JP2004177685A - Photograph processing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize the diversification of a photograph processing system in which an image is formed or a photograph sheet on which an image is formed is processed into a predetermined form with a laser irradiation by allowing the free variation of the form or the like of the photograph sheet on which the photograph is formed. <P>SOLUTION: The system is composed such that the photograph sheet is produced with a laser printer 12 on the basis of an electronic image data picked up with a pickup camera 18, the picked up data are displayed on a touch panel 16 via a CRT 13 and a half mirror 17, and a cutting condition is set and inputted from the touch panel 16, and a cutting process is performed with a laser irradiating means 14 on the basis of the input condition by continuously or intermittently irradiating the photography sheet with the laser beam on a processing stage 15 in a state of a full cut of a penetrating form or a half cut of a nonpenetrating form, and a processing unit 19 controls the process. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a photographic processing system in which an image is formed or a photographic sheet on which an image is formed is subjected to predetermined shape processing by laser irradiation.
[0002]
[Prior art]
In recent years, for example, amusement photo production machines that perform printing on the spot from shooting have become widespread. There are various types of such photographic production machines, from those that shoot the upper body to those that shoot the whole body. The photographic label sheet on which the image is formed is also the image forming paper itself, or an adhesive is formed on these to release paper. There are various types of so-called photographic stickers provided. The following patent document is known as a configuration of such a photographic production machine.
[0003]
[Patent Document 1]
JP 2000-29118 A
[Patent Document 2]
JP 2000-92480 A
[0004]
In any of the above-mentioned Patent Documents 1 and 2, a photographing machine, a half mirror, a display, a printer, and a computer are provided as the main components of the photo production machine. In other words, the initial screen is displayed on the monitor via the half mirror from the display, and the camera (photographer who wants to take a picture) takes a picture with the camera via the half mirror, and the printer immediately prints based on the photographed data. To print.
[0005]
[Problems to be solved by the invention]
However, the conventional photo production machine can be selected within a pattern in which the number of impositions is set for one sheet of image forming paper, but the image forming paper has a predetermined shape and size, There is a problem that photographing can be performed only with a predetermined image forming paper.
[0006]
Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a photographic processing system that can be diversified by freely changing the shape or the like of a photographic sheet on which an image is formed.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, in the invention of claim 1, a printing means for producing a photographic sheet by forming an image based on the imaging data on a predetermined image forming sheet based on the input electronic imaging data Display means for displaying the image of the imaged data; input means for setting a predetermined cutting process condition for at least the image displayed by the display means; and setting for the photographic sheet by the input means Laser irradiation means for performing the predetermined cut processing by laser irradiation based on the predetermined cut processing target, and at least forming the photographic sheet based on the imaging data and displaying the formed image to cut the cut And a processing control means for controlling processing for setting a processing target and performing the laser irradiation.
[0008]
In inventions of claims 2 to 5, "the photographic sheet is a single sheet or a label sheet provided with a release paper by applying an adhesive",
“The cut process is performed continuously or discontinuously by a full cut in a penetrating form or a half cut in a non-penetrating form with respect to the photographic sheet”,
“The first image pickup means for picking up an image of a predetermined subject as the electronic image pickup data is input”,
“The electronic imaging data is stored in the storage means, and the image input means for acquiring the imaging data from the storage means is provided”.
[0009]
According to the sixth aspect of the present invention, a second image pickup unit that includes a predetermined photosensitive film and images a predetermined subject, and develops the imaged photosensitive film to form an image on a predetermined image forming sheet. Printing means for producing a photographic sheet; first imaging means for obtaining electronic imaging data by taking an image on the photographic sheet; display means for displaying an image of the imaging data; at least the display Input means for setting a predetermined cutting condition for the image displayed by the means, and for the photographic sheet, the predetermined cutting by laser irradiation based on the predetermined cutting condition set by the input means. Laser irradiation means for processing, and at least the second imaging means is used to produce a photographic sheet from the photosensitive film, and formation of the photographic sheet A processing control unit that obtains electronic imaging data from the first imaging unit, displays a formed image based on the imaging data, sets the cutting processing conditions, and controls processing for performing the laser irradiation. It is set as the structure which has these.
[0010]
According to a seventh aspect of the present invention, a capturing unit that captures a photographic sheet on which an image is formed, a first imaging unit that captures an image on the captured photographic sheet to obtain electronic imaging data, and the imaging data Display means for displaying the image, input means for setting a predetermined cutting condition for at least the image displayed by the display means, and a predetermined set by the input means for the photographic sheet Laser irradiation means for performing the predetermined cut processing by laser irradiation based on the cutting processing conditions, and at least the photographic sheet is captured and the formed image is displayed based on the captured imaging data to set the cutting processing conditions And processing control means for controlling processing for performing the laser irradiation.
[0011]
In the inventions of claims 8 and 9, "the photographic sheet is a single sheet or a label sheet provided with a release paper by applying an adhesive",
“The cutting process is performed continuously or discontinuously on the photographic sheet by a full cut in a penetrating form or a half cut in a non-penetrating form”.
[0012]
Thus, in the inventions of claims 1 to 5, a single sheet or a photographic sheet of a label sheet based on the electronic image data input by being imaged by the first imaging means or stored in the storage means In addition, the formation image is displayed and the cutting processing conditions are set, and based on this, laser irradiation is performed continuously or discontinuously with the full cut in the penetrating form or the half cut in the non-penetrating form on the photographic sheet. To cut. In other words, since the photographic sheet is cut by laser irradiation under a predetermined condition set by the acquired imaging data, it is possible to diversify the shape of the photographic sheet on which the image is formed, and the like. Is.
[0013]
In the inventions of claims 6 and 9, a photographic sheet is produced from a photosensitive film obtained by imaging a predetermined subject, and electronic imaging data is obtained from a formed image of the photographic sheet, and formed based on the imaging data. An image is displayed to set a cutting process condition, and based on this, a cut process is performed by continuously or discontinuously irradiating a photographic sheet with a full cut in a penetrating form or a half cut in a non-penetrating form. That is, since the photographic sheet is cut by laser irradiation under a predetermined condition set from imaging data obtained from a photographic sheet produced from a photosensitive film, the shape of the photographic sheet on which an image is formed as described above. It is possible to diversify by changing the above.
[0014]
Furthermore, in the inventions according to claims 7 to 9, a photograph sheet on which an image is formed is taken in, and based on the captured image data, the formed image is displayed to set a cutting process condition. Cutting is performed by laser irradiation continuously or discontinuously by a full cut in a penetrating form or a half cut in a non-penetrating form. That is, since the photographic sheet is cut by laser irradiation under a predetermined condition set by imaging data acquired from the photographic sheet on which an image has already been formed, the shape of the photographic sheet on which the image has been formed as described above. It is possible to diversify by changing the above.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. In the first embodiment, the second embodiment, and the fourth embodiment of the present embodiment, the case where the present invention is applied to a photographic label sheet on which a photographic image is formed as a photographic sheet is shown, but the present invention is also applicable to a single photographic sheet. It is something that can be done.
[0016]
FIG. 1 shows a block diagram of a first embodiment of a photographic processing system according to the present invention. FIG. 1A is a schematic configuration diagram of a photographic processing system, and FIG. 1B is a block configuration diagram of the photographic processing system. 1A, a photo processing system 11 includes a laser printer 12 as a printing unit, a CRT 13 as a display unit, a laser irradiation unit 14, a processing stage 15, a touch panel 16 as an input unit, and a half mirror 17 in a housing. The image pickup camera 18 as the first image pickup means and the control unit 19 as the processing control means for controlling them are appropriately provided, and the discharge port 20 is formed. The means for transporting the photographic sheet produced by the laser printer 12 to the processing stage 15 and transporting from the processing stage 15 to the discharge port 20 is not shown.
[0017]
The laser printer 12 includes an image forming sheet 12A having an adaptive property and a predetermined size. The image data captured by the imaging camera 18 on the image forming sheet 12A based on the input electronic image data. A photographic sheet is prepared by forming an image according to the above. The printing means may be any printer that can print on demand, and may be applied to, for example, an ink jet printer. Further, the image forming sheet 12A is not limited to upper body photographing, and is appropriately selected and provided with a size corresponding to whole body photographing. Here, as described above, the label sheet (the configuration will be described with reference to FIG. 2). Is used, and an image is printed on this to form a photographic label sticker.
[0018]
The CRT 13 displays a predetermined setting screen for laser processing, image data captured by the imaging camera 18, and the like. As the display means 13, a liquid crystal panel may be used instead of the CRT. The laser irradiation means 14 includes a laser oscillator and a galvano scanner. ₂ There are known oscillation means such as a laser, a YAG laser, a UV laser, and an excimer laser. As a laser beam scanning method, an XY plotter method or the like may be applied in addition to the galvano method.
[0019]
The touch panel 16 is a generally known panel type input device, and the screen displayed on the CRT 13 is displayed via the half mirror 17. The half mirror 17 is for displaying the display screen of the CRT 13 on the touch panel 16 and for taking a picture of a touch panel operator (photographer who desires) by the imaging camera 18 as a subject. The imaging camera 18 can output a captured image as electronic imaging data. For example, a generally known CCD camera can be used.
[0020]
The control unit 19 controls at least the processing of each component, and as shown in FIG. 1 (B), the control processing means 21, bus 22, interface (IF) 23, input data processing means 24, CRT A drive control unit 25, a camera drive control unit 26, an imaging data acquisition unit 27, a printer drive control unit 28, a laser irradiation file creation unit 29, and a laser irradiation drive control unit 30 are provided as appropriate.
[0021]
The control processing means 21 controls the system as a whole, and stores a program therefor. The IF 23 outputs a drive control signal to the laser printer 12, the laser irradiation means 14, and the like, inputs imaging data from the imaging camera 18, and inputs predetermined setting data as a laser irradiation condition from the touch panel 16. . The input data processing means 24 has a laser processing shape (irradiation region) and form (full cut in penetration form by laser irradiation, half cut in non-penetration form) based on processing conditions such as setting data input from the touch panel 16. , Continuous irradiation, discontinuous irradiation, etc.).
[0022]
The CRT drive control means 25 generates and outputs display data for displaying the screen or the like on the CRT 13 in order to display a predetermined screen or an imaging screen based on the imaging data on the touch panel 16. The camera drive control means 26 generates and outputs a drive control signal for driving the imaging camera 18. The imaging data acquisition unit 27 includes a buffer as appropriate, acquires imaging data captured by the imaging camera 18, and develops the data in, for example, a bitmap shape.
[0023]
The printer drive control means 28 creates an image file adapted to the printing method for the laser printer 12 based on the acquired imaging data, and outputs the print data to the laser printer 12 based on the image file. . The laser irradiation file creation means 29 is a processing data file for laser processing based on the imaging data acquired by the imaging data acquisition means 27 and the shape and form of laser processing specified by the input data processing means 24. Create The laser irradiation drive control means 30 drives and controls the laser irradiation means 14 based on the created processing data file.
[0024]
Here, FIG. 2 shows an explanatory diagram of a processing form in the photographic processing system of FIG. In FIG. 2A, a photographic label sheet 31A as a photographic sheet is one in which an adhesive 33 is applied to the back surface of a photographic forming substrate 32 and a release paper 34 is provided. In this state, for example, the laser printer 12 Will be printed. The photo forming substrate 32 is made of a material suitable for the laser printer 12, and for example, art paper or coated paper suitable for photo printing is applied.
[0025]
A subject image 35 is printed on the photo-forming substrate 32 by the laser printer 12, and a laser processing line 36 is formed as a predetermined shape surrounding the subject image 35 by setting input data as a laser irradiation condition from the touch panel 16, for example. Is set and input, and laser irradiation is performed along the laser processing line 36. In this case, the photo-forming substrate 32 and the adhesive 33 are formed into a full cut in a penetrating form by continuous laser irradiation, and the entire photo label sheet 31A is formed into a non-penetrating half-cut.
[0026]
In FIG. 2B, a photographic label sheet 31B as a photographic sheet has the same structure as described above, and a predetermined number of individual subject images 35 are printed on the same surface by the laser printer 12. For example, according to setting input data A laser processing line 36 is set as a predetermined shape for separating a predetermined number of subject images 35, and laser irradiation is performed along the laser processing line 36. In this case, it is shown that the photo-forming substrate 32, the adhesive 33 and the release paper 34 are formed by a full cut (or a half cut) in a penetrating form by discontinuous laser irradiation.
[0027]
Further, in FIG. 2C, a photographic label sheet 31C as a photographic sheet has the same configuration as described above, and the subject image 35 of the whole body image is printed by the laser printer 12. For example, the whole body image of the whole body image is printed by setting input data. A laser processing line 36 is set as a predetermined shape along the contour, and laser irradiation is performed along the laser processing line 36. In this case, for example, the photographic substrate 32 and the adhesive 33 may be formed as a full cut in a penetrating form by a continuous laser irradiation, and the photographic label sheet 31A may be formed in a non-penetrating half cut. The adhesive 33 and the release paper 34 may be formed by a full cut in a penetrating form.
[0028]
FIG. 3 shows a flowchart of photographic processing in the photographic processing system in FIG. In FIG. 3, first, the CRT drive control means 25 displays an initial screen on the CRT 13 in accordance with an instruction from the control processing means 21 in the control unit 19 to display on the touch panel 16 via the half mirror 17 (step (S)). 1). For example, the initial screen is a display screen such as a selection touch button for starting the photographing of the operator (photographer). In addition, as a display timing of the initial screen, a coin mechanism (not shown) may be provided to issue a display command when a coin is inserted.
[0029]
Therefore, when a shooting input signal is input from the touch panel 16, the imaging camera 18 is driven by the camera drive control unit 26, whereby a subject (a person who wants to shoot) on the front surface of the touch panel 16 is imaged via the half mirror 17 ( S2). When the imaging data acquired by the imaging camera 18 is acquired by the imaging data acquisition means 27 (S3), a screen on which the CRT drive control means 25 sets a processing shape, a processing form, and the like based on the imaging data is displayed on the CRT 13. By displaying the image on the touch panel 16, the printer drive control unit 28 causes the laser printer 12 to print the label sheet (image forming sheet) 12 </ b> A on the basis of the imaged data, thereby forming the photo label sheet 31 as the processing stage 15. (S4).
[0030]
As the processing shape, for example, as shown in FIGS. 2A to 2C, the shape of the laser processing line 36 and the like. As the processing form, for example, processing by laser irradiation is full cut, half cut, laser The scan may be continuous or discontinuous. The laser output is adjusted depending on whether the laser processing is full cut or half cut, and the irradiation timing is adjusted depending on whether the laser scan is continuous or discontinuous.
[0031]
Subsequently, when setting input data such as the processing shape and processing form, which are laser irradiation conditions from the touch panel 16, are input, the input data processing means 24 specifies the processing shape portion on the imaging data and performs processing. By specifying the form, the laser irradiation file creating means 29 creates a laser irradiation file relating to laser irradiation (S5).
[0032]
Based on the laser irradiation file, the laser irradiation drive control means 30 controls the laser irradiation means 14 to drive the photographic label sheet 31 on the processing stage 15 under the conditions of the set processing shape and processing form. Laser processing is performed (S6). Then, as shown in FIGS. 2A to 2C, the laser-processed photo label sheet 31 is discharged from the discharge port 20 (S7).
[0033]
As described above, the photo label sheet 31 is cut by laser irradiation under a predetermined condition set by the image data captured by the imaging camera 18 and printed on the photo label sheet 31, so that the photograph in which the image 35 is formed. The label sheet 31 can be diversified by freely changing the shape and the like.
[0034]
Next, FIG. 4 shows a configuration diagram of a second embodiment of the photographic processing system according to the present invention. 4A is a schematic configuration diagram of the photographic processing system, and FIG. 4B is a block configuration diagram of the photographic processing system. 4A, the photographic processing system 41 omits the imaging camera 18 (same for the camera drive control means 26 of the control unit 19) in the photographic processing system 11 shown in FIGS. 1A and 1B. The body is provided with a memory connection terminal 42 as an image input means electrically connected to the IF 23 of the control unit 19.
[0035]
When a memory 43 that is a storage unit that stores imaging data in the memory connection terminal 42 is inserted (set), the imaging data acquisition unit 27 of the control unit 19 performs the imaging data acquisition unit 27 on the basis of the signal at the time of insertion. More image data is acquired. Other configurations are the same as those of the photo processing system 11 shown in FIGS. 1A and 1B, and a description thereof will be omitted.
[0036]
FIG. 5 shows a flowchart of photographic processing in the photographic processing system in FIG. 5, first, for example, when a coin is inserted into a coin mechanism (not shown), the CRT drive control means 25 displays an initial screen on the CRT 13 in accordance with a command from the control processing means 21 in the control unit 19, whereby the half mirror 17 is displayed. Via the touch panel 16 (S11). As an initial screen in this case, for example, there is a display of a message or the like for prompting memory insertion into the memory connection terminal 42.
[0037]
When the memory 43 is inserted into the memory connection terminal 42, the CRT drive control means 25 targets any imaging data among a predetermined number of imaging data stored in the memory 43 with respect to the CRT 13 by the insertion signal. Such a screen is displayed on the touch panel 16 via the half mirror 17 (S12).
[0038]
When the imaging data selected from the touch panel 16 is acquired by the imaging data acquisition unit 27 (S13), a screen on which the CRT drive control unit 25 sets a processing shape, a processing form, and the like is displayed on the CRT 13 based on the imaging data. And the printer drive control unit 28 causes the laser printer 12 to print the label sheet (image forming sheet) 12A on the processing stage 15 as a photographic label sheet 31 based on the image data. (S14).
[0039]
Subsequently, when setting input data such as the processing shape and processing form, which are laser irradiation conditions from the touch panel 16, are input, the input data processing means 24 specifies the processing shape portion on the imaging data and performs processing. By specifying the form, the laser irradiation file creating means 29 creates a laser irradiation file related to laser irradiation (S15).
[0040]
Based on the laser irradiation file, the laser irradiation drive control means 30 controls the laser irradiation means 14 to drive the photographic label sheet 31 on the processing stage 15 under the conditions of the set processing shape and processing form. Laser processing is performed (S16). Then, as shown in FIGS. 2A to 2C, the laser-processed photo label sheet 31 is discharged from the discharge port 20 (S17).
[0041]
Thus, even when printing on the photographic label sheet 31 based on the imaging data stored in the memory 43, the photographic label sheet 31 is cut by laser irradiation under a predetermined condition set by the imaging data. As a result, the shape and the like of the photographic label sheet 31 on which the image 35 is formed can be changed and can be diversified.
[0042]
Next, FIG. 6 shows a configuration diagram of a third embodiment of the photographic processing system according to the present invention. 6A is a schematic configuration diagram of the photographic processing system, and FIG. 6B is a block configuration diagram of the photographic processing system. 6A, a photographic processing system 51 uses the imaging camera 18 in the photographic processing system 11 shown in FIGS. 1A and 1B as a first camera 18 as a first imaging means on the processing stage 15. The second camera 52 is arranged as a second imaging unit that is arranged and images a subject in front of the touch panel 16.
[0043]
The second camera 53 captures an image with a photosensitive film, and includes a development printing device 53 instead of the laser printer 12. The image forming sheet printed by the development printing apparatus 53 is so-called photographic paper 53A, which is produced as a single photographic sheet. Further, according to the above configuration, in the control unit 19, the camera drive control means 61 controls the driving of the first camera 18 and the second camera 52. Further, a development print control means 62 for driving and controlling the development printing apparatus 53 is provided. Other configurations are the same as those of the photo processing system 11 shown in FIGS. 1A and 1B, and a description thereof will be omitted.
[0044]
FIG. 7 shows a flowchart of photographic processing in the photographic processing system in FIG. In FIG. 7, first, the CRT drive control means 25 displays an initial screen on the CRT 13 in accordance with a command from the control processing means 21 in the control unit 19 to display on the touch panel 16 via the half mirror 17 (S21). For example, the initial screen is a display screen such as a selection touch button for starting the photographing of the operator (photographer). Similarly to the above, as an initial screen display timing, a coin mechanism (not shown) may be provided and a display command may be issued when a coin is inserted.
[0045]
Therefore, when a shooting input signal is input from the touch panel 16, the camera drive control unit 61 drives the second camera 52 and images a subject (a person who desires shooting) on the front surface of the touch panel 16 via the half mirror 17. Thereafter, the development print control means 62 drives the development printing device 53 to perform development, and forms an image on an image forming sheet (printing paper) 53A to produce a photographic sheet and supply it onto the processing stage 15 ( S22).
[0046]
When the photographic sheet is imaged by the first camera 18 on the processing stage 15 and acquired by the imaging data acquisition unit 27 as electronic imaging data (S23), the CRT drive control unit 25 uses the processing data based on the imaging data. Then, a screen for setting a processing form or the like is displayed on the touch panel 16 by displaying the screen on the CRT 13 (S24).
[0047]
Subsequently, when setting input data such as the processing shape and processing form, which are laser irradiation conditions from the touch panel 16, are input, the input data processing means 24 specifies the processing shape portion on the imaging data and performs processing. By specifying the form, the laser irradiation file creating means 29 creates a laser irradiation file related to laser irradiation (S25).
[0048]
Based on the laser irradiation file, the laser irradiation drive control means 30 controls the laser irradiation means 14 so that the photographic sheet on the processing stage 15 is laser processed under the conditions of the set processing shape and processing form. (S26). Then, the photographic sheet laser-processed in the form as shown in FIGS. 2A to 2C is discharged from the discharge port 20 (S27).
[0049]
In this way, the photographic sheet is cut by laser irradiation under a predetermined condition set by imaging data obtained by imaging the photographic sheet developed, printed and imaged by the imaging camera 18 with the second camera 52 including the photosensitive film. Since the processing is performed, diversification can be achieved by freely changing the shape of the photographic sheet on which the image is formed.
[0050]
Next, FIG. 8 shows a configuration diagram of a fourth embodiment of a photographic processing system according to the present invention. FIG. 8A is a schematic configuration diagram of the photographic processing system, and FIG. 8B is a block configuration diagram of the photographic processing system. In FIG. 8A, a photographic processing system 71 arranges the imaging camera 18 in the photographic processing system 11 shown in FIGS. 1A and 1B on the processing stage 15, and the laser printer 12 (the printer of the control unit 19). The same applies to the drive control means 28). The discharge port 20 is used as an input / output port 72 as a take-in means, and a photographic label sheet 73 is inserted into the input / output port 72 and positioned on the processing stage 15. Other configurations are the same as those of the photographic processing system 11 of FIGS. 1A and 1B, and the description thereof is omitted.
[0051]
FIG. 9 shows a flowchart of photographic processing in the photographic processing system in FIG. In FIG. 9, first, for example, when a coin is inserted into a coin mechanism (not shown), the CRT drive control means 25 displays an initial screen on the CRT 13 in accordance with an instruction from the control processing means 21 in the control unit 19, thereby causing the half mirror 17 to be displayed. Via the touch panel 16 (S31). As an initial screen in this case, for example, there is a display of a message prompting insertion of the photographic sheet 73 into the inlet / outlet 72.
[0052]
When the photographic sheet 73 is inserted into the inlet / outlet 72 and positioned on the processing stage 15, the photographic sheet 73 is imaged by the imaging camera 18 on the processing stage 15 by the insertion signal to obtain electronic imaging data. When the imaging data acquisition means 27 acquires (S32), the CRT drive control means 25 displays on the touch panel 16 by causing the CRT 13 to display a screen for setting the processing shape, processing form, etc. based on the imaging data (S33). ).
[0053]
When the imaging data selected from the touch panel 16 is acquired by the imaging data acquisition unit 27, the input data processing unit 24 specifies the processing shape portion on the imaging data and also specifies the processing form, so that the laser irradiation is performed. The file creation means 29 creates a laser irradiation file related to laser irradiation (S34).
[0054]
Based on the laser irradiation file, the laser irradiation drive control unit 30 controls the laser irradiation unit 14 to control the laser irradiation unit 14 so that the photographic sheet 73 on the processing stage 15 is lasered under the conditions of the set processing shape and processing mode. Process (S35). Then, the photographic sheet 73 laser-processed in the form shown in FIGS. 2A to 2C is discharged from the inlet / outlet 72 (S36).
[0055]
As described above, even if the photographic sheet 73 has already been prepared, the photographic sheet 73 is imaged to obtain electronic imaging data, and the photographic sheet 73 is cut by laser irradiation under a predetermined condition set by the imaging data. Since the processing is performed, it is possible to diversify the photographic sheet 73 on which the image is formed by changing the shape and the like.
[0056]
By the way, although the said 1st Embodiment-4th Embodiment showed each independent photo-processing system 11, 41, 51, 71, as a system which combined these main elements suitably, it is suitable for an operator with a selection screen suitably. A configuration may be selected. For example, when the photographic processing system 11 in FIG. 1 is a system that acquires imaging data from the memory 43 in FIG. 4, or a system that can take and process a photographic sheet on which an image is already formed as shown in FIG. This is the case. Moreover, it is good also as a system which can take in and process the photographic sheet in which the image was already formed as shown in FIG. 8 in the photographic processing systems 11 and 41 of FIG. 1 or FIG. Furthermore, a system that can take and process a photographic sheet with an image already formed as shown in FIG. 8 in the photographic processing system 51 of FIG. 6 may be used.
[0057]
【The invention's effect】
As described above, according to the first to fifth aspects of the present invention, a single sheet or a label sheet is picked up based on the electronic image data that is picked up by the first image pickup means or stored in the storage means. In addition to producing a photographic sheet, the formed image is displayed to set the cutting processing conditions, and based on this, the photographic sheet is continuously or discontinuously by a full cut in a penetrating form or a half cut in a non-penetrating form. By adopting a configuration in which the laser irradiation is performed and the cut processing is performed, the shape and the like of the photographic sheet on which the image is formed can be changed and can be diversified.
[0058]
According to the inventions of claims 6 and 9, a photographic sheet is produced from a photosensitive film obtained by imaging a predetermined subject, electronic imaging data is obtained from a formed image of the photographic sheet, and based on the imaging data The formed image is displayed and the cutting process conditions are set. Based on this, the cutting process is performed by continuously or discontinuously irradiating the photographic sheet with a through-cut full cut or a non-penetrated half-cut. By adopting the configuration, the shape and the like of the photographic sheet on which the image is formed can be freely changed and diversified.
[0059]
Further, according to the invention of claim 7 including the inventions of claims 8 and 9, the photograph sheet on which the image is formed is taken in, and the formed image is displayed based on the picked-up imaging data to set the cutting processing conditions. Based on this, a photographic sheet on which an image is formed by performing a cutting process by continuously or discontinuously irradiating a photographic sheet with a through-cut full cut or a non-penetrated half-cut It is possible to diversify by freely changing the shape and the like.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a first embodiment of a photographic processing system according to the present invention.
FIG. 2 is an explanatory diagram of a processing form in the photographic processing system of FIG. 1;
FIG. 3 is a flowchart of photographic processing in the photographic processing system in FIG. 1;
FIG. 4 is a configuration diagram of a second embodiment of a photographic processing system according to the present invention.
5 is a flowchart of photographic processing in the photographic processing system in FIG. 4;
FIG. 6 is a configuration diagram of a third embodiment of a photographic processing system according to the present invention.
7 is a flowchart of photographic processing in the photographic processing system in FIG. 6. FIG.
FIG. 8 is a configuration diagram of a fourth embodiment of a photographic processing system according to the present invention.
9 is a flowchart of photographic processing in the photographic processing system in FIG.
[Explanation of symbols]
11, 41, 51, 71 Photo processing system
12 Laser printer
12A, 53A Image forming sheet
13 CRT
14 Laser irradiation means
15 Processing stage
16 Touch panel
17 half mirror
18, 52 Imaging camera
19 Control unit
31, 73 Photo label sheet
35 Subject image
36 Laser processing line
43 memory
53 Development Printing Device

Claims (9)

Printing means for producing a photographic sheet by forming an image based on the imaging data on a predetermined image forming sheet based on the electronic imaging data inputted;
Display means for displaying an image of the imaging data;
Input means for setting a predetermined cutting condition for at least the image displayed by the display means;
Laser irradiation means for performing the predetermined cut processing by laser irradiation on the photographic sheet based on predetermined cut processing conditions set by the input means;
At least processing processing means for controlling the processing for causing the laser irradiation to be performed based on the imaging data, to produce the photographic sheet, to display a formed image, to set the cutting processing conditions,
A photographic processing system comprising: The photographic processing system according to claim 1, wherein the photographic sheet is a single sheet or a label sheet provided with a release paper by applying an adhesive. The photographic processing system according to claim 1, wherein the cut processing is performed continuously or discontinuously on the photographic sheet by a full cut in a penetrating form or a half cut in a non-penetrating form. A featured photo processing system. The photograph processing system according to claim 1, further comprising: a first image pickup unit that picks up an image of a predetermined subject as input of the electronic image pickup data. Processing system. The photographic processing system according to claim 1, further comprising an image input unit that stores the electronic imaging data in a storage unit and acquires the imaging data from the storage unit. Photo processing system. A second imaging means comprising a predetermined photosensitive film and imaging a predetermined subject;
A printing means for developing the imaged photosensitive film and forming a photographic sheet by forming an image on a predetermined image forming sheet;
First imaging means for capturing an image on the photographic sheet and obtaining electronic imaging data;
Display means for displaying an image of the imaging data;
Input means for setting a predetermined cutting condition for at least the image displayed by the display means;
Laser irradiation means for performing the predetermined cut processing by laser irradiation on the photographic sheet based on predetermined cut processing conditions set by the input means;
At least, the photographic sheet is produced from the photosensitive film by taking an image with the second imaging means, and electronic imaging data is obtained from the image formed on the photographic sheet by the first imaging means, and based on the imaging data A processing control means for controlling the processing for displaying the formed image, setting the cutting processing conditions, and performing the laser irradiation;
A photographic processing system comprising: Capture means for capturing a photographic sheet with an image formed thereon;
First imaging means for obtaining electronic imaging data by imaging an image on the captured photographic sheet;
Display means for displaying an image of the imaging data;
Input means for setting a predetermined cutting condition for at least the image displayed by the display means;
Laser irradiation means for performing the predetermined cut processing by laser irradiation on the photographic sheet based on predetermined cut processing conditions set by the input means;
At least processing processing means for controlling processing for capturing the photographic sheet and displaying the formed image based on the captured imaging data, setting the cutting processing conditions, and performing the laser irradiation;
A photographic processing system comprising: 8. The photographic processing system according to claim 7, wherein the photographic sheet is a single sheet or a label sheet on which an adhesive is applied and a release paper is provided. 9. The photographic processing system according to claim 6, wherein the cutting process is continuous or discontinuous with respect to the photographic sheet by a full cut in a penetrating form or a half cut in a non-penetrating form. A photo processing system characterized in that

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