JP2004287369A - Photographic printer, photographing method therefor, and print medium unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a photographic printer which enables a user to obtain photographs of high quality having a three-dimensional effect in a state meeting user's preference and enables the user to obtain a photographic image wherein catch light superior in design is reflected in pupils of an object. <P>SOLUTION: Strobe lights 6 and 7 like umbrellas having light emission surface shapes formed into approximate circles are vertically arranged in the left area of a camera unit 2 as viewed from the object, and a light box 8 for uniformly illuminating the entire object is provided in the right area of the camera unit 2 as viewed from the object. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a photographic print device that takes a photograph of a user, combines the photograph with a background image, a graffiti image, and the like, and outputs the resultant as a photographic print.
[0002]
[Prior art]
Conventionally, at a recreational facility such as a game center, for example, a photo sticker vending machine, which takes a picture of a user and combines the picture with a background image and outputs it as a sticker print, has been installed. are doing. Some of these photo sticker vending machines allow a user to write arbitrary characters, figures, and the like on a taken image with an attached touch pen. The processing in such a photo sticker vending machine has a flow of coin insertion, photographing processing, editing (doodle) processing, and sticker printing, and a user who has completed a series of operations is required to obtain a product for the inserted coin. The play ends when the seal print is received.
[0003]
In the above photo sticker vending machine, the photographing process is performed, for example, as follows. A shooting screen shot by the digital camera is displayed on the display screen in real time. The user sets the composition of the image taking into consideration the pose and the standing position while looking at the image taking screen. Then, when the user presses the shutter button at the time when the preparation for the photographing is completed, the photographing is performed together with the flash after the countdown.
[0004]
Conventionally, as a lighting at the time of photographing, a lighting device is provided at an upper portion or a left and right part of the camera unit in a housing in which a camera unit and the like are built, and photographing is performed by using the lighting device.
[0005]
[Patent Document 1]
JP-A-2002-56457 (publication date: February 22, 2002)
[0006]
[Patent Document 2]
JP-A-2002-64726 (publication date: February 28, 2002)
[0007]
[Patent Document 3]
Japanese Patent Application Laid-Open No. 2000-81652 (publication date: March 21, 2000)
[0008]
[Patent Document 4]
Japanese Patent Application Laid-Open No. 2002-232749 (published August 16, 2002)
[0009]
[Patent Document 5]
Published Japanese Utility Model Application No. 7-41538 (Published July 21, 1995)
[0010]
[Problems to be solved by the invention]
As described above, in the configuration in which the illumination device is provided on the upper portion and the left and right portions of the camera unit, it is possible to irradiate the subject with sufficient illumination for shooting, but uniform illumination is performed. Had become. In other words, the face of the subject has no shadow, and the captured image has a gentle impression.
[0011]
Therefore, a device in which the shape of the lighting device is devised has been proposed (for example, see Patent Documents 1 and 2). These patent documents disclose a configuration in which the shape of a light emitting unit of a lighting device is formed into a star shape or the like in consideration of a shape of a light reflected in a pupil of a subject. However, in such a configuration, although the shape of the light reflected in the pupil of the subject can be made to be excellent in design, the illumination conditions for the entire subject are not so different from those in the related art. The problem that the face is photographed two-dimensionally has not been solved.
[0012]
Further, for example, Patent Document 3 discloses an imaging system that provides an atmosphere in which a professional photographer takes an image in a photo studio. Although this document discloses a configuration using a strobe reminiscent of lighting in a photo studio, it does not devise lighting and does not solve the above-described problem.
[0013]
The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to enable high-quality shooting with a three-dimensional effect to be performed in a state according to a user's preference, as well as design. It is an object of the present invention to provide a photographic printing apparatus capable of obtaining a photographic image in which an excellent catchlight is projected in a subject's pupil, and a photographing method therefor.
[0014]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a photographic printing apparatus according to the present invention includes: a photographing unit that photographs a subject; and an image that outputs an image to a print medium based on an image photographed by the photographing unit. In a photographic printing apparatus having an output unit, at least a plurality of illuminating units for irradiating a subject with light at the time of shooting are provided, and the illuminating units are arranged on the left and right with respect to the shooting unit from the subject side, The illumination unit disposed on the left side of the photographing unit and the illumination unit disposed on the right side of the photographing unit have different light emitting surfaces.
[0015]
Further, the photographing method in the photographic printing apparatus according to the present invention includes: photographing means for photographing a subject; and image output means for outputting an image to a print medium based on the image photographed by the photographing means. A photographing method in a photographic printing apparatus, comprising: an illuminating unit disposed on the left side of the photographing unit when viewed from the subject side; and an illuminating unit disposed on the right side of the photographing unit viewed from the subject side. Irradiating light from the illuminating means, and illuminating by the illuminating means. And the illumination means arranged on the right side with respect to the photographing means.
[0016]
According to the above configuration and method, the illuminating means is arranged on both left and right sides of the photographing means, and the shape of the light emitting surface of the illuminating means is different between the left side and the right side. In such a configuration, the illumination state differs between the left and right of the subject, so that it is possible to shoot in a state where different shadows are generated on the left and right of the subject.
[0017]
Here, conventionally, in order to prevent failure in photographing due to defective lighting or the like, the subject has been uniformly illuminated left and right. Here, the defective illumination refers to a state in which, for example, an insufficient amount of light occurs due to an unintended shift in the standing position of the subject, and as a result, the illumination balance of the subject becomes inappropriate. However, when the photographing is performed in such a manner that the subject is uniformly illuminated on the left and right, for example, the face of the subject has no shading and the captured image has a spacious impression. On the other hand, according to the above-described configuration, for example, it is possible to perform shooting in a state where different shadows are generated on the left and right of the subject's face, so that a three-dimensional image captured by a professional photographer is provided. can do.
[0018]
Further, when the illumination state is different between the left and right as described above, it is possible to adjust the degree of shading by changing the position of the subject to the left and right. Therefore, by adjusting the position of the subject while confirming, for example, a live view image in which the photographing state can be confirmed in real time, it is possible to obtain a shading condition that suits the user's preference.
[0019]
Furthermore, according to the above configuration, since the shapes of the light emitting surfaces of the illumination means are different between the left and right, the shape (catch light) of the illumination means reflected on the pupil of the subject in the captured image is better designed. can do. That is, the pupil of the subject can be set to a state in which a plurality of luminescent spots such as characters appearing in girl manga are present, and a captured image with a cute impression can be obtained. Therefore, for example, it is possible to perform imaging that gives a good impression to a young female user.
[0020]
Further, in the photographic print device according to the present invention, in the above-described configuration, in at least one of the left and right regions with respect to the photographing unit, the illuminating unit may be arranged at least one above and below. Good.
[0021]
According to the above configuration, since at least one illuminating unit is arranged vertically, when the subject moves back and forth, the illumination state changes, and the way of shading changes. That is, even if the subject moves back and forth, it is possible to adjust the hit condition of the illumination, and it is possible to respond more finely to the preference of the subject.
[0022]
Further, in the photographic printing device according to the present invention, in the above-described configuration, the light-emitting surfaces of the illuminating units arranged above and below may be configured to be substantially circular.
[0023]
According to the above configuration, the catch light reflected in the pupil of the subject in the captured image includes a state in which substantially circular shapes are vertically arranged. Therefore, the catchlight can be made more excellent in design, and the degree of appeal to the user can be improved.
[0024]
Further, in the photographic printing device according to the present invention, in the above-described configuration, the substantially circular illumination means may emit light by reflecting light from the light source on a parabolic reflection surface. Good.
[0025]
According to the above configuration, the light from the light source is reflected by the parabolic reflection surface, so that the light can be emitted only to the required area, so that the subject can be efficiently illuminated. In addition, since the lighting unit having such a shape is similar to a lighting device used when a professional photographer takes a picture, for example, it seems that a full-scale picture is taken for a user. Atmosphere can be provided.
[0026]
Further, in the photographic printing device according to the present invention, in the above configuration, the substantially circular illumination means emits light by reflecting light from the light source on a parabolic reflection surface. In addition, a light emitting plate provided so as to include the light source in a space between the light source and the reflection surface may be provided on the light emission side.
[0027]
According to the above configuration, the light source is included in the space between the reflection surface and the light emitting plate, so that the light source cannot be touched from outside. Therefore, in a photographic printing device used by an unspecified number of users, the user is prevented from coming into contact with the light source, so that damage to the light source can be prevented, and contact with the light source that becomes hot can be prevented. By being prevented, the safety of the user can be ensured.
[0028]
Further, in the photographic printing device according to the present invention, in the above configuration, the light emitting plate may have a function of diffusing light reflected from the reflection surface.
[0029]
According to the above configuration, since the light emitting plate has a function of diffusing light reflected from the reflection surface, it is possible to prevent an unnecessarily strong shadow from being generated on the subject. Further, since the light from the light source can be made uniform, it is possible to prevent uneven light. As a result, it is possible to obtain a photographic image having a soft impression without shininess or unevenness of the skin of the subject.
[0030]
Further, in the photographic print device according to the present invention, in the above-described configuration, either of the illuminating unit arranged on the left side of the photographing unit and the illuminating unit arranged on the right side of the photographing unit. One of them may be configured such that its light emitting surface is large enough to illuminate the whole body of the subject at the time of shooting.
[0031]
According to the above configuration, the illumination means having a light emitting surface sized to illuminate the whole body of the subject at the time of photographing is provided. No matter where the subject is located, it is possible to illuminate to some extent. Therefore, even if the illumination is arranged imbalanced right and left as in the above configuration, the minimum required illumination can be applied to the subject, so that a failure in imaging due to poor illumination can be prevented.
[0032]
It is preferable that the size of the light emitting surface of the illuminating means is larger than the projection shape having the largest projection area among the projection shapes of a person assumed as a subject.
[0033]
Further, in the photographic print device according to the present invention, in the above-described configuration, the illuminating unit includes a stationary light emitting unit for constantly emitting light, and a photographing light emitting unit for emitting strong light at the moment of photographing. May be adopted.
[0034]
According to the above configuration, the lighting unit is provided with both the steady light emitting unit and the photographing light emitting unit. Therefore, during the photographing process, the user can compose the photographing composition and pose while viewing the live view image, for example. When thinking, the user is illuminated with the steady light by the steady light emitting means, which makes it possible to check the hit condition of the light. It is possible to irradiate the user with strong light necessary for the user.
[0035]
Further, a print medium unit according to the present invention includes a print medium on which an image is printed, and an identification medium for recording identification information relating to the print medium, and reads identification information provided in the photographic printing apparatus according to the present invention. The identification information recorded on the identification medium is read by the means, and after the content is confirmed, an image is output to the print medium.
[0036]
According to the above configuration, it is determined based on the identification information read by the identification information reading means whether the mounted print medium is usable in the photo printing apparatus, and only when the print medium is usable, It becomes possible to make the printer operable. That is, it is possible to set so that a print medium other than the print medium designated in the photo printing apparatus cannot be used.
[0037]
Also, by including the number of sheets information in the identification information, the number of sheets is counted down every time the print medium is used, so that the number of remaining sheets can be grasped. Therefore, if the remaining number of sheets is reduced and a warning is displayed by a display means or the like, it is possible to avoid a problem such as running out of paper during use by the user. Become.
[0038]
In addition, by including the paper type information in the identification information and correcting the color components and the like of the image data in consideration of these, it is possible to output an accurate image on the paper or the ink film.
[0039]
BEST MODE FOR CARRYING OUT THE INVENTION
One embodiment of the present invention will be described below with reference to FIGS.
[0040]
The photo print device 1 according to the present embodiment has a function of taking a picture of a user (photographing function), a function of allowing a user to edit graffiti or the like on a photographed picture (editing function), and a function of editing a photograph. It has a function (print function) for printing an image. Note that all of these functions are not essential. For example, a configuration in which the editing function is omitted may be adopted.
[0041]
(Appearance of photo print device)
FIG. 1 is a perspective view showing a state in a photographic editing space in the photographic printing device 1 according to the present embodiment. As shown in FIG. 1, a camera unit (photographing means) 2, a photographing processing touch panel 3, a coin slot 4, an editing device 5, an umbrella-type strobe light (lighting means) are provided in a photographing and editing space of the photograph printing apparatus 1. 6.7, a light box (lighting means) 8, a front strobe light (lighting means) 9, rear strobe lights (lighting means) 10A and 10B, and speakers 11A and 11B.
[0042]
The camera unit 2 is for taking a picture of a user, and is equipped with a digital camera including, for example, a lens group, an aperture, and a CCD (charge coupled device) image sensor. Further, the camera unit 2 may be configured to be able to switch between a zoom, an aperture, a filter, and the like so as to support a plurality of photographing methods such as whole body photographing and close-up photographing. Note that the camera unit 2 may be attached to be vertically movable by, for example, a vertically provided rail. In this case, the camera unit 2 can be installed at an optimum height in accordance with a user's instruction or the like.
[0043]
Further, for example, a sensor for detecting the standing position of the user is provided in the shooting and editing space, and based on the detection result of this sensor, the camera unit 2 sets the zoom or shakes the head to shoot. The position may be determined. In addition, the user can set the range of the subject to be reflected in the photograph, such as “up face” or “from head to foot”. When such a camera unit 2 is used, an optimal camera split can be performed according to each standing position of the user.
[0044]
In addition, in order to photograph a beautiful composition, it is important to appropriately adjust the ratio of the background margin and the subject to the image area. It is also preferable that the camera unit 2 performs zoom setting and swing adjustment so that the ratio between the background margin and the subject is set to an optimum value or a value within the optimum range. By adopting this configuration, it is possible to always photograph with an optimal composition, so that, for example, even when a large number of users are taken as subjects, all users can be included in the photographing frame. Therefore, a photograph with a high degree of satisfaction for the user can be provided.
[0045]
FIG. 2 is an enlarged perspective view of the camera unit 2. As shown in the figure, the appearance of the camera unit 2 is similar to a camera used by a professional photographer. As a result, it is possible to provide the user with an atmosphere in which full-scale photographing is performed.
[0046]
The imaging processing touch panel 3 is configured by providing a touch sensor on a display surface such as a flat panel display such as a liquid crystal display device or a CRT (cathode ray tube). Various messages and images in the photographing process are displayed on the photographing process touch panel 3. Specifically, the touch panel 3 for photographing processing displays a demo screen, an opening screen, a billing processing instruction screen, various operation contents in the photographing processing, a photographing screen at the time of photographing, and the like.
[0047]
The coin insertion slot 4 is an insertion slot for a user to insert a predetermined amount of coins as a play fee. The coin slot 4 is also provided with a return port for returning coins to the user when a change occurs or when the coins are reset after being inserted. Further, a coin container (not shown) for storing coins collected from the user is provided inside the apparatus main body.
[0048]
The editing device 5 is a device for performing editing processing such as graffiti on a photographic image after the photographing processing is completed, and includes editing processing touch panels 5A and 5B. The touch panels 5A and 5B for editing processing display various messages and images in editing processing such as graffiti. Specifically, on the touch panel for editing processing 5A, 5B, an image to be edited and various editing tools at the time of image editing processing such as graffiti are displayed.
[0049]
Touch pens are provided in the vicinity of the editing touch panels 5A and 5B (in FIG. 1, below the touch panels 5A and 5B). By touching the touch pen with the touch panels 5A and 5B for editing processing, the user can select a button to be displayed according to the progress of the processing and draw an image such as graffiti.
[0050]
Here, as described above, the editing device 5 is provided with two editing processing touch panels 5A and 5B. As a result, two users can simultaneously input a graffiti process or the like into the captured images displayed on the two editing processing touch panels 5A and 5B. It should be noted that different captured images can be displayed on the touch panels 5A and 5B for editing processing, respectively, and the user can also input a graffiti process or the like for different captured images. In the graffiti processing, a reflection process in which a graffiti process input from one editing process touch panel 5A or 5B is reflected on the other editing process touch panel 5B or 5A, a process for limiting a graffiti possible range, and the like are performed. It may be as follows.
[0051]
The editing device 5 is provided on the left-hand side surface when the user stands toward the camera unit 2 in the shooting and editing space. Since this position is not the position that becomes the background of the subject at the time of photographing, the editing device 5 does not appear in the photographed image. In addition, when a user stands toward the camera unit 2, the shooting and editing space often has a shape that is long in the front-rear direction, so that the side surface on which the editing device 5 is provided is relatively small. The width is wide. Therefore, it is possible to reduce the feeling of cramp given to the user during the editing process.
[0052]
Further, the editing device 5 may be installed on a back surface of a side surface outside the photo printing device. That is, the photographing space and the editing space (editing corner) may be separate in the photo print device. FIG. 13A is a plan view of such a photo print device 60 as viewed from above. FIG. 2B is a front view of the photo printing device 60 as viewed from the surface on which the editing device 5 is installed, and FIG. 2C is a perspective view of the appearance of the photo printing device 60.
[0053]
As shown in FIGS. 13A and 13B, the editing device 5 is configured to be embedded in the side wall of the photographic printing device 60. Because of the embedded configuration, the appearance of the photographic printing device 60 can be reduced without the editing device 5 occupying a large space. Further, it is preferable that a speaker 61 is provided near the editing device 5 so as to be able to output a voice for giving an instruction of an editing operation to a user. In the editing space in front of the editing device 5, a dedicated enclosure, for example, a curtain 62 is provided as shown in FIGS. By providing such a curtain 62, the editing work is not seen by others. Therefore, the user can calmly perform the editing work.
[0054]
If the luggage hook 63 is provided near the editing device 5 as shown in FIG. 13B, the luggage can always be put in the field of view, so that the luggage can be prevented.
[0055]
In the photographic printing device 60 in which the editing space and the photographing space are separately provided as shown in FIGS. 13A to 13C, when the previous user moves to the editing space after the photographing process is completed, the next user takes a photograph. You can enter the space. In other words, in such a photo print device 60, so-called double customer service, in which two sets of users are simultaneously processed in parallel, is possible. Therefore, the user can move to the photographing space or the editing space in a short time as compared with the case where the space for photographing and the space for editing are the same, and the customer turnover rate is improved. That is, the utilization efficiency of the device is improved, and the waiting time of the user is shortened. In addition, users who are waiting in line can easily confirm that the first customer is moving or that the queue is lined up, reducing the stress of waiting time and creating a fun atmosphere. You can start shooting. In addition, when performing the editing process, the user can perform the process without worrying about the waiting user.
[0056]
In this case, it is preferable that the shooting processing time is set to be equal to or longer than the editing processing time. By adopting such a time setting, the last user is less likely to stay in the editing space at the end of shooting, so that it is possible to prevent a waiting sequence before editing processing.
[0057]
In addition, since the editing space and the photographing space are provided separately, that is, since the editing device 5 is not provided in the photographing space, there are the following advantages. (1) The photographing space can be widened left and right. {Circle around (2)} The reflection of the editing device 5 on the photograph can be eliminated. {Circle around (3)} The influence of light emission and reflection by the editing device 5 is eliminated, and the subject can be appropriately illuminated. Therefore, a beautiful finished photograph can be provided.
[0058]
Further, by shooting in the shooting space and then moving to the editing space to perform the editing operation, the user can be given a longer bodily sensation as a game, and can have a more enjoyable time.
[0059]
The speakers 11A and 11B output guidance voices and sound effects for various operations to the user. In the present embodiment, the speakers 11A and 11B are provided on the left and right of the upper rear side with respect to the user's standing position at the time of shooting.
[0060]
(Lighting configuration)
Next, the configuration of an illuminating device including the umbrella-type strobe lights 6, 7, the light box 8, the front strobe light 9, and the rear strobe lights 10A, 10B will be described.
[0061]
The umbrella-type strobe lights 6 and 7 are strobe lights whose light emitting surfaces have a substantially circular shape. The umbrella-type strobe lights 6 and 7 include, for example, a stationary light emitting unit such as a fluorescent lamp for constantly emitting light, and a photographing light emitting unit such as a strobe light for emitting strong light at the moment of photographing. Have. In other words, when the user considers the composition and pose of shooting while watching the live view image projected on the touch panel 3 for shooting processing, the user is irradiated with the steady light by the steady light emitting means, and the It is possible to check the condition, and at the moment of photographing, the photographing light emitting unit emits light, so that it is possible to irradiate the user with strong light necessary for photographing. In the present embodiment, the umbrella-type strobe lights 6 and 7 are set so that the issuing surfaces thereof have different sizes. That is, the size of the light emitting surface of the umbrella-type strobe light 6 is larger than the size of the light emitting surface of the umbrella-type strobe light 7. Details of the configuration of the umbrella-type strobe lights 6 and 7 will be described later.
[0062]
The light box 8 uniformly illuminates the whole body of the user at the time of photographing. The shape of the light emitting surface is substantially rectangular, and the size is from the vicinity of the floor surface to a height equal to or higher than the height of the user. Like the umbrella-type strobe lights 6, 7, the light box 8 includes a steady light emitting unit for emitting light constantly and a light emitting unit for shooting for emitting strong light at the moment of shooting.
[0063]
By arranging the umbrella-type strobe lights 6, 7 and / or the light box 8 in such a manner as to protrude from the camera unit 2 toward the shooting space, it is possible to prevent a user from being too close to the camera unit 2. it can. That is, conventionally, when a user as a subject takes a picture at a position closer than necessary to a camera unit, a problem occurs that a photographed image is overexposed, but as described above. By setting the lighting arrangement to the above, it is possible to suppress such a problem from occurring.
[0064]
The front strobe light 9 is for illuminating only a specific area. Specifically, a grid having a honeycomb structure is provided in front of the light emitting surface, and light is irradiated only in the direction of the grid. More specifically, a honeycomb having a honeycomb structure is mounted on the front surface of the light emitting surface of the front strobe light 9. The light passing direction in the honeycomb is perpendicular to the light emitting surface, and the inner surface of the honeycomb structured grid is painted black for the purpose of preventing reflection of light in a direction other than the light passing direction. I have. Thereby, the direction of the light emitted from the front strobe light 9 is limited, and the directivity of the light irradiation is high.
[0065]
The honeycomb grid type strobe light as described above has a configuration including an arc tube, a reflector that reflects light from the arc tube in the light irradiation direction, and a honeycomb grid provided on the light irradiation direction side of the arc tube. . Unlike a normal strobe device, no diffuser plate is provided on the front surface on the light irradiation side in order to ensure directivity of light irradiation. Note that, as a safety measure, a transparent plate having no light diffusion effect may be attached to the front surface on the light irradiation side.
[0066]
If the front strobe light 9 is directed in a direction to irradiate the user's hair, for example, it is possible to take a photograph in which the hair is shining. The front strobe light 9 also includes a steady light emitting means for emitting light constantly and a light emitting means for photographing for emitting strong light at the moment of photographing.
[0067]
Also, when a plurality of users stand up and down with respect to the camera unit 2 and shoot, if the front strobe light 9 is directed in such a direction as to irradiate light only to the user who stands behind, it is possible to stand up and down. In addition, it is possible to make the illumination light amounts of the respective users uniform. Alternatively, when the front strobe light 9 is composed of two lights, one of which is illuminated exclusively for the front user and the other is illuminated for the rear user, the illumination light amounts of the respective users standing in front and behind are aligned. , Can be changed. In addition, when such a front strobe light 9 is not provided, there is a problem that, when the user is arranged in front and behind the camera unit 2, the user standing on the rear side appears dark. That is, by providing the front strobe light 9 as described above, this problem can be solved.
[0068]
The rear strobe lights 10A and 10B are lights for illuminating the user from above and behind the user. By illuminating the user from above and behind with the rear strobe lights 10A and 10B, it is possible to take a picture with the outline of the user bright and blurred. The rear strobe lights 10A and 10B are also provided with a steady light emitting means for emitting light constantly and a light emitting means for photographing for emitting strong light at the moment of photographing.
[0069]
Like the front strobe light 9, the rear strobe lights 10A and 10B are provided with a grid having a honeycomb structure in front of a light emitting surface, and have directivity of light irradiation. By utilizing the directivity of the light irradiation, the hair of the temporal region of the subject is illuminated with light, while the face of the object is not illuminated. Here, it is preferable that the irradiation direction of the light of the rear strobe lights 10A and 10B is set to be at an angle of about 45 degrees with respect to the temporal surface of the subject standing at the reference position.
[0070]
Next, an arrangement position of the above-described lighting device will be described. As shown in FIG. 1, assuming that the position where the camera unit 2 is disposed is the front, an umbrella-type strobe light 6 is disposed on the upper side and an umbrella-type strobe light 7 on the lower side of the camera unit 2. On the right side of the camera unit 2, a light box 8 is arranged. A front strobe light 9 is disposed above the camera unit 2, that is, above the front. The rear strobe lights 10A and 10B are arranged on the upper rear side when the camera unit 2 is set to the front.
[0071]
FIG. 3 is an illumination arrangement diagram showing an arrangement of each illumination device when the photo print device 1 shown in FIG. 1 is viewed from above. As shown in the figure, each lighting device is arranged in such a direction as to illuminate a user as a subject standing at a basic position separated from the camera unit 2 by a predetermined distance D, for example. I have. The umbrella-type strobe lights 6, 7; the front strobe light 9; and the rear strobe lights 10A, 10B are each directed to illuminate the height near the head of the user standing at the basic position. I have.
[0072]
With the arrangement of the lighting devices as described above, the following two effects can be obtained. The first effect is that (1) it is possible for the user to change the standing position, thereby changing the lighting condition. The second effect is that (2) the shape (catch light) of each lighting device reflected on the pupil of the user can be improved in design. Hereinafter, these two effects will be described.
[0073]
First, the effect (1) will be described. As described above, the illumination device arranged on the left side, that is, the umbrella-type strobe lights 6, 7 and the illumination device arranged on the right side, with respect to the camera unit 2 which is in front of the user as the subject, ie, The light box 8 has a different light emitting surface shape. In the case of such a configuration, by changing the standing position of the subject to the left or right, it is possible to change the degree of illumination of the subject. This will be described more specifically.
[0074]
The light box 8 arranged on the right side with respect to the front illuminates the whole body of the subject uniformly as described above. That is, the light box 8 is a light for ensuring the overall brightness of the subject.
[0075]
On the other hand, the umbrella-type strobe lights 6 and 7 intensively illuminate the vicinity of the head of the subject. Therefore, in the area illuminated by the umbrella-type strobe lights 6 and 7, the amount of light by the umbrella-type strobe lights 6 and 7 is larger than the amount of light by the light box 8. Therefore, near the head of the subject, a thin shadow is formed on the side opposite to the side illuminated by the umbrella-type strobe lights 6 and 7.
[0076]
Here, when the subject moves right and left, the position and size of the shadow formed by the umbrella-type strobe lights 6 and 7 change. Therefore, the user can adjust his or her standing position to the left or right while viewing the live view image, so that the user can adjust his or her favorite shadowing state.
[0077]
Conventionally, the illumination of the subject is basically illuminated from the front with a uniform amount of light from left to right. In this case, light can be uniformly applied to the subject at any position without unnecessary shadows, so that a photograph without failure can be taken. However, in the captured image, the subject's face and the like are in a state where there is no shadow, and the image has a light impression. On the other hand, according to the present invention, it is possible to increase the expressive power of photographing the face of the subject or the like by positively creating a shadow. Also, for example, by creating shadows on the sides of the cheeks and the contours of the neck, it is possible to make the subject more slim, so that a user such as a woman has the impression that a photograph is good. It is possible to make it.
[0078]
As described above, the photographing technique of changing the lighting state between left and right is often used in photographing by a professional photographer or the like, and can give a user an impression that full-scale photographing is being performed.
[0079]
In the above description, the effect when the subject moves left and right has been described. However, it is also possible to change the shooting state by moving back and forth. As described above, the umbrella-type strobe lights 6 and 7 are arranged vertically in the left area with respect to the front. Therefore, when the subject moves back and forth, the illumination state of the umbrella-type strobe lights 6 and 7 changes, and the way of shading changes. For example, when the subject moves forward, that is, in a direction approaching the umbrella-type strobe lights 6 and 7, the amount of light by the umbrella-type strobe light 6 near the height near the head of the subject increases, while the subject moves backward, that is, the umbrella-type strobe lights 6 and 7. Moving in the direction away from the mold strobe lights 6, 7 has the opposite effect. That is, even if the subject moves back and forth, it is possible to adjust the hit condition of the illumination, and it is possible to respond more finely to the preference of the subject.
[0080]
Next, the effect (2) will be described. As described above, the umbrella-shaped strobe lights 6, 7 having a round light emitting surface are arranged vertically on the left side with respect to the front of the subject, and the light box having a square light emitting surface is formed on the right side with respect to the front. 8 are provided. When photographing is performed in such a state, the light enters the pupil of the subject in a state as shown in FIG. 4B (catch light). As shown in the drawing, when the shooting is performed with the above-described lighting arrangement, the catchlight is in a state like a character appearing in, for example, a girl manga, and a captured image with a cute impression can be obtained. Therefore, for example, it is possible to perform imaging that gives a good impression to a young female user.
[0081]
Incidentally, in the related art, regarding the shape of the light emitting surface of the lighting device, there have been many cases in which the shape of the light emitting surface is not considered from the viewpoint of the catch light. Therefore, for example, as shown in FIG. It seemed to be reflected in my eyes.
[0082]
At the stage of preparing for shooting, it may be possible to enlarge the vicinity of the pupil of the current subject and display it as a live view image based on an instruction from the user. By doing so, the user can check the state of the catchlight in the pupil, so that the photographing composition can be considered so that the user is satisfied with the catchlight. Here, in order to detect the position of the pupil of the subject, for example, the position of the pupil can be specified from the image being captured by an image recognition technique.
[0083]
As shown in FIG. 3, the light box 8 has a relatively wide light-emitting surface in the left-right direction, and is arranged obliquely so that a direction perpendicular to the light-emitting surface faces near the center of the photographing space. ing. Therefore, the illumination by the light box 8 makes it possible to illuminate the illumination to some extent regardless of the position of the subject in the photographing space. Therefore, even if the illumination is arranged imbalanced in the left and right as described above, the minimum required illumination can be applied to the subject, and it is possible to prevent a failure in imaging due to poor illumination.
[0084]
That is, according to the arrangement of the lighting device as described above, it is possible to perform high-quality shooting with a three-dimensional effect in a state according to the user's preference, and a catch light excellent in design is provided for the subject. It is possible to obtain a photographic image projected in the pupil. Therefore, it is possible to differentiate the conventional photographic printing apparatus that can only shoot in a uniform shooting state, and to provide a photographic printing apparatus that can respond to a user's more advanced shooting request. it can.
[0085]
In the above configuration, the irradiation direction of the front strobe light 9 and the rear strobe lights 10A and 10B may be adjustable. As described above, the front strobe light 9 illuminates the hair portion of the subject to aim at the beauty effect, and the rear strobe lights 10A and 10B cover the subject's head and back from behind. The aim is to achieve the effect of illuminating and blurring the outline of the subject brightly. Therefore, it is preferable that the irradiation direction of the front strobe light 9 and the rear strobe lights 10A and 10B can be adjusted according to the height, pose, and standing position of the subject. This adjustment may be performed by a manual operation by the user, or a sensor for detecting the height and standing position of the user is provided, for example, and irradiation is automatically performed based on the detection result of the sensor. The direction may be set. By setting in this way, it is possible to provide optimal lighting conditions for the body type of the subject and its standing position.
[0086]
(Structure of umbrella-type strobe light)
Next, the configuration of the umbrella-type strobe lights 6 and 7 will be described. In the present embodiment, the umbrella-type strobe light 6 and the umbrella-type strobe light 7 differ only in the size, and have the same basic structure. Hereinafter, the umbrella type strobe light 6 will be described as a representative.
[0087]
FIG. 5B is a front view showing the internal structure when the umbrella-type strobe light 6 is viewed from the front, and FIG. 5A shows the internal structure when the same figure (b) is viewed from the upper side. FIG. 3C is a top view, and FIG. 3C is a side view showing the internal structure when FIG. 3B is viewed from the side. As shown in these figures, the umbrella-type strobe light 6 includes a strobe light source 21, fluorescent tubes 22 and 22, a reflection plate 24, and a light-emitting plate 23.
[0088]
The strobe light source 21 corresponds to a photographing light emitting unit that emits strong light at the moment of photographing, and emits light when a strobe tube emits light. The strobe light source 21 is provided with a circular opening through which light emitted from the strobe tube passes, and a reflector provided around the opening. As a result, the light emitted from the flash tube is appropriately applied to the reflector 24. The strobe light source 21 does not need to use a relatively expensive ring-type strobe used for professional use, but may use a relatively inexpensive straight tube strobe.
[0089]
The fluorescent tubes 22 correspond to stationary light emitting means for constantly emitting light. The fluorescent tubes 22 are arranged on the left and right sides of the strobe light source 21, and are provided so that light is emitted toward the reflecting plate 24.
[0090]
The reflecting plate 24 reflects the light emitted from the strobe light source 21 and the fluorescent tubes 22 in the light irradiation direction of the umbrella-type strobe light 6, that is, in the direction of the light emitting plate 23. The shape of the reflecting plate 24 is a parabolic shape, and the inner surface is a reflecting surface. This reflecting surface is covered with a white paint, and reflects light as white light. Further, the reflection plate 24 itself is made of, for example, resin or the like, and is reinforced by sheet metal or the like to secure strength.
[0091]
The light emitting plate 23 diffuses the light reflected from the reflecting plate 24 and emits the light as uniform light, and is made of, for example, a matte milky acrylic plate or the like. The shape of the light-emitting plate 23 is a substantially partial spherical surface having a convex light-emitting side, so that light is spread and emitted. In this manner, by using a matte milky acrylic plate on the light emitting surface, it becomes possible to suppress the shininess of the subject's skin and to photograph the skin so that the skin looks smooth and beautiful. In addition, since the light is diffused, it is possible to prevent the generation of an unnecessarily strong shadow on the subject, so that a photographic image having a soft impression can be obtained.
[0092]
With the above configuration, the light emitted from the strobe light source 21 and the fluorescent tubes 22 is reflected by the reflector 24 and then emitted to the outside via the light emitting plate 23. Thereby, an umbrella-type strobe light 6 that irradiates uniform light can be realized.
[0093]
Here, since the light emitted from the strobe light source 21 is reflected by the reflector 24 and then emitted from the light emitting plate 23, a shadow is formed on the area where the strobe light source 21 and the fluorescent tubes 22 are arranged. However, the light emitted from the fluorescent tubes 22 arranged on the left and right sides of the strobe light source 21 makes it possible to make the shadow portions of the strobe light source 21 and the fluorescent tubes 22 inconspicuous. ing. Therefore, the light emitted from the umbrella-type strobe light 6 can be made uniform over the entire surface of the light emitting plate 23.
[0094]
The umbrella-type strobe light 6 configured as described above is configured to be supported by a duct-like arm 23 at a rear portion thereof. Power is supplied to the strobe light source 21 and the fluorescent tubes 22 by power cords 21C and 22C passing through the inside of the arm 23. That is, since the power cord is not exposed, it is possible to prevent a trouble that the power cord is pulled by a user, for example. Further, since the light emitting plate 23 is provided on the light emitting side, the user cannot touch the strobe light source 21, the fluorescent tubes 22, and the like. Therefore, troubles such as breakage caused by the user touching such members can be prevented.
[0095]
If the arm 23 is made movable with respect to bending, the illumination direction of the umbrella-type strobe light 6 can be changed. The change of the illumination direction may be performed manually by the user, or may be automatically adjusted based on a sensor that detects the height and standing position of the subject. With such adjustment, it is possible to provide optimal lighting conditions for the body shape of the subject and its standing position.
[0096]
Further, the arrangement positions of the umbrella-type strobe lights 6 and 7 may be changed to some extent. For example, if the arm 23 is attached via a rail to a support member in a photographic printing apparatus, the umbrella-type strobe lights 6, 7 can be moved along the rail. With the above, a more flexible lighting environment can be constructed.
[0097]
Here, an umbrella-type strobe device conventionally used as a lighting device by a professional photographer or the like will be described. In this conventional umbrella-type strobe device, light from a strobe light emitter is reflected by an umbrella-shaped reflecting member, and the reflected light illuminates a subject. Differences from the umbrella-type strobe lights 6 and 7 in this embodiment are as follows: (1) the strobe light emitter is exposed; (2) the power cord for the strobe light emitter is also exposed; For example, the strobe light emitter is supported from the floor by a stand.
[0098]
When such a conventional umbrella-type strobe device is applied to a photographic printing device as in the present embodiment, the following problem occurs. In the photo printing apparatus, an unspecified number of general users use the system without an administrator. Therefore, if the configuration described in the above (1) and (2) is used, the user can use the strobe light emitter or power supply. Tampering with the code can corrupt these configurations. On the other hand, according to the configuration of the present embodiment, the strobe light source 21, the fluorescent tube 22, and the power cords 21C and 22C are not touched by the user. Can be.
[0099]
Furthermore, if the strobe light itself is supported by a stand from the floor, this stand will be placed in the shooting space of the photographic printing device and may obstruct the user. On the other hand, according to the configuration of the present embodiment, since the umbrella-type strobe lights 6 and 7 are supported by the rear arm 23, it is possible to provide a very neat shooting space. It becomes.
[0100]
Further, in the conventional umbrella-type strobe light, only the strobe light emitter is used as the light source. However, according to the configuration of the present embodiment, as described above, the fluorescent tubes 22 and The light emitted from the light source 22 makes it possible to obscure the shadows of the strobe light source 21 and the fluorescent tubes 22.
[0101]
In the above description, in the umbrella-type strobe lights 6, 7, two sets of fluorescent tubes 22, 22 are provided on the left and right sides of the strobe light source 21, but the present invention is not limited to this. By providing some light source to the device, the same effect as described above can be obtained. For example, as shown in FIG. 6, a ring-shaped fluorescent tube 22A having a shape surrounding the periphery of the strobe light source 21 may be provided.
[0102]
(Functional description of photo print device)
Next, a functional configuration of the photo print device 1 will be described with reference to a block diagram shown in FIG. As shown in FIG. 1, in addition to the camera unit 2, the touch panel 3 for photographing processing, the editing device 5, and the lighting device 32, a control device 31, a doorway curtain 33, a billing processing unit 34, A power supply device 35, an ID tag reader / writer (identification information reading means) 36, a printer (image output means) 37, and a background effect device 38 are provided. The illumination device 32 is a general term for the umbrella-type strobe lights 6, 7, the light box 8, the front strobe light 9, and the rear strobe lights 10A, 10B.
[0103]
The control device 31 comprehensively controls the operations of the above-described various components in the photo print device 1. The control device 31 is configured by, for example, a PC-based computer. The operation control of various components is performed by causing a computer to execute a control program. This program may be in the form of reading and using a program recorded on a removable medium such as a CD-ROM, or in the form of reading and using a program installed on a hard disk or the like. When the control device 31 is configured to be connected to a communication network such as the Internet, a form in which the program is downloaded via the communication network, installed on a hard disk or the like, and executed may be considered.
[0104]
The power supply device 35 supplies power to the various components described above in the photo print device 1.
[0105]
The billing processing unit 34 controls the insertion of money from the coin insertion slot 4, the coin return processing, and the like, and is a block that performs processing related to billing collected from the user. The control device 31 controls the operation for the user in accordance with the charging status by the charging processing unit 34.
[0106]
The entrance / exit curtain 33 is a curtain provided at an entrance / exit of the photographic printing apparatus 1, and is opened and closed by electric power. The background effect device 38 is a device that performs a process of switching the background during the photographing process, and includes a motor type curtain 42 and / or a manual type curtain 43.
[0107]
The ID tag reader / writer 36 and the printer 37 constitute a printer unit, and a print paper (print medium) 52 and an ID tag (identification medium) 51 serving as an output medium of a photographic print are provided to the printer unit. The unit (print medium unit) 50 is delivered as a set.
[0108]
When image data to be output is sent from the control device 31, the printer 37 prints on the printing paper 52 based on the image data. As the printer 37, for example, a sublimation type printer is used. When a sublimation type printer is used, a sublimation type ink film is delivered as a set in addition to the print paper 52 and the ID tag 51.
[0109]
The ID tag reader / writer 36 reads out various types of identification information recorded on the ID tag 51 and outputs the information to the control device 31. The ID tag 51 is configured by an IC chip having a memory function or the like. Examples of the identification information include a unique ID, the number of sheets, a sheet type, and color information unique to ink (when an ink film is set).
[0110]
The control device 31 determines, based on the identification information read by the ID tag reader / writer 36, whether the attached printing paper 52 and the ink film can be used in the photographic printing device 1, and can be used. Only in this case, the printer 37 can be operated. That is, it is set so that only the printing paper 52 and the ink film specified in the photographic printing apparatus 1 can be used.
[0111]
Further, by counting down the number of sheets each time a print sheet is used based on the information on the number of sheets recorded in the ID tag 51, it is possible to grasp the number of remaining sheets. Therefore, if the remaining number of sheets is reduced and a warning is displayed by a display means or the like, it is possible to avoid a problem such as running out of paper during use by the user. Become. When counting down the number of sheets, the information on the number of sheets recorded in the ID tag 51 is also rewritten. As a result, when the sheets are used up, the number-of-sheets information recorded in the ID tag 51 also becomes 0, and the ID tag 51 can be invalidated.
[0112]
Further, by reading out the paper type information and the ink-specific color information recorded in the ID tag 51 and correcting the color components and the like of the image data in consideration of these, an accurate image on the paper or the ink film is obtained. Output can be performed.
[0113]
The ID tag 51 includes a non-contact type ID tag capable of wirelessly performing data communication and a contact type ID tag provided with a terminal, and the ID tag reader / writer 36 includes one or both of them. It corresponds to both.
[0114]
In the above example, whether or not the print paper can be used is confirmed using the ID tag. However, the present invention is not limited to this. For example, the print paper and the ink film are packed. A configuration in which confirmation is performed using a bar code or the like printed on a packing material or the like may be employed. However, when a barcode is used, there are problems that the amount of information that can be included is small and that information cannot be rewritten by, for example, counting down the number of sheets.
[0115]
In addition, the above-mentioned print paper may be a paper-like sheet which is a normal paper-like medium, or a seal sheet composed of an adhesive sheet and a release sheet attached to the adhesive surface of the adhesive seal. Is also good.
[0116]
Further, the control device 31 includes a photographing / synthesizing processing unit 45, an edited image processing unit 44, a storage unit 46, an illumination control unit 47, an entrance control unit 48, and a background control unit 49.
[0117]
The photographing synthesis processing unit 45 is a block that performs a photographing process described later. The edited image processing unit 44 is a block that performs an editing process described later. As described above, these blocks are realized by the computer executing the programs that perform the corresponding processes.
[0118]
The storage unit 46 is configured by a nonvolatile storage device such as the above-described hard disk. The contents stored in the storage unit 46 include the above-described control program, OS (Operating System) program, other various programs, operation setting values in the photographing camera, image data of the photographed image and the edited image, and the like. . Examples of the operation setting values of the above-described photographing camera include a value of white balance set at the time of shipment of the apparatus or at the time of maintenance, various parameter values related to image processing when adjusting lightness and darkness of a photographed image, and the like.
[0119]
The lighting control unit 47 is a block that controls the lighting device 32. For example, during the photographing process, during the period when the user is thinking about the composition and pose of the photographing, while only the steady light emitting means in each lighting device emits light, at the moment when the photographing is ready and the photographing is performed. Then, control is performed so as to cause the light emitting unit at the time of shooting in each lighting device to emit light. Further, the light amount of each lighting device may be controlled or the lighting direction of each lighting device may be changed as necessary.
[0120]
Further, the illumination control unit 47 may be configured to be able to change the amount of light emitted by the light emitting unit during shooting. In this case, if the light amount of the steady light emitting unit is adjusted according to the set light emitting amount of the light emitting unit at the time of shooting, the lighting state in the live view, that is, how shading occurs, etc., is accurately expressed. It is possible to do.
[0121]
The entrance control unit 48 is a block that controls opening and closing of the entrance curtain 33. The entrance / exit curtain 33 is provided to prevent external light from entering the imaging space during the imaging process, and is configured by a light-shielding sheet or the like. The entrance control unit 48 controls opening and closing of the entrance curtain 33 as follows.
[0122]
First, when the game is idle (waiting for a customer), the entrance / exit curtain 33 is controlled to be opened. Then, when the charging processing unit 34 confirms that the user has entered the photographing space and that a predetermined amount of money has been inserted, control is performed to close the entrance curtain 33 at this time. Thereafter, when it is confirmed that the photographing process and the editing process have been completed, control for opening the entrance curtain 33 is performed at this time.
[0123]
Further, when the curtain is forcibly closed by the user when the entrance curtain 33 is to be opened, or when the curtain is forcibly opened by the user when the entrance curtain 33 is to be closed. If so, a warning is issued at a volume that is audible to the surroundings, and control is performed so as to stop the progress of the game. By doing so, it is possible to prevent crime in a closed space or prevent mischief.
[0124]
The background control unit 49 is a block that controls the operation of the background effect device 38. For example, a plurality of background curtains of various patterns and patterns are prepared at positions serving as the background, and by switching these, it is possible to produce a background according to the user's preference. As described above, the background curtain may be switchable by mechanical control using a motor, or may be switchable by turning or sliding the user. The former case is the above-described motorized curtain 42, and the latter case is the above-described manual curtain 43.
[0125]
When the motor-operated curtain 42 is provided, for example, in a shooting process, when a user sets a shooting mode by selecting an atmosphere at the time of shooting, a background suitable for the shooting mode is set. The control unit 49 controls the motor type curtain 42. Here, when the user forcibly pulls the background curtain, a warning may be issued at a volume that can be heard around the user, and the game may be stopped.
[0126]
On the other hand, when the manual curtain 43 is provided, when the user selects the background curtain according to his / her preference, the selected background curtain is detected, and according to the detection result, the background curtain is selected. , Such as sound effects, BGM, narration characters, game progress screen display design, and the like. Here, similarly to the above, when the user forcibly pulls the background curtain, an alarm of a volume that can be heard around the user may be issued, and the game may be stopped.
[0127]
Note that the selection of the background curtain as described above may be made to allow the user to select all the number of times of photographing before the first photographing is started, instead of every one time of photographing. By making the selection in a lump, time can be saved as compared with the selection for each photographing, and the troublesomeness of the user can be reduced. Further, it is possible to prevent the user from forgetting to use the curtain due to reasons such as not being aware of the existence of the background curtain. When the background curtain is not used, the user may be warned that he or she has forgotten to use the curtain through audio through the speakers 71A and 71B or display on the touch panel for photographing processing.
[0128]
Although not shown in FIG. 7, a luggage storage space may be provided in the shooting and editing space, and a configuration in which a weight sensor or the like is provided may be used. In this case, when the user places the luggage in the luggage storage, the device can recognize that the luggage has been placed. Therefore, for example, if the baggage is still placed after a predetermined time has elapsed after the game is over, it is expected that the user has forgotten the baggage. Alarm can be issued. Also, if it is detected that the luggage has been removed while the game is in progress, a warning can be issued because it is expected that a reservation has been made while the user is crazy about playing It becomes.
[0129]
Although not shown in FIG. 7, a standing position detection sensor for detecting a standing position of a user in the space may be provided in a part or the whole area of the floor in the shooting and editing space. The standing position detection sensor detects the standing position of the user by, for example, sensing pressure. By using this standing position detection sensor, the following can be performed.
[0130]
When the standing position detection sensor detects the standing position of the user, the control device 31 responds accordingly to the illumination device 32, the camera unit 2, the screen display on the photographing processing touch panel 3, the sound from the speakers 11A and 11B, and the like. Let me change. For example, when the standing position of the user is detected by the sensor, the control device 31 obtains the standing position pattern closest to the detected standing position from data of several standing position patterns stored in the storage unit 46 in advance. And make various changes based on this data.
[0131]
Here, for example, when the lighting device 32 and the camera unit 2 are changed based on the data of the pattern of the standing position as described above, the user can move the current standing position without moving. Shooting conditions (lighting, camera focus, zoom, etc.) can be obtained.
[0132]
Further, for example, in addition to the illumination device 32 and the camera unit 2, when the speakers 11A and 11B and the imaging touch panel 3 are changed based on the data of the standing position pattern, the user can be photographed. Advice can be given to move the condition to the optimum standing position. That is, the control device 31 changes the lighting device 32 and the camera unit 2 according to the data of the standing position pattern (referred to as an optimal position pattern) closest to the user's standing position detected by the standing position detection sensor. Then, by changing the sound on the speakers 11A and 11B and the display on the imaging processing touch panel 3, the user can be guided to the standing position that matches the optimal position pattern by the sound and display. Thereby, the photographic printing device 1 can provide the user with the optimal photographing conditions. Note that the above advice may be given not only for the standing position but also for the posture of the user such as the direction and bending. In this manner, the user is guided in the standing position or advised of the posture by the photo print device 1, so that the user can perform the photographing under the optimal photographing condition by performing only a slight movement or the change of the posture. It can be carried out.
[0133]
As described above, by changing the lighting device 32, the camera unit 2, the screen display, and the sound using the standing position detection sensor, it is possible to provide a user with a beautiful composition and a fun atmosphere. .
[0134]
(Overall processing flow)
Next, the flow of processing in the photo print device 1 will be described with reference to the flowchart shown in FIG. First, in step 1 (hereinafter, referred to as S1), a user enters a shooting and editing space. Here, the user inserts a coin as a payment from the coin insertion slot 4 in accordance with an instruction displayed on the imaging processing touch panel 3. Then, a billing process is performed by the billing processing unit 34 (S2).
[0135]
When it is confirmed that the charging process has been completed normally, the photographing process is started in S3. In this photographing processing, selection of a background image, actual photographing processing, and the like are performed. Here, the user considers his / her standing position and pose while checking the lighting condition, and gives an instruction to start shooting as soon as preparations are completed, so that shooting is performed. The details of this photographing process will be described later.
[0136]
Then, it is determined whether or not the photographing process has been completed in S4, and if not (NO in S4), the photographing process in S3 is repeatedly performed. The photographing process is terminated when the user issues an instruction to terminate the photographing process or when the photographing process time is over.
[0137]
When it is confirmed that the photographing process is completed (YES in S4), the editing process is started by operating the editing device 5 by the user (S5). FIG. 9 shows an example of the editing screen. In the example of the editing screen shown in the figure, the remaining time of the time limit for performing the editing process is displayed at the upper left corner on the display screen. At the center on the display screen, an image to be edited, that is, a composite image generated by the photographing process is displayed, and an editing process such as graffiti is performed on the image using a touch pen. On the left side of this image, a selection area of tools for performing an editing process is displayed. Examples of tools include a plurality of types of pens and their colors, an eraser, and a plurality of stamps.
[0138]
On the right side of the image to be edited, a selected image for selecting an image to be edited, that is, an image selected in the above-described image selection processing is displayed. By touching the selected image with the touch pen, the user can switch the image displayed as the editing target at the center. Note that the selected image corresponds to an image at each shooting when a plurality of shootings are performed in the above-described shooting processing.
[0139]
Then, it is determined whether or not the editing process has been completed in S6, and if not (NO in S6), the process returns to S5 to continue the editing process. The editing process ends when the user presses the “doodle end” button or when the remaining time allocated to the editing process runs out. At the point in time when the remaining time reaches a certain time, if there is the selected image that has not been edited yet, it may be displayed on the editing screen that there is image data of “forgot graffiti”. Alternatively, the time of the editing process is divided by the number of images to be edited to make the time given to each image, and every time the time given to each image elapses, "Do you not graffiti the next image?" May be displayed on the editing screen. By displaying the editing screen as described above, the user can prevent forgetting to perform the editing process on all the images.
[0140]
When it is confirmed that the editing process has been completed (YES in S6), the edited image data is transmitted to the printer 37, and the printer 37 outputs an image to the print paper 52 based on the image data. This is discharged from the print discharge port (S7). With the above sequence, the play operation from shooting to editing and output by a certain user is completed.
[0141]
After the end of the editing process in S6, a process is performed based on an instruction from the user or automatically to determine the arrangement of the edited images to be printed on the printing paper 52.
[0142]
In this process, for example, if the user selects an image to be arranged, the user may not select an image that failed in the editing process or replace it with an image that has not been edited. The user can select an image arrangement according to his / her preference. In this case, it is preferable that the photo printing apparatus 1 excludes the image that has not been subjected to the editing process from the options of the user in advance, as an image that is not to be arranged on the print paper 52. Similarly, even when the image to be arranged is automatically determined, it is preferable that the photo printing apparatus 1 excludes the image that has not been subjected to the editing process from the image to be arranged on the printing paper 52. As a result, images unnecessary for the user can be omitted, and only necessary images can be arranged on the print paper 52 and printed.
[0143]
Next, the flow of processing in the photographing space in the photographic printing device 60 (see FIGS. 13A to 13C) in which the photographing space and the editing space are separately provided will be described with reference to the flowchart shown in FIG. I do.
[0144]
From S1 in which the user enters the shooting space to S4 in which the end of the shooting process is confirmed, the shooting space and the editing space described above are the same as those of the same photographic printing apparatus 1, and therefore are the same as those in FIG. The description is omitted by attaching the step numbers.
[0145]
If it is confirmed in S4 that the photographing process has been completed (YES in S4), it is confirmed whether or not the editing space is free (S10). If no free space in the editing space is confirmed (NO in S10), a display asking for additional imaging is displayed on the imaging processing touch panel 3 (S11). At this time, if the user gives an instruction to perform additional shooting (YES in S11), the shooting process in S3 is repeated. When an instruction not to perform additional shooting is issued (NO in S11), shooting such as jigsaw puzzle or the like is performed on the shooting processing touch panel 3 in which the shooting image is broken, fortune-telling, or a shot image is disassembled into about 16 pieces and rearranged. A display asking whether to play a game other than the above is displayed (S12). When an instruction to play a game is issued by the user (YES in S12), a game other than the above-described shooting is displayed on the shooting processing touch panel 3 (S13), and when the game is over, the editing space in S10 becomes empty. Confirmation is repeated. When the user instructs not to play the game (NO in S12), a demonstration screen or the like is displayed on the shooting processing touch panel 3 together with a display such as "Please wait for a while" (S14).
[0146]
If a free space in the editing space is confirmed in S10 by such processing (YES in S10), a movement guide to the editing space is performed through the photographing processing touch panel 3 or the like (S15). When the user moves to the editing space, a demonstration screen is displayed on the photographing processing touch panel 3, and the photo print device 60 waits for the next user to enter the shooting space (S16). The subsequent processing flow in the editing space will be described later.
[0147]
In the guidance of the user to the editing space in S15, it is preferable that after the photographing process in the photographing space, a guidance instruction is given by a display on the photographing process touch panel 3 or a sound from the speakers 11A and 11B. At that time, by outputting a message such as "move to the next darkroom", the user will continue to be provided with the atmosphere of having a professional photographer take a picture in a photo studio equipped with a darkroom. be able to.
[0148]
(Flow of shooting process)
Next, details of the above-described photographing processing will be described. First, the photographic printing device 1 announces through the speakers 11A and 11B and the like, "Okay, first, check the image by test shooting. Select the image that you like because you will shoot 3 images." Is photographed at each brightness level while changing the level in three levels. FIG. 12A is a diagram showing a state in which a photographed image is displayed on the photographing processing touch panel 3. In the photographed image shown in FIG. 12, “natural” refers to an environment where the brightness of the lighting device is at a standard level. "Overexposure" refers to an image taken in an environment where the brightness of the lighting device is brighter than the standard level (appears slightly overexposed). "Gravure" refers to an image taken in an environment where the brightness of the lighting device is darker than the standard level Image (underexposure). The user selects a desired one from the three test photographed images, and the photo print device 1 performs subsequent photographing under the brightness of the lighting device corresponding to the image selected here.
[0149]
When the test shooting and the image quality adjustment (brightness adjustment) are completed, the photo printing device 1 narrates the advice on the standing position for each user through the speakers 11A and 11B. At this time, the photo print device 1 displays a screen such as that shown in FIG. In FIG. 6B, two standing positions are displayed using a circle and a square on the left side of the screen, and a plurality of users are posing at the designated standing positions on the right side of the screen. Photographed by the camera unit 2 and displayed in real time (live view).
[0150]
Note that, at the stage of considering the pose while watching the live view display, as described above, the vicinity of the pupil of the current subject is enlarged as a live view image based on an instruction from the user, as described above. May be displayed. By doing so, it is possible for the user to determine the pose while checking the state of the catchlight in the pupil, so it is possible to consider the shooting composition so that the user is satisfied with the state of the catchlight It becomes possible.
In FIG. 8B, all eight stars are displayed in the upper part of the screen, and five of them are displayed in white because the actual shooting is to be performed eight times and three times have already been performed. This indicates that the shooting has been completed, and the remaining number of times of shooting is five.
[0151]
When the guidance of the standing position to all users is completed, the photo printing device 1 performs photographing (main photographing) by the camera unit 2. At this time, it is also preferable that the photographic printing device 1 announces “3, 2, 1, Kasha” or the like through the speakers 11A and 11B to guide the user of the shooting timing by the camera unit 2.
[0152]
It is also preferable to make the following contrivances regarding the lighting environment when taking a picture with the camera unit 2.
[0153]
When two users are lined up front and back toward the camera unit 2 (for example, the case of FIG. 12B), the lighting setting for illuminating the rear user more brightly is set to the “two-person standing position” exclusive shooting mode ( Lighting environment). Various methods are conceivable as a method of illuminating the rear side user more brightly. For example, when the above-mentioned “two-person standing position” exclusive shooting mode is selected using the front strobe light 9 described above. Only, a method of causing the front strobe light 9 to emit light can be used.
[0154]
When the photographing process as described above is completed, the photo print device 1 determines whether or not the predetermined number (number of times) of photographing has been completed. In the present embodiment, since the predetermined number (the number of times) is eight (eight times), the photo printing device 1 determines whether or not the photographing of a total of eight photos has been completed by checking a flag or the like. The photo print apparatus 1 repeats the standing position guidance process and the photographing process if the predetermined number (number of times) of photographing has not been completed, and shifts to the next editing process if the predetermined number of images have been completed. .
[0155]
Before proceeding to the editing process, it is also preferable that the image quality (finish) of the captured image be instructed and adjusted. For example, a screen as shown in FIG. 12 (c) is displayed on the touch panel 3 for photographing processing, and “specify a favorite image for finishing at the time of development. Now, you can specify the softness clearly. " The user can instruct the image quality adjustment of “hue”, “brightness”, and “contrast (clear and soft)” in order from the top on the screen of FIG. Used to proceed to the editing process.
[0156]
(Flow of editing process)
Next, the editing process will be described in detail. Here, the editing process in the photographic printing device 60 (see FIGS. 13A to 13C) in which the editing device 5 is installed in a place different from the shooting space will be described with reference to the flowchart shown in FIG. 15 and the editing process shown in FIG. This will be described with reference to screen displays of the touch panels 5A and 5B for use. It should be noted that the image data subjected to the photographing process is temporarily stored in a buffer memory or the like, and is sequentially transferred to the editing device 5 after the previous user has completed the editing process.
[0157]
This editing process is basically performed by the edited image processing unit 44. A demo screen is displayed as an initial state on the touch panels 5A and 5B for editing processing of the editing device 5 (S20). The display of this demonstration screen is as shown in FIG. 16A, and for example, a message such as “This is a design corner. Start from shooting!” And an illustration are displayed. Note that this demo screen may be always displayed when waiting for a customer.
[0158]
If the photographing has been completed, it is determined whether the transfer of the image data to the editing device 5 has been completed or whether the editing process can be performed (S21). When it is determined that the transfer of the image data of the editing process is not completed or that the editing process is not possible (NO in S21), the process in S21 is repeated. That is, S21 indicates a standby state until the transfer of the image data to the editing device 5 is completed or the editing process becomes possible.
[0159]
When it is determined that the transfer of the image data has been completed or that the editing process is possible (YES in S21), the “touching image” as shown in FIG. Or a screen such as "Preparing for graffiti" is displayed (S22). At this time, processing is performed so that the image data can be displayed on the touch panels 5A and 5B for editing processing.
[0160]
When the transfer is completed in S22 and the user is ready to perform the editing process, a message such as "Doodle preparation is ready. First, select a stamp!" Is displayed on the editing process touch panels 5A and 5B ( S23). This display is performed so that a message is superimposed on the image to be edited and only the editing menu is visible, as shown in FIG. Alternatively, as shown in FIG. 16E, the image to be edited is not displayed. By doing so, peeping of the image by another person can be prevented.
[0161]
Thereafter, it is determined whether a predetermined designated time (for example, 10 seconds) has elapsed (S24). If it is determined that the designated time has not elapsed (NO in S24), it is determined whether the user has touched the editing processing touch panels 5A and 5B with a pen (S25).
[0162]
If it is determined in S25 that the user has not touched the pen (NO in S25), the process returns to S24, and the determination as to whether the specified time has elapsed is repeated. In S25, if the user's touch with the pen is confirmed (YES in S25), or if it is determined in S24 that the designated time has elapsed (YES in S24), the editing is performed on the editing touch panels 5A and 5B. The processing screen is displayed, and the user can edit the image (S26).
[0163]
Thereafter, the user performs an editing process and outputs a photo print (see S5 and subsequent steps in FIG. 8).
[0164]
(External appearance of photo print device)
Next, the appearance of the photo print device 1 according to the present embodiment will be described. FIG. 10A is a perspective view schematically illustrating an appearance of the photo print device 1. As shown in the figure, the photo print device 1 has a substantially box shape having a width of about 250 to 280 cm, a depth of about 180 cm, and a height of about 210 to 220 cm. The corner portions between the side surfaces have a rounded shape. The model name is written on the rounded corner so that the model name can be read from both the front and side directions. By displaying the model name in this manner, the model name can be confirmed from all directions, and it is possible to appeal to the user.
[0165]
FIGS. 10B and 10C show an example of a state in which a plurality of photo printing apparatuses are arranged side by side in an entertainment facility such as a game center. In the figure, the photo printing devices indicated by P1 and P2 correspond to a conventional photo printing device. The size of the conventional photographic printing apparatus is about 280 cm in width and about 160 cm in depth, and is slightly smaller than the photographic printing apparatus of the present embodiment shown in FIG.
[0166]
As shown in FIGS. 10B and 10C, even if a plurality of photo printing apparatuses are placed side by side as described above, the photo printing apparatus 1 of the present embodiment does not Since it is larger than the device, it can be seen that it has a strong appeal to the user. Also, since the corners of the four corners are rounded and the model names are displayed at these corners, the model names can be easily recognized even if they are arranged side by side. .
[0167]
FIG. 11A shows a state in which the photo printing device 1 of the present embodiment and another photo printing device P are arranged side by side. As shown in the figure, even when another photo printing device P is in the foreground, the model name displayed at the corner of the photo printing device 1 of the present embodiment can be clearly recognized. You can see that there is. FIG. 2B is a diagram when FIG. 1A is viewed from the lateral direction. As shown in this figure, even when viewed from the side with another photo printing device P arranged in front, the model name displayed at the corner of the photo printing device 1 of the present embodiment is confirmed. It is possible. In other words, the photo print device 1 of the present embodiment has the above-described appearance, and thus has a very high visibility and a high degree of appeal to the user.
[0168]
【The invention's effect】
As described above, the photographic printing apparatus according to the present invention includes a plurality of illuminating means for irradiating the subject with light at least at the time of photographing, and the illuminating means is disposed on the right and left with respect to the photographing means when viewed from the subject side. The illumination means arranged on the left side with respect to the photographing means and the illumination means arranged on the right side with respect to the photographing means have different light emitting surfaces. .
[0169]
Also, the photographing method in the photographic printing apparatus according to the present invention may further comprise a lighting unit disposed on a left side of the photographing unit with respect to the photographing unit, and a lighting unit disposed on the left side with respect to the photographing unit. Irradiating light from the illumination means disposed on the right side, and taking a picture while illumination is being performed by the illumination means. This is a method in which the shape of the light emitting surface is different between the illuminating means and the illuminating means arranged on the right side of the photographing means.
[0170]
As a result, since the left and right sides of the subject have different lighting conditions, it is possible to shoot in a state where different shadows are produced on the left and right sides of the subject, so that a three-dimensional image as if photographed by a professional photographer is provided. It has the effect that it can be done.
[0171]
In addition, when the illumination state is different between the left and right as described above, it is possible to adjust the degree of shading by changing the position of the subject to the left and right, so that the subject can, for example, check the shooting state in real time. By adjusting the position while checking the live view image or the like, it is possible to obtain the effect that the shading can be adjusted to suit the user's preference.
[0172]
Furthermore, the catchlight reflected on the subject's pupil in the captured image can be made more favorable in design, so that, for example, it is possible to perform imaging that gives a good impression to young female users. It has the effect of becoming.
[0173]
Further, the photographic printing apparatus according to the present invention may be configured such that at least one of the illuminating units is arranged vertically in at least one of the left and right regions with respect to the photographing unit.
[0174]
Thereby, in addition to the effect of the above-described configuration, it is possible to adjust the degree of hitting of the illumination by moving the subject back and forth, and it is possible to respond more finely to the preference of the subject. .
[0175]
Further, the photographic printing device according to the present invention may be configured such that the light emitting surfaces of the illuminating means arranged above and below are substantially circular.
[0176]
Thereby, in addition to the effect of the above-described configuration, it is possible to make the catchlight more excellent in design, and it is possible to improve the appeal to the user.
[0177]
The photographic printing apparatus according to the present invention may be configured such that the substantially circular illumination means emits light by reflecting light from a light source on a parabolic reflection surface.
[0178]
Thus, in addition to the effect of the above configuration, there is an effect that the subject can be efficiently illuminated. In addition, since the lighting unit having such a shape is similar to a lighting device used when a professional photographer takes a picture, for example, it seems that a full-scale picture is taken for a user. This has the effect of providing a natural atmosphere.
[0179]
Further, the photographic printing device according to the present invention has a configuration in which the illumination means having a substantially circular shape emits light by reflecting light from a light source on a parabolic reflecting surface, and A light emitting plate provided so as to include the light source in a space between the light source and the reflection surface may be provided on the emission side of the light emitting device.
[0180]
Thereby, in addition to the effect of the above configuration, since the light source cannot be touched from the outside, the user is prevented from contacting the light source in the photographic printing device used by an unspecified number of users. You. Therefore, it is possible to prevent the light source from being damaged, and to prevent the light source from becoming hot, so that it is possible to ensure the safety of the user.
[0181]
Further, in the photographic printing device according to the present invention, the light emitting plate may have a function of diffusing light reflected from the reflection surface.
[0182]
Thereby, in addition to the effect of the above configuration, there is an effect that it is possible to obtain a photographic image with a soft impression without shininess and unevenness of the skin of the subject.
[0183]
Further, in the photographic printing device according to the present invention, one of the illumination unit disposed on the left side with respect to the imaging unit, and the illumination unit disposed on the right side with respect to the imaging unit, The light emitting surface may be configured to have a size that illuminates the whole body of the subject at the time of shooting.
[0184]
With this, in addition to the effect of the above configuration, even if the illumination is arranged in a left-right unbalance as in the above configuration, it is possible to irradiate the required minimum illumination to the subject, and thus the Therefore, it is possible to prevent a photographing failure due to the above.
[0185]
Further, the photographic printing apparatus according to the present invention may be configured such that the illumination means includes a steady light emitting means for constantly emitting light, and a photographing light emitting means for emitting strong light at the moment of photographing. Good.
[0186]
Accordingly, in addition to the effect of the above-described configuration, when the user considers the composition or pose of photographing while watching a live view image during the photographing process, for example, the steady light by the steady light emitting unit is transmitted to the user. It is illuminated, which makes it possible to check the degree of light hit, and at the moment of shooting, the light emitting means at the time of shooting emits light, so that it is possible to irradiate the user with strong light necessary for shooting. It works.
[0187]
Further, a print medium unit according to the present invention includes a print medium on which an image is printed, and an identification medium for recording identification information relating to the print medium, and reads identification information provided in the photographic printing apparatus according to the present invention. The identification information recorded on the identification medium is read by the means, and after confirming the content, an image is output to the print medium.
[0188]
As a result, there is an effect that it is possible to set so that a print medium other than a print medium designated in the photo printing apparatus cannot be used.
[0189]
In addition, by including the information on the number of sheets in the identification information, the number of sheets is counted down every time a print medium is used, so that the remaining number of sheets can be grasped.
[0190]
In addition, by including the paper type information in the identification information, the color components of the image data are corrected in consideration of the information, so that an accurate image output can be performed on the paper or the ink film. Play.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a state in a shooting and editing space in a photographic printing apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged perspective view of a camera unit included in the photo printing device.
FIG. 3 is an illumination arrangement diagram showing an arrangement of each illumination device when the photo print device is viewed from above.
FIG. 4A is a schematic diagram showing a state of a catch light at a subject's pupil when photographing is performed by a conventional photographic printing apparatus, and FIG. 4B is a diagram showing the present embodiment. FIG. 4 is a schematic diagram showing a state of a catchlight in a pupil of a subject when photographing is performed by the photographic printing device according to the first embodiment.
FIG. 5B is a front view showing an internal structure of the umbrella-type strobe light when viewed from the front, and FIG. 5A is an internal view when the FIG. FIG. 3C is a top view showing the structure, and FIG. 3C is a side view showing the internal structure when FIG. 3B is viewed from the side.
FIG. 6 is a front view showing another configuration example of the umbrella-type strobe light.
FIG. 7 is a block diagram showing a schematic functional configuration of the photo print device.
FIG. 8 is a flowchart showing a flow of a process in the photo printing device.
FIG. 9 is a display screen diagram showing an example of an editing screen at the time of editing processing.
FIG. 10A is a perspective view schematically showing the appearance of the photographic printing apparatus. FIGS. 10B and 10C show a plurality of entertainment facilities such as a game center, for example. It is a schematic diagram which shows an example of the state in which the photo printing devices are placed side by side.
FIG. 11A is a perspective view showing a state in which the photo printing device of the present embodiment and another photo printing device are arranged side by side. FIG. It is a side view when the figure (a) is seen from the lateral direction.
12A to 12C are display screen diagrams illustrating screen display examples of a photographing processing touch panel during photographing.
FIG. 13A is a plan view of a photographic printing apparatus in which a photographing space and an editing space are different from each other, and FIG. 13B is a plan view of the photographic printing apparatus of FIG. FIG. 3 is a plan view as viewed from a surface on which the editing device is installed, and FIG. 3C is a perspective view of the photo print device of FIG.
FIG. 14 is a flowchart illustrating a flow of a photographing process in a photograph printing apparatus in which a photographing space and an editing space are different.
FIG. 15 is a flowchart illustrating a flow of an editing process.
FIGS. 16A to 16E are diagrams illustrating examples of screen display in the editing device. FIGS.
[Explanation of symbols]
1 Photo printing device
2 Camera unit (photographing means)
3 Touch panel for shooting processing
4 coin slot
5 Editing device
6.7 Umbrella-type strobe light (lighting means)
8 Light box (lighting means)
9 Front strobe light (lighting means)
10A ・ 10B Rear strobe light (lighting means)
21 Strobe light source
22 Fluorescent tube
23 Light-emitting plate
24 Reflector
36 ID tag reader / writer (identification information reading means)
37 Printer (image output means)
51 ID tag (identification medium)
52 Print paper (print medium)
50 Print paper unit (print medium unit)

Claims (10)

A photographing device for photographing a subject, and a photographic printing device comprising: an image output unit that outputs an image to a print medium based on an image photographed by the photographing unit.
At least a plurality of illumination means for irradiating the subject with light at the time of shooting,
The illuminating unit is disposed on the left and right of the photographing unit as viewed from the subject side, and the illuminating unit is disposed on the left side of the photographing unit, and is disposed on the right side of the photographing unit. A photographic printing apparatus characterized in that the shape of the light emitting surface is different from that of the illuminating means described above. 2. The photographic printing apparatus according to claim 1, wherein at least one of the illuminating units is arranged vertically in at least one of the left and right regions with respect to the photographing unit. 3. The photographic printing apparatus according to claim 2, wherein the light emitting surfaces of the illuminating means arranged above and below are substantially circular. 4. A photographic printing apparatus according to claim 3, wherein said substantially circular illumination means emits light by reflecting light from the light source on a parabolic reflection surface. The illumination means having a substantially circular shape is configured to emit light by reflecting light from the light source on a parabolic reflection surface, and the light source is disposed on the light emission side. 5. The photographic printing apparatus according to claim 4, further comprising a light emitting plate provided so as to be included in a space between the light emitting surface and the surface. 6. The photographic printing apparatus according to claim 5, wherein said light emitting plate has a function of diffusing light reflected from said reflection surface. Either the illuminating unit arranged on the left side with respect to the photographing unit, or the illuminating unit arranged on the right side with respect to the photographing unit, the light emitting surface of the illuminating surface shows the whole body of the subject at the time of photographing. 2. The photographic printing apparatus according to claim 1, wherein the photographic printing apparatus is sized to illuminate. The lighting device according to any one of claims 1 to 7, wherein the lighting device includes a steady light emitting device for constantly emitting light, and a photographing light emitting device for emitting strong light at the moment of photographing. A photographic printing device according to the item. A photographing method in a photographic printing apparatus, comprising: a photographing unit that photographs a subject; and an image output unit that outputs an image to a print medium based on an image photographed by the photographing unit.
The subject is illuminated with light from an illuminating unit disposed on the left side of the photographing unit as viewed from the subject side, and an illuminating unit disposed on the right side of the photographing unit as viewed from the subject side. Steps to
Taking a picture in a state where illumination is performed by the illumination means,
A photograph wherein the shape of the light emitting surface is different between the illuminating unit arranged on the left side of the photographing unit and the illuminating unit arranged on the right side of the photographing unit. An imaging method in a printing device. A print medium on which an image is printed, and an identification medium for recording identification information on the print medium,
An identification information reading means provided in the photographic printing device according to any one of claims 1 to 8, wherein the identification information recorded on the identification medium is read, and after the content is confirmed, the printing is performed. A print medium unit for outputting an image on a medium.

Images