FR2710424A1 - Printing machine for printing a photograph. - Google Patents

Abstract

A printing machine for printing a photograph on paper is described, which includes an enlargement lens (9), a base (22) and a device for determining the focal position of the enlargement lens, the base being installed movably in the direction of an optical axis of the objective, the printing machine further including a means of advance (26, 28) for variably controlling the position of the base in the direction of a optical axis in accordance with an external signal.

Description

PULLING MACHINE FOR PULLING A PHOTOGRAPHY

  The present invention relates to a printing machine for shooting a photograph and more particularly, a printing machine for shooting a photograph which comprises an optical system with improved structure. FIG. 1 generally represents a schematic configuration of a printing machine making it possible to take a photograph. A support 12 of a roll 2 of sensitized photographic paper is installed in the upper part of a body 1 of the printing machine. A tray 18 for receiving sheets of sensitized photographic paper is provided at its other upper side. An exposure portion 13 and a processing portion 16 are provided between the roll holder and the tray in the direction of processing the photographic paper. A cutting device or cutter 17 is placed near the plate 18. The exposure part 13 is positioned near an optical system which is discussed later and it is made up vertically so as to be able to expose a photographic paper scrolled vertically down. The processing portion 16 is used to develop and fix the exposed photographic paper and has a plurality of feed rollers and a processing chamber. A cavity 14 in which the exposed photographic paper is temporarily placed is provided under the exposure part 13. The optical system comprises, from the lower part, a light source 4 for generating light which exposes the photographic paper, a color filter 5 making it possible to transmit a specific colored light of the light emitted from the light source 4 and a light diffusing box 6 making it possible to diffuse and uniformly advance the light and the color filter 5. A negative film support (ci- after called film support) 8 and a table 7 for supporting the film support are placed above. An enlargement objective 9 making it possible to enlarge an optical image of the light passing through a film is provided above the table 7. A shutter 10 for interrupting and transmitting the light passing through the enlargement objective 9 is placed at the above the enlargement lens 9. A mirror 11 for reflecting the light passing through the shutter 10 on the exposure part 13

  is installed above the shutter 10.

  During practical exposure, the light from the light source 4 becomes image light by passing through a negative film of the film holder 8. The image light passes through the enlargement lens 9 and reaches the paper photographic 3 by means of the mirror 11 so as to form an image on the photographic paper. When forming the image on the photographic paper 3, the formation time or exposure time depends on the time

shutter opening 10.

  In such a photographic printing machine, the optical distance (hereinafter called the total path) from the film of the film holder 8 to the photographic paper 3 is fixed and the position of the enlargement lens 9 at the level of 1 the optical axis is appropriately controlled in the total path so as to vary the focal length of the magnification lens 9. By varying the focal length of the magnification lens 9, the magnification value of the image formed on the photographic paper is determined. The variation in the magnification value makes it possible to assess whether or not margins must be provided on the photographic paper 3 or the degree of cropping, in other words, if the overall image on the film must be transferred to photographic paper or if the

  margins should be partially cropped.

  FIG. 2 represents an example of a conveyor for the enlargement objective of the conventional photographic printing machine. With reference to FIG. 2, the enlargement objective 9 which has a variable focal distance is supported by a mirror cylinder 44 movable along the optical axis. The mirror cylinder 44 can move along a fixed tube 42 fixed to a base 40. Significantly, the base 40 is fixed in one piece

  attached to the body of the printing machine 1 represented in FIG. 1. Consequently, a distance a from the plane of the document, that is to say the plane of the film 20.15 to a reference plane of the base 40 is fixed.

  In addition, in such a printing machine, a total channel VT which goes from the plane of the film 20 to the plane of the

  photographic paper 3 is also attached.

  In order to focus an image of the film on the photographic paper 3 according to the various enlargement conditions, the distance b which goes from the plane of the film 20 to the enlargement objective 9 is adjusted manually in order to '' ensure that a focus is achieved on the photographic paper 3 each time the distance is adjusted. Finally, the image of the film is developed and

  drawn on photographic paper 3 and then validated.

  In the case where the focal distance can be variable as in the case where the enlargement objective 9 is a variable focal objective, the adjustment of the focal distance is carried out manually. The adjustment of the distance b which goes from the plane of the film 20 to the enlargement objective 9 determines the distance c

  which goes from objective 9 to base 40.

  In the conventional printing machine, the image formed on the photographic paper 3 must be identified while the position of the objective 9 along the direction of the optical axis is adjusted.

  manually as is the focal length.

  Each time that identification occurs, the image must be developed and drawn on photographic paper 3 so as to validate the focus, which leads to many hours of work for assembly as well as to complicated work. . In addition, whenever various enlargement conditions such as film size, enlargement value of a printing machine, trim rate and whether or not a white margin will be formed on photographic paper 3 are caused to vary, the work mentioned above leads to a complication

of all tasks.

  Consequently, an object of the present invention consists in proposing a printing machine which makes it possible to establish automatically and quickly the position of an enlargement objective along the direction of an optical axis, in correspondence with the variation.

  various enlargement conditions.

  Another object of the present invention is to provide a printing machine which makes it possible to establish automatically and quickly the position of an enlargement objective along the direction of an optical axis as well as its focal distance in correspondence with the

  variation of the various enlargement conditions.

  Consequently, in order to achieve the first object of the present invention, a printing machine is proposed making it possible to shoot a photograph, in which the distance from the plane of a document to the plane of a photographic paper is fixed, and comprising an enlargement lens placed between the plane of the document and the plane of the photographic paper, a base for supporting the enlargement lens and a device for determining the focal position of the enlargement lens so as to form a image of the document on the photographic paper, in which said base for supporting said enlargement lens is installed movably in the direction of an optical axis of said lens; said drawing machine further comprising advance means for variably controlling the position of said base along the direction of said optical axis

according to an external signal.

  In order to achieve the second object of the present invention, there is provided a printing machine for shooting a photograph, in which the distance from the plane of a document to the plane of photographic paper is fixed, and comprising a magnification lens placed between the plane of the document and the plane of the photographic paper, a base for supporting the magnification lens and a device for determining the focal position of the magnification lens so as to form an image of the document on photographic paper, wherein: said base for supporting said enlargement lens is movably installed in the direction of an optical axis of said lens; said enlargement objective makes it possible to vary the enlargement as a function of the variation of the focal distance, said drawing machine further comprising: a first advance means for variably controlling the position of said base in the direction of said optical axis in accordance with an external signal; and a second advance means for varying the focal length of said enlargement objective

  according to a second external signal.

  The objects and features mentioned above of the present invention as well as other

  will appear in the light of the detailed description

  which follows which will be read in relation to the appended drawings in which: FIG. 1 is a schematic side view of a printing machine taken in its generality making it possible to take a photograph; Figure 2 is an arrangement view of the optical system of a conventional printing machine for printing a photograph; and Figure 3 is a configuration view of the optical system and the control system of a machine

  photographic print of the present invention.

  A particular embodiment of a photographic printing machine according to the present invention

  is hereinafter described with reference to the accompanying drawings.

  With reference to FIG. 3, an enlargement objective 9 has a variable focal distance, which objective is supported on a mirror cylinder 24 fixed to a base 22. A first advance screw 28 is fixed to the base 22 along the optical axis of the objective 9. When the first advance screw 28 is rotated by a first servo motor M1 in the front / rear direction, the base 22 shifts in the direction of the optical axis and simultaneously , the objective 9 shifts in the direction of the optical axis. This makes it possible to vary the distance a which goes from the plane of the document, that is to say the plane of the film 20, to the reference plane of the base 22. The enlargement objective 9 comprises an objective to variable magnification. When a second feed screw 26 is rotated by a second servo motor M2 in the front / rear direction, the variable magnification objective shifts in the direction of the optical axis so that the focal distance is changed and so the magnification factor is changed. When the magnification is modified, the distance b which goes from the plane of the film 20 to the objective 9 is modified just as is the

  distance c which goes from objective 9 to base 22.

  However, the total track VT which goes from the film plan 20

  until the plane of the photographic paper 3 is fixed.

  The first motor M1 is controlled so as to enter into rotation via a drive device 30 in accordance with an external signal output from a central processing unit (CPU) 34 so that the distance a which goes from the plane of the film 20 until the reference plane of the base 22 is caused to vary to determine the magnification and to achieve focusing. Similarly, the second motor M2 is controlled so as to enter into rotation via a drive device 32 in accordance with an external signal output from the CPU 34 so that the distance b which goes from the plane of the film 20 to the objective 9 and that the distance c which goes from the objective 9 to the base 22 are made to vary to modify the magnification of the objective 9. Here, if the focal distance of the objective 9 is fixed , the second motor M2 and the second feed screw 26 are not

required.

  At the first feed screw 28, a reference point O1 of the distance a which goes from the plane of the film

  up to the base plane of reference 22 is established.

  The motor M1 is rotated in predetermined steps at the reference point O1 so that the first feed screw 28 is rotated and thus the base 22 is offset in predetermined steps. A first encoder E1 is connected to the first motor M1 and a signal output from the first encoder E1 which corresponds to the offset of the base 22 is entered on the CPU 34. A reference point 02 of variable focus servo is established in the second feed screw 26. At the reference point 02, the second motor M2 is rotated according to predetermined steps so that the focal distance of the objective 9 is caused to vary according to predetermined steps. A second encoder E2 is connected to the second motor M2 and the signal output from the second encoder E2 which corresponds to the focal distance shift is entered

on the CPU 34.

  Data from various magnification conditions such as the focal length of objective 9, the magnification factor, the

  film size and the like are entered on CPU 34.

  A read only memory (ROM) 36 making it possible to store a control program and a random access memory (RAM) 38 making it possible to store various data are connected to the CPU 34. The RAM 38 stores beforehand various conditions of enlargement, data of the distance a which goes from the plane of the film 20 to the reference plane of the base 22 in relation to the various conditions of enlargement and of the data of the focal distance of the lens 9. The data of the distance a and the data of the focal length of the lens 9 corresponding to the various enlargement conditions entered on the CPU 34 are read from the RAM 38 and are output from the CPU 34 as an external signal. The external signals control the rotation of the first and second motors M1 and M2 so as to control the position of the base in the direction

  optical as well as the focal length of the objective 9.

  An operation of the machine for drawing the

  the present invention is now explained.

  Before starting the printing machine, various data making it possible to output instruction data for the distance a which goes from the plane of the film 20 to the reference plane of the base 22 and data of the distance focal length of objective 9 as an external instruction signal from CPU 34 are stored in RAM 38 in the following sequence. More specifically, subject to a prescribed magnification condition, the distance a which goes from the plane of the film 20 to the reference plane of the base 22 and the focal distance of the objective 9 by means of which focusing is achieved on photographic paper. as well as an enlargement range which turns out to be suitable are estimated. Then in a predetermined range around the estimated distance and the estimated focal length, the instruction data for the distance a which goes from the plane of the film 20 to the reference plane of the base 22 and the data of the focal distance of the objective 9 are entered from the CPU 34 according to predetermined steps. On the basis of the data, the first and second motors M1 and M2 are controlled so that they rotate so as to develop and in practice draw images on photographic paper. Among the images, the one with the best focus and an optimum magnification range is chosen. Data indicative of the enlargement conditions in this state and data of the distance a which goes from the plane of the film 20 to the reference plane of the base 22 as well as focal distance data are stored in the RAM 38 via the CPU 34. This operation is performed for several combinations of enlargement conditions and the corresponding data are

stored in RAM 38.

  After the data has been stored, it is only by means of the input of the desired enlargement conditions that the distance a which goes from the plane of the film 20 to the reference plane of the base 22 and that the focal distance which is suitable for enlargement conditions can be automatically reproduced. In other words, if various enlargement conditions such as the enlargement size of the printing machine are entered, the CPU 34 reads the distance a which goes from the plane of the film 20 to the reference plane of the base. 22 and the focal length which is suitable for the enlargement conditions at the level of the data stored in the RAM 38. According to the data read from the distance a which goes from the plane of the film 20 to the reference plane of the base 22, the drive device 30 controls the rotation of the first motor M1 and controls the position of the base 22 along the optical axis, hence the establishment of a position

  suitable for enlargement conditions.

  In accordance with the focal distance data read, the drive device 32 controls the rotation of the second motor M2 and controls the position of the variable magnification objective of the enlargement objective 9 along the direction of the optical axis so to establish a focal length of the objective 9 which is suitable for the enlargement conditions. According to the embodiment, in the photographic printing machine in which the distance VT which goes from the plane of the film 20 to the plane of the photographic paper 3 is fixed, the base 22 making it possible to support the enlargement objective 9 can be shifted along the optical axis of the lens and the position of the base can be variably controlled along the direction of the optical axis by the external signal. Therefore, by outputting the external signals which are suitable for expected magnification conditions and controlling the position of the base 22, an excellently focused pulling machine can be automatically obtained under the expected magnification conditions. In addition, since the enlargement objective 9 makes it possible to modify its magnification in accordance with the modification of the focal distance and since a mechanism enabling the focal distance to be modified by means of an external signal is provided, the focal distance of l objective 9 is automatically controlled so as to be suitable for the expected enlargement conditions, hence obtaining a focused printing machine of

excellent way.

  Furthermore, the present invention uses first and second advancing screws as the first advancing means of the base 22 and as a second advancing means for varying the focal length of the lens 9 but at these For other purposes, other suitable mechanisms such as a cam mechanism or a link mechanism could be used. For the first and second motors M1 and M2, stepper motors can be used in place of the servo motors. In the case of a stepper motor, the encoders E1 and E2 can be eliminated by forcing

  the CPU 34 to control the number of pulses.

Claims (5)

  1. Pulling machine for drawing a photograph, in which the distance from the plane of a document to the plane of a photographic paper is fixed, and comprising an enlargement objective (9) placed between the plane of the document and the plane of the photographic paper, a base (22) for supporting the enlargement lens, characterized in that it comprises a device for determining the focal position of the enlargement lens so as to form an image of the document on photographic paper, in that said base for supporting said enlargement lens is installed movably in the direction of an optical axis of said lens; said pulling machine further comprising advance means (28) for variably controlling the position of said base along the direction of said axis   optical in accordance with an external signal.   2. A printing machine for taking a photograph according to claim 1, characterized in that said advancing means (28) comprises: a motor (M1) which can rotate forwards / backwards in accordance with the external signal; and a feed screw (28) coupled to said base (22) in the direction of said optical axis of said magnification objective (9) and capable of being rotated   relative to said base by said motor.   3. Pulling machine for drawing a photograph, in which the distance from the plane of a document to the plane of a photographic paper is fixed, and comprising an enlargement lens (9) placed between the plane of the document and the plane of the photographic paper, a base (22) for supporting the enlargement lens, characterized in that it comprises a device for determining the focal position of the enlargement lens so as to form an image of the document on photographic paper, in that said base for supporting said enlargement lens is installed movably in the direction of an optical axis of said objective, in that said enlargement lens makes it possible to vary the enlargement as a function of the variation of the focal distance, said drawing machine further comprising a first advance means (28) for lo loosely controlling the position of said base along the direction of said optical axis conform an external signal; and second feed means (26) for varying the focal length of said magnification lens   according to a second external signal.   4. A printing machine for taking a photograph according to claim 3, characterized in that said first advancing means comprises: a first motor (M1) which can rotate forwards / backwards in accordance with the first external signal; and a first feed screw (28) coupled to said base (22) in the direction of said optical axis of said enlargement lens (9) and capable of being rotated relative to said base by said first engine.   5. Pulling machine for shooting a photograph according to claim 3 or 4, characterized in that said second advancing means comprises: a second motor (M2) which can turn forwards / backwards in accordance with the second external signal ; and a second feed screw (26) coupled to said base (22) in the direction of said optical axis of said enlargement lens (9) and capable of being rotated relative to said base by said second engine.