CH307354A - Typographic machine to compose photographically. - Google Patents

Description

  

  Typographic machine to compose photographically. The present invention is. relating to typographic machines to be composed photographically, that is to say to machines in which images of selected characters are optically projected onto a graphic photo film.



  In many machines of this type, it is common practice to use series of characters consisting either of several opaque characters arranged on a translucent background, or several translucent characters arranged on an opaque background. Given the great variety of characters necessarily used in the composition of a printing plate, one of the difficulties encountered in setting up these machines is the problem of projecting a character. desired from the series on the. photographic film, with the focus located on the optical axis, so that each character is in alignment with the others.

    In general, only the particular character of the series which is on the optical axis is thus suitably projected.



  Various solutions have already been proposed for solving this problem. One of them was to arrange the characters on the rim of a rotating drum and to instantly project the chosen character onto the photographic medium as it passes over the optical axis of the system. Another solution was to arrange the characters in horizontal and vertical rows on a movable plate and to provide a mechanism for moving this plate vertically and horizontally in a plane, so as to individually bring the characters in the optical axis, or in a variant, in moving the optical axis relative to the character plate, so as to obtain the same result.

   Yet another solution consisted in providing each character in the series with a distinct optical system. These solutions, although all mechanically or optically achievable, are absolutely unsatisfactory, mainly because the necessary apparatus is expensive, bulky and complicated.



  According to the invention, the typography machine that composes photographically which is the subject thereof is characterized in that it comprises a light source, at least a series of characters, means intended to project the light coming from said source on the series of characters, a caches device allowing the selection of any character from the series, a first collimating lens, a diffraction device and a second lens for producing, on a screen-cover, a large number of 'secondary images from the transmitted image of the selected character, so that one of the secondary images is projected along the optical axis of the optical system formed by said two lenses,

   this screen-cover having a central opening for passing the secondary image of the selected character falling along said optical axis; a photographic sensitive surface being intended to successively record the image of each selected character transmitted through the screen opening.



  The appended drawing represents, by way of example, an embodiment of the object of the invention.



  The fis. 1 shows a diagram of the letterpress machine.



  The fis. 2 is a perspective view, greatly enlarged, of the diffraction grid used.



  The fis. 3 is a schematic view showing the projection of one of the characters of the types through the diffraction grid.



  The device shown is. locked in a dark room (not shown). To eliminate the effects of color fringing on compound characters, a monochromatic light source is used to illuminate the field. Monochromatic light is obtained by passing light from a standard mercury vapor lamp 1 through a standard filter 2 which transmits light only in the immediate vicinity of the green line of the mercury spectrum, that is, i.e. in the immediate vicinity of the wavelength of 5461 angstroem units. However, any other means can be used which gives monochromatic light of other wavelengths. The light is projected by a condenser 3 on a series of characters of a type 4 plate.



  The series of characters may include, as has been said, translucent characters on an opaque background or opaque characters on a translucent background. The plate 4 can be glass or a graphic photo film, or otherwise, with the characters therein. arranged in horizontal and vertical rows. In addition, the plate 4 must be removable to facilitate the establishment of sets of characters of different types.



  Characters can be individually composed online on a graphic film 5 using a keyboard. For this purpose, a shutter device can be used to allow light to pass through the chosen character. The drawing shows one of the possible arrangements comprising several pivoting horizontal bars 6, one for each horizontal row of characters, and several vertical pivoting bars 7, one for each vertical row of characters. Each of the bars can pivot about its longitudinal axis, so as to be able to be born in the eachage position and to cover the corresponding series of characters on the plate 4 or to move it away from this position.

    Each key on the keyboard is. connected to the. horizontal bar and the vertical bar which cover the character corresponding to said key on plate 4. When a determined key is actuated, the two associated bars are caused by an oscillating movement to discover the required character at the 'inter section of the two bars. The series of characters 4 is placed at the local plane of a collimating lens 8 which makes the light rays emanating from the single character discovered practically parallel. The parallel light rays then pass 1 through two crossed diffraction grids 9, constituting the most important element of the object of the present invention.



  The dif fraction grid is well known in optics and, in a few words, we can say that it is generally an optical device comprising a very large number of alternating, parallel and very narrow surfaces, of material transmitting and absorbing light or reflective materials and. absorbing light. Only the type of transmission gate has been shown and described here. However, it is understood that reflection grids could also be used effectively by making slight modifications to the apparatus described here. A parallel beam of monochromatic light impinging on the transmission type diffraction grids, due to the wave nature of the light, results in secondary waves in each of the light transmitting slits forming a diffraction pattern.

   As a consequence, when two grids intersect perpendicularly, it is obvious that this adds another diffraction pattern perpendicular to the first, given by the first grid, which allows the formation of many images of a given figure in two dimensions. .



  It is. this phenomenon, which can be studied in more detail in any elementary treatise on physics or optics, which makes the present invention possible. As seen in fig. 2, the cross grid 9, used here, is made of two individual grids 9a of a translucent substance such as collodion, with a corrugated surface made of a large number of small rounded ribs, approximately 240 per cm. The grids 9a are mounted back to back, preferably on an element 9b transmitting the light, for example a sheet of glass, so that the direction of the ribs of one is perpendicular to that of the ribs of the other. . Due to this particular construction of the grids, the crossed ribs form a system of small convex lenses.

   This lens shape of the grid has two advantages over the grid of the usual type; on the one hand, the light falling on this grid is better concentrated in the desired direction than in an ordinary grid arrangement and, on the other hand, all or almost all of the light falling on the grid is used, without losses on absorbent parts usually placed between the transmission slots.



  As a result, the image of the single chosen character, discovered by the shutter device, is diffused by the grid 9, so that a single main image is formed as well as a large number of order images. higher, on a screen-cache 11 on which the images are. formed by the lens 10. The distance between the images projected on the screen 11 is a function of the focal length of the lens 10 and the number of lines per unit length of the grids 9a and 9b, and the lens 10 must be chosen or corrected so that all the images obtained are projected onto a flat field.



  In this way, a symmetrical square series of several hundred characters can be used, the central character of the series being set square on the optical axis, and a large number of images of a selected character can be formed. individually, the number of these images and their spacing being adjusted so that one of these images always falls on the optical axis of the lenses 8 and 10. The shield 11 has an opening 12 in line with the lens. optical axis to let pass the only image which falls thus.



  Fig. 3 will help to understand the above explanation. In this figure, the main image A of one of the characters located in the vicinity of the upper left part of plate 4 (the number 1 being chosen as an example) is shown as falling in the vicinity of the lower right part of screen 11, after being projected through grid 9, thanks to lenses 8 and 10. It can form around the main image Has well over 500 real and sharp images, including the 400 centers, approximately, are of practically equal intensities, at least for printing.

    As has already been said, while the main image A only falls on the screen 11, one of the many images formed always falls on the optical axis 0 and it is visible in the opening 12.



  The image is then projected (fig. 1) through a collimating lens 13 and by means of a reflecting prism 14 and associated lenses focusing the image, at right angles to the optical axis of the lens. first optical system, on the surface of the photographic film 5. In the embodiment shown, the film 5 carried by a heavy support remains fixed, while the prism 14 and the relatively light lenses 15 and 16 are mounted on a mobile carriage 17, arranged to sweep the film 5, moving a given distance along the arrow S after the composition of each character.

    The screen 11 (and therefore the image visible in the opening 12) must be located in the focal plane of the collimating lens 13, this lens serving to make the light rays parallel, so that neither the focusing, nor the enlargement are disturbed by the movement of the carriage. It should be noted that one can quickly change the size of the characters to be composed by moving the lens 16 and the film 5 following the arrow 31 of FIG. 1.

 

Claims (1)

CLAIM: Typographic photo graphical composing machine, characterized in that it comprises a light source, at least one series of characters, means intended to project the light coming from said source on the series of characters, a device for . Covers allowing the selection of any character from the series, a first collimator lens, a diffraction device and a second lens to produce, on a screen-cover, a large number of secondary images from the transmitted image of the selected character, so that one of the secondary images is projected along the optical axis of the optical system formed by said two lenses, this screen-cover having a central or greening to let pass the secondary image of the falling selected character. along said optical axis; a photographic sensitive surface being intended to successively record the image of each selected character transmitted through the screen opening. SUB-CLAIM ATIONS: 1. Typographic machine according to claim, characterized in that the diffraction device is composed of two diffraction grids with parallel rectilinear elements oriented perpendicularly to one relative to the other. 2. Letterpress machine according to claim and sub-claim 1, characterized in that each grid is. made of a translucent substance and has a smooth surface made of small rounded veins, at the rate of 240 veins per cm. 3. Typographic machine according to the claim, characterized in that the image projected through the screen opening is. transmitted by a collimated lens and then by a reflecting prism and associated lenses focusing the image, at right angles to the optical axis of the first optical system, on the photographic recording surface, the latter being. stationary, while the reflecting prism and associated lenses are disposed on a carriage which is movable, step by step, in a direction parallel to said optical axis to register a line of characters on the. recording surface.