JP3597342B2 - Image recording device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention belongs to the technical field of digital image recording devices.
[0002]
[Prior art]
At present, printing of an image photographed on a photographic film (hereinafter, referred to as a film) such as a negative film or a reversal film onto a photosensitive material such as photographic paper is performed by projecting light from the film into the photosensitive material. The exposure is performed by so-called direct (analog) exposure of the photosensitive material by surface exposure.
[0003]
On the other hand, in recent years, a printing apparatus using digital exposure, that is, an image recorded on a film is photoelectrically read, and after the read image is converted into a digital signal, various image processes are performed to perform recording. 2. Description of the Related Art A digital photo printer has been put into practical use that scans and exposes a photosensitive material with recording light modulated in accordance with the image data to record an image (latent image), develops the image, and outputs it as a print (photo). Was.
[0004]
In a digital photo printer, a film is photoelectrically read, gradation correction is performed by image (signal) processing, and exposure conditions are determined. Therefore, it is possible to freely perform editing of a print image such as synthesis of a plurality of images by image processing and image division, and various image processing such as color / density adjustment and contour emphasis. Can be output. Further, the image data of the print image can be supplied to a computer or the like, and can be stored in a recording medium such as a floppy disk.
Further, according to the digital photo printer, it is possible to output a print with better image quality and excellent resolution, color / density reproducibility, and the like as compared with the conventional direct exposure print.
[0005]
Such a digital photo printer basically includes an input device having a scanner (image reading device) and an image processing device, and an output device having a printing device and a developing device.
In a scanner, reading light emitted from a light source is incident on a film to obtain projection light carrying an image photographed on the film, and this projection light is imaged on an image sensor such as a CCD sensor by an imaging lens. The image is read by photoelectric conversion, and is sent to an image processing apparatus as film image data (image data signal). The image processing apparatus performs predetermined image processing on the image data sent from the scanner, and sends the image data to the printing apparatus as output image data (exposure conditions) for image recording.
For example, if the printing apparatus uses light beam scanning exposure, the printing apparatus modulates the light beam according to image data sent from the image processing apparatus, deflects the light beam in the main scanning direction, and By transporting the photosensitive material (printing paper) in a sub-scanning direction orthogonal to the scanning direction, the photosensitive material is scanned and exposed (printed) by a light beam to form a latent image, and a back print is recorded. In the developing machine, the exposed photosensitive material is subjected to a predetermined developing process or the like, so that an image photographed on a film is reproduced.
[0006]
[Problems to be solved by the invention]
Incidentally, not only in such digital photo printers, but also in photo printers using ordinary direct exposure, in a printing apparatus, unused photosensitive material is wound into a roll and stored in a light-shielding housing to form a magazine. The magazine is loaded into a printing apparatus together with the magazine, pulled out of the magazine, transported, and subjected to exposure and the like. Here, in a normal photo printer, the photosensitive material is not cut in the middle, but is exposed while it is long, recording of back print, development processing, drying, etc., and finally, the photosensitive material is cut into a predetermined length. One print.
[0007]
However, in such an apparatus for cutting the photosensitive material last, it is necessary to form frame information (punch) for indicating a boundary between frames (for each print) before or during exposure of the photosensitive material. . Therefore, the portion of the photosensitive material on which the frame information is formed is wasted, and a means for forming frame information having a punch, a sensor, and the like is required.
[0008]
Further, in a digital exposure printing apparatus, in order to record a high-quality image with no unevenness or the like, it is necessary to perform scanning and transport of the photosensitive material during exposure with high accuracy and without stopping. It is necessary to stop the conveyance of the photosensitive material at the time of formation, and the recording of the back print causes a load variation in the scanning conveyance of the photosensitive material.
In order to avoid these inconveniences, in a printing apparatus of a digital photo printer, a deflection (loop) of a photosensitive material is caused between an exposure position and a frame information forming unit and between an exposure position and a recording unit for back print. The transport route and transport control of the photosensitive material, such as the control of the amount (number of frames) of the photosensitive material in the loop and the timing of exposure, become complicated, which causes an increase in apparatus cost and running cost. .
[0009]
Therefore, in a digital photo printer, it is desired to realize a printing apparatus that can perform exposure after cutting a photosensitive material into cut sheets by corresponding to one print.
However, at present, a digital printing apparatus that performs exposure after forming a cut sheet from a photosensitive material has not yet been realized.
[0010]
An object of the present invention is to realize an image recording apparatus (printing apparatus) used for a digital photo printer or the like, which performs digital exposure and back print recording after forming a photosensitive material into a cut sheet. An object of the present invention is to provide a compact and efficient image recording apparatus which is excellent in maintainability, can be easily upgraded and reduced in cost, and is compact.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a loading section for loading a photosensitive material magazine in which a long photosensitive material is wound in a roll shape and housed in a light-shielding housing, and the photosensitive material magazine includes A photosensitive material supply unit having a drawing unit for drawing out a long photosensitive material, a cutter for cutting the long photosensitive material drawn by the drawing unit, and a cutter for holding the cut photosensitive material at a predetermined recording position. Scanning exposure means for exposing the cut photosensitive material scanned and transported by the scanning transportation means with a recording light modulated according to a digital image signal; An image recording section, and the cutting photosensitive material from the cutter to the scanning and conveying means so that the recording surface of the cutting photosensitive material is facing upward at the recording position. Transporting means for transporting the exposed photosensitive material to the next step, and disposed in a transport path of the cut photosensitive material by the transport means, and recording a back print on a non-recording surface of the cut photosensitive material. Back print sectionThe image recording unit includes a cut buffer for preventing the cutting of the long photosensitive material by the cutter from causing a load variation in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit. The back print unit is disposed so as to be secured by a transport path of the cut photosensitive material by the transport unit to a position, and when the back print unit uses a contact type printer, the recording of the back print is performed by the scan transport unit. A pre-exposure buffer or a post-exposure buffer for preventing a load variation from being applied to the scanning and transport of the cut photosensitive material by a transport path of the cut photosensitive material by the transport unit between the back print unit and the recording position. So as to secure them, respectively, arranged upstream or downstream of the recording position.An image recording apparatus is provided.
Further, according to the present invention, a long photosensitive material is wound in a roll shape, and a loading section for loading a photosensitive material magazine housed in a light-shielding housing, and the long photosensitive material is drawn out from the photosensitive material magazine. A photosensitive material supply unit having a drawing unit, a cutter for cutting the long photosensitive material drawn by the drawing unit, and a scanning conveyance unit for scanning and conveying the cut photosensitive material at a predetermined recording position And an exposure unit for exposing the cut photosensitive material scanned and conveyed by the scanning conveyance unit with recording light modulated according to a digital image signal, an image recording unit positioned above the photosensitive material supply unit, The cutting photosensitive material is conveyed from the cutter to the scanning conveyance means so that the recording surface of the cutting photosensitive material faces upward at the recording position, and the exposure is performed. Transport means for transporting the completed photosensitive material to the next step, and a backprint unit for recording a backprint on a non-recording surface of the cut photosensitive material, which is disposed in a transport path of the cut photosensitive material by the transport means. The image recording unit includes a cut buffer that prevents the cutting of the long photosensitive material by the cutter from causing a load variation in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit. The back print unit is arranged so as to be secured by a transport path of the cut photosensitive material by the transport unit to a recording position, the back print unit includes a contact type printer, and the recording of the back print is performed by the scan transport unit. The pre-exposure buffer or the post-exposure buffer for preventing a load variation from being applied to the scanning conveyance of the cut photosensitive material is provided by the back pre-exposure buffer. An image that is arranged on the upstream or downstream side of the recording position so as to be secured by a conveying path of the cut photosensitive material by the conveying unit between the printing unit and the recording position. A recording device is provided.
Here, it is preferable that the back print unit is disposed in a transport path of the transport unit from the cutter to the scan transport unit, which is above the photosensitive material supply unit.
Further, the scanning and transporting means is for transporting the cut photosensitive material in a lateral direction, and the transporting means transports the cut photosensitive material upward from the cutter, and thereafter, to the scanning and transporting means. It is preferable to convey in the lateral direction.
Further, it is preferable that the back print unit is arranged in the lateral transport path in the transport path by the transport unit from the cutter to the scanning transport unit.
Further, it is preferable that the transport means has a transport path for transporting the cut photosensitive material in a lateral direction from the scanning transport means to the next step.
Further, the next step is preferably a step of subjecting the exposed photosensitive material to a developing process and a drying process by a developing machine.
Further, the present invention is the image recording apparatus, further comprising: distributing the cut photosensitive material in a direction orthogonal to a transport direction by the transport unit, downstream of the image recording unit in a transport direction of the cut photosensitive material. It is an object of the present invention to provide an image recording apparatus having a sorting means for arranging columns.
[0012]
Further, according to the present invention, a long photosensitive material is wound in a roll shape, and a loading section for loading a photosensitive material magazine housed in a light-shielding housing and the long photosensitive material is pulled out from the photosensitive material magazine. A photosensitive material supply unit having a drawing unit, a cutter for cutting the long photosensitive material drawn by the drawing unit, and scanning and transporting the cut photosensitive material in a horizontal direction while holding the cut photosensitive material at a predetermined recording position; An image recording unit located above the photosensitive material supply unit, comprising: a scanning conveyance unit; and an exposure unit configured to expose the cut photosensitive material scanned and conveyed by the scanning conveyance unit with recording light modulated according to a digital image signal. And the cutting photosensitive material is transported upward from the cutter so that the recording surface of the cutting photosensitive material faces upward at the recording position, and then the scanning is performed. Transport means for transporting the exposed photosensitive material from the scanning transport means to the developing device, and transporting the exposed photosensitive material from the scanning transport means to the developing device; and In the transport path of the cut photosensitive material by the transport unit, disposed in the lateral transport path, a back print unit that records a back print on a non-recording surface of the cut photosensitive material, and from the scanning transport unit. In the transport path of the cut photosensitive material by the transport means to the developing device, the cut photosensitive material is distributed in a direction orthogonal to the transport direction by the transport means, which is disposed in the horizontal transport path, and With sorting means as columnsThe image recording unit includes a cut buffer for preventing the cutting of the long photosensitive material by the cutter from causing a load variation in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit. The back print unit is disposed so as to be secured by a transport path of the cut photosensitive material by the transport unit to a position, and when the back print unit uses a contact type printer, the recording of the back print is performed by the scan transport unit. The pre-exposure buffer for preventing a load variation from being applied to the scanning and transporting of the cut photosensitive material due to the cutting photosensitive material is arranged to be secured by the transport path of the cutting photosensitive material by the transport unit from the back print unit to the recording position. Is somethingAn image recording apparatus is provided.
Further, according to the present invention, a long photosensitive material is wound in a roll shape, and a loading section for loading a photosensitive material magazine housed in a light-shielding housing, and the long photosensitive material is drawn out from the photosensitive material magazine. A photosensitive material supply unit having a drawing unit, a cutter for cutting the long photosensitive material drawn by the drawing unit, and scanning and transporting the cut photosensitive material in a horizontal direction while holding the cut photosensitive material at a predetermined recording position; An image recording unit located above the photosensitive material supply unit, comprising: a scanning conveyance unit; and an exposure unit configured to expose the cut photosensitive material scanned and conveyed by the scanning conveyance unit with recording light modulated according to a digital image signal. And transporting the cut photosensitive material upward from the cutter so that the recording surface of the cut photosensitive material faces upward at the recording position. Transport means for transporting the exposed photosensitive material from the scanning transport means to the developing device, and transporting the exposed photosensitive material from the scanning transport means to the developing device; and In the transport path of the cut photosensitive material by the transport unit, disposed in the lateral transport path, a back print unit that records a back print on a non-recording surface of the cut photosensitive material, and from the scanning transport unit. In the transport path of the cut photosensitive material by the transport means to the developing device, the cut photosensitive material is distributed in a direction orthogonal to the transport direction by the transport means, which is disposed in the horizontal transport path, and And an image recording unit, wherein the cutting of the long photosensitive material by the cutter is performed by scanning and transporting the cut photosensitive material by the scanning and transporting means. A cut buffer for preventing load fluctuation is arranged so as to be secured by a transport path of the cut photosensitive material by the transport unit from the cutter to the recording position, and the back print unit includes a contact printer. A pre-exposure buffer for preventing the recording of the back print from giving a load variation to the scanning and transporting of the cut photosensitive material by the scanning and transporting unit, by the transporting unit from the back print unit to the recording position. An image recording apparatus is provided so as to be secured by a conveying path of the cut photosensitive material.
In each of the above-described image recording apparatuses, it is preferable that the photosensitive material supply unit is for loading one or two photosensitive material magazines.
Further, the photosensitive material supply unit is housed in a housing that houses the cutter, the image recording unit, the transport unit and the back print unit, or the distributing unit in addition to the cutter, the image recording unit. Preferably, it is arranged below the scanning and conveying means of the section.
Further, it is preferable that the cut buffer, the pre-exposure buffer, and the post-exposure buffer have a length equal to or longer than a length of the maximum size of the cut photosensitive material in the transport direction by the transport unit.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an image recording apparatus according to the present invention will be described in detail based on preferred embodiments shown in the accompanying drawings.
[0014]
FIG. 1 shows the basic configuration of the image recording apparatus of the present invention.
An image recording device 10 (hereinafter, referred to as a recording device 10) shown in FIG. 1A is cut into a predetermined length corresponding to a print for forming a long photosensitive material, cut into a cut sheet, and then back-printed. This is a device that performs recording (back printing) and digital exposure, and supplies the exposed photosensitive material Z to a processor (developing machine).
Such a recording apparatus 10 includes a photosensitive material supply unit 12, a cutter 28, a printer 14 for recording a back print, and an exposure optical unit (hereinafter, an exposure unit) for exposing the photosensitive material Z at a recording (exposure) position X. ) 34 and a scanning and conveying means (omitted in FIG. 1), and a sorting device 18.
Further, as shown in FIG. 1, in the present invention, the image recording section 16 is disposed above the photosensitive material supply section 12, and the recording surface (emulsion surface) of the photosensitive material Z is positioned above the recording position X. The layout is configured on the basis of transporting the photosensitive material Z from the cutter 28 to the scanning transport unit so that
[0015]
Although not shown in FIG. 1 in order to clarify the basic configuration of the apparatus, the recording device 10 is provided with a transporting unit for transporting the photosensitive material Z, a transport guide, various sensors, and the like as necessary. Needless to say.
[0016]
In the recording apparatus 10, the photosensitive material supply unit 12 includes loading units 20 and 22, and pull-out roller pairs 24 and 26.
Further, a cutter 28 for cutting the photosensitive material Z into a length corresponding to the print size is arranged on the downstream side (hereinafter referred to as the downstream side) of the photosensitive material Z by the pull-out roller pairs 24 and 26. ing.
[0017]
The loading portions 20 and 22 are portions where magazines 30 and 32 each containing a long light-sensitive material Z wound in a roll shape with the recording surface facing outward in a light-shielding housing are loaded. The magazines 30 and 32 loaded in both loading sections 20 and 22 usually have different types of photosensitive materials Z such as size (width), surface type (silk or mat, etc.), specification (thickness, type of base, etc.). Is to be stored.
Although the recording apparatus 10 in the illustrated example is an apparatus capable of loading two magazines, the present invention is not limited to this, and the number of magazines that can be loaded may be one, or three. The above magazines may be loadable.
[0018]
The pull-out roller pairs 24 and 26 pull out and transport the photosensitive material Z stored in the magazines 30 and 32 loaded in the loading units 20 and 22.
This conveyance stops when the photosensitive material Z conveyed downstream from the cutter 28 has a length corresponding to the print to be made, and then the cutter 28 operates to cut the photosensitive material Z to a predetermined length. Cut sheet.
Note that the recording apparatus 10 shown in FIG. 1 has a configuration in which the photosensitive material Z of two magazines is cut by one common cutter 28, but the present invention is not limited to this, and each loading unit (magazine) Correspondingly, individual cutters may be provided.
[0019]
The printer 14 includes, on the non-recording side (non-emulsion side = back side) of the photosensitive material Z, the photographing date, print printing date, frame number, film ID number (sign), camera ID number used for photographing, photo printer For recording (back printing) various kinds of information such as ID numbers, so-called back prints.
In the recording apparatus 10 of the present invention, the printer 14 for recording the back print is not particularly limited, and various recording methods for the back print used in known photo printers such as an ink jet printer, a dot impact printer, and a thermal transfer printer can be used. is there. Among them, a non-contact type recording method such as an ink jet printer can be suitably used for the reason described below, and an ink jet printer using a non-water-soluble, room temperature, solid hot-melt ink is preferably exemplified. .
In addition, it is preferable that the printer 14 be configured to be able to print two or more lines in accordance with a new standard new photo system (Advanced Photo System).
[0020]
In the recording apparatus 10 of the present invention, when recording a back print before exposing the photosensitive material Z as shown in the illustrated example, the cutter 28AccordingThe distance to the back print record,ProductionThe back print may be recorded before the cutting of the photosensitive material Z by the cutter 28, may be recorded after the cutting, or may be recorded before and after the cutting depending on the size of the print to be performed.
[0021]
The image recording unit 16 includes an exposure unit 34 and a scanning and conveying unit (omitted in FIG. 1). In the recording apparatus 10 according to the present invention, the image recording unit 16 includes the above-described photosensitive material supply unit. 12 above. The electrical unit having the control board and the like of the recording apparatus 10 is usually arranged near the image recording unit 16, and thus, by arranging the image recording unit 16 above, the maintenance performance is improved. An excellent recording device can be realized.
In the image recording section 16 of the recording apparatus 10 of the present invention, the photosensitive material Z, which has been made into a cut sheet, is scanned and transported while being held at the recording position X by the scanning transport means, and is exposed by the exposure unit 34 in accordance with digital image data. An image is recorded on the photosensitive material Z by so-called digital raster scanning exposure in which the modulated recording light L is incident on the photosensitive material Z at the recording position X and is two-dimensionally exposed.
[0022]
The exposure unit 34 is, for example, a light source that emits light beams corresponding to red (R) exposure, green (G) exposure, and blue (B) exposure of the photosensitive material Z, and converts the light beam emitted from the light source into a digital light. Modulation means such as an AOM (acousto-optic modulator) that modulates according to the image data, an optical deflector such as a polygon mirror that deflects the modulated light beam in the main scanning direction orthogonal to the scanning and conveying direction, and in the main scanning direction. This is a known light beam scanning device including a fθ (scanning) lens or the like that forms an image of a deflected light beam at a predetermined position on a recording position X (scanning line) with a predetermined beam diameter.
[0023]
The exposure unit 34 used in the recording apparatus of the present invention is not limited to such a light beam scanning apparatus, but may be any of various light emitting arrays and spatial modulation element arrays extending in a direction perpendicular to the scanning and conveying direction. Various types of digital exposure means using the following are available.
Specifically, a PDP (plasma display) array, an ELD (electroluminescent display) array, an LED (light emitting diode) array, an LCD (liquid crystal display) array, a DMD (digital micromirror device) array, a digital using a laser array, or the like. Raster exposure means is exemplified.
[0024]
There is no particular limitation on the scanning / conveying means, and examples include conveying means for various types of sheet materials used for scanning exposure.
More specifically, a scanning conveyance unit using a pair of conveyance rollers disposed with the recording position X (scanning line) interposed therebetween, an exposure drum that conveys the photosensitive material Z while holding it at the recording position X, A scanning conveyance unit using two nip rollers sandwiching and contacting the exposure drum is preferably exemplified.
In the recording apparatus 10, such a scanning and conveying means is disposed below the exposure unit 34, and the scanning and conveying direction is preferably horizontal or substantially horizontal.
[0025]
There is no particular limitation on the transport means for transporting the photosensitive material Z from the cutter 28 to the scanning transport means, from the scanning transport means to the sorting device 18 described below, and further from the sorting device 18 to the processor, such as a nip roller, a nip belt, and a belt conveyor. Various types of sheet material conveyance methods, such as lift conveyance using a suction cup or the like, can be used.
[0026]
Here, in the recording apparatus 10 of the present invention, the image recording unit 16 is located above the photosensitive material supply unit 12, and the transporting unit that transports the photosensitive material Z from the cutter 28 to the scanning transporting unit is a scanning transporting unit. The photosensitive material Z is conveyed so that the recording surface faces upward at the recording position X by the means.
Accordingly, the photosensitive material Z is transported upward from the photosensitive material supply unit 12, is supplied to the scanning transport unit with the transport path bent so that the recording surface faces upward, and is exposed to the exposure unit disposed above the scanning transport unit. By 34, the recording light L is incident from above. Therefore, the exposed photosensitive material Z is supplied to the processor with the recording surface facing up.
[0027]
By the way, in such a recording apparatus 10, the cutting of the photosensitive material Z by the cutter 28 is possible and the cutting length is made accurate, and the cutting of the photosensitive material Z and the recording of the back print are performed by the scanning and conveying means. In order to prevent the load from fluctuating in the scanning conveyance and to make the scanning conveyance accurate, the distance from the cutter 28 to the recording position X and the distance of the photosensitive material Z from the printer 14 to the recording position X are determined by: The length needs to be longer than the length corresponding to the length of the maximum size print in the transport direction.
That is, it is necessary to secure a cut buffer and a pre-exposure buffer for separating these components.
[0028]
Here, if a non-contact type printer such as an ink jet printer is used as the printer 14, it is possible to prevent the printing of the back print from causing a load variation in the scanning conveyance, so that the pre-exposure buffer is moved from the cutter 28 to the printing position X. That is, the transport length (pass length) of the photosensitive material Z is shortened in accordance with the cut buffer.it can.
Therefore, thisUtilization allows the device to be more compact and less expensive, with favorable resultsobtain.
[0029]
A distribution device 18 is arranged downstream of the image recording unit 16. The sorting device 18 sorts the photosensitive material Z in a direction (hereinafter, referred to as a lateral direction) orthogonal to a transport direction (corresponding to a transport direction by the developing device), and supplies the photosensitive material Z to the developing device in a plurality of rows. .
At present, in general silver halide photographic light-sensitive materials used for photographic printing, development processing and exposure require more time for development processing. It is necessary to temporarily store the photosensitive material in a stocker or a reservoir.
The sorting device 18 is arranged to solve this inconvenience. The sorting device 18 sorts the photosensitive materials Z in the horizontal direction and divides the photosensitive materials Z into a plurality of rows overlapping in the transport direction, thereby improving the processing capacity of the developing machine. In the case of two rows, it is possible to perform a process slightly less than twice that of a single row, and in the case of three rows, it is possible to perform a process of slightly less than three times, thereby canceling the processing time difference between the development process and the exposure.
[0030]
In the present invention, the sorting device 18 is not particularly limited, and various sheet material sorting devices can be used. For example, as shown in FIG. 2, a sorting device using a turret 36 that rotates about a shaft 36a. For example, a device for dividing the photosensitive material Z in the transport direction into a plurality of, for example, three blocks, and moving the central transport block in the horizontal direction to distribute the photosensitive material Z is exemplified.
Further, as an apparatus capable of accommodating the photosensitive material in parallel with the exposure (scanning / conveying) by the image recording unit 16 and capable of efficiently and quickly sorting the photosensitive material Z over a short distance, the following short and long devices are available. A sorting device is preferably used.
[0031]
FIG. 3 shows an example.
This short and long sorting device 40As shown in FIG.The apparatus uses a belt conveyor and a half-moon roller (D-roller) formed by cutting a cylinder in the axial direction to form a plane on a part of the conveying surface. Five belt conveyors 42 (42a, 42b, 42c, 42d, and 42e) which are arranged at an interval from one another and are conveyed in the direction of the middle arrow a), and the photosensitive material Z arranged between the belt conveyors 42 Roller pair 44 (44a, 44b, 44c, and 44d) for sorting by transporting the roller in the lateral direction.
[0032]
As shown in FIG. 3B, when the photosensitive material Z is carried into the short and long sorting device 40 from the upstream, the half-moon roller pairs 44 are in a state where their flat portions face each other. Here, since the plane portion of the lower half-moon roller is set to be the same as or slightly below the conveying surface of the belt conveyor 42, there is no support for conveying the photosensitive material Z by the belt conveyor 42 or the like.
When the photosensitive material Z is conveyed to the predetermined position, the half-moon roller pair 44 then distributes the photosensitive material Z in the direction of distribution, i.e., clockwise when distributing the photosensitive material Z to the right in the figure, and conversely, when distributing to the left. Rotates counterclockwise. As shown in FIG. 3C, when the half-moon roller pair 44 rotates, the conveying surface of the lower half-moon roller projects above the conveying surface of the belt conveyor 42, so that the photosensitive material Z is lifted from the belt conveyor 42. Next, the half-moon roller pair 44 sandwiches the photosensitive material Z, conveys it in the horizontal direction, and sorts it.
[0033]
In addition, as such a short and long sorting device, a photosensitive material Z is placed on the belt conveyor as a transporting means for transporting the photosensitive material Z in the downstream direction, and the photosensitive material Z is lifted using a suction cup or the like and transported in the lateral direction. A short and long sorting device using a lift conveying means as a sorting means for sorting is also preferably exemplified.
In this short and long sorting device, when the photosensitive material Z has been exposed and is conveyed to a predetermined position on the belt conveyor, the lift conveying means is operated to lift the photosensitive material Z and move it sideways or diagonally sideways (downstream side). ) Direction and sort.
[0034]
In the sorting device using the turret 36 and the sorting device that moves by dividing the transport unit as described above, in order to prevent a load variation from being applied to the scanning and transport of the photosensitive material Z during exposure, a downstream of the recording position X is provided. It is necessary to provide a post-exposure buffer (pre-distribution buffer) indicated by the area A, and further to provide a post-distribution transport means (post-distribution buffer) downstream of the distribution device.
Here, since the scanning transport of the photosensitive material Z is normally a nipping transport by a roller or the like as described above, even if a part of the photosensitive material Z being exposed is placed on a driven belt conveyor, the scanning transport is performed. The applied load fluctuation is negligibly small. Therefore, by using the short and long sorting device as described above, the short and long sorting device can be arranged immediately after the recording position X without providing a post-exposure buffer. When the photosensitive material Z has been exposed and has been accommodated in the conveying means, it can be quickly sorted and conveyed downstream.
Therefore, the path length of the photosensitive material Z can be significantly reduced by using such a short and long sorting device. Moreover, in such a short and long sorting apparatus, it is not always necessary to make the transport speed of the belt conveyor coincide with the scanning transport speed of the photosensitive material Z.
[0035]
Although the example shown in FIG. 1 has such a sorting device 18 as a preferred embodiment, the image recording apparatus of the present invention is not limited to this, and the processing capability as a printing and developing machine (printer / processor) is not limited. Although it is inferior, as an inexpensive mode, a configuration in which the photosensitive material Z is supplied to the developing machine in a single row without the sorting device 18 may be used.
In this case, the arrangement may be such that the sorting device 18 is removed, a buffer after exposure is secured, and the exposed photosensitive material Z is transported to the processor.
[0036]
Further, the example shown in FIG. 1 has a configuration in which a back print is recorded before exposing the photosensitive material Z, but the present invention is not limited to this, and the back print is recorded after exposing the photosensitive material Z. It may be.
FIG. 1B shows an example.
[0037]
In this recording apparatus, a post-exposure buffer for the printer 14 is provided downstream of the recording position X (area A), the transport path is lowered to arrange the printer 14, and then the transport path is raised and the sorting device 18 is arranged. Then, the photosensitive material Z is transported to the processor in a plurality of rows. Note that, even in a configuration in which a back print is recorded after exposure in this manner, by using a non-contact type printer or a short-length sorting device, the transport path downstream from the recording position X can be linearized to shorten the path length. it can.
When the sorting device 18 is not arranged in this configuration, the transport path of the photosensitive material A downstream from the recording position X is linearized similarly to FIG. 1A, and the sorting device 18 in FIG. The printer 14 may be arranged at the position of.
[0038]
That is, according to the recording apparatus 10 of the present invention, the image recording section 16 is disposed above the photosensitive material supply section 12 and the transport path is configured so as to be on the recording surface (emulsion surface) at the recording position X. By taking advantage of the basic layout, various lineups can be easily configured in response to upgrades, cost reductions, and specification changes while maintaining the basic configuration.
[0039]
FIG. 4 shows a schematic diagram of an example of the image recording apparatus of the present invention.
Note that the image recording apparatus shown in FIG. 4 is an example in which the recording apparatus 10 shown in FIG. 1A is embodied. Therefore, the same members are denoted by the same reference numerals, and the description is embodied. The main part is performed. Further, in the image recording apparatus shown in FIG. 4, other than those shown in the figure, a conveying means of the photosensitive material Z such as a conveying roller, a conveying guide, a sensor, and the like are arranged as necessary.
[0040]
An image recording device 50 (hereinafter, referred to as a recording device 50) shown in FIG. 4A has a magazine built-in type in which loading units 20 and 22 for loading magazines 30 and 32 are set inside the recording device 50. It has a structure of.
The photosensitive material supply unit 12 having such a loading unit 20 and the like is disposed in a lower left portion of the housing 52 of the recording device 50 in the figure, and an image recording unit having an exposure unit 34 and a scanning conveyance unit 54 is disposed above the photosensitive material supply unit 12. 16 are arranged.
In the illustrated recording apparatus 50, the magazines 30 and 32 are loaded into the loading units 20 and 22, for example, by opening a lid on the front surface of the apparatus (on the front side of the paper) and moving the magazines 30 and 32 in a direction perpendicular to the paper. It is done by taking in and out.
[0041]
The photosensitive material Z pulled out of the magazines 30 and 32 loaded in the loading units 20 and 22 is transported almost vertically upward by the transporting means, and the transporting guide 56 bends the transporting path to the right by about 90 ° in the drawing. The recording paper is supplied to the scanning and conveying means 54 with the recording surface facing upward.
A cutter 28 and a printer 14 using an ink ribbon are arranged in the middle of the transport path. As described above, the conveyance of the photosensitive material Z is temporarily stopped when the length of the photosensitive material Z conveyed downstream from the cutter 28 becomes a length corresponding to the print size to be produced, and the cutter 28 operates. The sheet is cut into a predetermined length, and a back print is recorded by the printer 14 in parallel with the conveyance.
[0042]
As described above, the image recording unit 16 is configured to include the exposure unit 34 and the scanning and conveying unit 54.
In the illustrated example, as an example, the exposure unit 34 records a light beam modulated in accordance with a recording image and deflected in a main scanning direction (a direction perpendicular to the paper surface of FIG. 4) orthogonal to the scanning and conveying direction by the scanning and conveying means 54. The light beam scanning device for exposing the photosensitive material Z as the light L is located above the scanning and conveying means 54.
On the other hand, the scanning and conveying means 54 includes a pair of conveying rollers 58 and 60 disposed so as to sandwich the recording position X (scanning line), and an exposure and conveyance for holding the photosensitive material Z at the recording position X with higher accuracy. The photosensitive material Z is conveyed in a sub-scanning direction orthogonal to the main scanning direction by conveying roller pairs 58 and 60 while the photosensitive material Z is guided by the exposure conveying guide 62. Here, as described above, since the light beam is deflected in the main scanning direction, the photosensitive material Z is two-dimensionally scanned and exposed by the light beam to form a latent image.
[0043]
A distribution device 18 is arranged downstream of the image recording unit 16. The photosensitive material Z that has been exposed is sorted by the sorting device 18 in a direction (horizontal direction) orthogonal to the conveying direction, is arranged in a plurality of rows overlapping in the conveying direction, and is then conveyed to the processor 66 by the conveying roller pair 64. Then, respective processes such as a color developing tank, a bleach-fixing tank, and a washing tank according to the photosensitive material Z are performed, dried, and printed.
Here, in the recording apparatus shown in FIG. 4, by using the above-described short and long sorting apparatus as the sorting apparatus 18, the sorting apparatus 18 is disposed immediately after the recording position X, and the path length of the photosensitive material A is reduced. It is shortened.
[0044]
In the recording device 70 shown in FIG. 4B, the loading portions 20 and 22 are formed in a rack shape on the left side of the housing 72 in the drawing, and the magazines 30 and 32 are externally provided without the need to open the lid or the like. It has a configuration for loading.
Also, in this example, since the path lengths from each loading section to the recording position X are greatly different, cutters 28a and 28b are individually arranged for the loading sections 20 and 22, respectively.
The recording device 70 has basically the same configuration as the recording device 50 except for this point and the change of the conveyance path accompanying the recording device.
[0045]
In such a recording apparatus 70 as well, the image recording section 16 is disposed above the photosensitive material supply section 12, and the photosensitive material Z drawn from the magazines 30 and 32 is conveyed upward as in the above-described example. While being cut by the corresponding cutters 28a and 28b, and the printer 14 records a back print.
Next, the photosensitive material Z is bent to the right by the guide 74 to make the transport path almost horizontal, is sent to the scanning transport unit 54 with the recording surface facing upward, and is exposed in the image recording unit 16 according to the recorded image. .
The photosensitive material Z that has been exposed is sorted into a plurality of rows by the sorting device 18 and is conveyed to the processor 66 by the conveying roller pair 64 to be printed.
[0046]
FIG. 5 shows a schematic diagram of another example of the image recording apparatus of the present invention.
In the example shown in FIG. 5 as well, the same portions are denoted by the same reference numerals as those in the above-described example, and the description will be made mainly for portions different from those in the example. Further, in addition to the components shown in the drawings, a transporting unit for transporting the photosensitive material Z such as a transporting roller, a transporting guide, a sensor, and the like are arranged as necessary.
An image recording apparatus 80 (hereinafter, recording apparatus 80) shown in FIG. 5 has basically the same configuration as each of the above-described recording apparatuses, and includes a photosensitive material supply section 12, cutters 28a and 28b, a printer 14 , An image recording unit 16 disposed on the photosensitive material supply unit 12, and a short / long sorting device 82.
[0047]
In the recording device 80, the photosensitive material supply unit 12 has loading units 86 and 88 for loading two magazines 84 each containing the photosensitive material Z wound with the recording surface facing outward.
Here, in the recording apparatus 80 of the illustrated example, the pull-out roller pair 90 is built in the magazine 84. The drawer roller pair 90 is, for example, a drive roller on the upper side, and is engaged with a drive source of the drawer roller pair arranged in each of the loading portions when the magazine 84 is loaded at a predetermined position of the loading portions 86 and 88. You.
[0048]
There is no particular limitation on the means for engaging the pull-out roller pair 90 with the driving sources of the loading sections 86 and 88, and various known methods can be used.
For example, one end of the rotation shaft of the drive roller of the pull-out roller pair 90 extends to the outside of the magazine 84, and a pulley is disposed at the end thereof. When the magazine 84 is loaded at a predetermined position of the loading sections 86 and 88 using an elastic endless belt stretched on the endless belt, the pulley presses the endless belt so that the endless belt is wound around the pulley. A method of configuring an apparatus or the like and rotating the drawer roller pair 90 by rotation of an endless belt is exemplified.
Or instead of a pulleygearVarious methods can be used, such as a method of disposing the magazine 84 and engaging the magazine 84 with the gear of the driving source by loading the magazine 84.
[0049]
The photosensitive material Z pulled out of the magazine 84 of the loading section 88 and cut to a predetermined length by the cutter 28b is supplied to the loading section 88 by a first transport section 92 and a second transport section 94 each composed of a number of transport roller pairs. The photosensitive material Z pulled out from the magazine 84 and cut by the cutter 28a is both conveyed upward by the second conveying unit 94 and then conveyed rightward, and the image recording unit 16 with the recording surface facing upward. (Scan transport means 54).
[0050]
Here, the printer 14 is disposed in the middle of the second transport unit 94, and the back print is recorded by the printer 14 while the photosensitive material Z is transported by the second transport unit 94.
A loop forming section 98 is provided between the next transport rollers downstream of the printer 14 in the second transport section 94. That is, the second transport unit 94 is adjusted so as to transport the photosensitive material Z downstream of the loop forming unit 98 at the same speed as the scanning transport speed in the image recording unit 16 and upstream thereof at a slightly higher speed. The photosensitive material Z conveyed through the two conveying sections 94 forms a loop corresponding to the size of the photosensitive material Z in the loop forming section 98 as shown by a dotted line in the figure. As a result, the printer 14 and the image recording unit 16 are separated with a short path length, and highly accurate sub-scanning conveyance of the photosensitive material Z is realized.
[0051]
The image recording section 16 includes an exposure unit 34 and a scanning and conveying unit 54.
The scanning and conveying means 54 includes a pair of conveying rollers 58 and 60 disposed so as to sandwich the recording position (scanning line) X and an exposure for suitably holding the photosensitive material Z at the recording position X, as in the above-described apparatus. And a transport guide (omitted in FIG. 5).
[0052]
FIG. 6 is a schematic perspective view of the exposure unit 34.
The exposure unit 34 is a three-laser-beam incident light optical system (three-light source non-multiplexing optical system) that scans and exposes the photosensitive material Z using light beams of three primary colors, and includes a laser light source 100 (100R, 100G, 100B). AOM 102 (102R, 102G, 102B), polygon mirror 104, fθ lens 106, and mirror 108 are provided along the traveling direction of light beam L (Lr, Lg, Lb) emitted from laser light source 100. It is composed. In addition, in the exposure unit 34, other optical elements such as a light beam shaping lens and a condensing lens, a surface tilt correction optical system, an optical path changing mirror, and a sensor are arranged as necessary.
[0053]
The three-light-source non-multiplexing optical system in the illustrated example includes three lasers that emit light beams having predetermined wavelengths corresponding to red (R) exposure, green (G) exposure, and blue (B) exposure of the photosensitive material Z, respectively. Using a light source, a light beam L emitted from each laser light source is incident on one point of the reflection surface of the polygon mirror 104 at a slightly different angle (for example, about 4 °), is deflected in the main scanning direction, and is deflected on the photosensitive material Z. Is an optical system that forms an image at different angles on the same main scanning line and scans on the same main scanning line at time intervals.
For example, the laser light source 100R is a semiconductor laser (LD) that emits a light beam Lr having a wavelength of 662 nm for R exposure, and the laser light source 100G is a wavelength conversion using an SHG element that emits a light beam Lg of 532 nm for G exposure. The laser light source 100B is a wavelength conversion laser using an SHG element that emits a light beam having a wavelength of 473 nm for B exposure.
[0054]
The AOM 102 modulates the light beam L emitted from the laser light source 100 according to an image to be recorded. The light beam L modulated by the AOM 102 then enters the same point on the reflection surface of the polygon mirror 104 and is deflected, so that the fθ lens 106 forms an image correctly at any of the recording positions X (main scanning lines). The light beam L reflected by the mirror 108 is incident on an exposure position X (scanning line) on the photosensitive material Z that is sub-scanned and conveyed by the scanning and conveying unit 76.
[0055]
Downstream of the image recording section 16, a short / long sorting device 82 is arranged.
The short and long sorting device 82 is a sorting device that uses the above-described belt conveyor and a lift conveyance unit that uses a suction cup.
Specifically, the short / long sorting device 82 includes a belt conveyor 110 as a transporting unit that places the photosensitive material Z and transports the photosensitive material Z downstream, and a narrow width disposed at the center of the belt conveyor 110 in the horizontal direction. It comprises an auxiliary belt conveyor 112 and a sorting means 114.
[0056]
The belt conveyor 110 and the auxiliary belt conveyor 112 do not pinch and convey the photosensitive material Z, and the auxiliary belt conveyor 112 is arranged at a slight distance from the belt conveyor 110. That is, the auxiliary belt conveyor 112 suppresses the curl (curvature) of the photosensitive material Z, and assists the conveyance by the belt conveyor 110 and the suction holding of the photosensitive material Z by the sorting means 114 (suction units 116 and 118).
The transport speed of the belt conveyor 110 and the auxiliary belt conveyor 112 is set slightly higher than the scanning transport speed. Thus, the influence of the driving of the belt conveyor 110 and the auxiliary belt conveyor 112 on the scanning and conveying of the photosensitive material Z can be more reliably eliminated.
[0057]
The distribution means 114 has two suction units 116 and 118 having two suction cups connected to suction means (not shown).
The suction units 116 and 118 are arranged so as to sandwich the auxiliary belt conveyor 112 in the lateral direction. The suction unit 116 on the near side of FIG. 5 sucks and holds the photosensitive material Z slightly and lifts it, moves it obliquely downstream in the right direction (that is, on the near side of the paper) in the transport direction of the photosensitive material Z, and then releases the suction. Then, the photosensitive material Z is distributed to the right. On the other hand, the suction unit 118 on the back side similarly lifts the photosensitive material Z, moves it diagonally to the left, and distributes it to the left.
Therefore, the auxiliary belt conveyor 112 uses an endless belt having a width that allows the suction units 116 and 118 to suck and hold the photosensitive material Z even when the photosensitive material Z having the minimum size in the horizontal direction comes.
[0058]
The moving means of the suction units 116 and 118 are not particularly limited, and may be a moving means using a link, a moving means using a cam, a moving means using a guide rail or a guide hole, a moving means appropriately combining these, and the like. Various known methods can be used.
[0059]
After the exposure, the photosensitive material Z is discharged onto the belt conveyor 110.54When the sheet is nipped by the (transport roller pair 60), the sheet is conveyed by the scanning conveying means.54And the speed is the scanning conveyance speed. The photosensitive material Z is a scanning transport means54When the sheet is conveyed to a predetermined position by the belt conveyor 110, the sheet is held and lifted by the suction units 116 and 118 as needed, and is sorted right or left.
For example, the photosensitive material Z can be sorted into three rows by sequentially repeating the rightward sorting by the suction unit 116, the leftward sorting by the suction unit 118, and the linear transport without sorting. The photosensitive material Z can be distributed in two rows by alternately performing left and right distribution by the suction units 116 and 118.
[0060]
In the image recording apparatus of the present invention, in addition to the recording apparatus 80 in the illustrated example, not all the photosensitive materials Z are sorted, but a large size that cannot be processed in a plurality of rows or a single-shot processing is performed. When performing, the photosensitive material Z is supplied to the processor 24 in a single row without sorting.
Also, when performing the sorting, the entire size is not sorted into the same number of rows, but according to the size of the photosensitive material Z, for example, the L size is sorted into a different number of rows, such as 3 rows of 6 rows and 2 rows of 6 pieces. May be performed.
[0061]
The photosensitive material Z discharged from the short / long sorting device 82 is supplied to the processor 66 by the transport roller pair 64.
[0062]
As described above, the image recording apparatus of the present invention has been described in detail, but the present invention is not limited to the above examples, and various improvements and changes may be made without departing from the spirit of the present invention. It is.
[0063]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to realize an image recording apparatus used for a digital photo printer or the like, which performs digital exposure and back print recording after forming a photosensitive material into a cut sheet. In addition, a compact and efficient image recording apparatus is provided which is excellent in maintainability, can easily perform upgrade, cost reduction, change of specifications, and the like.
[Brief description of the drawings]
FIGS. 1A and 1B are conceptual diagrams illustrating a basic configuration of an example of an image recording apparatus according to the present invention.
FIG. 2 is a conceptual diagram showing an example of a photosensitive material sorting unit used in the image recording apparatus of the present invention.
FIGS. 3A, 3B and 3C are schematic views of another example of a photosensitive material sorting means used in the image recording apparatus of the present invention, wherein FIG. (B) and (c) are side views.
FIGS. 4A and 4B are schematic diagrams each showing an example of the image recording apparatus of the present invention.
FIG. 5 is a schematic view of another example of the image recording apparatus of the present invention.
6 is a schematic perspective view of an exposure unit of the image recording device shown in FIG.
[Explanation of symbols]
10, 50, 70, 80 (image) recording device
12 photosensitive material supply section
14 Printer
16 Image recording unit
18 Sorting device
20, 22, 86, 88 Loading section
24,26,90 Pull-out roller pair
28, 28a, 28b cutter
30, 32, 84 Magazine
34 Exposure Unit
40,82 Short and long sorting device
42 (42a, 42b, 42c, 42d) belt conveyor
44 (44a, 44b, 44c, 44d) Half Moon Roller Pair
52,72 housing
54 Scanning conveyance means
56, 74 Guide
58, 60, 64 transport roller pair
62 Exposure transport guide
66 processor
92 First transport unit
94 Second transport unit
98 Loop forming part
100 (100R, 100G, 100B) Light beam light source
102 (102R, 102G, 102B) AOM
104 polygon mirror
106 fθ lens
108 mirror
110 belt conveyor
112 Auxiliary belt conveyor
114 Distribution means
116,118 Suction unit

Claims (15)

A photosensitive material having a loading section for loading a photosensitive material magazine in which a long photosensitive material is wound into a roll and housed in a light-shielding housing, and a drawer for extracting the long photosensitive material from the photosensitive material magazine A supply unit;
A cutter for cutting the long photosensitive material drawn by the drawing means,
The cut photosensitive material, which is scanned and conveyed by the scan conveying means, is exposed by a recording light modulated according to a digital image signal while scanning and conveying the cut photosensitive material at a predetermined recording position. Having an exposure unit, an image recording unit located above the photosensitive material supply unit,
A transport unit that transports the cut photosensitive material from the cutter to the scanning transport unit so that the recording surface of the cut photosensitive material faces upward at the recording position, and that transports the photosensitive material after exposure to the next step. ,
Are arranged in the conveying path of the cutting photosensitive material by said conveying means, possess a back printing section to record the back print on the non-recording surface of the cutting photosensitive material,
The image recording unit includes a cut buffer for preventing the cutting of the long photosensitive material by the cutter from causing a load change in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit, from the cutter to the recording position. Arranged so as to be secured by a transport path of the cut photosensitive material by the transport unit,
When the back print unit uses a contact type printer, a pre-exposure buffer or an exposure buffer that prevents the recording of the back print from causing a load variation in the scanning conveyance of the cut photosensitive material by the scanning conveyance unit. The rear buffer is arranged on the upstream side or the downstream side of the recording position, respectively, so as to be secured by a conveying path of the cut photosensitive material by the conveying unit between the back print unit and the recording position. An image recording apparatus, comprising: A photosensitive material having a loading section for loading a photosensitive material magazine in which a long photosensitive material is wound into a roll and housed in a light-shielding housing, and a drawer for extracting the long photosensitive material from the photosensitive material magazine A supply unit;
A cutter for cutting the long photosensitive material drawn by the drawing means,
The cut photosensitive material, which is scanned and conveyed by the scan conveying means, is exposed by a recording light modulated according to a digital image signal while scanning and conveying the cut photosensitive material at a predetermined recording position. Having an exposure unit, an image recording unit located above the photosensitive material supply unit,
A transport unit that transports the cut photosensitive material from the cutter to the scanning transport unit so that the recording surface of the cut photosensitive material faces upward at the recording position, and that transports the photosensitive material after exposure to the next step. ,
A back print unit that records a back print on a non-recording surface of the cut photosensitive material, which is disposed in a transfer path of the cut photosensitive material by the transfer unit,
The image recording unit includes a cut buffer for preventing the cutting of the long photosensitive material by the cutter from causing a load change in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit, from the cutter to the recording position. Arranged so as to be secured by a transport path of the cut photosensitive material by the transport unit,
The back print unit has a contact type printer, a buffer before exposure or a buffer after exposure that prevents the recording of the back print from causing a load variation in the scanning conveyance of the cut photosensitive material by the scanning conveyance unit. The cutting photosensitive material is arranged on the upstream side or the downstream side of the recording position so as to be secured by a conveying path of the cut photosensitive material by the conveying unit between the back print unit and the recording position. Image recording device. 3. The image recording apparatus according to claim 1, wherein the back print unit is disposed in a transport path of the transport unit from the cutter to the scan transport unit, which is located above the photosensitive material supply unit. 4. The scanning and transporting means is for transporting the cut photosensitive material in a lateral direction, and the transporting means transports the cut photosensitive material upward from the cutter, and thereafter, in the horizontal direction to the scanning and transporting means. the image recording apparatus according to any one of claims 1 to 3 for transporting a. 5. The image recording apparatus according to claim 4 , wherein the back print unit is arranged on the transport path in the lateral direction in the transport path by the transport unit from the cutter to the scan transport unit. It said conveying means, an image recording apparatus according to any one of claims 1 to 5 having a conveying path for conveying the cut photosensitive material between from the scanning transport means to the next step in the transverse direction. The next step, developing machine, the image recording apparatus according to any one of claims 1 to 6 which is a step of performing development processing and drying process on the exposed photosensitive material. The light-sensitive material supply section, an image recording apparatus according to any one of claims 1 to 7 intended for loading one or two of the photosensitive material magazine. The image recording apparatus according to any one of claims 1 to 8 , further comprising: a cutting photosensitive material that is downstream of the image recording unit in a direction in which the cutting photosensitive material is conveyed, and that is orthogonal to a conveying direction of the conveying unit. An image recording apparatus, comprising: a sorting unit that sorts a plurality of rows by sorting the rows. A photosensitive material having a loading section for loading a photosensitive material magazine in which a long photosensitive material is wound into a roll and housed in a light-shielding housing, and a drawer for extracting the long photosensitive material from the photosensitive material magazine A supply unit;
A cutter for cutting the long photosensitive material drawn by the drawing means,
A scanning transport unit that scans and transports the cut photosensitive material in a horizontal direction while holding the cut photosensitive material at a predetermined recording position; and the cut photosensitive material that is scanned and transported by the scanning transport unit with recording light modulated according to a digital image signal. Having an exposure means for exposing, an image recording unit located above the photosensitive material supply unit,
The cut photosensitive material is transported upward from the cutter so that the recording surface of the cut photosensitive material faces upward at the recording position, and then is transported in the horizontal direction to the scanning transport unit, and the exposed photosensitive material is exposed. Transport means for transporting the scanning transport means to the developing device,
Above the photosensitive material supply unit, in the transport path of the cutting photosensitive material by the transport unit from the cutter to the scanning transport unit, the cut photosensitive material is disposed in the lateral transport path. A backprint unit for recording the backprint on the non-recording surface of the
In the transport path of the cutting photosensitive material by the transport unit from the scanning transport unit to the developing device, the cut photosensitive material is disposed in the lateral transport path and is orthogonal to the transport direction by the transport unit. It distributes the material possess a distributing means for the plurality of rows,
The image recording unit includes a cut buffer for preventing the cutting of the long photosensitive material by the cutter from causing a load change in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit, from the cutter to the recording position. Arranged so as to be secured by a transport path of the cut photosensitive material by the transport unit,
The back print unit, when a contact type printer is used, a buffer before exposure that prevents the recording of the back print from giving a load variation to the scanning conveyance of the cut photosensitive material by the scanning conveyance unit, image recording apparatus, wherein the one in which the back printing section is arranged so as to ensure the transport path of the cutting photosensitive material by said conveyance means to said recording position. A photosensitive material having a loading section for loading a photosensitive material magazine in which a long photosensitive material is wound into a roll and housed in a light-shielding housing, and a drawer for extracting the long photosensitive material from the photosensitive material magazine A supply unit;
A cutter for cutting the long photosensitive material drawn by the drawing means,
A scanning transport unit that scans and transports the cut photosensitive material in a horizontal direction while holding the cut photosensitive material at a predetermined recording position; and the cut photosensitive material that is scanned and transported by the scanning transport unit with recording light modulated according to a digital image signal. Having an exposure means for exposing, an image recording unit located above the photosensitive material supply unit,
The cut photosensitive material is transported upward from the cutter so that the recording surface of the cut photosensitive material faces upward at the recording position, and then is transported in the horizontal direction to the scanning transport unit, and the exposed photosensitive material is exposed. Transport means for transporting the scanning transport means to the developing device,
Above the photosensitive material supply unit, in the transport path of the cutting photosensitive material by the transport unit from the cutter to the scanning transport unit, the cut photosensitive material is disposed in the lateral transport path. A backprint unit for recording the backprint on the non-recording surface of the
In the transport path of the cutting photosensitive material by the transport unit from the scanning transport unit to the developing device, the cut photosensitive material is disposed in the lateral transport path and is orthogonal to the transport direction by the transport unit. Sorting means for sorting the material into a plurality of rows,
The image recording unit includes a cut buffer for preventing the cutting of the long photosensitive material by the cutter from causing a load change in the scanning and transporting of the cut photosensitive material by the scanning and transporting unit, from the cutter to the recording position. Arranged so as to be secured by a transport path of the cut photosensitive material by the transport unit,
The back print unit includes a contact type printer, and includes a pre-exposure buffer that prevents the recording of the back print from causing a load variation in the scan conveyance of the cut photosensitive material by the scan conveyance unit. An image recording apparatus which is arranged so as to be secured by a conveying path of the cut photosensitive material by the conveying means from a section to the recording position. The image recording apparatus according to claim 10 , wherein the photosensitive material supply unit is configured to load one or two photosensitive material magazines. The photosensitive material supply unit is housed in a housing that houses the cutter, the image recording unit, the conveyance unit, and the back print unit, and is disposed in the housing below the scanning conveyance unit of the image recording unit. the image recording apparatus according to any one of the is claims 1-12 ones. The photosensitive material supply unit is housed in a housing that houses the cutter, the image recording unit, the conveyance unit, the back print unit, and the sorting unit, and in the housing below the scanning conveyance unit of the image recording unit. The image recording apparatus according to any one of claims 9 to 12 , wherein the image recording apparatus is arranged at a position corresponding to the image recording apparatus. The image recording apparatus according to any one of claims 1 to 14, wherein the cut buffer, the pre-exposure buffer, and the post-exposure buffer have a length equal to or longer than a maximum length of the cut photosensitive material in a conveying direction by the conveying unit.

Images