DE731941C - Optical copier - Google Patents

Description

Optical copier The invention relates to an optical copier for copying lined up, perforated film and has the task of a Device suitable for fast "mechanical copying" with favorable switching conditions to accomplish. According to the invention this is achieved in that the under formation of each an empty field lined up negative films, the number of frames among them equal and eats n which is divisible by an integer other than r, whatever the Number of film frame lengths to be switched in each case after a preceding negative film for each negative film is the first switching step of n + r film frame length, perpendicular to the copier paper band and to be switched on together with this, which in its breadth of the simultaneously switched and at the same time to be copied number of negative images adjusted and whose feed corresponds to the image dimension in the film width.

There "optical copiers are already known in which the film and the paper tape are indexed together, but here is the direction of advance the same for film and paper tape. Because the film and the paper tape cross, With the subject of the invention, however, there is a switching stroke for the paper, the only the image expansion in the film width, so the smallest dimensions corresponds to what the simultaneous copying of several film frames on one provides a mechanically feasible basis without structural difficulties.

The object of the invention is on the drawing, for example shown, namely Fig.z shows a diagrammatic overall view of the device, Fig.2. A vertical section through the left part of the device, namely lengthways the line II-II of Fig. 3 with the representation of the copy lamp of the "picture window and the picture window opening device, Fig. g. a plan view of the lamp and the Photo cell housing, Fig. 4. a side view of the central part of the device after removing the side panels, Fig. 5 is a side view of the right end of the Device according to Fig.r, Fig. 6 is a plan view of the control device for the film and paper circuit, Fig. 7 is a side view of the device according to. Fig 6. Fig. 8 is an end view along the line VIII-VIII of Fig.6. Fig 9 a Front view along the line IX-IX of Fig.6. Fig. Io a floor plan of the film switching device, Fig. I i a vertical partial section along the line XI-XI dee Fig. Io, Fig. 12 a vertical section along the line XII-XII of Fig. 10, Fig. 13 a vertical Section along the line XIII-XIII of Fig. 10, Fig. 14 a vertical section along the line XIV-XIV of Fig..I with your exposure shutter, the drive and locking shafts, Fig. 15 is a partial horizontal view along the line XV-XV Fig. 14 with the main drive shaft, Fig. 16 a representation of the control cam for the various resistors, Fig. 17 is a partial view of the top of the vertical drive shaft, Fig. 18 a horizontal partial section through one Picture window with the film clips, Fig. 19 a vertical section through the right one End of the machine of Fig. I, sectioned along the line XIX-XIX of Fig. 5, Fig. 2o a horizontal section through the upper part of the device according to Fig. 5, namely along the line XX-XX of this figure, Fig.2i a vertical partial section along the line XXI-XXI of Fig. 22, Fig. 22 a side view of part of the device of Fig. 5, namely the paper perforation device, Fig.23 is a side view the paper feed drum and the associated guide, Figure 2d. a front view of the paper picture window, Fig. 25 a representation of the electrical circuit, Fig. 26 the circuit diagram, Fig -27 the representation of a film strip used in the machine and Fig.28 a part of the photosensitive paper used.

The subject of the invention is described with reference to a film strip 30 according to FIG. 27, which contains, for example, eight image fields 3i and which is provided with perforation holes 32 on one edge, by means of which it is transported through the recording camera. In 35mm films of this type, the image fields are generally very small, in the present case for example -28 X do Inne. In principle, enlarged images are produced on these filines, and in order to achieve a high working speed, a number of such film strips of eight images each are glued together, so that a long, coherent illustrated book with individual images is obtained Such a roll of film can now be copied quickly and automatically by means of the device according to the invention En (1e an image-free zone 33 is created (Fig. 27) 1 which is half as long as a single image.

When two such strips are glued together, between your last picture of the previous strip and the first picture of the glued one Stripe: a field 34 which corresponds to a full image length.

In order to increase the performance of the -machine, "-grounds at the same time two pictures in a double window illuminated and copied, and the same is also <read photosensitive paper in this way. that there are two each time Can attfnelimen images at the same time. each of the two negatives copied at the same time is illuminated by a special light source with diffused light, and during During the measuring process, a fixed resistor is switched into each lamp circuit, and the measurement is made by two photoelectric cells. which in a rectangular hastily arranged. The current of the photoelectric cell moves a contact member of a resistance. Such a device is known per se.

As can be seen from Fig. -26, there is only one measurement for this measurement short time for disposal.

Furthermore, a shutter is provided which automatically gives a certain exposure time after the measurement, and after the exposure the paper and the film are automatically indexed by the corresponding strokes. In FIG. 1, an electric motor 36 drives the main shaft 37, which is coupled to a vertical control shaft 40 through the gears 38 and 39. This shaft 4o is in turn connected by bevel gears 41 and .l2 to a transverse shaft 43, which in turn via the bevel gears41. and .I5 the locking shaft.I6 actuated. The main drive shaft 37 carries switching clutches .I7 and 48 on each end. The coupling 47 can be connected to a shaft 5o which actuates the film switching mechanism, and the coupling 48 controls the shaft 5i of the paper switching device. The main shaft 37 is driven uniformly, while the shafts 5o and 5 1 are only taken along when the clutches 47 and 4.8 are actuated. The vertical shaft 40, the transverse shaft 4.3 and the locking shaft 46 also rotate evenly. On the vertical shaft 4o, as shown in FIG. I, there is a cam disk 52, against which a roller 53 rests. This roller sits at one end of a resilient lever 5q., Which can be pivoted about a pin 55 as shown in FIGS. The other end of the lever 54 is connected by means of a cord 56 to a spring piston 57, the nose 58 of which cooperates with an attachment 59 of the coupling 4.7 in order to lift this coupling (Fig. 8). The cord 56 is guided over loose rollers 6o of a bracket 61; in which the piston 57 is also movable. According to Figs. 1, 6 and 8, when one of the projections of the cam 52 comes into contact with the roller 53, the lever 54 is pivoted clockwise (Fig. 6) so that it pulls the cable 56 and thus the piston 57 to the right out of contact with the shoulder 59 (Fig. 8). This movement of the piston 57 connects the shaft 5o to the main drive shaft 37, and since the cam 52 has four cams 62, the clutch a.7 is actuated four times with each revolution of the shaft 4o. A second curve 64 is located on the shaft 4o, which curve is identical to the curve 52 (FIGS. 1 and 4). At the end of a spring-loaded lever 66, which can be pivoted about the pin 67 'of the machine frame, there is again a roller which rests on this curve (Fig. 6 and 7), and the other end of the lever 66 carries a pin 68, which is guided in a slot 69 of a lever 70. This lever 70 can be pivoted about a pin 71 of the machine frame and is connected to a spring piston 73 by means of a cable 72 guided over rollers 6o, the nose 74 of which lies in the area of a projection 75 of the coupling 48, so that the shaft 5 can be decoupled from the drive shaft 37 ( Fig.9). As soon as a cam 76 of the cam 64 comes into engagement with the roller 65, the piston nose 74 is pulled away from the coupling 48 and the shaft 51 is thus coupled to the main drive shaft 37. The curve 52 also has four cams 76.

In order to keep the rollers 53 and 65 in engagement with the cams 52 and 64, the levers 5: 1., 66 and 71 are loaded with corresponding springs, which are all designed uniformly. According to Figure 7, each joint consists of a pin 77, the upper end of which is provided with a small pin 78 which protrudes through the lever 54 which is fastened to the pin by means of screws 79. A stepped part 8o of the journal 77 lies in a ball bearing 8i in a recess 82 of the machine frame. The bearing 81 is held in the recess 82 by a flat, annular plate or by washers 83. The pin 77 and the bearing 81 are fixed by a washer 84 which is screwed onto a threaded pin 85 of the pin 77. The lever 54 is tensioned by a spring 86 placed around the pin 77, and for this purpose one end of the spring is anchored to this lever and the other end to the plate 83. This spring causes the rollers 63 and 65 to engage with the cams 52 and 64 (Figs. 6 and 7). Each time the clutch 7 is actuated, the shaft 5o is coupled to the shaft 37 and is therefore driven uniformly. In this case, your gear 88 drives a gear 89 of the vertical shaft go, which is arranged in a housing gi on the machine frame. The 'shaft go is guided in plain bearings 92 of the' housing gi and held by longitudinal ball bearings 93 (Fig. Ii).

The hub 94 of a hollow toothed drum 95 rests on the upper ball bearing 93, and that drum is held by the shaft go by means of the wedge 96 and the nut 97. The transmission ratio of the gears 88 and 89 and the gears 38 and 39 is selected so that the vertical shaft 4o is driven at the same speed as the shaft 37 and twice as fast as the shaft go.

The hub 94 of the toothed drum 95 is connected to the outer rim 99 by the disk-shaped part 98. The lower edge of the ring 99 is provided with film indexing teeth ioo which work together with the film perforation 31 and switch the film 3o intermittently through the picture window. The arrangement is such that each time the toothed drum 95 is actuated, the film is moved two image fields through the image window. The teeth ioo are arranged in groups of eight as shown in FIG. Since two image fields are copied together each time, the gear 95 only needs to be actuated four times in order to switch all four image fields through the image window. For this reason, the curve 52 is equipped with four cams 62. However, in order to bring the first two image fields 3z of each strip 30 into the image window, the strip must be moved by three image fields (A of Fig. 27), taking into account the non-image connection point 34. The remaining image fields «are thereby grounded one after the other brought into the picture window so that the strip is switched further by two picture fields (B of Fig.: 27). The sequence for each illustrated book is therefore 3-2-2-2, as can be seen in Figure 27. This switching of the toothed rommeloj is controlled by the arrangement of the cams 62 of the curve; 2.

In your diagram according to Fig. 26 the chronological sequence of these is shown Film movement shown. As can be seen from this diagram, the film circuit is at the beginning of the cycle (three fields) longer than that of the other three circuits, «-Which are of equal length (two fields of view).

In order to prevent the connecting piece 3.1 from being punched out, the toothed drum 95 is designed without teeth at two opposite points 103 (FIG. 4bb. Io). The film 30 is against the gear 95 by a roller -iod. pressed, «-which sits at the end of a spring-loaded <firmes io5, which can be pivoted about a pin io6 of the machine frame. A toothed drum 107 is arranged on the opposite side as shown in FIG. Ii. The diameter of this toothed drum is only half the diameter of the drum 95, and it is therefore provided with eight film indexing teeth 10 8, and at one point log the tooth is omitted. Through a sleeve iii of the machine frame, the shaft i io protrudes upwards, on the recessed upper part of which there are two ball bearings 113 which form the core ii. the toothed drum 107 wear. Around the core iid a coil spring is placed i15, one end of which is attached 116 to the bottom of the drum 107 and its other end 117 to the plate 8 of the shaft 1 i i io.

This arrangement creates an elastic drive between the shaft i i o and the drum io7 formed. On the toothed drum 107 there is a handle 19, by means of which the film strip is drawn over the toothed drum 107 during threading can be. During this threading, as a result of the standstill of the shaft i io the Spring 115 is taut, and this tension keeps the film taut at all times.

A bevel gear 1z1, which meshes with a bevel gear 122 on the shaft 123, is pinned to the lower end of the shaft i io. A second bevel gear sits on the other end of this shaft, and this meshes with a bevel gear 12.5. which sits on your lower part 126 of the shaft go. As a result of this arrangement, the toothed drum 107 is inevitably rotated with the toothed drum 9> via the shaft 9o. The transmission ratio, however, is chosen so that for one full revolution of the toothed drum 107 there is half a revolution of the toothed pinion 95. The guidance of the film 3o on the toothed drum io7 is caused by a resilient roller guide 128, 129. The film runs onto the toothed drum 107 from the supply roll 130 (Fig. 4bb. 13), which sits on your Abi ickeldorn 131, the lower end 132 of which is guided in a sleeve 133. A stationary disk i 3.a. is used to brake this coil. and a rotating brake disk 135, which is non-rotatably fastened to the shaft 132, namely "-ground these two disks pressed against each other by a spring i36 with corresponding friction. By turning the nut 137, which is screwed onto the threaded part 138 of the shaft, the frictional force can be adjusted.

The film passes from the toothed drum 95 to the take-up reel 139, which sits on the upper end of the spindle i.4o, which is mounted in bearings 141 of the machine frame i.I2 (Fig. 12). The spindle 140 is driven from the shaft 9o, and for this purpose it carries a grooved disc 1:13, over which a Pese 144 runs (Fig runs. This disk 1.:1.5 runs loosely on the shaft 9o and is held in place by a disk 146 that is pinned on. A spur gear 1.17 is pinned on the shaft 9o and drives a gear 152 on the pessary disk 1.15 via a countershaft transmission i4.8, 151 (Fig. Ii). In this way the spindle 1.: 10 is driven from the shaft 9o, and the gear transmission 147, 148, 151 and 152 determines the achievable running speed.

As the film is fed at a steady speed, on on the other hand, the speed of the take-up reel from i the wound Depending on the film diameter, the take-up spool must be driven with the necessary slip. For this purpose, a friction disk 156 is pinned onto the spindle 1.4o, which cooperates with a counter-disk 157 of the sleeve i58, on which the disk 143 sits. The disk 1.13 can be rotated on the shaft ido. The frictional pressure will generated by a helical spring 159, "-elche between the disk 156 and a adjustable collar 16o is arranged. This collar is attached to the sleeve 161, which in turn can be screwed into a bearing shell 162 of the upper bearing 141. At the outer end of the sleeve 161 is a button 163 by means of which the Tension of spring 159 and thus the friction of the clutch can be adjusted is. According to "'# bb.2 and 3, the picture window guide io2 consists of a fixed one Part 164, which sits on the wall 165 of the lamp housing 166, and a movable one Part 167, which sits on a projection of the rear wall 168 of the cell housing 169. The two guide parts are provided with grooves 17o (Fig.2), which a pair of film clip parts i71 and 172 accommodate those by pins 173 on the ends of the spring loaded pistons 174 are held in place. These pins 173 engage in bores 175 the image window guides (Fig. 18). To remove the pressure plates 171, 17z, the pins 173 are pulled out of the bores 175, with the help of Finger grips 176 which protrude outward from the pistons 174. The pressing parts can can then be easily removed using the <buttons 178.

If the clip parts 171, 172 are in the operating position in the image window, so their openings 179 are in overlap with openings i 80 of the parts 164 and 167, thereby forming a double picture window by means of two of them Adjacent images can be clamped together at the same time. So that the Film assumes its exact position without it being guided flat between glass plates and the like must be, the surfaces of the brackets 171 and 172 are cylindrically curved, the axis being parallel to the longitudinal direction of the film (181 in Fig. i and 2).

The middle part of the picture window part 167 carries a vertical plate 18q., Which cooperates with the side walls 185 of the film housing 169, to enable an independent measurement of the two image fields. On the free one At the end of the plate 184 is a cable 186 which is guided over a loose roller 187 and is attached to a ring 188. - The lower end of this ring is with provided with a flange, in whose central opening igo a rod igi is pinned, and the lower end of the rod igi is inserted into a guide 192, while the upper end carries a role that with the projection 19q. the cam disk 195 of the Closing shaft q.6 cooperates. If a cam of the disc 195 comes with the Roll 193 engaged, so the rod igi is moved down with the ring 188 and thereby pulls the picture window open by means of the rope 186 and the plate 184. the Nokken 19q. are arranged so that the picture window during the film switching is kept open, since an entire film strip is switched through in the exemplary embodiment will; in order to copy all eight image fields, curve r95 with four cams is 194 provided, and the shaft 46 rotates at the same speed as the wave q.o. , Now has the cam 19q. the role 193 is released again, so arrives the ring 188 and the rod igi in the rest position under the influence of a compression spring 196 back. During the opening of the picture window, the picture window part 167 is through Pins 197 out, which are attached to it and in tubular guides 198 the wall 168 are performed (Fig.3). The image window is under the influence of the pen igg, which enclose the guides 198, kept closed.

A particular light source with diffuse light generated by the lamps 202 is provided for each image field. These lamps are switched as shown in Fig. 25. Behind them are reflectors 203 which can be adjusted by means of the handles 2o7. A fan 2o8 for generating the cooling air is located below the lamp housing. Glass blocks Zog are provided between the lamps 2o2 and the picture window guide io2. Since, for technical reasons, the distance between the lamp axes is generally greater than the distance between the centers of two successive images, the light is deflected by the glass blocks Zog, the shape of which can be seen in Fig. 3. These glass blocks are mounted on a plate 211 which is fastened to the machine frame with dowel pins and screws 213. The glass blocks are pulled by guide pieces21q. secured against lateral displacement and held by a bracket1216. The displacement of the prisms is further prevented by a plate a15 and, on its other side, by the wall 165 of the lamp housing.

The image fields are measured by photoelectric cells in the housing 169. During the measuring process, there are fixed resistors 221 switched into the lamp circuits to reduce the brightness of the lamp 202 during to throttle the measuring process. Photoelectric cells 222 are located on front or right end of each compartment 223, which is passed through the side wall 185 and plate 184 as shown in FIG. 3 is formed. Although cells 2.22 are not directly Image diffraction beam path, they measure the transmission in an effective way the negative. According to Diagraminabbildüng 26 there is only a short one for this measuring process Time available.

Each pair of cells 222 is provided with a setting resistor 22.a. provided (Fig. 14 and 25), which can be switched into the circuit of each lamp in order to control the print density, depending on the intensity of the measured light. Such a resistance exists z_. B. consists essentially of two insulated rods 225, 226, which carry the resistance wire. A contact member 227 is movable between these rods. When these rods are pulled apart, the contact member 227 can be easily adjusted depending on the measured light density, and by pivoting or folding the rods together the proper resistance is then switched on in the circuit of each lamp 2o2. The rods 225 are expediently stationary, while the contact rod 226 is movable for the purpose of clamping the contact 227. Each rod 226 is provided with two downwardly projecting lugs 228 which protrude through the bottom 229 of the resistor housing and are connected here to a crosshead 230 (FIG. 4bb. I4). An interruption of the rods 225 and 226 is normally effected by means of helical springs 231, which lie around the pegs 228. The bars -; 3o rest with their center point on adjustment pins 232 at the ends of a cross piece 233 which is pinned to a vertically movable rod 234 . Between the upper guide 235 and the crosspiece 233 there is a compression spring 236, which has a roller 239 at the lower end of the rod 23d. holds in engagement with a curve 240. This curve sits on shaft46, which rotates at the same speed as shaft 4o. Every time a cam of the disk 24o touches the rod: 234, the contact rails 2 26 are pressed onto the resistor 225 , whereby this resistor is switched on to the set value. Parallel to the setting resistor 224 is a fixed resistor 24.3, which is adjusted to a fixed value during manufacture of the device. This fixed parallel resistor relieves the adjustable resistor so much that it only has to absorb the difference values. The various resistors are switched on and off by two microswitches 244 on the console 245. The connection of these microswitches can be seen from Fig. 25 without further ado. Each of these holders is provided with a downwardly projecting spring pin 246 which is actuated by a cantilever arm 247 of the rod 234. I When the bar is in the position shown in Fig. I- [, ie in its lowest position, the fixed resistor 221 is switched on, and when the arm 247 pushes the pin 246 of the switch 24.I upwards, the resistors 225 and 2.42 in switched the circuit. The two negatives are imaged using two lenses 249 of the same focal length. These two objectives are located in the cell housing 169 next to the photoelectric cells (Fig. 2). A shutter 25o directly in front of the objectives 249 produces a constant exposure time.

In the illustrated embodiment, the closure consists of two Pages 251, which are rotatable on a shaft 46. Each sheet 25i is with one Actuating part 1252 is provided (Fig. 14). When this Beta tigungsteile 252 to the outside When pressed, the shutter blades 251 are also moved outward and thereby release the beam path. each operating part 252 is by hinge rods -253 -and 254 provided with a pin 255, which on a senl, # - can be moved quite a bit Rod Q56 is attached. This arrangement makes the vertical movement of the rod 256 in its guide 257 brought about the actuation of the shutter blades.

The upper end (les Stal) eS 256 is connected in a suitable manner to the rim 260 of a disk-shaped part 26i, the bottom 262 of which is finitely provided with a slot 263 through which the shaft 46 protrudes. The curve 26d. sits on the shaft 46 and in the housing-like part 26i, so that the cam actuating part 265 cooperates with the inner surface of the ring 26o and thereby lifts the part 261 and the rod 256 alternately. The cam 26d. is provided with four such actuating lugs. One end the ferler266 is suspended from the machine frame and the other end is at the end of the rod 256, so that it is pulled down together with the part 261 and thereby tries to keep the lock closed.

If the shutter is operated in this way, so are simultaneously two exposures carried out, namely of those recorded together in the image window Images. This exposure takes place on a light-sensitive strip (-) photographic paper 268, “-elches über eine Troinnie126c-) is promoted. This barrel sits on a shaft 27o, on one end of which a worm wheel 271 sits. In this: engages a worm 272 of the shaft 5 r (Fig.1). So if the clutch 48 is switched on, the shaft 51 drives the drum via the worm wheel = 6g and since this switching period must occur four times for each filin, to has For this purpose, the curve 64 also has four cams 76.

The paper tape 268 is held on the carrier (1z1iniel 269 by the Bildfensterfiiliruitg 273rd These guide is 274 (Fig. 23) and a cooperating with the paper part 275 from a rear part, both of which carry the same image window opening. The inner surface 277 of the part 275 is curved in accordance with the drum 269 so that the paper is properly guided on the circumference of the drum This can be placed exactly on the paper and the circumference of the drum. In recesses 28o around the pins 278 compression springs are placed, which serve to generate the necessary pressure. of the part 275 on the drum. According to Fig. 24, a rod 282 is provided, which is held by the nut 283 and on which a long, tubular part 284 is mounted, which serves as a carrier for two hubs 285, 286 of the supporting part s 27d. serves. The hub 285 is freely rotatable on the sleeve 28, 4, while the hub 286 is provided with a threaded sleeve 287 into which a threaded part 288 of the left end of the sleeve 284 engages. At the other end of the sleeve there is a flange 289, with the help of which it can be rotated on the rod 282 to earth. Such a rotation allows the image window 273 to be displaced along the rod 282. The sleeve 284 is locked against axial displacement by a nut 29o, which sits on a threaded pin 291 at the end of the rod 282. The adjustment of the picture window openings can therefore only be brought about by rotating the flange 289.

As can be seen from Figure 24, the image window 273 is through a Pin 295 held in the clamped position, and this pin is in guides 296 of the Part 273 displaceable and engages in a bore 297 in the wall 36o. By a Spring 298 maintains this engagement, and by means of a finger button 3o2, the pin 295 can be pulled out of the bore 297. By means of this The device can pivot the part 273 around the spindle 282 when threading the paper will.

The paper 268 is fed to the drum 269 from a supply roll 31i, namely it first passes under a spring roller 312, which presses it firmly against the circumference of the roller (FIGS. 4bb, 5). This pressure roller 312 sits on the free end of an arm 313 which is pivotable about the pin 314 of the machine frame. VOEN the drum 269 reaches the paper strip on a loose roller 315 and from there to the take-up spool 316 on the spindle 317. To the paper strip 268 under tension over the drum to draw, there is a Walre 315 at the end of an arm 318, which is a Pin 319 is pivotable. and the bearing I of this journal also carries the take-up spindle at the same time. The roller 315 is held in contact with the drum 269_ by a spring 32o. The supply winding spindle 3 ii is mounted in ball bearings 3-2z (Fig. I9). On the inner end of the spindle 311 sits a guide pin 323 for drilling the hollow core of the coil 31o. A corresponding guide part 323 sits on the other side and is under the influence of a compression spring which presses it into engagement with the spool 31o. This second guide part can be pulled out by means of a handle 326 in a known manner against the tension of the spring when removing the bobbin.

The take-up reel is stored in a completely corresponding `` '' ice. A sleeve 327, which carries a disk 328, is seated on each of the spindles 311 and 3i6. Between each disk 328 and the bearing '322 is a spring 329 which attempts to urge the disk outward against a friction drive disk 33o. This disk 330 sits at one end of a sleeve 333 which runs on ball bearings in the bearing 334 (Fig. 20). This sleeve is keyed on the drive shaft 335 in such a way that it rotates together with this shaft, but can perform a longitudinal displacement. This shift changes the drive speed of disk 328 accordingly.

In the present embodiment, the position of the drive pulley 330 is controlled by the diameter of the roll of paper from the spool. For this purpose, a bearing 336 is movable on a rod 337, and this sleeve is connected to the sleeve 334 by a bracket 338 (Fig. 20). The sleeve 33-1 carries a boom 340, in the end i of which sits a small roller 3.11, which is held in contact with the roll of paper by the tension spring 342. In accordance with the increasing or decreasing diameter of the paper roll, the friction wheel 330 is displaced and the drive speed of the paper reel is thus changed.

The drive shaft 335 is coupled through two bevel gears 343, 3:44 with the shaft 3..15, the sprockets 346 is connected by a chain to the gear 3:48 the drum drive shaft 270 (Fig.5 and 20).

On the shaft 335 sits next to the wheel 3-13 a gear 350, which is connected to a chain 351 with a lower wheel 352 of the shaft 353, which actuates the variable 'friction drive for the _% # ufnalimesptile 3i5. By means of this device, both the supply reel and the take-up reel are driven on the shaft 27o at a speed which is controlled as a function of the diameter of the paper roll. A buzzer 354 is suitably switched on in the circuit as shown in FIG. 25; The handle 355 of a toggle switch is connected in a corresponding manner to the drive of the supply reel, so that when a certain minimum diameter is reached, the switch 355 is switched on automatically, so that the operator of the device is made aware of the need to replace the supply reel.

The guide roller = 70, the supply and take-up spindles 311 and 316 and their control means are housed in the so-called paper housing 356 according to FIG. This housing 356 is held by bolts 358 on the corresponding part 357 of the machine frame. These bolts 358 protrude through the bottom 359 of the housing 356 into corresponding openings in the part 357. A vertical compartment 36o extends over the full height of the housing 356 and separates the paper reel and the indexing drum from the various control devices (Fig. 19). This compartment also serves to store the rod 282 to which the paper picture window 273 is attached.

In order to be able to set the images in focus and to be able to adjust the scale of the images or copies 273, the housing 356 is expediently adjustable in relation to the frame 357. For this purpose, the part 357 of the machine frame is provided with an upstanding bearing 361 which can receive the threaded end 362 of the shaft 363, the other end of which is rotatable in a bearing in the end walls 365 of the paper housing 356. The outer end of the shaft 363 carries a ring 366 which is provided with a grater of pin holes 367 so that the heads 363 can be rotated, whereby the housing 356 as a whole slides onto the plate 357 (Figure 5). Before such an adjustment, of course, the bolts 358 must be loosened and then tightened again after the adjustment.

During this adjustment of the housing, the clutch actuators slide 7 0 (Fig. 6) opposite the lever 66, as a result of the slot connection 68 and 69.

When working with the device as shown above, four pairs of images are generated from eight negatives as shown in Fig. -28. To enable easy identification of the images belonging to the individual 'negatives, appropriate notes are made on the paper tape. For this purpose, perforation holes 370 are created along the edge of the paper strip 268. These perforation holes 370 each time comprise eight images, which correspond to the eight negatives 31 of a negative strip. The paper tape therefore only needs to be cut through at the perforations 37o in order to obtain the image groups assigned to the individual negative tapes. Perforation holes 37-z are also expediently provided on the other edge of the paper, namely between each pair of images, so that the separating edge of the individual pairs of images is determined by these perforation holes. This perforation is made immediately before the closure is opened (Fig. 26). The perforation device 37: is located immediately above the paper switching drum, as shown in FIGS. R and 5. It consists of Kolheii 373, which are guided in bores 374 of the frame 375 (Fig. 21 and 22). A base plate 376 closes off the underside of each guide and at the same time forms a contact for a compression spring 377, which is placed around a tapered part 378 of the piston and pushes it upwards. From each piston, a small cross pin 379 protrudes into a slot 380 in the guide to prevent rotation of the piston in its guide. The lower end of each piston carries a small perforation pin 38r which can slide through the base plate 376 and the paper support plate 382. The punched out perforation sheets get into a cavity 384 of the lower part 385 and fall here into corresponding containers. On the upper end of each piston 373 there is a small roller 386, which is pressed against the cam disk 387 under the influence of the spring 377. The cam disks 387 sit on a shaft 388, which lies parallel to the head 270 above the Troniinel 269. This shaft is connected to an inclined head 390 by bevel gears 389, which in turn is coupled to the head 392 by bevel gears 3g1, and this head receives its drive via the bevel gears 393 from the shaft 4o. One camshaft 387 is provided with four cams 394 for the purpose of producing the perforation holes 371, while the other, toothed line 387 has only a single cam 395 for producing the perforation 371.

Before the device is put into operation, all parts must be the starting point of the cycle can be set, with four cycles for each group consist of eight negatives.

_1, n can be this initial setting by operating the drive motor 36 take place, however, it is conveniently done by hand. To this Purpose is a shaft 4oo provided with a handwheel 4oi, while its other end carries a gear 4o2 which engages a wheel 403 of the drive shaft 37 (section i). The machine can therefore be set to the starting point by turning the disc4oi will. A similar arrangement can be provided for the other end of the machine To allow a check to be carried out to ensure that the parts are in accordance with the regulations Position, is the upper end of the shaft 4o according to Fig. 17 with a graduated disk 404 on which the four start marks are indicated. Commissioning of the device can take place when one of these start marks is on the pointer4o6 of the Machine frame lies.

The switch q.07 for the electric motor is operated by a handle 4o8 actuated, which sits on a rod 4o9, the inner end of which by means of two Disks 41o actuated the shift lever 4i i. When the button 4o8 is pulled to the right is, the switch 407 is closed. To prevent activation, as long as the various parts are not in the correct starting position a lock is provided which prevents activation in this case. For this purpose, the tie rod 4o9 is coupled to a lever q.12 whose free End an approach 41q. wearing. In the way of this approach is a grooved washer 416, which only allows pulling out the handle 4o8 when one of the recesses q.17 is opposite to approach 414.

This disk 416 (section 25) sits at the lower end of the shaft 40 (section. i). When the machine starts up, the pin 414 is driven by the cam disk q.16 pushed outwards, but this movement is not sufficient to omit the switch 4i 1. To make it easier to adjust the machines; there is also an auxiliary switch 418 provided, which allows the engine to be switched off, although all the rest Parts are switched on (Dept. 25).

The various processes are shown in the diagram according to Fig. 26 shown, based on the main drive shaft 37, which during the makes a full turn for four cycles.

The machine is operated as follows: The shaft 4oo is Turned with the handwheel 4o1 until the machine is ready for work is. Now the handle 408 is pulled to the left (., 6 £ bb. I), whereby the device and the engine will be switched on. The wave. 37 now runs around as long as the Switch 407 is closed. The device. now switches using the various Cam disks automatically the film advance, the paper advance, the exposure and the other individual operations, such as the perforation of the paper tape and the like. Like. A somewhat longer time is available for the paper circuit than for the film switching, because after the film has been switched on, the measurement is still carried out he follows.

The various control cams are expediently adjustable on their Shafts attached so that they can be precisely adjusted. Such an adjustment device is shown with respect to the curve on the locking shaft 4.6 in Fig. 15.

The circumference of the shaft 46 is provided with a worm recess 42o, in which a screw 42i of the curve is movable. By turning the worm the cam disk can therefore open in the circumferential direction by means of a screwdriver of the shaft set `-earth, and after the setting, the self-locking holds between the worm 42o and the worm milling the cam or cam disk in their Position.

Claims (12)

PATENT CLAIMS: i. Optical copier for copying lined up, perforated image films, characterized in that each forming a blank field (34) strung together negative films (30), the number of frames among which are the same and is notifiable by an integer other than i, whatever the number of each film frame length to be switched after a first preceding each negative film Switching step of za -f- i film image length is perpendicular to the copy paper tape (268) and can be switched on together with this, which in its width adjusted to the number of negative images that are switched on and to be copied at the same time and whose feed and image dimensions correspond to the film width. 2. Optical Copier according to Claim i, characterized in that the drive of the device by a continuously rotating shaft (37) with the aid of rigidly driven cam disks (64, 62, 46, 240, 19q., 387, 26.1) takes place, which the individual work processes, such as film and paper switching, exposure and the like, directly or by means of clutches (q.7, 48) control. 3. Optical copier according to claim 2, characterized in that that the cam disks (e.g. 240, Fig. 15) for the purpose of adjustment with tangential to the Shafts lying grub screws (421) are provided, «-elche 'engage in worm-like millings (42o) of the shafts so that the -N by turning these screws (.12i) self-locking on the shaft can be rotated. Optical copier according to one of Claims i to 3, characterized by a lock (4i5, 44, Fig. 25) for the drive motor switch (4o7), «-elche only allows the device to be switched on in the initial position. 5. Optical copier according to claim 4, characterized by a disk attached to the shaft (4o) (.116) with cams (415) and recesses (417), which in this way in the stroke of a feeler element (414) of the shift linkage (4o9) is that actuation of the motor switch (4o7) is only possible if there is a recess (417) in front of the feeler element (414), However, the linkage (4o9) with the switch (4o7, 411) by such a large dead gear is coupled that the cam (415) with the shaft running (4o) the switch (4o7) cannot trigger. 6. Optical copier according to claim 4 or;, characterized characterized in that the switch (4o7) as the central switch for the entire electrical Facility of the device is arranged and a special one for the motor circuit Off switch (4i8) is provided. 7. Optical copier according to one of claims i to 6, characterized in that the film tape (30) in front of and behind the picture window (179) is driven by means of toothed drums (95, l07) and that the one toothed drum (1o7) by means of a spring ( i 1 5, Fig. ii) is connected to its drive shaft (i io). so that (read film tape (30) between the drums (95, io7) receives a constant tension. Optical copier according to one of Claims i to 7, characterized characterized in that the picture window guide (i79) is parallel to the longitudinal direction of the film by one lying axis is cylindrical, 4 curved and that the photosensitive paper (268) is guided on a drum (269) through the lens beam path. 9. Optical Copier according to Claim 8, characterized in that the drum (269) is with it the supply and take-up reel (324) and the entire paper switching device is housed in a housing (365). which opposite the machine frame (35i) can be adjusted both in the direction of the optical:, egos and perpendicular to it is (-lbb. 5). ok Optical copier according to one of Claims i to 9, characterized by a paper perforation device (395, 372) for identifying each one Film strip (30) assigned overall image group (3i). i i. Optical copier according to one of Claims i to io, characterized by a paper perforation device (3i4, 372) which comes into operation after each switching stroke (B). 12. Optical copier according to one of claims i to ii, characterized by a scanning device (341, Fig.5) for the paper supply winding diameter, which triggers a signal (35: 1) when a minimum diameter is reached by means of a switch (355, Fig.25) .