JP4161471B2 - Electronic camera and camera system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic camera and a print control apparatus, and more particularly to an electronic camera and a print control apparatus that set a range (frame) to be printed and take a picture and print only an image in the frame.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a video camera having an electronic zoom function, a range (monitor range) wider than an actually recorded range (recording range) is displayed on the electronic viewfinder, and the recording range and the monitor range can be identified. A video camera has been proposed in which the density of both is changed and displayed (Japanese Patent Laid-Open No. Hei 4-233872). This makes it possible to grasp the situation around the subject to be actually recorded.
[0003]
A video camera having an electronic zoom function and an optical viewfinder, wherein a transparent liquid crystal panel is provided in the optical viewfinder, and an image frame is displayed on the liquid crystal panel according to the magnification of the electronic zoom. Has been proposed (Japanese Patent Laid-Open No. 5-260352).
[0004]
[Problems to be solved by the invention]
However, the conventional video camera has a recording range narrower than the monitor range displayed on the electronic viewfinder, and an image frame area narrower than the viewfinder field displayed on the optical viewfinder (that is, an electronic zoom area). Since only the image is recorded on the recording medium, there is a problem that it is impossible to reproduce or print an image other than the electronic zoom area. That is, there is a problem that when a reproduced image is printed, the print position cannot be adjusted beyond the electronic zoom area.
[0005]
On the other hand, when taking various types of ID photos, it is necessary to take pictures that match the aspect ratio and size according to the type of ID photo. In this case, there is a problem that a desired photograph cannot be obtained. Furthermore, there is a problem that it is difficult to cut a photo to an aspect ratio and size corresponding to the type of ID photo.
[0006]
The present invention has been made in view of such circumstances, and can clearly notify the range to be printed before shooting, and only an image within the print range is printed as an image of a predetermined size. An object of the present invention is to provide an electronic camera that can print out.
[0007]
In addition, the present invention can clearly notify the print area before printing, set the print size and aspect ratio, and set the print position and size as appropriate regardless of the print area set during shooting. Alternatively, an object of the present invention is to provide a print control apparatus capable of performing print output so that only an image within the adjusted print range is printed as an image having a predetermined size.
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, an electronic camera according to claim 1 of the present application is a photographing means for photographing a subject and acquiring an image signal indicating the subject, and a frame designating means for designating a frame indicating a print range. Frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;When shootingMeans for displaying the frame designated by the frame designating means overlaid on the subject image, and an image signal obtained by the photographing means and indicating the entire range of the subject image without the frame.AndBoth of the information on the frame specified by the frame specifying meansFor removable recording media from the camera bodyRecording means for recording, wherein the frame designating means designates a frame having the same aspect ratio as the selected ID photo by selecting any ID photo from among the various ID photos. It is said. In other words, the frame designated as appropriate by the frame designating unit can be displayed overlaid on the subject image, so that the print range can be clearly recognized before shooting, thereby making it possible to set an appropriate composition and the like. .
[0009]
  In order to achieve the above object, an electronic camera according to claim 2 of the present application is a photographing unit that photographs a subject and acquires an image signal indicating the subject, and a frame designation unit that designates a frame indicating a print range. Frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;When shootingMeans for displaying the frame designated by the frame designating means overlaid on the subject image, and an image signal obtained by the photographing means and indicating the entire range of the subject image without the frame.AndBoth of the information on the frame specified by the frame specifying meansFor removable recording media from the camera bodyRecording means for recording, wherein the frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically. In other words, the frame designated as appropriate by the frame designating unit can be displayed overlaid on the subject image, so that the print range can be clearly recognized before shooting, thereby making it possible to set an appropriate composition and the like. . In general, a camera has a structure suitable for horizontal position shooting, and vertical position shooting is difficult to operate. However, according to the invention according to claim 2 of the present application, the camera can be moved horizontally even when shooting and printing a vertically long image. It is possible to take a picture with the camera held in a position, and is particularly effective for a large camera.
[0010]
  The electronic camera is claimed in the present application.3And a playback means for displaying an image on a monitor based on an image signal recorded on the recording medium, a frame generating means for generating a frame based on information on the frame recorded on the recording medium, and The image processing apparatus is characterized by comprising frame synthesizing means for synthesizing the frame with the image displayed on the monitor. An image signal indicating the entire range of the subject image without a frame is recorded on the recording medium, and an image in which a frame set at the time of shooting is combined with the image signal based on the frame information is displayed on the monitor. be able to.
[0011]
  As shown in claim 4 of the present application, the electronic camera has means for relatively moving an image displayed on the monitor and a frame.
[0012]
  An electronic camera according to a fifth aspect of the present invention includes a photographing unit that photographs a subject and acquires an image signal indicating the subject, and a frame designation unit that designates a frame indicating a print range, the size and aspect of the frame A frame designating unit for designating at least an aspect ratio of the ratio to be changeable, a unit for displaying a frame designated by the frame designating unit on a subject image, and an image within the frame designated by the frame designating unit. Image processing means for processing the image signal acquired by the photographing means so that only an image of a predetermined size is printed, print control means for outputting the image signal processed by the image processing means to a printer, The frame designating unit selects one of the various ID photographs, and has the same aspect ratio as the selected ID photo. It is characterized in that to specify.In other words, the frame designated as appropriate by the frame designating unit can be displayed overlaid on the subject image, so that the print range can be clearly recognized before shooting, thereby making it possible to set an appropriate composition and the like. . In addition, an image signal subjected to processing such as trimming and electronic zoom so that only an image within the frame is printed as an image having a predetermined size can be output to the printer.
[0013]
  An electronic camera according to a sixth aspect of the present invention is a photographing unit that photographs a subject and acquires an image signal indicating the subject, and a frame designation unit that designates a frame indicating a print range, and the size and aspect of the frame A frame designating unit for designating at least an aspect ratio of the ratio to be changeable, a unit for displaying a frame designated by the frame designating unit on a subject image, and an image within the frame designated by the frame designating unit. Image processing means for processing the image signal acquired by the photographing means so that only an image of a predetermined size is printed, print control means for outputting the image signal processed by the image processing means to a printer, The frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically. In other words, the frame designated as appropriate by the frame designating unit can be displayed overlaid on the subject image, so that the print range can be clearly recognized before shooting, thereby making it possible to set an appropriate composition and the like. . In addition, an image signal subjected to processing such as trimming and electronic zoom so that only an image within the frame is printed as an image having a predetermined size can be output to the printer. In general, a camera has a structure suitable for horizontal position shooting, and vertical position shooting is difficult to operate. However, according to the invention according to claim 5 of the present application, the camera can be used horizontally even when shooting and printing a vertically long image. It is possible to take a picture with the camera held in a position, and is particularly effective for a large camera.
[0014]
  According to a seventh aspect of the present invention, the means for displaying the frame superimposed on the subject image includes a frame generating means for generating a frame specified by the frame specifying means, and a monitor based on an image signal from the photographing means. It is characterized by having a frame synthesizing means for synthesizing the frame with the displayed image.
[0015]
  The image processing means is claimed in the present application.8The image signal acquired by the photographing means is processed so as to be printed as an image having the same aspect ratio and size as the ID photo selected by the frame specifying means. Thereby, an ID photo having a desired aspect ratio and size can be obtained by cutting the printed photo along the printed range.
[0016]
  The frame designation means is claimed in the present application.9Select one of at least two ID photos from among ID photo for visa, ID photo for passport, ID photo for resume, and various ID photos for driver's license etc. It is characterized by doing.
[0018]
  A camera system according to a tenth aspect of the present invention is a photographing unit that photographs a subject and acquires an image signal indicating the subject, and a frame designation unit that designates a frame indicating a print range, the size and aspect of the frame. A frame designating means for designating at least the aspect ratio of the ratio to be changeable,When shootingMeans for displaying the frame designated by the frame designating means overlaid on the subject image, and an image signal obtained by the photographing means and indicating the entire range of the subject image without the frame.AndBoth of the information on the frame specified by the frame specifying meansFor removable recording media from the camera bodyRecording means for recording; reproducing means for displaying an image on a monitor based on an image signal recorded on the recording medium; frame generating means for generating a frame based on information on the frame recorded on the recording medium; An image for processing the image signal recorded on the recording medium so that only the image within the frame is printed as an image of a predetermined size, with frame combining means for combining the frame with the image displayed on the monitor Processing means, and print control means for outputting an image signal processed by the image processing means to a printer, wherein the frame designating means selects any one of the various ID photographs. A frame having the same aspect ratio as the selected ID photo is designated.
[0019]
  In other words, the frame designated as appropriate by the frame designating unit can be displayed overlaid on the subject image, so that the print range can be clearly recognized before shooting, thereby making it possible to set an appropriate composition and the like. . AlsoAn image that has been subjected to processing such as trimming and electronic zoom so that the trimming range at the time of shooting during playback can be confirmed and only the image within the frame set at the time of shooting is printed as an image of a predetermined size. The signal can be output to a printer.
[0020]
  A camera system according to an eleventh aspect of the present invention includes a photographing unit that photographs a subject and acquires an image signal indicating the subject, and a frame designation unit that designates a frame indicating a print range, and the size and aspect of the frame. A frame designating means for designating at least the aspect ratio of the ratio to be changeable,When shootingMeans for displaying the frame designated by the frame designating means overlaid on the subject image, and an image signal obtained by the photographing means and indicating the entire range of the subject image without the frame.AndBoth of the information on the frame specified by the frame specifying meansFor removable recording media from the camera bodyRecording means for recording; reproducing means for displaying an image on a monitor based on an image signal recorded on the recording medium; frame generating means for generating a frame based on information on the frame recorded on the recording medium; An image for processing the image signal recorded on the recording medium so that only the image within the frame is printed as an image of a predetermined size, with frame combining means for combining the frame with the image displayed on the monitor Processing means, and print control means for outputting an image signal processed by the image processing means to a printer, and the frame has a camera that can hold the camera horizontally or vertically. It is characterized by a vertically long frame.
[0021]
  In other words, the frame designated as appropriate by the frame designating unit can be displayed overlaid on the subject image, so that the print range can be clearly recognized before shooting, thereby making it possible to set an appropriate composition and the like. . In general, the camera has a structure suitable for horizontal position shooting, and vertical position shooting is difficult to operate. However, according to the invention according to claim 11 of the present application, the camera can be used horizontally even when shooting and printing a vertically long image. It is possible to take a picture with the camera held in a position, and is particularly effective for a large camera. In addition, the trimming range at the time of shooting during playback can be confirmed, and processing such as trimming and electronic zoom is performed so that only the image within the frame set at the time of shooting is printed as an image of a predetermined size. The image signal can be output to a printer.
[0022]
  The frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically as shown in claim 12. Generally, a camera has a structure suitable for horizontal position shooting, and vertical position shooting is difficult to operate. However, according to the invention according to claim 12 of the present application, the camera can be placed horizontally even when shooting and printing a vertically long image. It is possible to take a picture while holding it, which is particularly effective for a large camera.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of an electronic camera and a print control apparatus according to the present invention will be described in detail with reference to the accompanying drawings.
[0027]
FIG. 1 is an external perspective view showing an embodiment of an electronic camera according to the present invention. A lens barrel 3 incorporating a photographing lens 2 is attached to the center of the front of the electronic camera 1, and a strobe window 4 and a finder window 5 are formed above the photographing lens 2. Further, an AF (autofocus) light projecting window 6 and an AF light receiving window 7 are provided vertically on the right side of the finder window. Reference numeral 8 denotes a strobe light control sensor.
[0028]
The photographing lens 2 is composed of a zoom lens and has a focal length of 9.2 mm to 25.8 depending on the driving force of a motor (not shown) driven in accordance with the operation of a zoom lever 20 (see FIG. 2) provided on the back of the electronic camera 1. It can be changed to 35mm-105mm equivalent (35mm camera equivalent). Although not shown in detail inside the finder window 5, a moving lens group constituting an objective lens is arranged, and the moving lens is driven in conjunction with a change in the focal length of the photographing lens 2. A zoom finder is configured. Furthermore, the electronic zoom can be doubled by setting the x2 mode. That is, a maximum zoom of 6 times is possible by optical zoom and electronic zoom.
[0029]
A light projecting means such as an infrared light emitting diode is provided inside the AF light projecting window 6, and a light receiving means including a light receiving element such as a photodiode is disposed inside the AF light receiving window 7. The light projecting unit and the light receiving unit constitute a distance measuring unit that measures the distance to the subject. The distance measuring unit (AF unit) obtains the distance to the subject based on, for example, the principle of triangulation, and the result is used for autofocus (AF) control.
[0030]
A shutter button 9, a mode dial 10, an up / down dial 11, an accessory shoe 12, and a liquid crystal display panel 13 are provided on the upper surface of the electronic camera 1. A size switching button 14 is sequentially provided on the left side of the liquid crystal display panel 13 from the front. A delete button 15 and a print button 16 are provided side by side.
[0031]
The mode dial 10 is provided so as to be rotatable in both forward and reverse directions, and the function of the electronic camera 1 can be changed depending on the dial setting position. For example, "OFF"-"AUTO"-"SETUP"-"P"-"S"-"A"-"M"-"PC"-"PLAY" in order of 9 steps for each click stop position of the rotation operation. The mode is changed, “PLAY” is followed by “OFF”, and the dial rotates once.
[0032]
The “OFF” mode is a position set when the electronic camera 1 is not used. Under this mode, the power of the electronic camera 1 is turned off. “AUTO” is a mode that is set when automatic shooting is performed. In this mode, AF and AE (automatic exposure control) function effectively, and the photographer simply presses the shutter button 9 to perform other special operations. It is possible to take a picture without performing any operation. “SETUP” is a mode for performing various settings such as date, time, sensitivity correction, compression mode, color / monochrome, etc., and it is up while checking the display on the liquid crystal display panel for each item to be set under this mode. The desired setting input is performed by operating the down dial 11 and a set button 23 (FIG. 2) described later.
[0033]
“P” is a program AE, “S” is a shutter priority, “A” is an aperture priority, and “M” is a position for setting a manual exposure shooting mode. The program selection, shutter speed setting, aperture value setting, etc. in each of these shooting modes are performed by operating the up / down dial 11 and the set button 23 to perform desired inputs.
[0034]
“PC” is a mode for transmitting and receiving image data by connecting the electronic camera 1 and a personal computer with a dedicated cable. “PLAY” is a mode set when a captured image is reproduced.
[0035]
The size switching button 14 is a button used when setting and switching the print size of various ID photographs, and the erasing button 15 is used when instructing erasing of image data stored in the memory card. Button. The liquid crystal display panel 13 displays the selected print size, various switch states, the remaining battery level, the memory usage status, and the like. Details of the print size display and the like displayed on the liquid crystal display panel 13 will be described later.
[0036]
FIG. 2 is a rear perspective view of the electronic camera shown in FIG. A zoom lever 20 is provided on the back surface of the electronic camera 1. By operating the zoom lever 20 upward or downward, the focal length of the taking lens 2 is set to the long focal side (tele) or the short focal side (wide). Can be changed. A viewfinder eyepiece 22 is formed at the upper left corner of the back of the camera, and a visual field substantially equal to the shooting field angle can be observed from the eyepiece 22.
[0037]
On the left side of the eyepiece 22 of the finder, a set button 23 and a scene number switching button 24 are provided vertically. The set button 23 is used for various input settings in combination with the up / down dial 11 as described above. The scene number switching button 24 is a button used when switching between 1-scene printing or 2-scene printing.
[0038]
A memory card cover 25 is provided on the right side surface portion of the electronic camera 1 in FIG. A memory card loading chamber is formed inside the electronic camera 1, and the memory card cover 25 can be opened to insert a memory card into the electronic camera 1 or to remove the memory card from the electronic camera 1. It is like that. A transparent memory card confirmation window 27 is formed in the center of the back of the electronic camera 1, and it can be confirmed whether or not a memory card is loaded in the electronic camera 1 through the confirmation window 27.
[0039]
FIG. 3 is a perspective view showing a bottom surface of the electronic camera shown in FIG.
[0040]
On the bottom surface of the electronic camera 1, there are provided an extension terminal 30, a tripod screw hole 32, and a unit mounting hole 34 for electrical connection with an extension unit 40 described later. The tripod screw hole 32 is also used as a fixing screw hole of the expansion unit, and the unit mounting hole 34 is L-shaped so that an L-shaped hook (see FIG. 4) formed on the expansion unit side can be engaged. Is formed.
[0041]
Further, a battery cover 36 is provided on the bottom surface of the electronic camera 1 so as to be freely opened and closed via a hinge 37, and the battery cover 36 is opened by operating a battery cover open knob 38 formed on the battery cover 36. By doing so, the battery can be replaced.
[0042]
FIG. 4 is an external perspective view of an expansion unit assembled to the bottom surface of the electronic camera shown in FIG. FIG. 4 shows a state seen from the back side of the expansion unit 40.
[0043]
On the upper surface of the expansion unit 40, a terminal 42 that fits into the expansion terminal 30 of the electronic camera 1, a fixing screw 43, and a substantially L-shaped hook 44 are provided. The extension unit 40 is assembled to the bottom of the electronic camera 1 by engaging the hook 44 with the unit mounting hole 34 on the electronic camera 1 side and screwing the fixing screw 43 into the screw hole 32 for the tripod. 1 and the expansion unit 40 are electrically connected by an expansion terminal 30 and a terminal 42.
[0044]
In addition, a 25-pin SCSI terminal (not shown) is provided on the left side of the expansion unit 40 in the drawing, and can be directly connected to a personal computer or digital printer 54 via a SCSI cable (FIGS. 5 and 9). reference).
[0045]
A slide switch 46 and a dip switch 48 are provided on the back surface of the expansion unit 40. The slide switch 46 is used for switching the OFF position, the SCSI position, and the like. When the switch is set to the OFF position, the power save mode is set, and the consumption of the battery mounted on the electronic camera 1 side is suppressed. That is, the electronic camera 1 is substantially equivalent to a state in which the expansion unit 40 is not assembled. When the slide switch 46 is set to the SCSI position, data transmission / reception with a personal computer or digital printer 54 connected via the SCSI terminal becomes effective. That is, the photographed image can be sent to the personal computer, and the photographing operation of the electronic camera 1 can be performed on the personal computer side. The captured image data can be directly transferred to the digital printer 54 for printing.
[0046]
On the other hand, the dip switch 48 is a four-position up / down type, and more detailed setting is performed under the SCSI mode by a combination of the four switches. That is, when the SCSI mode is selected by the slide switch 46, the dip switch 48 sets the PC operation mode to enable the personal computer connection or the print mode to enable the printer connection and enable printing. Is set.
[0047]
FIG. 5 shows a system configuration in which the digital camera shown in FIG. 1 is combined with the expansion unit shown in FIG. The electronic camera 1 has a video output terminal for sending a photographed image in a predetermined signal format such as NTSC. The liquid crystal viewfinder, the liquid crystal monitor 50, a television monitor or the like attached to the accessory shoe 12 has the video output terminal. By connecting to this image display device, it is possible to confirm a through image (moving image) or a captured image.
[0048]
In addition, a memory card 52 is loaded in the electronic camera 1, and photographed image data is recorded on the memory card 52 in a predetermined format. For example, a format conforming to the Exif format is adopted as the recording method, and image data compressed in JPEG format and thumbnail data of 80 × 60 pixels are recorded as a set for each shot. Further, tag information of the image data and frame information indicating the print range according to the present invention are recorded together with the image data.
[0049]
As the memory card 52, a PC card or smart media (SSFDC) that can be used with a PC card compatibility with a PC card adapter is used. The memory card 52 can be taken out from the electronic camera 1 and can be inserted into a notebook computer having a PC card slot or a PC card reader, and image data can be used in various devices.
[0050]
The expansion unit 40 assembled on the bottom surface of the electronic camera 1 can be directly connected to the digital printer 54 by a SCSI cable. Bidirectional communication is performed between the digital printer 54 and the expansion unit 40, and information about the printer model, paper size, and the like is sent from the connected digital printer 54 to the expansion unit 40 side.
[0051]
FIG. 6 is a diagram showing a state in which a frame having the same size as the print size of each ID photo is displayed on the monitor. FIG. 6 (A), FIG. 6 (B), FIG. 6 (C) and FIG. D) shows a visa frame, a passport frame, a resume frame and a car driving license frame, respectively. FIG. 7 is a diagram showing a monitor display screen showing a state in which a resume frame (white frame) is synthesized on an image.
[0052]
FIG. 8 is a diagram showing the display contents of the liquid crystal display panel 13 based on the operation of the size switching button 14 or the like. As described above, the size switching button 14 is used to set and switch the print size of various ID photographs. Every time one push is performed, “OFF” → “A size (visa ID photo)” → “B size”. (Passport ID photo) ”→“ C size (resume certificate photo) ”→“ D size (vehicle driver license photo) ”→“ OFF ”The print size is switched.
[0053]
The visa ID photo print size is 50 mm x 50 mm (vertical / horizontal aspect ratio = 1: 1), the passport ID photo print size is 45 mm x 35 (aspect ratio = 9: 7), The print size is 40 mm × 30 (aspect ratio = 4: 3), and the print size of the driver's license certification photo is 30 mm × 24 (aspect ratio = 5: 4).
[0054]
In addition, “A”, “b”, “c”, and “d” displayed as segments on the liquid crystal display panel 13 shown in FIG. 8 are designated with A size, B size, C size, and D size, respectively. Further, “2” displayed in the segment indicates that the two scene print is set by the above-described scene number switching button 24.
[0055]
FIG. 9 is a block diagram showing an embodiment of the internal configuration of the electronic camera or the like.
[0056]
The electronic camera 1 mainly includes a photographing lens 2, a CCD 56, an analog decoder 57, an A / D converter 58, a card interface (card I / F) 60, a SCSI / I / F 62, a central processing unit (CPU) 64, a work memory 68. A frame memory controller 70, a compression / decompression engine 72, a digital encoder 76, a frame memory 78, an operation unit 80, and the like. The SCSI I / F 62 is provided on the expansion unit 40 side.
[0057]
Light from the subject is imaged on the light receiving surface of the CCD 56 by the photographing lens 2. For example, a CCD with a 2/3 inch 1.4 million pixel is used for the CCD 56, and image light imaged on the light receiving surface of the CCD 56 is accumulated for a predetermined time by each sensor having R, G, B filters, It is converted into R, G, and B signals in amounts corresponding to the light intensity.
[0058]
The R, G, and B signals are guided to the analog decoder 57, where the gains of the R, G, and B signals are controlled. The R, G, B signals output from the analog decoder 57 are converted into digital signals (R, G, B data) by the A / D converter 58, and then the R, G, B data are converted into Y / C It is converted into Y / C data (luminance signal Y and chroma signal C) by the conversion process and stored in the frame memory 78 via the frame memory controller 70.
[0059]
When a compression command is sent from the CPU 64, the compression / decompression engine 72 compresses the Y / C data on the frame memory 78 and outputs the compressed data to the memory card 52 via the card I / F 60. Thereby, the compressed data is recorded on the memory card 52. When the compressed data recorded on the memory card 52 is reproduced, the compression / decompression engine 72 decompresses the compressed data read from the memory card 52, and uses the decompressed Y / C data. The frame memory 78 is expanded.
[0060]
The digital encoder 76 is added with Y / C data from the frame memory 78 via the frame memory controller 70, and generates, for example, an NTSC color composite video signal based on the input Y / C data. Output to the video output terminal 82.
[0061]
An on-screen device (OSD) controller 74 generates a frame signal indicating various frames according to the present invention, a character signal indicating characters, and the like based on a command from the CPU 64, and a video signal output from the digital encoder 76. To mix.
[0062]
In the print mode, the CPU 64 converts the Y / C data stored in the frame memory 78 into R, G, B data, and stores it in the work memory 68. The R, G, and B data are transferred to the digital printer 54 via the SCSI / I / F 62. The ROM 66 stores a color correction lookup table (LUT) corresponding to the control program and the model of each printer.
[0063]
Further, in the ID photo taking print mode or reproduction print mode, which will be described later, only Y / C data corresponding to the image in the frame indicating the selected ID photo is selected from the Y / C data stored in the frame memory 78. Is converted into R, G, B data and stored in the work memory 68, and the number of pixels of the R, G, B data is adjusted by interpolation processing or the like so that it is printed in the same size as the print size of the ID photo, As a result, the R, G, B data for ID photo print is transferred to the digital printer 54.
[0064]
Next, the operation of the electronic camera configured as described above will be described.
[0065]
The CPU 64 performs overall control of the electronic camera 1 and is based on various switch inputs from the operation unit 80 including the shutter button 9, the mode dial 10, the up / down dial 11, the size switching button 14, the print button 16, and the like. A normal shooting mode, a shooting print mode, a reproduction print mode, and the like are determined, and each circuit is controlled according to each mode.
[0066]
Here, the photographing mode is a mode in which the photographed color image data is recorded in the memory card 52, and the mode dial 10 of the electronic camera 1 is set to “AUTO”, “P”, “S”, “A”, “M”. This mode is set when the expansion unit 40 is not connected to the electronic camera 1 or when the slide switch 46 of the expansion unit 40 is not switched to the SCSI position.
[0067]
The shooting print mode is a mode in which a shot image is immediately printed on the digital printer 54 connected by SCSI, and the mode dial 10 of the electronic camera 1 is set to “AUTO”, “P”, “S”, “A”, “M”. ”, The slide switch 46 of the expansion unit 40 is switched to the SCSI position, and the dip switch 48 is set to enable the printer connection under the SCSI mode. .
[0068]
The reproduction print mode is a mode in which the reproduced image is printed on the SCSI-connected digital printer 54. The mode dial 10 of the electronic camera 1 is set to “PLAY”, and the slide switch 46 of the expansion unit 40 is set to the SCSI position. This mode is set when the user selects to enable the printer connection under the SCSI mode by the DIP switch 48.
[0069]
Next, the processing operation when the electronic camera 1 is set to the shooting mode and is switched to the shooting mode for taking the ID photo by the size switching button 14 will be described with reference to the flowchart shown in FIG.
[0070]
First, the type of ID photo is selected by operating the size switching button 14 (step S10). In the next step S12, the process branches to one of the four steps S14, S16, S18, and S20 according to the type of the ID photo selected in step S10. That is, if a visa ID photo is selected, the process proceeds to step S14. If a passport ID photo is selected, the process proceeds to step S16. If a resume certificate photo is selected, the process proceeds to step S18. When the ID photo is selected, the process proceeds to step S20.
[0071]
In step S 14, a frame signal indicating a visa frame is generated from the OSD controller 74 by a command from the CPU 64, and this frame signal is mixed with a video signal output from the digital encoder 76. As a result, the video signal combined with the visa frame is output as a movie to the liquid crystal monitor 50 (see FIG. 5) via the video output terminal 82.
[0072]
Similarly, in step S16, a frame signal indicating the passport frame is mixed with the video signal and a video signal obtained by synthesizing the passport frame is output as a movie. In step S18, the frame signal indicating the resume frame is output as the video signal. A video signal in which the resume frame is combined and the movie signal is output as a movie, and in step S20, the frame signal indicating the vehicle license frame is mixed with the video signal and the vehicle license frame is combined. Is output as a movie. Note that the OSD controller 74 generates a frame signal so that the frame is vertically long with respect to an image taken with the camera held horizontally as shown in FIGS. 6 and 7.
[0073]
Next, it is determined whether or not the shutter button 9 has been turned on (step S22). If the shutter button 9 is not turned on, the process returns to step S10, and the image in which the ID photo frame is combined is continuously displayed on the liquid crystal monitor 50. Therefore, it is possible to determine the composition by re-selecting the type of the ID photo while viewing this frame-synthesized image, or by optically zooming so that a subject of an appropriate size falls within the frame.
[0074]
Here, when the shutter button 9 is turned on, recording R, G, B data is taken in from the CCD 56 (step S24), and the R, G, B data is converted into Y / C data to be a frame. It is stored in the memory 78 (step S26). The Y / C data stored in the frame memory 78 is compressed by the compression / decompression engine 72 (step S28), and this compressed data is recorded on the memory card 52 (step S30).
[0075]
Further, the tag of the compressed data (image data) is recorded on the memory card 52, and at this time, information on the ID photo frame (for example, ID photo type, frame size, frame position on the screen, etc.). Are also recorded (step S32). That is, image data indicating the entire range of the subject image without a frame is recorded in the memory card 52 regardless of whether the ID photo is taken or not. Information is recorded.
[0076]
Next, a processing operation when the electronic camera 1 is set to the photographing print mode will be described with reference to a flowchart shown in FIG. In addition, the same step number is attached | subjected to the process which is common in the imaging | photography mode shown in FIG. 10, and the detailed description is abbreviate | omitted.
[0077]
In the photographing mode, image data is recorded on the memory card 52, but in this photographing print mode, the image data is printed out.
[0078]
That is, after converting to Y / C data in step S26 and storing the Y / C data in the frame memory 78, the ID photo selected in step S10 among the Y / C data stored in the frame memory 78 is stored. Only Y / C data corresponding to the image in the frame shown is converted into R, G, B data and stored in the work memory 68 (step S40).
[0079]
Subsequently, the number of pixels of R, G, B data is adjusted by interpolation processing, thinning processing, etc. so that the selected ID photo is printed with the same size as the print size of the ID photo, and R, G, B for ID photo printing is adjusted. Data is transferred to the digital printer 54 (step S42). Next, the digital printer 54 is instructed to execute printing (step S50). As a result, the ID photo having the same size as the print size of the ID photo selected by the digital printer 54 is printed.
[0080]
Next, a processing operation when the electronic camera 1 is set to the reproduction print mode will be described with reference to a flowchart shown in FIG. Note that the same step numbers are assigned to the processes common to the photographing print mode shown in FIG. 10, and the detailed description thereof is omitted.
[0081]
In the photographing print mode, the image data acquired at the time of photographing is immediately printed out, but in this reproduction print mode, the image data read from the memory card 52 is printed out.
[0082]
That is, compressed data (image data) is fetched from the memory card 52 (step S50), the fetched compressed data is decompressed by the compression / decompression engine 72, and the decompressed Y / C data is expanded in the frame memory 78 ( Step S52). At the start of reproduction, the latest compressed data is fetched from the memory card 52.
[0083]
Subsequently, a video signal in which the ID photo frame is synthesized based on the ID photo frame information recorded in association with the acquired compressed data is output to the liquid crystal monitor 50 via the video output terminal 82. (Steps S12 to S20).
[0084]
As a result, the image data shot and recorded with the ID photo shooting mode selected is displayed on the liquid crystal monitor 50 as an image in which the ID photo frame is combined.
[0085]
Thereafter, in step S60, it is determined whether or not another image is selected. Whether or not to select another image is determined based on the operation of the up / down dial 11, and when the up / down dial 11 is operated, another compressed data is captured in step S50 according to the operation. As a result, the frame playback of the reproduced image is performed.
[0086]
In step S62, it is determined whether or not the type of the ID photo selected for the currently reproduced image is to be changed. When the ID photo type is to be changed, the ID photo is operated by operating the size switching button 14. Is selected (step S64), and the process returns to step S12. As a result, an image obtained by combining the newly selected ID photo frame is displayed on the liquid crystal monitor 50.
[0087]
On the other hand, if the type of the ID photo selected for the currently reproduced image is not changed, it is determined whether or not to adjust the position of the frame combined with the currently reproduced image (step S66). ).
[0088]
When adjusting the position of the frame, a movement command for moving the frame up and down by turning the up / down dial 11 while pressing the set button 24 is output, or the up / down dial 11 is pressed while pressing the shutter button 9. A movement command for moving the frame left and right by turning is output (step S68), and the process returns to step S12. When the OSD controller 74 inputs the frame movement command via the CPU 64, the OSD controller 74 generates a frame signal to move the frame in accordance with the movement command. Thereby, the position of the frame can be adjusted.
[0089]
When the position of the frame is not adjusted or when the adjustment is finished, it is determined whether or not to adjust the size of the frame combined with the currently reproduced image (step S70).
[0090]
When adjusting the size of the frame, a command to make the frame smaller or larger by operating the zoom lever 20 upward or downward is output (step S72), and the process returns to step S12. When the OSD controller 74 receives a command for adjusting the frame size via the CPU 64, the OSD controller 74 generates a frame signal to make the frame smaller or larger according to the command. Thereby, the frame size can be adjusted.
[0091]
Next, when the frame size is not adjusted or when the adjustment is completed, it is determined whether or not there is a print instruction (step S74). This print instruction is performed by operating the print button 16.
[0092]
When a print instruction is input, the processes of steps S40, S42 and S44 described with reference to FIG. 11 are executed.
[0093]
Here, in step S40, only the Y / C data corresponding to the image in the frame indicating the selected ID photo is converted into R, G, B data among the Y / C data stored in the frame memory 78. If the frame position or the frame size has been adjusted in step S68 or step S72, only Y / C data corresponding to the adjusted frame position and frame size is stored in R, G. , Converted into B data and stored in the work memory 68 (step S40).
[0094]
Subsequently, the number of pixels of R, G, B data is adjusted by interpolation processing, thinning processing, etc. so that the selected ID photo is printed with the same size as the print size of the ID photo, and R, G, B for ID photo printing is adjusted. Data is transferred to the digital printer 54 (step S42). Next, the digital printer 54 is instructed to execute printing (step S50). As a result, the ID photo having the same size as the print size of the ID photo selected by the digital printer 54 is printed.
[0095]
In this embodiment, the position and size of the frame are adjusted with respect to the reproduced image. However, the present invention is not limited to this, and the reproduced image may be moved on the screen or the image may be electronically zoomed. . In this embodiment, the monitor can be externally attached to the electronic camera. However, the present invention is not limited to this, and an electronic camera with an integrated monitor may be used, and a printer is also built in the camera. It may be a thing.
[0096]
Further, the type of ID photo is not limited to the four types of this embodiment. Also, the frame is not limited to a white frame, and various types are conceivable. For example, a frame with different densities inside and outside the frame, or a frame distinguished between color and black and white may be used.
[0097]
【The invention's effect】
As described above, according to the present invention, when a frame indicating the print range is appropriately designated, the designated frame is displayed on the monitor so as to be superimposed on the subject image. Accordingly, it is possible to set an appropriate composition suitable for the print range, and clearly notify the print range before printing.
[0098]
Regardless of the print range setting, the image signal of the entire range of the subject image without the frame indicating the print range is recorded on the recording medium, and the information on the specified frame is recorded. Can be used to print out only the image within the print range, and can print out only the image within the print range with the print position and size set or adjusted appropriately, regardless of the print range set during shooting. it can.
[0099]
In addition, since the print output is made so that only the image within the print range is printed as an image of a predetermined size, it is advantageous when, for example, printing an ID photo with a specified print size and aspect ratio. . In this case, an ID photo having a desired aspect ratio and size can be obtained by cutting the printed photo along the printed range.
[0100]
In addition, the ID photo frame displayed on the monitor is displayed so as to be vertically long with the camera held sideways, so that the ID photo can be taken with the camera held sideways, especially in the vertical position. This is advantageous for large cameras that are difficult to hold.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing an embodiment of an electronic camera according to the present invention.
FIG. 2 is a rear perspective view of the electronic camera shown in FIG.
3 is a bottom perspective view of the electronic camera shown in FIG. 1. FIG.
FIG. 4 is an external perspective view of an expansion unit.
FIG. 5 is a configuration diagram of a system in which the electronic camera shown in FIG. 1 and a device connected to the electronic camera are combined.
FIG. 6 is a diagram showing a state in which a frame having the same size as the print size of various ID photographs is displayed on the monitor.
FIG. 7 is a diagram showing a display screen of a monitor showing a state in which a resume frame is combined on an image
FIG. 8 is a view showing display contents of a liquid crystal display panel based on an operation of a size switching button or the like.
FIG. 9 is a block diagram showing an embodiment of an internal configuration of an electronic camera or the like
FIG. 10 is a flowchart used for explaining a processing operation in a shooting mode.
FIG. 11 is a flowchart used for explaining a processing operation in a photographing print mode.
FIG. 12 is a flowchart used for explaining the processing operation in the reproduction print mode.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Electronic camera, 2 ... Shooting lens, 9 ... Shutter button, 11 ... Up / down dial, 14 ... Size switching button, 16 ... Print button, 20 ... Zoom lever, 40 ... Expansion unit, 52 ... Memory card, 54 ... Digital printer, 56 ... CCD, 60 ... Card I / F, 62 ... SCSI I / F, 64 ... CPU, 68 ... Work memory, 70 ... Frame memory controller, 72 ... Compression / decompression engine, 76 ... Digital encoder, 78 ... Frame memory, 80 ... Operation unit, 82 ... Video output terminal

Claims (12)

Photographing means for photographing a subject and obtaining an image signal indicating the subject;
Frame designating means for designating a frame indicating a print range, the frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;
Means for displaying the frame designated by the frame designating means on the subject image at the time of shooting;
An image signal obtained by said photographing means, along with an image signal indicating the full range of the frame without object image, records information of the designated frame by the frame specifying means on a removable recording medium from the camera body Recording means for
The frame designating unit designates a frame having the same aspect ratio as the selected ID photo by selecting any ID photo from various ID photos. Photographing means for photographing a subject and obtaining an image signal indicating the subject;
Frame designating means for designating a frame indicating a print range, the frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;
Means for displaying the frame designated by the frame designating means on the subject image at the time of shooting;
An image signal obtained by said photographing means, along with an image signal indicating the full range of the frame without object image, records information of the designated frame by the frame specifying means on a removable recording medium from the camera body Recording means for
The electronic frame according to claim 1, wherein the frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically.   Reproduction means for displaying an image on a monitor based on an image signal recorded on the recording medium, frame generation means for generating a frame based on information on the frame recorded on the recording medium, and display on the monitor The electronic camera according to claim 1, further comprising frame synthesizing means for synthesizing the frame with an image.   4. The electronic camera according to claim 3, further comprising means for relatively moving an image displayed on the monitor and a frame. Photographing means for photographing a subject and obtaining an image signal indicating the subject;
Frame designating means for designating a frame indicating a print range, the frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;
Means for displaying the frame designated by the frame designating means on the subject image at the time of shooting;
Image processing means for processing the image signal acquired by the photographing means so that only the image within the frame specified by the frame specifying means is printed as an image of a predetermined size;
Print control means for outputting an image signal processed by the image processing means to a printer,
The frame designating unit designates a frame having the same aspect ratio as the selected ID photo by selecting any ID photo from various ID photos. Photographing means for photographing a subject and obtaining an image signal indicating the subject;
Frame designating means for designating a frame indicating a print range, the frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;
Means for displaying the frame designated by the frame designating means on the subject image at the time of shooting;
Image processing means for processing the image signal acquired by the photographing means so that only the image within the frame specified by the frame specifying means is printed as an image of a predetermined size;
Print control means for outputting an image signal processed by the image processing means to a printer,
The electronic frame according to claim 1, wherein the frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically.   The means for displaying the frame superimposed on the subject image includes a frame generating means for generating a frame specified by the frame specifying means, and an image displayed on a monitor based on an image signal from the photographing means. 7. The electronic camera according to claim 1, further comprising a frame synthesizing unit for synthesizing.   The image processing means processes the image signal acquired by the photographing means so as to be printed as an image having the same aspect ratio and size as the ID photo selected by the frame specifying means. 6. The electronic camera according to 6.   The frame designating means is any one of at least two or more of a variety of ID photos such as a visa ID photo, a passport ID photo, a resume ID photo, and a car driver license ID photo. 9. The electronic camera according to claim 1, wherein the ID photo is selected. Photographing means for photographing a subject and obtaining an image signal indicating the subject;
Frame designating means for designating a frame indicating a print range, the frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;
Means for displaying the frame designated by the frame designating means on the subject image at the time of shooting;
An image signal obtained by said photographing means, along with an image signal indicating the full range of the frame without object image, records information of the designated frame by the frame specifying means on a removable recording medium from the camera body Recording means to
Reproduction means for displaying an image on a monitor based on an image signal recorded on the recording medium;
Frame generating means for generating a frame based on information of the frame recorded on the recording medium;
Frame synthesizing means for synthesizing the frame with the image displayed on the monitor;
Image processing means for processing an image signal recorded on the recording medium so that only an image within the frame is printed as an image of a predetermined size;
Print control means for outputting an image signal processed by the image processing means to a printer,
The frame designating unit designates a frame having the same aspect ratio as the selected ID photo by selecting any ID photo from various ID photos. Photographing means for photographing a subject and obtaining an image signal indicating the subject;
Frame designating means for designating a frame indicating a print range, the frame designating means for designating at least the aspect ratio of the size and aspect ratio of the frame to be changeable;
Means for displaying the frame designated by the frame designating means on the subject image at the time of shooting;
An image signal obtained by said photographing means, along with an image signal indicating the full range of the frame without object image, records information of the designated frame by the frame specifying means on a removable recording medium from the camera body Recording means to
Reproduction means for displaying an image on a monitor based on an image signal recorded on the recording medium;
Frame generating means for generating a frame based on information of the frame recorded on the recording medium;
Frame synthesizing means for synthesizing the frame with the image displayed on the monitor;
Image processing means for processing an image signal recorded on the recording medium so that only an image within the frame is printed as an image of a predetermined size;
Print control means for outputting an image signal processed by the image processing means to a printer,
The camera system according to claim 1, wherein the frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically.   The electronic camera according to claim 1, wherein the frame is a frame that is vertically long with a camera that can hold the camera horizontally or vertically.

Images