EP0085773A1 - Method and device for cutting photo-composed films - Google Patents

Abstract

The device (1a) (Figure 2) has a longitudinal cutting mechanism (1) and a transverse cutting mechanism (11) for photo-composed films (2). The film is thus cut column-wise and textblock-wise. The longitudinal cutting mechanism (1) has one longitudinal cutter (3) for each column edge corresponding to a defined position in the transverse direction of the film, which cutters can be moved selectively into the actual cutting position. This is controlled by a scanning device which detects markings (8) on the film (2), emits corresponding pulses to a control system (6) which in turn then activates the particular longitudinal cutter (3). In the transverse cutting mechanism (11), transverse cuts can be made in the film (2) in accordance with each textblock (9) up to the adjoining column width. If desired, however, the film can also be completely cut through in this way, so that textblocks (9) cut out by the device (1) as a whole can be removed. In place of a plurality of longitudinal cutters (3) corresponding to the number of columns, it is also possible to provide a single longitudinal cutter (3) in conjunction with a transverse positioning device for adjustment to different numbers and/or widths of columns. <IMAGE>

Description

The invention relates to a method for cutting photoset films or the like. Sheets or rolls according to predetermined column widths or numbers in the longitudinal and, if appropriate, in the transverse direction of the column.

Such typesetting or photosetting films are produced in photo typesetting machines. Here, for. B. left-justified and paragraph-wise texts, with different column numbers depending on the amount of text and / or the intended format may occur from paragraph to paragraph. it is common z. B. to create such films in four-column width so that the text paragraphs can have one, two, three or four column overall widths. The individual texts, which may have different formats, are then cut out and used for the page assembly of printed matter. However, cutting out the text blocks is time-consuming and cumbersome due to the ongoing format changes. The use of an already known cutting device already brings about a simplification compared to the otherwise customary cutting with scissors by hand; however, many operations are necessary to operate it, so that the processing is more precise, but still cumbersome and time-consuming.

The object of the present invention is therefore to provide a method for cutting photoset films u. To create. In which a cumbersome and time-consuming manual operation is avoided and in which an exact machining result can be achieved. Furthermore, it is an object of the present invention to provide a device for carrying out the method according to the invention, which allows a largely automatic processing of photoset films. Like. Allows.

To solve the problem, it is proposed on the one hand in particular that the photoset film or the like is provided with markings corresponding to the positions of the cuts provided, which are scanned for controlling cutting devices. As a result, the cutting of the photo-set film can take place practically automatically, the respective position of the cuts to be made being predetermined by the markings attached. The photoset film or the like is expediently first provided with longitudinal cuts and then with transverse incisions or through-cuts. With this intended sequence of processing, at least up to the transverse incisions or through-cuts, a full-width film strip is obtained in spite of the longitudinal cuts introduced, as a result of which the guidance is given within a corresponding device.

The device for carrying out the method according to the invention is particularly characterized in that it has a control, at least for the automatic actuation of longitudinal cutters assigned to different column widths. As a result, longitudinal sections correspondingly provided can already be made during the passage of a photoset film through the device be brought.

In the case of a device which cooperates with a light setting system, it is advantageous if the light setting system has a marking device for making markings on the photoset film or the like, these markings serving to control a scanning device belonging to the control. The markings can be applied to the photo typesetting film at the same time as the text pieces are applied. A part of the invention, namely the application of the control marking, is thus realized in a processing machine preceding the cutting device. The markings are expediently preferably provided as line markings, in particular on an outer edge of the film. Such line markings can be read in a simple manner and the arrangement on the outer edge of the film has the advantage that the entire film field intended for labeling remains free.

One embodiment provides that a slitter is provided for each column edge corresponding to a certain position in the transverse direction of the film, which can be brought into the cutting insert position and are connected to the control. Each slitter is therefore assigned to a column width and, if necessary, can make longitudinal cuts in the intended length according to the column width assigned to it, controlled by the edge markings.

A modified embodiment provides that a slitter is connected to a transverse positioning device for setting to different column numbers or column widths. This construction is particularly useful when there are a large number of columns or possible crossways sitions for making longitudinal cuts, advantageous.

Additional embodiments of the invention are listed in the further subclaims. The invention with its essential details is explained in more detail below with reference to the drawing.

• Fig. 1 eine perspektivische Seitenansicht einer Längsschneide-Vorrichtung,
• Fig. 2 eine perspektivische Seitenansicht der in Fig. 1 gezeigten Längsschneide-Vorrichtung mit angekuppelter Querschneidevorrichtung,
• Fig. 3 eine etwa Fig. 2 entsprechende perspektivische Seitenansicht, hier jedoch mit einer abgewandelten Ausführungsform der Längsschneide-Einrichtung,
• Fig. 4 bis 7 Seiten- bzw. Aufsichten im Bereich der Längsschneider bzw. des Querschneiders in stark schematisierter Form,
• Fig. 8 eine Seitenansicht eines Längsschneiders mit Hubeinrichtung und
• Fig. 9 den in Fig. 8 gezeigten Längsschneider in einer gegenüber dieser um 90° verdrehten Seitenansicht.

It shows in more schematic form:

• 1 is a perspective side view of a slitter device,
• FIG. 2 shows a perspective side view of the longitudinal cutting device shown in FIG. 1 with a coupled cross-cutting device, FIG.
• 3 is a perspective side view corresponding to FIG. 2, but here with a modified embodiment of the longitudinal cutting device,
• 4 to 7 side or top views in the area of the slitter or cross cutter in a highly schematic form,
• Fig. 8 is a side view of a slitter with lifting device and
• Fig. 9 shows the slitter shown in Fig. 8 in a side view rotated by 90 °.

A device 1 (FIG. 1) is used for cutting photoset films 2, the device shown in FIG. 1 only for longitudinally cutting the film 2, ie parallel to Direction of transport can be cut according to arrow Pf 1. In the exemplary embodiment, the device 1 has four slitters 3, which are arranged next to one another in the transverse direction to the transport direction of the film. Each slitter 3 has a lifting device 4 which is essentially formed by a lifting magnet and which can bring the respective knife 5 of a slitter 3 into the cutting position or the disengaging position. The knives 5 are moved according to the double arrow Pf 2. Each slitter 3 or its lifting device 4 is connected to a controller 6. The controller 6 in turn has at least one scanning device 7, by means of which markings 8, in the present case line markings, can be scanned.

The photo typesetting film 2 is produced in a photo setting system. The film 2 is provided with individual blocks 9, which, for. B. start left-justified and can be one, two, three or four columns in the present example. For further processing, the individual writing blocks 9 have to be separated out of the film 2. For this purpose, the slitter 3 make a longitudinal cut depending on the number of rows on the right edge of the column. When creating the writing blocks 9 in the photo setting system, the markings 8 are now applied to each writing block according to the invention, this preferably taking place outside the writing field on the outer edge, here seen in the transport direction, on the right outer edge. The markings 8 are provided here in the first line of the associated block 9. Due to the number of individual marking lines, the corresponding slitter 3 is also controlled via the controller 6. Accordingly, the control takes place in the case of a single-column block 9 tion of the longitudinal slitter seen in the transport direction and, analogously, in the case of a multi-column font block 9, the activation of the corresponding longitudinal slider assigned to this column position.

If the writing blocks 9 are to be cut out by hand behind the device 1, the slitter for the fourth column can also be designed as a fixed, permanently engaged knife. The right outer edge 10, which contains the control information in the form of line markings 8, is then also separated.

In the embodiment of a device 1 a for cutting photoset films 2 according to FIG. 2, the longitudinal cutting device 1 is coupled to a cross cutting device 11 and in particular is designed as a coherent structural unit 1 a. In this case, the outer edge 10 is not separated with the control information in the case of the longitudinal cutting device, since the markings 8 in the cross cutting device 11 are still used to control the cutting length in the transverse direction to the film 2. At the end of the device 1 a, a film strip is then obtained which corresponds on the right-hand side to the contour of the writing blocks 9 strung together. If necessary, there is also the possibility of controlling the cross cutter 12 belonging to the cross cutting device 11 in such a way that it completely cuts through the film at the end of each block of letters 9. The writing blocks are then cut out individually. It should also be mentioned that the left outer edge of the photoset film 2 can be separated by a fixed knife in the longitudinal cutters 3 or in the cross cutting device 11. The outer edge 10 and the left outer edge 10 a are over perforations, which may also be used to intervene Trans port means can serve, connected to the rest of the film. When the edges 10, 10 a are cut off, this perforation is also cut off. The preferred order of cutting the film 2, namely first the introduction of the longitudinal cuts with the longitudinal cutters 3 and then the cutting, has the essential advantage that the film 2 smoothly continuous at its longitudinal edges and the film thus remains continuous, so that the Further transport to the next processing station can proceed without difficulty. Rollers 14, 14a in the region of the longitudinal cutting device serve as transport devices for the film. The film is passed under pressure between these rollers. The drive rollers are connected to a drive motor 15 and expediently coupled to one another. In the drive connection to the rollers 13, 13 a of the cross cutting device 11, a clutch is also provided, by means of which this roller drive can be briefly stopped during the cross cutting process. A brake is also expediently provided in the thin clutch.

As already mentioned, the lifting devices 4 for the individual longitudinal cutters 3 are preferably formed by lifting magnets. The cross cutter 12 is also preferably coupled to a lifting magnet 16. If the cross-cutting knife is to carry out cross-sections of a controlled length corresponding to the number of columns in a writing block 9, stops or the like, which can be controlled by the further control device 6 a, can be provided on the cross-cutter 12 or on its lifting magnet 16. If it is intended to cut the film completely from block to block, this cut length control can be omitted. In both cases, the control sequence provides that when the line is entered mark 8 in the area of the cross cutter 12, first the transport is stopped, then the cross cutter 12 is actuated and then the transport is switched on again.

In the area of the transverse cutting device 11, a scanning device 7a is used to detect the line markings 8, while a scanning device 7 is provided in the area of the longitudinal cutting device. These scanning devices have an optoelectronic reading head with a light guide 17 guided to the reading point, in particular a glass fiber light guide. The reading point is expediently provided approximately in the direction of lateral escape of the slitter 3 or the cross cutter 12. Through the use of light guides 17, this point is easily accessible even in tight spaces, while the scanning devices 7, 7 a can be accommodated at a suitable point.

The slitter 3 with its lifting devices 4 are attached in the exemplary embodiment (FIGS. 1 and 2) to a bridge-like holder 18 spanning the transport path of the film 2. Advantageously, these slitter 3 with lifting device 4 are easily replaceable on the bracket so that they can be attached to the bracket if necessary. As a result, it is easily possible to adapt to differently sized photo set films or films with different column numbers. In Fig. 1 and 2, a fully equipped bracket is shown, so that z. B. a four-column film can be trimmed. A longitudinal stop for guidance is provided on the transport path of the film 2, which can preferably be adjusted to different film widths. Due to the option of equipping the slitter with slitter 3 in below different number or different position, the slitter can be used practically universally for a variety of photo set films 2. The device 1 with four longitudinal cutters 3 is only one possible embodiment. Optionally, the bracket 18 could also be narrower or wider and designed for a different number of slitters. It is advantageous if the individual longitudinal cutters 3 are somewhat adjustable in their transverse position in order to enable an exact adjustment to the column width. However, this adaptability could also be provided directly for each knife 5 in the holder 19. The knives 5 of the slitter 3 are leaf-shaped, tapering. This can be clearly seen in the side view of a slitter 3 in FIG. 8. The transport device of the film 2 is indicated by the arrow Pf 1. The shape of the knife with a run-in bevel allows for precisely positioned longitudinal cuts. The knives 5 are held in the clamp holder 19. This clamping bracket 19 is connected to the armature of the lifting magnet of the lifting device 4. When this lifting magnet is actuated, the knife 5 presses in the direction of arrow Pf 3 in the cutting direction. In the cutting area, a roller 20, preferably made of metal, is provided as a base for supporting the film 2, which also forms part of the roller indicated in FIGS. 1 and 2 14 can be. The roller 20 has a circumferential annular groove 21 in the engagement area of the knife 5. In addition to the knife 5, a pressure roller 22 can also be seen, which preferably has a running surface made of rubber, plastic or the like. Non-slip material. The film 2 is held down by this pressure roller 22 during the cutting process. 23 is a return spring in the lifting device 4 and 24 a guide for the holder 19 or the armature of the lifting magnet of the lifting device 4. A modified embodiment of a longitudinal cutting device 1b is shown in FIG. 3. Instead of a number of longitudinal cutters 3 corresponding to the number of columns, only one longitudinal cutter 3 is provided here, which, however, is adjusted in the transverse direction via a transverse positioning device 25 in accordance with the double arrow Pf 4 and in particular is set to different column positions can. Thus, a lowering into the cutting position by means of the lifting device 4 takes place here via the control 6. This embodiment is particularly advantageous in the case of large column numbers or frequently changing column widths and column numbers because of the then lower design effort. The transverse positioning device 25 has a servomotor 26 which is in electrical connection with the controller 6.

In the figures, the text area of the typesetting film 2 is simply hatched with the individual text blocks 9, while the blank areas 27 are identified by cross hatching. 4 to 7, the processing sequence is shown again in a highly schematic manner, a longitudinal cutter 3 being shown in side view in FIG. 4, which is electrically connected to the controller 6. If the scanning device 7 receives a pulse by passing markings 8, the controller 6 receives a pulse which triggers the lifting device 4 of the slitter 3 and brings it into the cutting position. Longitudinal cuts 28 are then made in accordance with the respective column width. In the cross-cutting device 11 (FIG. 6), cross-sections 29 are then introduced, the length of which is matched to the respective column width or number. The control for triggering these cross sections and also for controlling their length is likewise carried out via a scanning device 7 a with downstream control 6 a.

All the features shown in the description, the claims and the drawing can be essential to the invention both individually and in any combination with one another.

Claims (21)

1. A method for cutting photoset films or the like. Sheet or roll goods according to predetermined column widths or numbers in the longitudinal column direction and optionally in the transverse direction of the column, characterized in that the photoset film or the like. According to the positions of the intended cuts is provided with markings which are scanned to control cutting devices. 2. The method according to claim 1, characterized in that the photoset film or the like. First is provided with longitudinal incisions and then with cross-sections or averages. 3. The method according to claim 1 or 2, characterized in that by the control u. In the case of the cross cutting device, first the film transport, then the cutting device and then the film transport are controlled. 4. The method according to any one of claims 1 to 3, characterized in that the markings (8) outside the intended text field of the photo set and in particular on an outer edge (10) of the film (2) are attached. 5. Device for cutting photoset films u. Like., In particular for performing the method according to claim 1 to 4, wherein the device, a slitter and an adjusting device for adjusting the respective cutting position, for. B. according to different columns, optionally a cross cutter, guide means for the film or the like. And a further transport device, characterized in that the device (1) has a controller (6) at least for the automatic actuation of longitudinal slitters (3) assigned to different column widths . 6. The device according to claim 5, which cooperates with a light setting system, characterized in that the light setting system or a marking device for making markings (8) on the photoset film. The like. And that these markings (8) for controlling one the control (6, 6 a) belonging scanning device (7, 7 a) serve. 7. The device according to claim 6, characterized in that the markings (8 are preferably provided as line markings in particular on an outer edge (10) of the film (2). 8. Device according to one of claims 5 to 7, characterized in that controls (6, 6 a) are provided both for actuating longitudinal cutters (3) and for a cross cutter (12) and that preferably both in the cross cutter (12) and in the case of the longitudinal cutters (3), optionally, side-adjustable scanning devices (7, 7 a) are provided for detecting the markings (8). 9. Device according to one of claims 5 to 8, characterized in that for each column edge corresponding to a certain position in the film transverse direction, a slitter (3) is provided, which can be brought into the cutting insert position and are connected to the controller (6) . 10. Device according to one of claims 5 to 9, characterized in that the scanning device (s) (7, 7 a) an optoelectronic reading head, preferably with a light guide (17), in particular one, guided to the reading point which is expediently located near the respective cutting device Glass fiber light guide. 11. Device according to one of claims 5 to 10, characterized in that each slitter (3) with a to the control (6) connected lifting device (4), preferably with a solenoid is connected. 12. The device according to one of claims 5 to 11, characterized in that it is designed with a longitudinal cutting device and a cross cutting device (11) as a coherent structural unit (1 a). 13. Device according to one of claims 5 to 12, characterized in that the lifting devices (4) on a bridge-like, the transport path of the film (2) or the like. Spanning bracket (18) are attached, the arrangement and number of lifting devices (4) or the slitter (3) is matched to the respective number of columns or column width of the film (2) to be processed or the like. 14. Device according to one of claims 5 to 13, characterized in that the longitudinal cutters (3) each have a leaf-shaped, preferably tapered knife (5) which is attached to the lifting armature of the lifting magnet and that preferably a return spring or the like on the lifting armature Reset element attacks to disengage the knife. 15. The device according to one of claims 5 to 14, characterized in that the lifting armature of the lifting magnet or its extension to a knife clamping bracket (19) has a guide (24), preferably in at least one longitudinal slot guided roller bearings. 16. The device according to one of claims 5 to 15, characterized in that for each slitter (3) a rear support for the film (2) or the like. Is provided which has a recess in the cutting area of the knife (5), and that this support is preferably formed by a roller (20) or the like. With an annular groove (21). 17. Device according to one of claims 5 to 16, characterized in that in each slitter (3) a pressure roller (22) is preferably provided next to the knife (5), in particular for holding down the film (2) or the like against the Support roller (20). 18. Device according to one of claims 5 to 17, characterized in that the slitter (3) preferably with lifting device (4) easily replaceable on the bridge-like bracket (8) or the like. Are attached or attachable. 19. Device according to one of claims 5 to 18, characterized in that a fixed and preferably a side-adjustable longitudinal side stop for guiding the film are provided on the transport path of the film (2) within the device. ' 20. The device in particular according to one of claims 5 to 19, characterized in that one or more, preferably a single slitter (3) is connected to a transverse positioning device (25) for setting to different column numbers or column widths. 21. The apparatus according to claim 20, characterized in that the transverse positioning device (25) has a slide-like guide on which the slitter (3), advantageously with a lifting device (4), is attached, and that as a transverse adjustment drive with the controller ( 6) servomotor (26) or the like which is in electrical connection.

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