US2943554A

US2943554A - Film printing machine

Info

Publication number: US2943554A
Application number: US654426A
Authority: US
Inventors: Kastner Erich
Original assignee: Individual
Current assignee: Individual
Priority date: 1957-04-22
Filing date: 1957-04-22
Publication date: 1960-07-05
Anticipated expiration: 1977-07-05

Description

July 5, 1960 E. KSTNER 2,943,554

FILM PRINTING MACHINE Filed April 22, 195'? 2 Sheets-Sheet 1 July 5, 1960 E. KsTNER FILM PRINTING MACHINE 2 Sheets-Sheet 2 Filed April 22, 1957 N .um

United States Patent O i' FILM PRINTING MACHINE Erich Kstner, 91 Turkenstrasse, Munich, Germany Filed Apr. 22, 1957, Ser. No. 654,426

1 Claim. (Cl. 95--75) The film printing machines of known construction are classified in two categories, the irst category comprising those film printing machines which are operated 1n a step-by-step manner, i.e. the machines of the lso-oalled pull-down claw type, the second category comprising machines which are designed for continuous operatlon. In the oase of machines using the step-by-stepprinciple of operation, even where high-performance machines are involved, it is impossible to `attain the output performance of which the continuous-type machines are capable. This is due to the fact that the film feed mechanism must be alternately started and stopped yfor each individual frame, this `action lrequiring additional time. Furthermore, the step-Iby-step method subjects the film material to Iadditional `stresses which place a limit on the speed at which even a high-performance machine of this type may be operated.

The sources of light used in the heretofore known film printing machines have in the majority of cases been incandescent light bulbs. However, the vamount of light produced by such bulbs will follow `any changes in operating Voltage sluggishly; in most cases, this fact has been taken into account by adjusting the lamps for a fixed maximum amount of radiation and by reducing the strength of illumination by means of masks and/or lilters. These, however, are mechanical devices the use of which again introduces inertia effects into the process of controlling the amount 'of printing light. Moreover, especially in the case of color prints, this method makes it necessary continuously to operate the lamp or lamps at full power, this involving a considerable expenditure of electric energy.

The aforementioned `drawbacks inherent in known film printers in which the printing light is subject to fully automatic control are eliminated 'according to the invention by the use of gas or vapor discharge tub as sources of light, the said discharge tubes being supplied through inertia-free power and control amplifiers. In contrast to the known sources of light and the known control methods just referred to, the present invention, while -affording the aforementioned advantages vwhich are for the most part due to the inertia-free method of control, affords still another advantage which resides in the fact that the spectral range of the discharge tubes will not be shifted appreciably, whereas incandescent lamps are subject to considerable spectral range shifting whenever the operating Voltage of such lamps is changed in order to control the printing illumination.

According to a preferred embodiment of the invention, it is possible, where a plurality of discharge tubes are used, as is especially the case where color films :are to be printed by the additive process, to associate one power and control amplifier with each of the said discharge tubes.

Where the discharge tubes are to be operated on direct current voltage, the invention, according to another aspect thereof, contemplates the use of rectifiers connected to the output terminals of the respective power-ampliraienfed July 5, 1960 fiers. On the other hand, also according to the invention, where the discharge tubes are operated on an alternating voltage, the said tubes are operated with a frequency selected in such a manner that differences in exposure lare avoided.

These and other objectives and advantages of the invent-ion will be apparent during the course of the following specification, when read in connection with the accompanying drawings, in which:

Fig. 1 is a schematic diagram of ya film printing machine for black-and-white films; and

Fig. 2 is a schematic diagram of a film printing machine designed to print color films by the additive process.

In the embodiment o-f Fig. l, the negative film copy 1 to be duplicated by printing is unwound from a supply reel 2 and rewound on a take-up reel 3. Between these two reels, the negative 1 is guided by the idler `and drive rollers 4 to 11. Disposed between the rollers 7 and 8 is the printing drum 12 which supports that portion of the negative `1 which is being printed.

The positive nlm material 13 is unwound from a supply reel 14 and rewound on a take-up reel 15. Between these two reels, the film 13 is guided by the drive and

idler rollers

5, 6, 9 and 10` which also serve to guide the negative film 1. Two `'

additional rollers

16 and 17 are provided for the purpose of guiding the film 13. At the printing position there is provided a pressure shoe 18 which has the function of bringing the two film strips 1 and 13 into intimate cont-act at the point at which the printing action occurs. The exposure is effected I.along the light beam axis 19 by way of 1a condenser 20, the light being supplied, for example, by a gas discharge tube 21 which is lled with xenon. In the path 19, i.e`. the axis of the beam of light, there will be arranged, besides the condenser 2li, further suitable optical means serving to collect the light `and to distribute the illumination evenly on the film section to 'be printed; the latter means are, however, not shown in the drawing.

The discharge tube 21 is supplied by way of the control amplifer 22 from the power amplifier 23 in connection with the power pack 24 which latter is connected to the power supply conductors by the wires 25.

The amplifiers 22 and 23 are controlled via the wires 26 by the printing controller 27 which is supplied with pulses produced by a pulse generator 29, which pulses are applied to the printing controller 27 by the conductors 28. The roller 30 associated with the lever mechanism 31 scans the negative film 1 and is arranged to cause the pulse generator to apply the said pulses through the switch contacts 32 whenever suitable notches provided in the negative film 1 pass the roller 30.

Whenever the roller 30 acts upon any of the said notches, the switch control belt or tape 33 of the automatic printing controller 27 is indexed by one step, this causing a control pulse to be applied to the control amplifier 22 by way of the wires 26, the said pulse corresponding to the combination of holes present in the control tape 33 at the respective point.

Thus it will be seen that from the automatic printing controller 27 forward the control of the discharge tube 21 is effected in an inertialess manner since the operation of the amplifiers 22 and 23 is free of any inertia. The absence of any inertia in such a control system makes it possible at all times immediately to adapt the amount of light radiated by lthe source 21 to the printing conditions prevailing at lany given moment. This inertialess mode of operation is of particular advantage in the case of film printers designed for continuous operation, since it permits the film strips to pass the printing zone at a high rate of speed without causing changes in illumination due to switching operations to produce overor under-exposed frames.

If the roller 30 operating the pulse generator 29 through the linkage 31 is replaced Iby means serving to scan the negative 1 photo-electrically and arranged to inliuence the automatic printing controller 27 electrically, all mechanical means are excluded from this part of the control arrangement, and a completely inertialess operation is secured also on the input side of the automatic printing controller 27. It will be seen that the pulse generator 29 whether operated mechanically or photo-electrically pulses printing controller 27 which advances program control tape 33 which varies the in-tensity of light source '21 through control amplifier 22 and power amplifier 23 in accordance with the sequence `of events provided on tape 33. This arrangement is particularly elective in color printing where a plurality of discharge tubes are employed.

Where the discharge tube 21 operates -on an A.C. voltage, it is necessary to select the frequency of the said voltage in such .a manner as to avoid iluctuations in light intensity which might produce diierences in density which occur in the form of transverse strips on the print. To give an example, this condition prevails in the case of a printer operating at a printing -speed of 1 metre per second, when the width of the printing slit is 4 millimetres and the source of light operates on a frequency of 1000 cycles per second. In order to introduce a safety factor, the width of the slit should correspond to a multiple summation of the exposure fluctuations produced by the operating frequency so as to compensate lfor such fluctuations. In the case of a greater or smaller printing speed or with a slit of greater or smaller width, the operating frequency of the printing lamp would have to be linearly changed to adapt it to the changed operating conditions.

It is also possible to operate the discharge tube 21 on a D.C. voltage both for voltage responsive light level control and/or pulsed on-or-oi operation. In this case, ampliers 34 will have -to be provided on the output side of the power amplifier 23. Such amplifiers may also be used where a combination circuit organization is used to supply the discharge tube 21, i.e. where the lamp operates under certain `base load conditions corresponding to the lowest .level .of printing light, and where only the regulated portion of the load vis Icontrolled by the am plier.

In thecase of the embodiment of Fig. 2, the light beams 36 lto 38 of the discharge tubes 39 to 41 strikey the printing zone 35. This makes it possible to produce color prints by the additive method, it only being necessary to admit yto the printing zone 35 the respective color components of the light produced by the tubes 39 to 41 this being done by means of the lters 42 to 44. In the present case, the discharge tubes 39 to 41 are, for example iilled with xenon. However, it is possible to use any desired other gas or vapor filling for the discharge tubes.

Each of the discharge tubes 39 to `41 has associated therewith its own set of amplifiers 4S to 47, 48 to 50 and 51 to 53, respectively, the controller portions of which are again controlled by the automatic printing controller 54. For the sake of clarity the power supply portions of the amplier units lhave been omitted in Fig. 2. The provision of oneset of ampliiiers for each of the discharge tubes is of advantage in that it is possible to control them individually an `inertialess manner.

It will be understood that modifications and variations may be elected without departing from the spirit and scope of the novel concepts of the A.present invention.

I claim:

In a lm printing machine in which a negative iilm and a positive film to be printed are caused to travel together, a printing drum for supporting said portion of the negative which is being printed, a pressure shoe for bringing the positive and the negative into intimate contact on the printing portion, va pulse. generator scanning the negative iilm for signal means and applying a pulse according to the signal means by conductors to an autom-atie printing controller, a program control tape mounted to be shifted forward step-by-step, the shifting movement causing a control pulse according to the program on said control tape at `'the respective step to be applied by way of wires to an electronic control amplifier, a gas discharge tube disposed to effect the exposure by way of a condenser, said discharge tube being supplied via said controlampliiier from -a power amplifier and a power pack connected .to a power supply by wires, said ampliers varying the intensity of said .discharge tube, said discharge tube being supplied with non-controlled energy at a level corresponding to .the lowest level of effective printing light, said discharge tube being additionally supplied during printing with that amount of energy only which corresponds to the range of .controlling action.

References Cited inthe file of this patent UNITED STATES PATENTS 1,463,737 lDebrie July 31, 1923 2,134,439 Dorgelo Oct-25, 1938 2,244,965 Roberts June 10,1941 2,269,161 Morse Ian. 6, 1942 2,508,928 Rabinowitz May 23, 1950 2,573,405 Clark Oct. 30, 19511 2,676,514 -Eaton et a1. Apr. 27, 1954 2,691,917 Curry Oct. 19, 1954 2,780,155 Debrie Feb. 5, 1957 l2,807,664 Kleinberg et al Sept. 24, 1957 FOREIGN PATENTS 506,727 Great Britain May 30, 1939