RU2178907C2 - System for carrying images converted into digital form onto sensitive base - Google Patents

Abstract

FIELD: exposure devices. SUBSTANCE: device has active plate with set of light sources and counter-plate both forming air cushion wherein film to be exposed is placed; the latter is supported on one end by plotter drive system which functions to move it within certain part of image. EFFECT: enhanced speed and reliability of exposure. 7 cl, 4 dwg

Description

Technical field
An object of the present invention is to provide a system for transferring digitally converted images onto a sensitive basis or vice versa.

 The object of the present invention is also a device for implementing the specified system.

 The invention is specifically, if not exclusively, applicable to the field of high-resolution imaging, for example in the manufacture of films.

 Here, the term "high resolution" implies significant clarity, that is, professional-type clarity, which constitutes, as a non-limiting example, the step between image elements of 10 microns. Here, the term “image element” means — in computer language — known points that together constitute an image. This value is also commonly defined as a raster of ≤10.

 The process of transferring a digitally converted image in an image element from a computer to a device that performs playback, here called the rasterization process.

 One of the main, if not exclusive, goals is to produce printed circuits.

 The system and device according to this invention can also be used in any other field where a film is required, for example, in printing, etc.

Prior art
In the prior art, sensitization devices for photographic films by various photosensitive materials and for different purposes are known. The operation of high-resolution devices is essentially based on the use of a light head, which sensitizes photosensitive material, or in more modern technical solutions, on the use of a laser head.

 The device comprises a cylindrical support for a photosensitive material or a flat support.

 In the case of the use of a cylindrical support, there are two solutions: either a solution involving the rotation of the drum and translational-translational movement of the head in the transverse direction, or a solution according to which a fixed and hollow cylinder is provided, a photosensitive sheet is placed inside the cylinder, and the head is placed in it in the axial direction , which not only moves alternately in translation and back and forth, but also rotates.

 In this method, with proper coordination of the corresponding movements, the digitized image is restored by transferring the corresponding points one after the other on the basis of the corresponding coordinates until the image is completely restored.

 The flat support solution is less used because it is considered complex and expensive compared to previous solutions, and it uses essentially the same principle, with the difference that it acts as a plotter in which the writing head moves along the specified surface along the respective coordinates, exactly the same as a plotter in a computer.

 X-Y - the movement of the material of the base image is disclosed, for example, in patent GB-A-2187855.

 The concept of using a combination of illuminated sources is disclosed, for example, in WO-A-93/24326, but this document provides a new way to significantly reduce the amount of work.

 All of the solutions mentioned above are expensive and difficult, and in any case, they require long lead times.

 The resolution is much higher in solutions using a laser, but the time and cost of purchasing and maintaining such a device remain very high due to the presence of significant mechanical moving parts.

 When considering all these types of machines, it is possible to note the presence of only one working head, which can direct one or several points simultaneously in a logical sequence until the entire image is completed on the surface selected for exposure, starting, for example, from the upper corner until reaching the lower diametrically opposite corner.

 The logical sequence of these stages makes it practically impossible to significantly increase the operating speed.

 As mentioned above, GB-2187855 discloses a photographic builder using an optical shutter device with a single light source, a support for a sheet of photosensitive material for exposure, the optical shutter device being placed between the light source and the sheet to divide the image on the sheet into a plurality of detachable from each other intervals of sub-areas or image elements, while their light transmittance individually control the computer included in the device to expose s corresponds to the desired graphics or illustrations. The optical shutter device can be moved relative to the sheet to expose portions corresponding to those that originally belong to the interval between image elements.

 This solution is of considerable interest, but its disadvantage is that it cannot control the entire image due to the shadow of the specified optical shutter device.

 The aforementioned document WO-A-93/24396 discloses a method and apparatus that hold a thin medium between two bodies.

 In particular, from the point of view of faster and better exposure of the medium, electronic integrated circuits have been developed by which selectively modulated light channels can be formed. These integrated circuits can be used to build the rod transverse to the medium for exposure, as a result of which the medium is illuminated in a coherent line across its entire width (US 4899222, US 5030970, GB 187855). Based on these decisions, the objective of the present invention is to remedy these disadvantages, in particular, to provide an inexpensive, reliable, high-speed device that requires minimal maintenance, is easy to use, and in which the resolution level may be the highest, i.e., without to expose to any risk the necessary appropriate level of resolution, as described above, using the solution according to US 4176947, which disclose the mechanism of step and repeat. In particular, this relates to a device for moving sheet material, primarily microfiche, according to the totality of the positions of the X and Y axes using a gas cushion formed on a plate in which the sheet material is displaced by means of directed gas jets or drifts.

 These and other tasks are solved by the claimed system for transferring digitally converted images from a computer to the image base material, which can be photosensitive, or vice versa, using illuminated point sources, characterized in that it contains: an exposure means in the form of a flat active plate, and the active plate contains a plurality of (n) light sources of point exposure placed on it fixedly based on one source per square in a raster of (n) squares made with the ability to connect to a computer system and can be scanned with light using appropriate software in accordance with the digitized image to be transferred, while only one point is processed corresponding to only one image element per square (n), each square (n) the raster is configured to include a plurality of elements or points of the image equal to (x), as a result of which the total number of elements or points of the entire image is equal to (nx), means for supporting the photosensitive material, means for moving the photosensitive material and / or the active plate, configured to move one of them relative to the other in accordance with the digitized coordinates corresponding to at least the square (n) of the entire digitalized image , and with the possibility of activating the light sources of point exposure sequentially with stepwise movement along the points so that each source exhibits and scans implements the entire surface corresponding to its own square (n) of photosensitive material, as well as to obtain the entire image using the following light sources of point exposure, each of which is located in the corresponding square (n) of the raster, for actuating for successive points of the specified square ( n) the corresponding illuminated sources (n) of the means or detector of spot exposure, each time and in stages, as a result of which each indicated source (n) (11) exposes / scans the entire the surface corresponding to its own square (n) of the material to be sensitized, to obtain a sensitized square (n) of the base material of the image, and also to obtain the desired whole image using the following (n) illuminated sources, each of which is located in its corresponding square (n ) raster.

 As a consequence of this, there is a direct advantage of increasing the transfer and sensitization rate equal to a multiple of the number of raster sections (n).

 At the same time, they proceed from the theoretical and actual aspect of the speed of action of electron transfer equal to the speed of light.

 Given the increased degree of complexity of processing and calculation, the operating time is reduced by more than 70%; at the same time, there is also the advantage of a significant simplification of the system, cost reduction (for an active plate, a common "LED" surface), etc.

 Preferably, the movement is communicated to the photosensitive sheet, which is held in suspension between the active plate and the counter plate in the air cushion.

 Therefore, the movement is very easy and fast, without significant moving masses.

 In addition, the photosensitive material does not touch the surface of the active plate and therefore is not damaged.

 Said air cushion is advantageously carried out by means of a plurality of dotted air jets formed in opposing plates, as a result of which the sheet is suspended between the two surfaces, and the movement mechanism will clamp the sheet only on one side for the purpose of its simple and limited movement.

 These and other advantages will be apparent from the following description of embodiments with reference to the accompanying drawings, the details of which are not to be construed as limiting, and which are given by way of example only.

 FIG. 1 is a schematic front view of a sensitizing active plate.

 FIG. 2 is an enlarged view of an "n" part of a subdivided raster, which is theoretically composed of the image to be copied, including a plurality of "x" dots or image elements constituting the image.

 FIG. 3 is a schematic cross-sectional view of a device having an active plate, a counter plate, and a mechanism in which a corresponding sensitizing sheet is suspended and moved between two plates.

 FIG. 4 is a schematic illustration of a movement pattern for transferring an image from a computer to a sensitive base; moreover, the inverse operation is possible in a similar and symmetric manner.

 With reference to the above drawings, the following is disclosed.

 Turning to FIG. 1: the active plate contains a reticulation of "n" squares, each of which contains an illuminated LED that, in accordance with program 11, is capable of pinpoint sensitizing the photosensitive film 3 to be exposed, which is placed between the specified active plate 1 and the counter plate 2.

 The active plate 1 and the counter plate 2 are equipped with a plurality of holes 12, which are preferably uniformly distributed, to release opposing jets of compressed air (f), so that the sheet is suspended between them, which is self-centering in the corresponding air cushion in accordance with the image in FIG. 3.

 The openings of the air jets are advantageously placed between the exposure LED 11 and the film 3.

 The exposed film or photosensitive sheet 3 is placed between the plates 1 and 2 by the loading means in accordance with the prior art and clamped by a clamp or a corresponding clamping means 4, and they are suspended between them.

 The plates are positioned in a directional position; the active plate 1 is also positioned relative to the corresponding LED 11 for exposing the film 3.

 The basis of the film 4 is moved by means of the prior art, made in the form of a plotter, driven by a scanner system, for image transfer.

 In accordance with FIG. 4, the image in computer S is divided into a set of sectors, like on a chessboard, in which each sector of the corresponding raster “n” is a scanned part.

 This operation can also be carried out in digital form using control software, and in this way a certain movement A-B-C-D will be obtained, which, through converters, decoders and encoders, and processors, will accordingly be moved on the photosensitive material 3 or, conversely, by the reverse process.

 Regarding the concept of the invention, as noted above, the present invention relates to a system for transferring digitally converted images from a computer S to a photosensitive material containing light sources, which according to the invention comprises an exposure means in the form of a flat active plate 1, the active plate 1 comprising a set of (n) light sources 11 of a point exposure placed on it fixedly based on one source per square in a raster of (n) squares made with possibly connection to the computer system S and with the possibility of scanning with light by means of appropriate software in accordance with the digitized image to be transferred, while only one point is processed corresponding to only one image element per square (n), each square (n ) the raster is configured to include a plurality of elements or points of the image equal to (x), as a result of which the total number of elements or points of the whole image is equal to (nx), means 4 for ores of the photosensitive material 3, means 5 for moving the photosensitive material 3 and / or the active plate 1, configured to move one of them relative to the other in accordance with the digitized coordinates corresponding to at least the square (n) of the whole transformed into digital form of the image, and with the possibility of activating the light sources 11 of the spot exposure sequentially with stepwise movement along the points so that each source 11 exhibits and ska It measures the entire surface corresponding to its own square (n) of photosensitive material, as well as to obtain the entire image using the following light sources of point exposure, each of which is located in the corresponding square (n) of the raster.

 The specified system is carried out in a device containing opposite plates, an active plate for sensitizing a photosensitive sheet and an opposite plate.

 Both plates have opposite openings for air jets to support a photosensitive sheet (film) between them.

 The clamping system of the sheet between the plates ensures its movement.

 More specifically, with reference to the figures: a photosensitive sheet is simply placed between two surfaces, each of which is a support of many light sources.

 The light sources are arranged in an order that covers the entire surface of the photosensitive sheet (film).

 The relative displacement between the film and the light sources makes it possible to illuminate any point of the film and, as a result, sensitize it with a digitally converted image in the right way and at the right resolution level.

 The device consists of a base inside which a box of films is placed and a loading system (this system is not described, but is a prior art system, for example, a system used in automatic sheet loading devices) for transferring each sheet to the exposure area inside said opposite plates.

 The film is fixed before exposure in a biaxial movement system.

 Air jets emerge from the nozzles of the plates, which keep the sheet always in a centered position, preventing it from contacting with opposing surfaces.

 The plates are placed close to each other, but without contacting each other, resulting in an air cushion between the surfaces in relative movement.

The system can be made with the possibility of bringing it into action by appropriate software that will provide commands for its operation, namely:
- a team for collecting digital image data;
- a command for preparing this data according to the size and resolution required for the exposure device, so that they can be transmitted to single-light modulators according to the path that they describe during the exposure.

 Input data for the exposure process is always digital.

 The original image can be converted to digital form starting with a simple photograph, or similar material, using scanners or other means of converting the image into digital form.

 If the image is given using vectorized data, then it is subjected to rasterization using the resolution of the exposure.

 Before starting the exposure process, it is necessary to adapt the size and resolution of the image relative to the size and variable parameters of the exposure device.

 The ratio "image element: image element" is determined.

 This is determined by the mechanical characteristics of the exposure device and the measurement characteristics of the original image.

 Thus, an image such as a “bitwise information display card” is obtained.

 This is done to reduce the required space and also to compress the form.

 Therefore, the images are divided into separate sectors corresponding to the positions (n) of the square.

 In addition, the data of each sector is sorted in the sequence corresponding to the movement between the exposure device and the exposed object.

 Data is transmitted to individual modulators (light sources) synchronously with a relative position displacement to cover the entire space of the treated area.

 The film is shifted along two axes.

 The offset step also determines the resolution that the device can provide, and this step may be different for each axis.

 The course of each of these two axes is determined by the distance between two adjacent points.

 When the trajectory of the first axis ends, the second axis is shifted by one step.

 Exposure ends when the second axis completes the entire move.

 It should be noted that this technical solution provides the displacement of the film with the masses in minimal movement.

 Since the path is determined by the distance between the "points" of the light beam, it can be minimized.

 In this way, a significantly reduced total exposure time and a definitely higher accuracy are achieved compared to existing technical solutions.

 Of course, this system can be used in the reverse order, that is, to transfer a graphic image from an appropriate external base (for example, paper) to a computer - always as a digitalized image.

Claims (7)

 1. A system for transferring digitally converted images from a computer (S) to a photosensitive material containing light sources, characterized in that it comprises exposure means in the form of a flat active plate (1), the active plate (1) containing a plurality (n) light sources (11) of spot exposure placed on it fixedly based on one source per square in a raster of (n) squares made with the possibility of connecting to a computer system (S) and with the ability to scan with light ohm of appropriate software in accordance with the digitized image to be transferred, while only one point is processed corresponding to only one image element (p) per square (n), and each square (n) of the raster is configured to include a plurality of elements or pixels of an image equal to (x), whereby the total number of elements or pixels of the entire image is equal to (nx), means for supporting (4) the photosensitive material (3), means (5) for moving the photosensitive about the material (3) and / or the active plate (1), made with the possibility of moving one of them relative to the other in accordance with the digitized coordinates corresponding to at least the square (n) of the entire digitalized image, and with the possibility of activating the light sources (11) of point exposure sequentially with stepwise movement along the points so that each source (11) exposes and scans the entire surface corresponding to its own square (n) photosensitivity material, as well as for obtaining the entire image using the following light sources of point exposure, each of which is located in the corresponding square (n) of the raster.  2. The system according to claim 1, characterized in that the photosensitive material (3) is mounted with the ability to move and hold in suspension in an air cushion between the active plate (1) and the counter plate (2).  3. The system according to claim 2, characterized in that the air cushion is formed by a plurality of point air jets created in opposing active plate (1) and counter plate (2).  4. The system according to claim 3, characterized in that the photosensitive material (3) is clamped by means of movement on only one side.  5. A device for transferring digitally converted images from a computer (S) to a photosensitive material (3), made and operating in accordance with the system of paragraphs. 1-4, characterized in that it contains an active plate (1) with many light sources (11) for the point exposure of photosensitive material, driven or not driven by lighting independently from each other, means for supporting (4) photosensitive material (3) above the active plate (1), means (5) for moving the photosensitive material (3) and / or the active plate (1), made with the possibility of moving at least one of them relative to the other, and the device is arranged to communicate with By means of programmed switching on and off the light sources of spot exposure.  6. A device for transferring digitally converted images from a computer to a photosensitive material, made and operating in accordance with the system of PP. 1-4, characterized in that it contains an active plate (1) with many light sources (11) of point exposure for photosensitive material (3), driven or not driven by lighting independently, a counter plate (2) located from active plate (1) at a distance necessary to install the photosensitive material (3) between these plates, means (12) for supplying air jets in the direction between the active plate (1) and the counter plate (2) to hold the photosensitive material ( 3) in a suspended state between these plates, means (5) for moving the photosensitive material (3) and / or the active plate (1), configured to move at least one of them relative to the other, and the device is configured to communicate with a programmed on and off light source (11) spot exposure.  7. The device according to p. 6, characterized in that it contains an automatic boot device for loading photosensitive material in the form of sheets between the active plate and the counter plate.

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