Claims
- 1. A controllable input speed, constant tension and constant output speed comparator for a web conveyor system comprising:
- a plurality of spaced apart rollers defining a back and forth input speed control path,
- a web trained about said rollers and following the control path and providing a speed control takeup length,
- power actuated means for controllably varying the length of the control path to control the input speed of a strip entering the control path while maintaining a constant web output speed and
- driving means for imparting driving power to a set of rollers of the plurality to maintain a predetermined output velocity in the web and each of the rollers in the set of rollers having a spring spool demand driven roller for transmitting driving power from the driving means to the rollers.
- 2. The structure set forth in claim 1 wherein the driving means include a chain and sprocked drive with certain of the sprockets having driving connection with the rollers of the set.
- 3. The structure set forth in claim 2 and the effective diameter of the sprockets of the chain and sprocket drive being at least as large as the effective diameter of the rollers of the set.
- 4. The structure set forth in claim 1 wherein the control path has non-parallel portions between the spaced apart rollers whose angular relationship varies with changes in the length of the control path.
- 5. The structure set forth in claim 1 wherein the control path has substantially parallel portions between the spaced apart rollers.
- 6. A power-driven speed compensator for a web conveyor system to control the web input speed while the web is in motion traveling through the web path of the conveyor system and while maintaining a constant tension and constant output speed of a web for a limited time interval, said compensator comprising:
- a pair of generally opposed spaced apart sets of web-engaging rollers for providing a velocity compensating control path having a plurality of doubled back and forth web runs,
- first power means for driving said rollers,
- a web trained about the rollers and following the control path defined thereby, and
- second power means for controllably increasing and decreasing the spacing between the respective sets of rollers to positively control the length of the control path to produce a constant velocity output for a limited time period, while controllably varying the input velocity during the operation of the first power means and transportation of the web through the control path.
- 7. The structure set forth in claim 6 wherein the doubled back and forth web runs are substantially parallel.
- 8. The structure set forth in claim 6 wherein the doubled back and forth web runs are non-parallel and change their angular relationship with changes in spacing between the respective sets of rollers, and wherein the structure further comprises demand driven speed compensating belt rollers for compensating for variations in rate of velocity change of the web as the spacing between respective sets of rollers is changed.
- 9. The structure set forth in claim 8 and
- an intermediate carriage mounted for back and forth reciprocation and carrying on one side thereof one of the sets of rollers of the first pair,
- a second pair of generally opposed spaced apart sets of web engaging rollers for providing a compensating takeup path having a plurality of back and forth web runs,
- one set of said second pair being carried by said carriage,
- said second power means controllably moving said carriage to increase the length of one web path while simultaneously decreasing the length of the other web path.
Parent Case Info
This is a continuation, of application Ser. No. 809,551, filed June 24, 1977, abandoned.
US Referenced Citations (4)
Continuations (1)
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Number |
Date |
Country |
Parent |
809551 |
Jun 1977 |
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