Claims
- 1. A perforator for forming perforations in a continuous photographic film to allocate at least one perforation to each frame exposure location to be provided in first sections of said continuous photographic film, said first sections alternating with second sections of a constant length along said continuous photographic film, each of said first sections having a length corresponding to a particular frame exposure location number which is selected from among a plurality of predetermined frame exposure location numbers, said perforator comprising:
- a feeder for feeding said continuous photographic film along a feed path in a feeding direction by a predetermined length which is determined based on the selected frame exposure location number;
- a plurality of die sets adjacent said feed path and sequentially arranged, each of said die sets having a plurality of punches and associated dies arranged at constant intervals of a first length in said feeding direction;
- designating means for designating, based on the selected frame exposure location number, the number of said die sets to be actuated, wherein at least one of said die sets is selected to be actuated, and wherein when more than one of said die sets are actuated, said actuated die sets are adjacent; and
- actuating means for actuating, after said continuous photographic film is fed by said predetermined length, the number of said die sets designated to be actuated by the designating means, to thereby form perforations of a number corresponding to the selected frame exposure location number in said first section.
- 2. A perforator as recited in claim 1, wherein said designating means includes a main controller which controls a position controller for generating an output signal, and said perforator further comprises a driver for controlling the speed and duration of the feeder based on said output signal from said position controller.
- 3. A perforator as recited in claim 1, wherein said feeder is a variable speed feeder.
- 4. A perforator as recited in claim 1, wherein said designating means includes a main controller which controls said die sets to perform a die-punching operation N times (wherein N=1, 2, 3 . . . n) in each of said first sections, while controlling said feeder to transport said continuous film by a first length after each of (N-1) times of the die-punching operation and by a second length after the last die-punching operation, said second length corresponding to said first length plus the length of one of said second sections, and said main controller changes the number N of die-punching operations in each first section based on the selected frame exposure location number.
- 5. A perforator as recited in claim 4, wherein said actuating means includes a first driver for driving said die sets, and said perforator further comprises a second driver for driving said feeder, wherein said main controller contains a plurality of programmed patterns and controls said first and second drivers in accordance with said programmed patterns.
- 6. A perforator as recited in claim 5, wherein according to a first one of said programmed patterns, said main controller controls said first driver to maintain a constant die-punching interval of said die sets, and also controls said second driver to maintain a transporting time of said feeder constant after each die-punching operation, but controls said second driver to change a transporting speed in accordance with the change between said first length and said second length.
- 7. A perforator as recited in claim 5, wherein according to a second one of said programmed patterns, said main controller controls said second driver to maintain a transporting speed of said feeder constant, but controls said first driver to change a die-punching interval of said die sets and controls said second driver to change a transporting time of said feeder in accordance with the change between said first length and said second length.
- 8. A perforator as recited in claim 5, further comprising a pilot pin mechanism disposed in a downstream portion of said die set unit, and a third driver for driving said pilot pin mechanism, said pilot pin mechanism being movable between an active position wherein pilot pins are engaged in perforation of said film during a die-punching operation and an inactive position wherein said pins are not engaged in perforations of said film during a die-punching operation, said pilot pin mechanism being set in an inactive position at the first die-punching operation for every first section.
- 9. A perforator according to claim 1, wherein there are n frame exposure location numbers, and there are n die sets arranged adjacent to said feed path, n being an integer of more than 1, and wherein F1, F2, F3, . . . Fn represent a sequence of said n frame exposure location numbers arranged in ascending order, whereas G1, G2, G3, . . . Gn represent a sequence of numbers of punches and corresponding dies of respective ones of said n die sets in order in a second direction, wherein said second direction is opposite to said feeding direction of said continuous photographic film, one of said n die sets which is disposed number i in order in the second direction, i being an integer up to n, has a number Gi of punches and corresponding dies, the number Gi being defined as follows:
- Gi=Fi-F.sub.(i-1) ( 1)
- wherein F.sub.(1-1) =F0 is assumed to be zero.
- 10. A perforator as recited in claim 9 wherein said actuating means comprises n cylinders selectively driven to actuate said die sets.
- 11. A perforator as recited in claim 1, each die set further comprising a punch holder connected to said actuating means, wherein the punches of each die set are fixed to the punch holder of the respective die set such that the punches cannot move relative to the punch holder.
- 12. A perforator as recited in claim 9, wherein said punches are disposed so as to form a perforation on only one lateral side of the photographic film.
- 13. A perforator as recited in claim 9, wherein said punches are arranged in a double line in the film feeding direction so as to form a pair of perforations which are arranged at an interval that is of a length less than said first length.
- 14. A perforator as recited in claim 1, wherein adjacent punches of adjacent die sets are spaced from each other at a distance equal to said first length.
- 15. A perforator as recited in claim 9, wherein said designating means and said actuating means are connected such that the die sets disposed number 1 to i in order in the second direction are simultaneously actuated when said designating means designates based on the selected frame exposure location number Fi.
- 16. A perforator as recited in claim 9, wherein said feeder and said actuating means are connected such that said feeder feeds said continuous film by a length corresponding to the length of said first section plus the length of said second section, after each die-punching.
- 17. A perforator as recited in claim 9, wherein said designating means, said actuating means, and said feeder are connected to one another such that when said designating means designates based on a selected frame exposure location number which is one greater than a number of said die sets, and designates based on the largest frame exposure location number, said actuating means actuates all of said die sets simultaneously once, and then actuates the nth die set again after said feeder feeds said continuous film by said predetermined length.
- 18. A perforator as recited in claim 9, wherein said punches are arranged in groups, and said groups are disposed at an interval corresponding to said frame exposure locations in the film transporting direction so as to form a group of perforations on at least one lateral side of each of said frame exposure locations.
- 19. A perforator as recited in claim 1, wherein said feeder includes a suction roller and a nip roller, an outer peripheral surface of said suction roller forming a film conveying surface and having a plurality of suction holes formed therethrough, wherein said nip roller opposes said outer peripheral surface of said suction roller.
- 20. A perforator as recited in claim 1, wherein said feeder comprises a feed roller whose outer peripheral surface forms a film conveying surface which has a plurality of holes formed at regular intervals therethrough so as to permit sprockets mounted in said feed roller to radially protrude to the outside of said film conveying surface, and a cam follower disposed in the center of said feed roller, wherein said cam follower is arranged to be rotated separately from said feed roller so as to cause a variable number of said sprockets to protrude.
- 21. A perforator as recited in claim 1, wherein said feeder includes a feed roller whose outer peripheral surface forms a film conveying surface having a plurality of holes formed at regular intervals therethrough so as to permit sprockets mounted in said feed roller to radially protrude to the outside of said film conveying surface, and cylinders coupled to said sprockets so as to drive each of said sprockets to protrude independently from other sprockets.
- 22. A perforator as recited in claim 1, further comprising means for cutting said continuous film into individual filmstrips.
- 23. A perforator, for forming perforations in a continuous photographic film, comprising:
- a feeder having a feed path which extends in a feeding direction, wherein said feeder is a variable speed feeder capable of operation at variable speeds;
- a plurality of die sets arranged along a line, each of said die sets having a plurality of punches fixed thereon and arranged along said line at a constant interval having a first length, wherein adjacent punches of adjacent die sets are separated from each other at an interval having said first length;
- at least one cylinder associated with said plurality of die sets, wherein said at least one cylinder is arranged to selectively move said die sets in a punching direction transverse to said feeding direction;
- a control unit connected to said feeder and to said at least one cylinder, said control unit controlling the operation speed and duration of said feeder as well as the movement of said at least one cylinder, wherein the control unit contains a plurality of programmed patterns to control said feeder and said at least one cylinder in a set sequence;
- a console connected to said control unit, for selecting one of said programmed patterns by which said control unit operates said feeder and said at least one cylinder in a set sequence.
- 24. A perforator as recited in claim 23, further comprising a plurality of cam members, wherein said at least one cylinder consists of one cylinder, said cam members being individually switched over between an active position and an inactive position so as to selectively drive the plurality of die sets by said one cylinder.
- 25. A perforator as recited in claim 23, wherein said feeder includes a suction roller and a nip roller, an outer peripheral surface of said suction roller forming a film conveying surface and having a plurality of suction holes formed therethrough, wherein said nip roller opposes said outer peripheral surface of said suction roller.
- 26. A perforator as recited in claim 23, wherein said at least one cylinder includes a plurality of cylinders each connected to said control unit and a respective one of said die sets.
- 27. A perforator as recited in claim 23, further comprising a ram located adjacent to said plurality of die sets and connected to said at least one cylinder.
- 28. A perforator as recited in claim 27, further comprising a plurality of cams each connected to said control unit, wherein each cam is located between said ram and one of said plurality of die sets.
- 29. A perforator as recited in claim 28, wherein said at least one cylinder is arranged to move between a retracted position and an extended position, said ram is connected to said at least one cylinder so that it moves vertically in an up and down direction as said cylinder moves between its retracted and extended positions, respectively, wherein each of said plurality of cams includes a first radius and a second radius less than said first radius, said cams being arranged to move up and down with said ram, said plurality of cams each being independently rotatable between a first position in which the cam first radius is aligned in the vertical direction and a second position in which the cam second radius is aligned in the vertical direction.
- 30. A perforator as recited in claim 23, wherein said feeder comprises a feed roller whose outer peripheral surface forms a film conveying surface which has a plurality of holes formed at regular intervals therethrough so as to permit sprockets mounted in said feed roller to radially protrude to the outside of said film conveying surface, and a cam follower disposed in the center of said feed roller, wherein said cam follower is arranged to be rotated separately from said feed roller so as to cause a variable number of said sprockets to protrude.
- 31. A perforator as recited in claim 23, wherein said feeder includes a feed roller whose outer peripheral surface forms a film conveying surface having a plurality of holes formed at regular intervals therethrough so as to permit sprockets mounted in said feed roller to radially protrude to the outside of said film conveying surface, and cylinders coupled to said sprockets so as to drive each of said sprockets to protrude independently from other sprockets.
- 32. A perforator as recited in claim 23, further comprising means for cutting said continuous film into individual filmstrips.
Priority Claims (2)
Number |
Date |
Country |
Kind |
4-326981 |
Dec 1992 |
JPX |
|
4-329506 |
Dec 1992 |
JPX |
|
Parent Case Info
This is a Continuation of application Ser. No. 08/162,299 filed Dec. 7,1993, now abandoned.
US Referenced Citations (15)
Foreign Referenced Citations (3)
Number |
Date |
Country |
0 329 172 |
Aug 1989 |
EPX |
1 530 062 |
May 1968 |
FRX |
41 35 787 |
May 1992 |
DEX |
Continuations (1)
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Number |
Date |
Country |
Parent |
162299 |
Dec 1993 |
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