a linear track for rotatable guiding the rollers to facilitate moving the selected machine section into and out of engagement with the other machine section.
Parent Case Info
This a continuation of application Ser. No. 08/940,454 filed Sep. 30, 1997.
US Referenced Citations (15)
Non-Patent Literature Citations (1)
Entry |
Manufacturer's Specifications for the Hooper-Swift Model G-50 Flexographic Printer-Slotter (Undated). |
Continuations (1)
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Number |
Date |
Country |
Parent |
940454 |
Sep 1997 |
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