JP2004053843A - Frame print system, camera and lens-fitted film used for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a frame print system which enables a user to select a favorite sample image by oneself and obtain a frame print of high picture quality without making a composite print image of a sample image and an original image worse in picture quality, and a sample image display card, a camera and a lens-fitted film which are used for the system. <P>SOLUTION: The frame print system is provided with: a storage means which stores a plurality of sample images while making them correspond to image identification information; a 2nd read means for reading image identification information recorded in a magnetic or optical information recording area of a photographic film; a 3rd read means of photoelectrically reading images of each of the frames of the photographic film; an image composition means of compositing a sample image corresponding to the image identification information read out by the 2nd read means with images of each of the frames read by the 3rd read means; and an image output means of outputting a composite image of eah of the frames as a frame print. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a frame print system, a sample image display card used in the frame print system, a camera and a film with a lens, and more specifically, a frame print in which a sample image prepared in advance on a print image of each frame of a photographic film is synthesized as a frame image. A frame print system that outputs a sample image, a sample image display card for selecting a sample image, an APS (Advanced Photo System) camera that can select a sample image by mounting the sample image display card, etc. The present invention relates to a film with a lens in which a camera and a sample image are facilitated beforehand.
[0002]
[Prior art]
Conventionally, a print image of a photographic film and a background image, a character (image), or a frame (image) are synthesized to output a character-containing print, a composite image print, or a frame print.
For example, as disclosed in Japanese Patent Application Laid-Open No. 2000-56407, a print with characters is a print image in which a shooting date is printed at a predetermined position. In this case, the date printed in the printed image is often automatically exposed on the photographic film by the camera at the time of shooting.
[0003]
In the composite image print, the print image, the background image, and the characters (images) are respectively arranged in different areas or superimposed to be combined. Some of these composite image prints are output as, for example, photographic postcard prints, and are used as photographic postcards by pasting them on a postcard such as a New Year's card or marriage report. Japanese Patent Application Laid-Open No. 10-294852 discloses a method for combining characters and images for outputting a photo postcard print for producing such a photo postcard.
Some composite image prints are called frame prints. This frame print is obtained by synthesizing a frame image (hereinafter also simply referred to as a frame) prepared in advance in the periphery of a print image on a photographic film.
[0004]
In the composite image print or frame print, the subject (original image) is obtained by photographing the subject on a piece of photographic film on which a sample image such as a background image or a frame image has been exposed (burned) in advance. Sample images such as background images and frame images are combined to create a composite film image that has been printed (exposed) as a film image, or a film image (original image) of a photographic film on which the subject has already been photographed A sample image such as a background image or a frame image prepared in advance is combined with a mask on another photographic film frame to create a composite film image, which is exposed directly from the composite film image or exposed indirectly (once , Convert to digital image data, expose based on the obtained digital image data), develop and print the composite print image The image to be manufactured, the captured image (original image) and the sample image such as the background image and the frame image are acquired as digital image data (signals) respectively, and these are digitally combined to acquire the digital combined image data, There exist some which expose based on the obtained digital image data, develop, and produce a composite print image.
The latter method of digitally synthesizing the original image and the sample image to produce a composite print image is a method of a digital print system using a digital photo printer, as disclosed in Japanese Patent Laid-Open No. 10-294852. It can be done easily by realization.
[0005]
[Problems to be solved by the invention]
However, among the above-described methods for producing prints with characters and composite image prints (frame prints), the method of printing characters and sample images directly on photographic film to obtain a composite film image deteriorates the image quality of the composite print image. There was a problem that.
On the other hand, in the method for producing a composite print image disclosed in Japanese Patent Application Laid-Open No. 10-294852, sample images such as a background image and a frame image to be synthesized with a photographic original image in order to produce a composite image print or a frame print, Since it is prepared in advance by a photo service provider such as a lab shop or a development shop, the user selects a sample image such as a background image or a frame image when photographing with a camera or purchasing film with a lens. There was a problem that I could not do it and was dissatisfied.
[0006]
An object of the present invention is to solve the above-mentioned problems of the prior art, and use a digital photo printer of a digital print system to synthesize a sample image such as a frame image, a background image, or a character image and a photographed image (original image) of a user When creating a synthesized print image, the user can select the sample image he / she wants to synthesize at the time of shooting without degrading the image quality of the synthesized print image, and the user's favorite sample image is synthesized. It is another object of the present invention to provide a frame print system capable of obtaining a high-quality frame print, a sample image display card, a camera, and a lens-attached film used therefor.
[0007]
[Means for Solving the Problems]
To achieve the above object, according to a first aspect of the present invention, there is provided a sample image display card mounted on a camera used in a frame print system that outputs a frame print in which a sample image is combined with a print image as a frame image. Because
Optical or physical first identification information recognizable by the camera;
The present invention provides a sample image display card having at least one sample image to be combined with the print image of each frame as the frame when printing a photographic film photographed by the camera.
[0008]
In order to achieve the above object, the second aspect of the present invention is used in a frame print system that outputs a frame print in which a sample image is combined with a print image as a frame image. Correspondingly, a camera using a photographic film provided with a magnetic information recording area,
At least one of the sample image display cards according to claim 1;
A mounting section for mounting the sample image display card in a replaceable manner;
First reading means for optically or physically reading the card identification information for recognizing the mounted sample image display card;
Image selection means provided corresponding to the sample image of the mounted sample image display card and selecting the sample image to be combined with the print image;
The sample image including the first identification information of the sample image display card attached and the selection information of the sample image selected by the image selection means in the magnetic information recording area of the photographed film piece. A camera having a magnetic recording head for writing image identification information is provided.
[0009]
In order to achieve the above object, a third aspect of the present invention is a film with a lens used in a frame print system for outputting a frame print in which a sample image is combined with a print image as a frame image,
A photographic film in which image identification information of a sample image to be combined with a print image is written in advance in the magnetic information recording area or the optical information recording area of the reader unit,
A film body with a lens in which this photographic film is incorporated;
A packaging material for wrapping the lens-attached film body in which the photographic film is incorporated,
The sample image is displayed on the outer surface of the lens-attached film main body or the outer surface of the packaging material.
[0010]
In order to achieve the above object, according to a fourth aspect of the present invention, a printed image is printed when the photographic film taken with the camera or the photographic film taken with the lens is printed. A frame print system for outputting a frame print in which a sample image is synthesized as a frame image.
Storage means for storing a plurality of the sample images in association with image identification information of the sample images,
Second reading means for reading image identification information of the sample image recorded in the magnetic information recording area or the optical information recording area of the photographic film;
Third reading means for photoelectrically reading an image of each frame of the photographic film;
An image that is read from the storage unit and that combines the sample image corresponding to the image identification information of the sample image read by the second reading unit with the image of each frame read by the third reading unit Combining means;
It is an object of the present invention to provide a frame print system comprising image output means for outputting a composite image of each frame synthesized by the image synthesis means as a frame print.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
A frame print system according to the present invention, a sample image display card used therefor, a camera and a lens-attached film will be described in detail below based on preferred embodiments shown in the accompanying drawings.
The frame print system of the present invention does not directly print a sample image on a photographic film, but is selected by a user and written in the magnetic information recording area of the photographic film at the time of shooting, or previously stored in the magnetic information recording area of the photographic film or The identification information of the sample image such as the frame image written in the optical information recording area is read by the magnetic information reading means or the optical information reading means when printing, and the sample image that matches the identification information of the read sample image is framed. A frame print is produced by directly synthesizing and printing a film image (original image) of a photographic film as an image.
[0012]
1A and 1B are a schematic front view and a back view of an example of a sample image display card used in the frame print system according to the first aspect of the present invention.
A sample image display card (hereinafter simply referred to as a display card) 60 shown in FIGS. 1A and 1B is used by being inserted or mounted in a predetermined position of a camera, and is used for printing a photographic film taken by the camera. A sample image to be synthesized as a frame image is displayed on the print image of each frame, and as shown in FIG. 1 (a), a plurality of image images are displayed on the surface. The sample images 62 (62a to 62h) are arranged four (seed) at the top and bottom, and as shown in FIG. 1B, the camera for recognizing the display card 60 on the back side can be recognized. It has card identification information (hereinafter referred to as card ID) 64 of the sample image display card 60 as optical information such as a barcode.
[0013]
In the present invention, the shape and size (size) of the display card 60 are not particularly limited, but are inserted into or attached to the camera, so that depending on the size (size) and shape of the camera, It may be set as appropriate, and is naturally set, but may be set as appropriate according to the size of the sample image 62 to be displayed and the number of images.
[0014]
In the present invention, the sample image 62 may be any sample image as long as it is preferred by the user and does not violate copyright / social common sense. For example, a project character such as Disney, a character such as an animation, a celebrity, an idol, a landscape, a symbol mark, an animal, a plant, a pattern, etc. can be mentioned. The number of sample images 62 per display card 60 is not particularly limited. For example, the shape and size (size) of the display card 60, the size (size) of the sample image 62, and the sample image From the number of 62 images, any number from 2 to 20 may be used, and any number from 2 to 20 is preferable, but about 8 is the size of the sample image 62. More preferable from the number of sheaths. The display card 60 may be created with a series of sample images 62 or a single sample image 62.
[0015]
The card ID 64 provided on the back surface of the display card 60 may be anything as long as the camera can be optically or physically recognized, and optical information such as a barcode in the illustrated example is more preferable, but the present invention is not limited to this. It may be optical information such as numbers or letters that can be optically read, or physical information such as punch holes or notches that can be optically read or physically read and can be used for card identification. Also good. In such physical information such as punch holes and notches, the card ID can be represented by the position and number.
[0016]
By the way, even if the sample image 62 is a frame image F1 that surrounds the entire periphery of the print image P1, that is, a so-called all frame, like the frame print FP1 shown in FIG. 11A, the frame print shown in FIG. Like FP2, it may be a frame image F2 that is synthesized (superposed and synthesized) only in the upper left corner in the illustrated example, around a part of the print image P2.
Note that the sample image 62 of the display card 60 is not limited to the one representing the entire frame image F1 synthesized with the print image P1, and for example, a sample image as a frame image fixed to one on the single display card 60. 62A is displayed on the left end side in the drawing of the display card 60, and four sample images 62 for exchanging a part of the sample image 62A are arranged on the right side of the display card 60 up and down. A combined sample image may be used as a frame image. In this case, the sample images 62A and 62B of the display card 60 may be arranged vertically so that they can be selected in association with the four sample images 62 vertically.
[0017]
By the way, as long as the sample images 62 are display cards 60 having the same number of sample images 62, the same unique selection identification information (hereinafter referred to as selection ID) is set depending on the position of any display card 60. Therefore, by combining the card ID of the display card 60 and the selection ID of the selected sample image 62, only one piece of image identification information (hereinafter referred to as an image ID) for specifying the selected sample image 62 is obtained. Can be set.
Even when the sample image 62A is displayed on the display card 60, the sample image 62A and the selected sample image 62 are combined by combining the card ID of the display card 60 and the selection ID of the selected sample image 62. It is possible to set only one image ID for specifying a combined sample image as a frame image.
[0018]
Next, the camera according to the second aspect of the present invention used with the sample image display card according to the first aspect of the present invention mounted or inserted will be described.
2 is a schematic perspective view of the back side of one embodiment of the camera in which the sample image display card shown in FIG. 1 is mounted or inserted, and FIG. 3 is a schematic perspective view of the front side of the camera shown in FIG. FIG. 4 is a block diagram of an embodiment of a control system for generating and recording identification information of the sample image of the camera shown in FIGS.
[0019]
As shown in FIGS. 2 and 3, the camera 70 according to the second aspect of the present invention is a photographic film having a magnetic information recording area corresponding to each frame to be photographed, so-called APS (new photographic system). Advanced Photo System) 240 type photographic film (hereinafter referred to as APS film; refer to FIG. 5) Fa type camera, and a camera used in the frame print system of the present invention. As a constituent part for specifying a sample image as a frame image for producing a frame print, a constituent part serving as a camera for photographing a subject in the image area GA of each frame of the APS film F is provided. As shown in FIG. 5, the APS film F used in the camera 70 is normally handled in a state of being stored in a film cartridge Fc, and is taken from the cartridge Fc at the time of shooting, reading for printing, printing, and the like. Pulled out.
[0020]
As shown in FIG. 5, one end of the APS film F is locked to the spool shaft Fs of the cartridge Fc, and is wound and accommodated in layers. The film F has an image area of each frame in the central portion in the longitudinal direction, a full-size image area GA in the illustrated example, and one end (lower side in FIG. 5) of the outer edge of the film width direction. Two perforation holes P, one each, are provided for each frame on both sides of the image area GA in the film longitudinal direction. Between the two perforation holes P at one end (the lower side in FIG. 5) of the outer edge of the image area GA of the film F, a magnetic information recording area (hereinafter referred to as a magnetic track) MT is formed on the back side of the film. Is formed. On the other hand, on the opposite side (upper side in FIG. 5) of the outer edge of the image area GA of the film F, standardized barcodes such as DX codes and extended DX codes that are optically recorded as latent images and set as industry standards DC and a magnetic track MT are formed on the back side of the film. A standardized bar such as an FNS code, which is a kind of a conventional standardized bar code, is provided between two perforation holes P on the opposite side (upper side in FIG. 5) of the outer edge of the image area GA of the film F. The code DC may be optically recorded and formed as a latent image. Such latent image standardized barcode DC such as latent image DX code, latent image extended DX code, and latent image FNS code is visualized by photographing a subject on film F and then performing wet development processing.
[0021]
In these magnetic tracks MT, various information such as a film ID for specifying a film, information at the time of photographing an image recorded in the image area GA of each frame, and a print size and the number of prints at the time of print processing. Is recorded. The magnetic track MT on the side opposite to the perforation hole P mainly records information at the time of photographing by a photographing device such as a camera as a camera track. The magnetic track MT on the perforation hole P side is recorded at the time of development, printing, etc. Used as a lab track where information is recorded. In the present invention, image identification information (hereinafter referred to as image ID) of a sample image to be described later may be magnetically recorded on either side of the magnetic track MT.
The APS 240 film F has around perforation holes Pa on both sides in the longitudinal direction of the film across the area where the image is recorded, and a film-specific identification number FID (lower side in FIG. 5). Side) and a standardized barcode DCN (upper side in FIG. 5) indicating the optical information, etc., a notch NT on the film front side, and a detached perforation not shown on the rear side. The image forming area and the leading and trailing edges can be identified.
[0022]
By the way, the camera 70 of the present invention includes a camera housing 71 including a housing front half 71a and a housing back half 71b as a component that performs the function of a camera that shoots a subject on such an APS film F, A power lever 72, a shutter button 73, a photographing lens 74, a finder window 75, autofocus (AF) windows 76a and 76b, a flash (light emission window) 77, a photometry window 78, a red-eye reduction lamp 79, A cartridge loading unit 80, a cartridge lid 81, an opening knob 82 for the cartridge lid 81, a viewfinder eyepiece 83, a print type switching knob 84, and the like.
In the following description, the front surface refers to the photographic lens 74 side, the rear surface refers to the viewfinder eyepiece 83 side, and the upper, lower, left, and right sides refer to the camera 70 from the back in FIG. This is when viewed from the front.
[0023]
Here, the camera housing 71 is configured by joining the housing front half 71a and the housing rear half 71b to cover each other. The power lever 72 is for turning on / off the power of the camera 70 and is provided in the upper left part of the camera housing 71. The shutter button 73 is pressed / opened to open and close a shutter (not shown) for photographing a subject in an image area GA (see FIG. 5) of the photographic film F arranged at a predetermined position in the camera casing 71. It is for opening and is provided in the power lever 72. The photographic lens 74 is for imaging a subject in an image area GA (see FIG. 5) of the photographic film F disposed at a predetermined position in the camera casing 71 at the time of shooting. Provided at approximately the center. Although not shown, the shutter is disposed between the image lens GA of the photographic film F disposed at a predetermined position in the camera housing 71 and the photographing lens 74 at the time of photographing.
[0024]
As shown in FIG. 3, the finder window 75 is for determining the size of the subject to be photographed in the image area GA of the photographic film F (the size of the subject to be recorded in the print). Provided above the taking lens 74 of the portion 71a. The autofocus (AF) windows 76a and 76b form an image of the subject by the taking lens 74 accurately in the image area GA of the photographic film F, that is, in order to perform automatic focus adjustment so that the subject is in focus. It is for making the light of an image enter, and is provided above the finder window 75 of the housing front half 71a. A flash (light emission window) 77 is an underexposure at the time of shooting, and is used to emit a flash for flash exposure. The flash (light emission window) 77 includes a flash main body (not shown) and a flash light emission window. Provided above the viewfinder window 75 of the half 71a. Autofocus (AF) windows 76 a and 76 b are provided on both sides of a flash (light emission window) 77.
[0025]
The photometric window 78 is for measuring the amount of incident light from the subject to the camera 70 (photographing lens 74) at the time of photographing, and is provided on the lower right side of the photographing lens 74 of the housing front half 71a. The red-eye reduction lamp 79 indicates that flash emission including pre-emission is performed in order to prevent red eyes caused by reflection of flash light in the eye during flash photography. Provided on the lower left side of the lens 74.
[0026]
The cartridge loading unit 80 is for loading a film cartridge Fc for storing the APS film F, and is provided on the left side of the camera casing. The cartridge lid 81 is provided below the cartridge loading portion 80 and is opened by the opening knob 82 of the cartridge lid 81, so that the film cartridge Fc can be loaded into the opened cartridge loading portion 80 from below. By pressing the cartridge lid 81 from below onto the cartridge loading portion 80 loaded with the film cartridge Fc, the cartridge lid 81 can be locked so as to close the cartridge loading portion 80. The upper part of the cartridge loading unit 80 is constituted by a power supply lever 72 that incorporates a shutter button 73.
[0027]
As shown in FIG. 2, the viewfinder eyepiece 83 is excluded by the user of the camera 70 in order to determine the size of the subject to be photographed in the image area GA of the photographic film F (subject size to be recorded in the print). For this purpose, the finder is configured together with the finder window 75, and is provided at a position corresponding to the finder window 75 on the upper side of the housing rear half 71b. The print type switching knob 84 is for determining the type of print to be finished as a photographic print, here C (classic) and H (high vision), and is provided on the viewfinder eyepiece 83 of the rear half 71b of the housing (FIG. 2). Middle) Provided on the right side (shutter button 73 side).
The camera 70 has an internal configuration (not shown), various electrical and electronic circuit blocks, and mechanical functional blocks that fulfill the function of photographing a subject on the APS film F. The configuration and functions of the camera 70 are as follows. The camera is similar to the camera described in the specification of Japanese Patent Application No. 2001-263278, but is not limited thereto, and any camera can be used as long as it has a configuration and a function of a conventionally known camera. Therefore, further explanation is omitted.
[0028]
As shown in FIG. 2, the camera 70 includes a sample image display card 60 as a component that specifies the sample image 62 as a frame image for producing a frame print, which is a feature of the present invention, and the display card 60. A card ID 86 of the display card 60, an image selection button 90 (90a to 90h) of the sample image 62, and image identification information (hereinafter referred to as an image ID) of the sample image 62. A generation unit 91 (see FIG. 4) and a magnetic recording head 92 for image ID (see FIG. 4) are included.
[0029]
In FIG. 3, the display card 60 shown in FIGS. 1A and 1B can be used as the display card 60, and the user can freely select from a plurality of, preferably a large number of display cards prepared in advance. It is preferable that the selection can be made accordingly. The card mounting unit 86 is used for mounting or inserting the display card 60 selected by the user in a replaceable manner. The card mounting unit 86 is below the finder eyepiece 83 and the print type switching knob 84 on the rear half 71b of the casing, that is, It is provided at the central portion in the vertical direction of the housing back half 71b. In the illustrated display card 60, four sample images 62 are arranged four above and below, and there is a gap between them, so the card mounting portion 86 has four samples on each of the upper and lower sides of the display card 60. An upper opening 86a and a lower opening 86b for displaying the image 62 are arranged vertically, and an opening 86c for inserting the display card 60 is arranged on the left side in FIG. As a result, a gap 86d of the card mounting portion 86 of the housing back half 71b extends between the upper opening 86a and the lower opening 86b of the card mounting portion 86.
[0030]
The card ID reader 88 recognizes the display card 60 mounted on the card mounting unit 86, card identification information (card ID) 64 provided on the back surface of the display card 60, for example, optical information such as a bar code or cutting information. A means for optically or physically reading physical information such as a notch or a punch hole and corresponding to the card ID 64 on the back surface of the display card 60 mounted on the card mounting portion 86, that is, a position where the card ID 64 can be read. Is provided. In the illustrated example, since the card ID 64 of the display card 60 is a bar code, the card ID reader 88 is a bar code reader provided in the lower half on the left side of FIG. When the card ID 64 of the display card 60 is physical information such as a notch or a punch hole, the card ID reader 88 reads from the light emitting / receiving element for reading on / off of the light due to the notch or the punch hole. It may be a physical reading means such as an optical (photo) sensor or a dip switch that is turned on / off by a notch or a punch hole.
[0031]
The image selection buttons 90 (90a to 90h) are used to select a sample image 62 to be combined with a print image by the user from among a plurality of display cards 60 mounted on the card mounting unit 86, in the illustrated example, eight sample images 62. An image selection means that is pressed for selection, and is provided corresponding to each of the eight sample images 62 of the display card 60 mounted on the card mounting portion 86. In the illustrated example, eight image selection buttons 90 (90a to 90h) corresponding to eight sample images 62 of the display card 60 mounted on the card mounting section 86 are respectively provided in the gap section 86d of the card mounting section 86. Are provided.
[0032]
As shown in the control system of FIG. 4, the image ID generation unit 91 of the sample image 62 includes a card ID reader on a magnetic track MT (see FIG. 5) that is a magnetic information recording area of each frame of the APS film F that has been shot. The image ID of the selected sample image 62 is generated from the card ID 64 of the attached display card 60 read by 88 and the selection ID of the sample image 62 selected for each frame of the APS film F by the image selection button 90. . For example, in the generation unit 91, the sample ID 62 that is read by the card ID reader 88 is represented as 6-bit information with the card ID of the display card 60 in the illustrated example being 000001, and the sample image 62 selected by the image selection button 90a is the sample image 62a. When the selection ID is expressed as 3-bit information of 001, the image ID of the selected sample image 62a is generated as 9-bit information of 00000101. Thus, the image ID of the selected sample image 62a for each frame of the APS film F is generated in the generation unit 92.
[0033]
The magnetic recording head 92 is used for writing the image ID of the selected sample image 62 for each frame of the APS film F generated in the image ID generation unit 91 of the sample image 62 to the magnetic track MT of each frame of the APS film F. It is a magnetic recording means of a camera. As the magnetic recording head 92, magnetic recording means originally provided in an APS camera can be used. In the above-described example, the magnetic recording head 92 can write 9-bit information “000001001” as the image ID of the selected sample image 62a on the magnetic track MT of the corresponding frame of the APS film F.
[0034]
In the above-described example, the card mounting portion 86, the card ID reader 88, the image selection button 90 for the sample image 62, and the like, which are features of the present invention, are provided on the back side of the camera 70. However, the present invention is not limited to this. However, it may be provided on any of the side surface, front surface, top surface, and bottom surface. Further, the shape of the card mounting portion 86 is not limited to the illustrated example, and may be set as appropriate according to the shape of the sample image display card to be mounted.
The above-described example is the APS camera 70 using the 240-type APS film F. However, the present invention is not limited to this, and a magnetic information recording area (at least one side corresponding to each frame to be photographed) The present invention can be similarly applied to any camera that uses a photographic film provided with a magnetic track).
[0035]
Further, in the present invention, the present invention is not limited to a camera using a photographic film provided with a magnetic information recording area corresponding to each frame to be photographed, but a photographic film having no magnetic information recording area, for example, 135 type In the camera using the photographic film, a liquid crystal display unit for the selection ID of the selected sample image is provided in the camera, and in the case of the above 9-bit image ID, a 9-bit liquid crystal display unit is provided, An optical information recording area may be provided by optically printing the area.
Note that the sample image combined with the film image of each frame photographed on the photographic film with the camera of the present invention is not limited to the composite image of one or two patterns, and is a composite image of three or more patterns. Also good.
The camera of the second aspect of the present invention is basically configured as described above.
[0036]
Next, the lens-attached film used in the frame print system according to the third aspect of the present invention will be described.
FIG. 6A is a schematic front view of one embodiment of the main body of the lens-equipped film used in the frame print system of the present invention, and FIG. 6B is the lens-equipped film shown in FIG. It is a schematic front view of one Example of the film with a lens of this invention which packaged the main body with the packaging material.
The lens-equipped film 100 of the third aspect of the present invention shown in FIG. 6B is shown in FIG. 6B, and the lens-attached film main body 102 shown in FIG. And the packaging material 104 shown.
[0037]
Here, the lens-fitted film main body 102 shown in FIG. 6A has one sample image 62 displayed on the outer surface thereof. The image ID of one sample image 62 is recorded as a latent image in the optical information recording area of the photographic film in the lens-fitted film main body 102 or as magnetic information in the magnetic information recording area.
The sample image 62 is synthesized as a frame image with the print images of all frames of the photographic film in the lens-fitted film main body 102. Thus, all the frames of the photographic film in the lens-attached film body 102 are produced as frame prints.
[0038]
For example, when the photographic film in the lens-fitted film main body 102 is a 240 type APS film F as shown in FIG. 5, an optical information recording area or a magnetic information recording area is formed on the front side of the image forming area of the film F. An area may be provided, and the image ID of the sample image 62 may be optically recorded as a latent image or magnetically, or the film-specific identification number FID (lower side in FIG. 5) itself provided in this area or The standardized barcode DCN (upper side in FIG. 5) indicating the optical information or the like may be used as the image ID of the sample image 62, or optical information and magnetic information are recorded in a region following these, and combined with these. The image ID of the sample image 62 may be used.
Although not shown, even in the case of a 135 type photographic film having no magnetic information recording area, the optical information recording is performed in the area on the leading end side of the image forming area of the film or in the film edge area other than the image forming area. A region may be provided and the image ID of the sample image 62 may be optically recorded as a latent image.
[0039]
The lens-attached film main body 102 is a so-called one-time use camera which is generally called a lens-attached film in a narrow sense. Therefore, the lens-equipped film main body 102 has the sample image 62 displayed on the outer surface thereof, and the image ID of the sample image 62 is optically latent in the optical information recording area or magnetic information recording area of the photographic film inside. Except for the fact that it is recorded as an image or magnetically, it is a conventionally known lens-equipped film or one-time use camera, so its configuration and its function are also conventionally known, and the description thereof is omitted.
[0040]
The same sample image 62 as that of the lens-attached film body 102 is also displayed on the outer surface of the packaging material 104 that wraps the lens-attached film body 102, that is, the exterior. It is most preferable that the same sample image 62 is displayed on both the outer surface of the lens-fitted film main body 102 and the outer surface of the packaging material 104. However, in the present invention, the sample image 62 is displayed on either one of them. It only has to be displayed. In this case, it is preferable that the sample image 62 is displayed on the outer surface of the packaging material 104 of the lens-attached film main body 102 in that the selection by the customer (user) is easy.
[0041]
In the present invention, one sample image 62 is displayed on at least one of the outer surface of the lens-equipped film main body 102 and the outer surface of the packaging material 104, and printed images of all frames of the photographic film in the lens-equipped film main body 102 are displayed. However, the present invention is not limited to this, and a plurality of sample images 62 are displayed and combined with the print images of all the frames of the photographic film in the lens-equipped film body 102 in the displayed predetermined order. In addition, as described above, the sample image 62 is displayed as one fixed sample image 62A and the alternative sample image 62B, and a plurality of alternative sample images are displayed in addition to the predetermined sample images displayed. In this order, a plurality of alternative sample images are combined with one fixed sample image to form a composite sample image, and a composite sample image Image may be the to be synthesized in the printed images of all the frames of a photographic film of the lens-fitted film body 102 in a predetermined order.
Further, the sample image to be combined with the print image of all the frames of the photographic film in the lens-equipped film body 102 is not limited to one or two pattern composite images, and is a composite image of three or more patterns. Also good.
The lens-attached film according to the third aspect of the present invention is basically configured as described above.
[0042]
Next, a frame print system according to a fourth aspect of the present invention will be described.
FIG. 7 is a schematic diagram showing a block diagram of an embodiment of a digital printer constituting the frame printing system of the present invention.
[0043]
The digital digital printer 10 shown in FIG. 7 photoelectrically reads the film image of the photographic film F taken by the customer with the camera 70 shown in FIGS. 2 and 3 or the film body with lens 102 shown in FIG. An image input device (hereinafter also referred to as a scanner) 12 for optically or magnetically reading an image ID of a sample image 62 selected by a customer recorded in an optical information recording area or a magnetic information recording area of the film F; Setting of reading conditions by the scanner 12 and control of the scanner 12 based on the setting, reading of the customer-selected sample image based on the image ID of the sample image 62 read by the scanner 12, and digital image of the image signal read by the scanner 12 Signalization and image processing thereof, and the reading of this read image and the customer selected sample image 62 A control device 14 that performs synthesis as a total image signal, image processing of the synthesized digital synthesized image signal, setting of synthesis processing conditions, automatic setting of image processing conditions (auto setup), and the like, and control of the entire digital printer 10 And an image output device (hereinafter referred to as a frame print P) that carries out image exposure on a photosensitive material (color photographic paper) based on the digital composite image signal composite-processed by the control device 14 and develops it to carry a composite image. (Also referred to as a printer) 16, a film image read by the scanner 12 and a composite image synthesized by the control device 14 are displayed, and a composite image output by the printer 16 and an area (finished print area) are displayed. A display device (hereinafter also referred to as a monitor or a display) 18 is prepared in advance and associated with an image ID. The combined processing of the sample images displayed on all the sample image display cards 60, the sample images displayed on all the lens-equipped films 100, the film images read by the scanner 12 combined with the sample images, etc. Each digital image signal before being processed, or a digital composite image signal processed by the control device 14 or used by the printer 16, and further, a digital image composition processing condition, image processing condition, exposure condition, and processing of a photosensitive material A server 20 for storing conditions, HD, etc., MO (magneto-optical recording medium), or a magnetic recording medium such as magnetic tape or FD, and a storage device 20 composed of a driver thereof, and setting and processing of various conditions Data such as keyboard 22a and mouse 22b for inputting information such as selection and correction Input device 22.
[0044]
The scanner 12 is a device that photoelectrically reads an image of a single frame taken on a photographic film (hereinafter simply referred to as film) F (), and the like, and includes a light source 24, a variable aperture 26, and R (red), G A color filter plate having three color filters of R, G, and B for separating the three primary colors of (green) and B (blue), and rotating any color filter to act on the optical path; and a film F A diffusion box 30 for uniformly diffusing the reading light incident on the film in a plane direction perpendicular to the optical axis of the film, and a film carrier (hereinafter referred to as a carrier) for sequentially transporting the film F to a predetermined reading position Z for each frame. 32, an imaging lens unit 34, a CCD sensor 36 that is an area sensor that reads an image of one frame of a film, and an amplifier 37.
[0045]
In the illustrated digital printer 10, the type and size of a 240-type negative film or 135-type negative (or reversal) film, the form of a film F such as strips or slides, and processing such as trimming are performed. Depending on the type or the like, a dedicated carrier 32 that can be mounted on the main body of the scanner 12 is prepared. By exchanging the carrier 32, various types of films and processes can be handled. Film images (frames) photographed on the film F and used for frame print creation are conveyed and held by the carrier 32 at a predetermined reading position.
[0046]
Here, as shown in FIGS. 8A and 8B, the carrier 32 is a standardized barcode DC or the like recorded on both edges of the film F, and the image ID of the customer-selected sample image is the optical of the film F. If it is recorded in the information recording area, it has a barcode reader 38 for optically reading the ID, and the carrier 32 corresponding to the 240 film F (cartridge Fc) of the APS system shown in FIG. The image ID of the customer-selected sample image recorded on the magnetic track MT formed on the APS film F, the cartridge ID, the film type, etc., the shooting date and time, the camera used for shooting, the developing machine, etc. Magnetic information reading / recording means (hereinafter referred to as a magnetic recording head) 40 comprising various data such as the above-mentioned types. When the bar code reader 38 and the magnetic recording head 40 convey the film to the reading position, the bar code reader 38 and the magnetic recording head 40 can perform various magnetic information including optical information such as the standardized code DC and the image ID of the customer-selected sample image and the image ID of the customer-selected sample image. Information is read and / or recorded in the case of the reading / recording means 40, and various information is exchanged with the control device 14.
[0047]
In addition, in the carrier 32 shown in FIGS. 8A and 8B, the film F is disposed on the upstream and downstream sides of the carrier mask 41 having the opening 41 a that determines the reading position and size of the film F, respectively. And 42b are intermittently conveyed. The bar code reader 38 includes four optical sensors 38a, 38b, which are four bar code reader heads arranged along the conveyance width direction of the film F in the vicinity of the upstream side of the conveyance roller 42a on the conveyance upstream side of the carrier mask 41. Each of the optical sensors 38a and 38b includes a pair of a light emitting unit 39a and a light receiving unit 39b on the upper and lower sides of a film F (indicated by a dotted line) conveyed through the film conveyance path.
[0048]
The optical sensor 38a provided opposite to both ends in the width direction of the film F is for reading optical information such as the standardized code DC and the image ID of the customer-selected sample image. In addition, the perforation hole P of the film F and the front and rear ends are also detected. On the other hand, the optical sensor 38b provided facing the intermediate portion in the film width direction is used to detect the image area GA of the image recorded on the film F, the image area, or the so-called non-image area between frames. It is used when performing automatic conveyance of the film F or continuous conveyance reading of a plurality of frames using a line sensor.
[0049]
The magnetic recording head 40 is provided on the carrier 32 corresponding to the 240 film F shown in FIG. 5, and is provided on the further upstream side of the barcode reader 38 so as to face the magnetic tracks MT at both ends of the film F. . The magnetic recording head 40 includes a recording head 40a that records magnetic information on the magnetic track MT, and a reading head 40b that reads magnetic information including an image ID of a customer-selected sample image recorded on the magnetic track MT.
[0050]
The barcode reader 38 and the magnetic recording head 40 configured as described above are connected to a controller 43 provided in the scanner 12. Although not shown, the controller 43 is also connected to a motor that drives the carrier transport rollers 42a and 42b, a solenoid that opens and closes various sensors, a mask (film presser) 41, and the like. During transport of the film F by the transport rollers 42a and 42b controlled by the controller 43 and during frame feed, the bar code reader 38 receives optical information such as the standardized code DC of the film F and the image ID of the customer-selected sample image. The recording head 40a of the magnetic recording head 40 reads the magnetic information from the controller 43 that has received information from the control device 14 and records it on the magnetic track MT of the film F. The reading head 40b of the magnetic recording head 40 is Magnetic information including the image ID of the customer selected sample image recorded in F is read.
[0051]
In this way, the optical information and magnetic information such as the image ID of the read customer-selected sample image are sent to the control device 14 via the controller 43. The reading and acquisition of optical information and magnetic information by the bar code reader 38 and the magnetic recording head 40 are preferably performed during film conveyance and frame advance during pre-scanning to read the image of the film F roughly. However, the present invention is not limited to this, and it may be performed at the time of fine scanning, or may be performed by a dedicated device completely separately.
[0052]
In such a scanner 12, reading of one frame of film image after reading of the optical information and magnetic information of the film F by the barcode reader 38 and the magnetic recording head 40 is performed. In the scanner 12, the reading light emitted from the light source 24, adjusted in light amount by the variable aperture 26, passed through the color filter plate 28, adjusted in color, and diffused in the diffusion box 30 is held at a predetermined reading position by the carrier. By entering and passing through one frame of the film F, projection light carrying the film image of this frame photographed on the film F is obtained.
[0053]
The projection light of the film F is imaged on the light receiving surface of the CCD sensor 36 by the imaging lens unit 34, read photoelectrically by the CCD sensor 36, and the output signal is amplified by the amplifier 37 and sent to the control device 14. It is done. The CCD sensor 36 is, for example, an area CCD sensor having 1380 × 920 pixels. The CCD sensor 36 is, for example, an area CCD sensor having 1380 × 920 pixels. Further, in the illustrated apparatus, the CCD sensor 36 is configured to be two-dimensionally movable in the pixel arrangement direction by an amount corresponding to a half pixel, so that the number of read pixels is apparently increased to four times. be able to.
[0054]
In the scanner 12, such image reading is performed three times by sequentially inserting each color filter of the color filter plate 28, thereby separating and reading one frame image into three primary colors of R, G, and B.
Here, in the digital printer 10, prior to image reading (fine scan) for outputting the composite image print P (frame print FP), the result of combining the customer-selected sample image and the read image is adjusted, and the composite is performed. In order to display an image, particularly a read image, and to determine image processing conditions and the like, a pre-scan for reading a film image at a low resolution is performed. Accordingly, reading by the CCD sensor 36 is performed at least six times in total for one frame image.
[0055]
The scanner 12 uses an area CCD sensor and separates the projection light into the three primary colors by the color filter plate 28 to read the image. However, the scanner used in the present invention is not limited to this and is not limited to the three primary colors. A scanner that uses three types of line CCD sensors corresponding to individual readings and performs image reading by slit scanning that reads an image while the film F is scanned and conveyed by carrier conveying rollers 42a and 42b may be used. Since such a scanner can read three colors of R, G, and B at the same time, the pre-scan and the fine scan only need to be performed once. The image reading operation can be simplified by reciprocally reading both the film F and the 240 film F in the cartridge Fc. Also, the pre-scan can be read continuously for all frames.
[0056]
In this way, the image data read by the scanner 12 and the image ID of the customer-selected sample image are output to the control device 14.
FIG. 9 is a block diagram showing an embodiment of the control device 14.
As shown in the figure, the control device 14 controls the image processing unit 15 in addition to the image processing unit 15 that generates composite image data obtained by combining the customer-selected sample image and the read image, which is a feature of the present invention. In addition to controlling and managing the scanner 12, the control device 14 and the digital printer 10 such as the printer 16, a database of sample images to be described later using the image ID of the customer-selected sample image acquired by the scanner 12 as search data CPU 56 for reading a customer-selected sample image that matches the image ID from the sample image memory 54 and outputting the image to the compositing processing unit 50, and data necessary for operating the digital printer 10, for example, customer-selected sample A memory 58 for storing composite image data obtained by combining the image and the read image; A monitor 18 for displaying various information (template file contents) of the synthesized image and sample image, a keyboard 22a for inputting necessary data (items), and a mouse 22b for designating various data in the template file (or the like) These symbols such as code numbers may be input with the keyboard 22a.), The image output device 16 and the like are connected to each part via a CPU or the like (CPU bus).
[0057]
The image processing unit 15 includes an A / D converter 44, an image preprocessing unit 45, a read image (frame) memory 46 including a pre-scan (frame) memory 46a and a fine scan (frame) memory 46b, and an image processing unit 48. A synthesis processing unit 50, a D / A converter 52, and a sample image (template image) memory 54.
Here, the A / D converter 44 uses the R, G, and B image data output from the scanner 12 as digital image data. The pre-processing unit 45 performs various conversion / correction processes such as DC offset correction, dark correction, Log conversion, shading correction, negative / positive conversion, and the like on the obtained digital image data as necessary.
[0058]
The read image memory (frame memory) 46 stores (stores) the preprocessed image signal data obtained in this manner. Among the preprocessed image signal data, the prescan image data is stored in the prescan memory 46a. Fine scan image data is stored in the fine scan memory 46b. The frame memory 46 may be built in the control device 14, but a part of the storage device 20 may be used as the frame memory 46.
The negative / positive conversion performed in the image preprocessing unit 45 is to convert a negative image read from a negative film into a positive image read from a reversal film or a positive image into a negative image.
[0059]
The image processing unit 48 sets processing conditions (image processing conditions) for the obtained image data, and performs image processing on the image data in accordance with the set image processing conditions.
In the image processing unit 48, first, prescan image data is read from the prescan memory 46a, density histogram creation, image feature amount calculation, and the like are performed, and color / tone correction, electronic magnification, and dynamic range processing are performed. Various image processing conditions such as sharpness are set.
[0060]
When the image processing conditions are set in this way, the image processing unit 48 reads the prescan image data or the fine scan memory 46b in the case of fine scan according to the set image processing conditions. Fine scan image data is first subjected to vertical and horizontal rotation (-90 ° or 90 °), inversion (± 180 °), or rotation at an arbitrary angle (± θ) as necessary, followed by the image. Correction of color and / or gradation of the image, then enlargement / reduction processing of the image (electronic scaling) according to the set electronic magnification, and then compression and / or expansion of the dynamic range of the image data (covering by image processing) Imparting a baking effect or the like), and sharpness processing (sharpening processing) is performed using an unsharpness mask or the like.
[0061]
The pre-scan image processed according to the image processing conditions set by the image processing unit 48 is combined with the sample image (template image) by the subsequent combining processing unit 50, and then is combined with the sample image on the monitor 18 such as a CRT. Although displayed, if necessary, the pre-scan image in the displayed composite image is visually checked, the operator performs verification, color / density adjustment, gradation adjustment, etc., and image processing set in the pre-scan image The condition may be corrected.
[0062]
In addition, the sample image memory 54 includes all sample images displayed on all sample image display cards 60 prepared in advance in the digital printer 10 (herein, it can also be referred to as a template image, a background image, or a mount image). 62 digital image data is stored (stored) as a template file. These sample image data are obtained by using the sample image ID read by the barcode reader 38 or the magnetic recording head 40 of the scanner 12 as search data. The CPU 56 can retrieve and read from the sample image memory 54. The frame memory 46 and the sample image memory 54 may be built in the control device 14, but may be allocated to a part of the storage device 20.
[0063]
The composition processing unit 50 is a part that creates a composite print image of a customer-selected sample image and a customer film image, which is a feature of the present invention. The composition processing unit 50 includes image data output from the image processing processing unit 48 and a sample image memory 54. The CPU 56 combines the sample images read as sample data with the sample image IDs as search data so as to be normal images. A method for synthesizing the customer-selected sample image and the customer's film image, which is performed by the synthesis processing unit 50, will be described later.
[0064]
In the synthesis processing unit 50, when the image data output from the image processing processing unit 48 is fine scan image data, the synthesized image data obtained by synthesizing the customer-selected sample image and the customer's film image is Each item is stored in the memory 58 or the storage device 20 or directly output to the printer 16. On the other hand, in the case of image data in video mode in which images of a customer film are continuously read in monochrome and displayed on the monitor 18 or pre-scan image data, resolution (pixel density) and The image data is converted into image data (device-dependent image data), converted from a digital image data signal to an analog image data signal by the D / A converter 52, and output to the monitor 18. A composite image of the sample image and the film image is displayed on the monitor 18 based on the analog image data signal thus obtained.
[0065]
The CPU 56 starts control of the image processing unit 15 that combines characters and images, and controls and manages the digital printer 10 such as the scanner 12, the control device 14 itself, and the printer 16. The reading conditions are set in the image data, the scanner 12 is controlled based on the reading conditions, the sample image is read from the sample image memory 54 using the image ID of the sample image read by the scanner 12, and the digital image signal read by the scanner 12 is read. Image signalization and image processing, synthesis of the scanned image and sample image selected by the customer as a digital image signal, image processing of the synthesized digital composite image signal, setting of synthesis processing conditions and automatic setting of image processing conditions (Auto Setup), control of composite image exposure such as exposure and development of composite images Te, performs digital printer 10 overall control and management.
[0066]
The memory 58 is used for storing control data, composite image data, and the like necessary for operating the digital printer 10, and in particular, conditions and information for controlling the frame print system of the present invention, and for executing the data. Data, for example, composite image data is stored for each case. The CPU 56 refers to the memory 58, particularly the job file therein, when performing the various controls and management described above. Note that at least a part of these data may be stored in the storage device 20, and the CPU 56 may be configured to refer to the storage device 20 in the control.
The control device 14 is basically configured as described above.
[0067]
As described above, the digital composite image data of the customer selection sample and the customer film image synthesized by the control device 14 is output to the printer 16.
The printer 16 exposes the photosensitive material A based on the digital composite image data signal synthesized by the control device 14 in accordance with the printing conditions, develops it, and outputs a print P (frame print FP) carrying the reproduced image. To do.
[0068]
As shown in FIG. 7 or FIG. 9, the monitor 18 is pre-scanned by the scanner 12 and is subjected to image processing by the control device 14, and the read image and the sample image are combined by the control device 14. A composite image is displayed, and an area (finished print area) of an image reproduced by the printer 16 is displayed. The monitor 18 not only displays a pre-scanned image, but also preferably can continuously read and display the image of the customer film in monochrome as a video mode on the monitor 18, which may be during pre-scanning, In this video mode, the operator looks at the monitor 18 and determines the position of the image in the finished print area, the range of the image (magnification), the position of the customer image in the image window in the composite image, the range of the image (magnification), and the like. It is preferable to configure so that adjustment and correction can be performed. In the present invention, normally, when the operator instructs the control device 14 to adjust / correct the composite image during pre-scan or fine scan, the video image mode is automatically switched once, and after adjustment / correction, Again, pre-scanning (three times) and fine scanning (three times) can be performed continuously.
[0069]
As shown in FIG. 1, the storage device 20 is used as an auxiliary memory such as a memory 58, a frame memory 46, and a sample image memory 54, which are built-in memories in the control device 14, and as a backup memory. Removable HD or the like, or MO (magneto-optical recording medium), magnetic recording medium such as magnetic tape or FD, and its driver, a sample image prepared in advance, and a film image read by the scanner 12 synthesized therewith Each of the digital image signals before being subjected to the composition processing, or the digital composite image signal processed by the control device 14 or used by the printer 16, and further, the digital image composition processing conditions, image processing conditions, exposure conditions, etc. A part or all of the processing conditions of the photosensitive material is stored. The storage device 20 may be used instead of the built-in memory in the control device 14.
[0070]
The digital printer 10 used in the frame printing system of the present invention is basically configured as described above. Hereinafter, a method for synthesizing a sample image and a film image performed in the digital printer 10 will be described in detail. .
FIG. 10 shows a flowchart of an example of an image composition processing step performed in the composition processing unit 50 of the control device 14 of the digital printer 10 used in the present invention.
[0071]
As illustrated in FIG. 10, the composition processing unit 50 includes a sample image ID obtained by reading the sample image (template image) Itp and the mask image Im selected by the customer for each of the three primary colors, for example, RGB, by the scanner 12. Is read from the sample image memory 54 by the CPU 56. Further, the scan image Is is read from the frame memory 46 of the image processing unit 15 and processed by the image processing processing unit 48 and then input to the synthesis processing unit 50 for each of RGB.
In FIG. 10, only one color image data of the above-described RGB image data, for example, G image data is shown, but the remaining two colors R and B are also shown in the same manner. Needless to say, it can be done.
[0072]
Here, the sample image Itp is an image arranged in an upper layer in the template coordinate system to be synthesized, and is a bitmap image having the same resolution as the output resolution of the printer 16. In addition, the sample image Itp may include a bitmap image of characters such as several types of patterns and patterns and fixed characters (sentences) in and out of the pattern.
[0073]
Next, the mask image Im is arranged in a middle layer in the template coordinate system, and is an area other than the image area Amw in which the scan image Is is incorporated, that is, an area in which the sample image Itp exists, that is, an image in the non-scan image area Amt. This is for masking data (read image data output from the image processing unit 48). In the illustrated example, when the image data is represented by 8-bit data for each color (24-bit full color in total), the mask image Im is set to 255 for any RGB image within the image area Amw. In the non-scan image area Amt outside the image area Amw, priority is given to the scan image Is arranged in the lower layer, and the mask value is set to 0 for any image of RGB and is arranged in the upper layer. The template image Itp is configured to have priority. That is, the mask image Im has a mask value of 0 in the region Amt where the sample image Itp exists, and the mask value of 255 in all other regions Amw is determined only by the sample image Itp. Although only a binary value of 255 is taken, it can be said to be an inverted image that makes a pair with the sample image Itp.
[0074]
The scan image Is is arranged in a lower layer in the template coordinate system, and is a film image that the customer desires to synthesize a frame image, and is read to a size that matches the sample image Itp to be synthesized. That is, in the illustrated example, the sample image Itp, the mask image Im, and the scan image Is are prepared as the same size.
[0075]
As shown in FIG. 10, when the sample image (bitmap image) Itp as described above and the mask image Im having the image area Amw of the scan image Is are respectively prepared for RGB three colors, a sample is obtained for each color. The image Itp is set as the highest layer, the scan image Is is set as the lowest layer, and the mask image Im is sandwiched between the intermediate layers in between. The sample image Itp and the scan image Is are subjected to mask composition processing, and the composite print image P Is created. At this time, the sample image Itp and the scan image Is are synthesized so that their directions in the top direction coincide with each other and become normal images. Therefore, the top direction of the composite print image P matches the top direction of the sample image Itp and the scan image Is. Note that, when the scan image Is is read by the scanner 12, the scan image Is is automatically rotated in accordance with the direction of the celestial direction even if the reading direction of the scan image Is is different from the direction of the celestial direction. They are synthesized so that they are normal images with respect to Itp.
[0076]
In this way, a composite print image P in which the sample image Itp and the scan image Is are combined can be obtained. Since this composite print image P is displayed on the monitor 18, by checking on the display screen of the monitor 18, It is preferable that the character image Mc, the scanned image Is, and the like can be rotated in units of 90 ° or in units of an arbitrary angle θ according to the direction of the sky, and the arrangement of these images can be finely adjusted. It is good.
[0077]
In this way, print image data is obtained in which the customer-selected sample image and the customer film image are aligned so that their top directions coincide with each other and become a normal image. In order to display on the CRT display 18, first, the customer film image by the scanner 12 is continuously read in the video mode or the pre-scan image data. The video mode image data or the synthesized image data obtained by synthesizing the pre-scan image data and the sample image is displayed on the CRT display 18 from the synthesis processing unit 50 via the D / A converter 52.
[0078]
The operator visually confirms the composite state of the sample image and the film image synthesized by the operator, and the top direction of each image is the same, and each image is a normal image. If the image is accurate, the digital printer 10 inputs the image to that effect, and the digital printer 10 uses the scanner 12 to pre-scan and fine-scan the customer film image, or immediately after the pre-scan, to the image data obtained by performing the fine scan. Then, after performing the image preprocessing and image processing as described above in the control device 14, the composition processing unit 50 performs the above-described composition processing of the customer selected sample image and the customer film image. The print image data obtained in this way is composite image data that becomes a composite image that is beautifully and accurately combined so that the customer-selected sample image and the customer film image coincide with each other in the top direction and become a normal image. .
[0079]
On the other hand, when the composite print image displayed on the display 18 is corrected, particularly when the position or size (magnification) is corrected, the digital printer 10 displays the composite image on the display 18 in almost real time, particularly in the video mode. Therefore, the position of the film F, which is the customer film image, is adjusted by the carrier 32 of the scanner 12 while looking at the display composite image on the display 18, especially when the directions of the scan images in the top direction do not match. It can be performed by rotating or exchanging to form an image, or adjusting the size and magnification by the imaging lens unit 34. The print image data thus obtained is, of course, composite image data that is beautifully and accurately synthesized so that the customer-selected sample image and the customer film image coincide with each other in the top direction and become a normal image. It can be said that there are no errors or deviations in both images and the direction of the sky.
[0080]
When one piece of composite print image data is obtained in this way, the obtained composite image data can be directly sent from the composition processing unit 50 to the printer 16 to output a print image P (frame print).
In the present invention, the obtained composite image data may be stored in the memory 58 by the CPU 56. In this way, a predetermined number of composite image data is stored in the memory 58 for each case. Thus, the image compositing process is completed. Thereafter, a plurality of composite image data generation operations for the next lot may be performed.
[0081]
In the above-described example, the frame print image is a composite image of the customer-selected sample image and the customer image (original image). However, the present invention is not limited to this and may be used as a frame image. In addition to the sample image, any of a background image, a template image, a mount image, a character image, a mark, a pattern, a captured image, and the like may be used.
The frame print composite print method applied to the present invention and the frame print system according to the fourth aspect of the present invention are basically configured as described above.
[0082]
As mentioned above, the frame print system of the present invention, the sample image display card used in this, the camera and the film with lens have been described in detail with various examples, but the present invention is not limited to the above examples, Of course, various improvements and modifications may be made without departing from the scope of the present invention.
For example, a customer image (original image) or a read image of a customer film has already been read from the customer film, or generated by a computer or the like, or photographed by a digital still camera or the like, and then FD, HD, MO, smart media ( Image data stored in an image recording medium such as a trademark may be used, and a sample image may be generated by a computer or the like, or may be taken by a digital still camera, a digital video camera, or the like, and then FD, HD , MO, SmartMedia (trademark) or other image data stored in an image recording medium may be used, and the image ID of the sample image may be specified by a digital camera or the like.
[0083]
【The invention's effect】
As described above in detail, according to the present invention, the customer or user can select a sample image to be combined (overlapped and combined) with the print image as a frame image. Can be obtained, and the enjoyment of photography can be increased.
Further, according to the present invention, a composite print image obtained by combining a sample image such as a frame image, a background image, or a character image with a photographed image (original image) of a customer or a user is used using a digital photo printer of the digital print system. At the time of production, the customer or user can select the sample image that he / she wants to synthesize at the time of shooting without degrading the image quality of the composite print image. An image quality frame print can be obtained.
[0084]
In addition, according to the present invention, a clearer frame print can be obtained as compared with a pre-exposure type frame print in which a sample image is pre-exposed as a frame image on a photographic film before photographing.
Further, according to the present invention, a frame print having any design can be produced.
[Brief description of the drawings]
FIGS. 1A and 1B are a schematic front view and a back view, respectively, of an embodiment of a sample image display card used in a frame print system of the present invention.
FIG. 2 is a schematic perspective view of the back side of an embodiment of a camera used in the frame print system of the present invention on which the sample image display card shown in FIGS. 1 (a) and (b) is mounted.
3 is a schematic perspective view of the front side of the camera shown in FIG.
4 is a block diagram of an embodiment of a control system that generates and records identification information of sample images of the camera shown in FIGS. 2 and 3. FIG.
5 is a schematic view of an example of an APS type photographic film and its film cartridge used in the camera shown in FIGS. 2 and 3. FIG.
6A is a schematic front view of an example of a main body of a film with a lens used in a frame printing system of the present invention, and FIG. 6B is a main body of the film with a lens shown in FIG. It is a schematic front view of one Example of the film with a lens of this invention which packaged with the packaging material.
FIG. 7 is a block diagram of an embodiment of a digital printer constituting the frame printing system of the present invention.
8A is a partially enlarged view including the carrier 32 of the scanner of the digital printer shown in FIG. 7, and FIG. 8B is a barcode reader and magnetic information reading / recording of the carrier shown in FIG. It is a block diagram which shows one Example of a means.
FIG. 9 is a schematic diagram showing a block diagram of an embodiment of the control device of the digital printer shown in FIG. 7;
FIG. 10 is an explanatory diagram showing a flow of one embodiment of an image composition process performed in the frame print system of the present invention.
FIGS. 11A and 11B are diagrams showing examples of frame prints produced in the frame print system of the present invention. FIG.
[Explanation of symbols]
10 Digital printing system
12 Image input device
14 Control device
15 Image processing section
16 Image output device
18 Image display device (display monitor)
20 External storage device
22 Data input device
22a keyboard
22b mouse
38 Bar code reader
40 Magnetic recording head
45 Image preprocessing section
46, 46a, 46b Frame memory
48 Image processing unit
50 Composition processing section
54 Sample image memory
56 CPU
58 memory
60 Sample image display card
62 Sample images
64 Card ID
70 cameras
86 Card slot
88 Card ID reader
90 Image selection button
91 Image ID generator
92 Magnetic recording head
100 Film with lens
102 Film body with lens
104 Packaging materials
Amt image area
Amw non-image area
Itp sample image (background image, template image)
Im mask image
Is scan (customer) image
P Print image
FP frame print

Claims (4)

A sample image display card attached to a camera used in a frame print system for outputting a frame print in which a sample image is combined with a print image as a frame image,
Optical or physical card identification information recognizable by the camera;
A sample image display card comprising: at least one sample image to be combined with the print image of each frame as the frame when the photographic film taken by the camera is printed. A camera using a photographic film that is used in a frame print system that outputs a frame print in which a sample image is combined with a print image as a frame image, and a magnetic information recording area is provided for each frame to be photographed. ,
At least one of the sample image display cards according to claim 1;
A mounting section for mounting the sample image display card in a replaceable manner;
First reading means for optically or physically reading the card identification information for recognizing the mounted sample image display card;
Image selection means provided corresponding to the sample image of the mounted sample image display card and selecting the sample image to be combined with the print image;
An image of the sample image including the card identification information of the sample image display card mounted and the selection information of the sample image selected by the image selection means in the magnetic information recording area of the photographed film piece. And a magnetic recording head for writing identification information. A film with a lens used in a frame print system that outputs a frame print in which a sample image is combined with a print image as a frame image,
A photographic film in which image identification information of a sample image to be combined with a print image is written in advance in the magnetic information recording area or the optical information recording area of the reader unit,
A film body with a lens in which this photographic film is incorporated;
A packaging material for wrapping the lens-attached film body in which the photographic film is incorporated,
A film with a lens, wherein the sample image is displayed on an outer surface of the lens-attached film main body or an outer surface of the packaging material. A frame print in which a sample image is combined with a print image as a frame image when the photographic film photographed with the camera according to claim 2 or the photographic film photographed with the lens-equipped film according to claim 3 is printed. A frame print system that outputs
Storage means for storing a plurality of the sample images in association with image identification information of the sample images,
Second reading means for reading image identification information of the sample image recorded in the magnetic information recording area or the optical information recording area of the photographic film;
Third reading means for photoelectrically reading an image of each frame of the photographic film;
An image that is read from the storage unit and that combines the sample image corresponding to the image identification information of the sample image read by the second reading unit with the image of each frame read by the third reading unit Combining means;
An image output means for outputting a composite image of each frame synthesized by the image synthesis means as a frame print.

Images