JP3767043B2 - Printing apparatus and printing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printing apparatus using a display unit of a digital camera, and a printing system for the printing apparatus.
[0002]
[Prior art]
Today, multi-media is progressing among various electronic devices including personal computers. In particular, in addition to the realization of application software such as conventional databases, word processors, spreadsheets, etc., personal computers can reproduce still images such as photographs, video images such as TV images and karaokes by increasing memory and incorporating MPEG circuits and modems. Reproduction, communication functions such as the Internet, etc. can be easily realized.
[0003]
In recent years, digital cameras that can directly process photographic images with a personal computer are widely available in place of conventional so-called analog cameras. That is, by installing dedicated software in a personal computer, digital images taken by a digital camera can be easily processed. For example, when printing a photographic image taken from a digital camera to a personal computer, a desired photo can be easily printed by connecting a printer device to the personal computer and specifying the photographic image.
[0004]
[Problems to be solved by the invention]
In the above-described conventional printing system, when printing a photographic image of a digital camera, the photographed image of the digital camera is once taken into a personal computer, processed by dedicated software, and output to a printer device for printing processing. . Therefore, conventionally, a personal computer has been indispensable for printing a photographic image of a digital camera.
[0005]
The conventional system also requires software for taking a photographic image from a digital camera into a personal computer, performing image processing, and outputting the image to a printer. Therefore, when printing a photographic image of a digital camera, the printing process is complicated.
[0006]
Furthermore, in the conventional printing system, when printing an image taken with a digital camera, three devices, that is, a digital camera, a personal computer, and a printer device are required. As the system becomes larger, the operation is complicated and the operability is improved. Unfortunately, no one was able to print easily and quickly.
[0007]
In order to solve the above-described problems, the present invention provides a printing apparatus in which a digital camera is directly connected to a printing apparatus, a personal computer is excluded from the printing system, the system is downsized, and a photographic image printing operation is simplified. Is to provide.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention described in claim 1 stores storage means for storing a printer operation image composed of a plurality of format selection screens and real images corresponding to the plurality of formats, and digitally stores the printer operation image. Output means for outputting to a camera, display means for a digital camera for displaying a printer operation image output by the output means, read control means for reading a photographic image stored in the digital camera, and the plurality of format selection screens Selecting a desired format from the digital camera, selecting a desired photographic image from the digital camera, and reading a real image corresponding to the format selected by the selecting unit from the storage unit, and selecting the photographic image selected by the selecting unit Is read from the digital camera by the read control means, and a print image is read from both data. It can be achieved by providing a print image creating means for creating a printing system having a printing means for printing on recording paper images created with the print image-forming means.
[0009]
That is, the printer operation image stored in the storage means provided on the printing apparatus side is sent to the digital camera side by the output means on the printing apparatus side, and a plurality of format selection screens are displayed on the display means of the digital camera such as a color LCD. The printer operation image is displayed. Then, while viewing this display, the selection means selects one format from a plurality of formats, and further selects a photographic image of the digital camera. The format image thus selected is read out as a corresponding real image from the storage means in the printing apparatus, the photographic image is read out from the digital camera, and the print image created by the print image creation means is recorded on the recording paper. This is a configuration for printing.
[0010]
With this configuration, it is possible to connect a printing device directly to a digital camera and select a printing format or photographic image by looking at the printer operation image displayed on the digital camera under the control of the printing device. Images including photographic images can be easily printed without going through a computer.
[0011]
The invention described in claim 2 is more specific than the invention described in claim 1, wherein the printer operation image is, for example, compressed data, and after the data is expanded in the digital camera, the display means It is the structure displayed on.
[0012]
For this reason, a digital camera used in the printing system is provided with a data expansion circuit. With this configuration, it is possible to transfer data for a printer operation image sent from the printing apparatus to the digital camera at high speed, and to reduce the memory capacity in the printing apparatus.
[0013]
The invention described in claim 3 makes the invention described in claim 1 more specific, and the display means of the digital camera displays the plurality of formats by symbols, for example.
[0014]
Here, the symbol display is composed of a selection number on the format selection screen, a conceptual symbol, and the like. With this configuration, operability when selecting a format is improved.
[0015]
The invention according to claim 4 also makes the invention according to claim 1 more concrete, and the display means of the digital camera displays, for example, the photographic image with a symbol. With this configuration, the operability of selecting a photographic image can be improved as described above.
[0016]
In addition, as described in claims 5 to 10, the printer operation image is, for example, a layout image when a photographic image is printed on the recording paper, a selection image including a calendar, and a card image. , A selection image including a mini-label printing image, an illustration composition image, and a list printing image.
[0017]
In order to solve the above-mentioned problems, the invention described in claim 11 converts an image electrical signal photoelectrically converted based on an optical image photographed and connected by a lens device into a digital signal, and the digital signal is converted into an image memory as photographic image data. And the output of the image memory is temporarily stored in the display memory, the photographic image data of the display memory is displayed on the display means, and a control signal is transmitted to the printing apparatus connected to the outside And a printing device connected to a digital camera for storing and playing back a photographic image as digital image data via the communication means, comprising a communication means for transmitting and receiving the photographic image data and a control means, and a plurality of formats Storage means for storing a printer operation image formed of a selection screen and actual images corresponding to the plurality of formats, and the printer operation image An output means for outputting to the digital camera and displaying it on the display means of the digital camera, a read control means for instructing reading of a photographic image stored in the digital camera, and selecting a desired format from the plurality of format selection screens A selection unit that causes the digital camera to select a desired photographic image; and an actual image corresponding to the format selected by the selection unit is read from the storage unit, and the photographic image selected by the selection unit is read by the reading control unit This can be achieved by providing a printing apparatus that includes a print image creation unit that reads from the digital camera and creates a print image from both data, and a print unit that prints the image created by the print image creation unit on a recording sheet. .
[0018]
The present invention shows not only a printing system but a configuration of only a printing apparatus, and includes a storage unit, an output unit, a selection unit, a reading control unit, a print image creation unit, and a printing unit provided in the printing apparatus. . The output means outputs a printer operation image having a plurality of format selection screens stored in the storage means, the selection means selects a desired format and a photographic image from the format selection screen, and the selected format image is printed. A corresponding real image is read from the storage means in the apparatus, and a photographic image is read from a digital camera, for example, and a print image is created by a print image creation means.
[0019]
By configuring in this way, for example, a printing device can be directly connected to a digital camera, and a printing format or a photographic image can be selected by looking at a printer operation image displayed on the digital camera by control from the printing device. Images including photographic images can be easily printed without going through a personal computer.
[0020]
The invention according to a twelfth aspect is more specific than the invention according to the eleventh aspect, wherein the actual image stored in the storage means is, for example, compressed data, and the print image creation means is the actual image. In this configuration, the image is decompressed. Therefore, for example, a decompression circuit is provided for this processing in the printing apparatus, and after the actual image data is decompressed, a print image is created.
[0021]
The invention described in claim 13 is more specific than the invention described in claim 11, wherein the photographic image read from the digital camera is compressed data, and the print image creating means decompresses the photographic image. It is the structure to do. Therefore, also in this case, for example, the above-described decompression circuit provided in the printing apparatus is used to decompress the actual image data, and then create a print image.
[0022]
In the printing apparatus of the present invention as well, as described in claims 14 to 19, the printer operation image is a layout image for printing a photographic image on the recording paper, for example, and includes a calendar. A selection image, a selection image including a card image, a selection image including a mini-label printing image, an illustration composition image, and a list printing image.
[0023]
The invention described in claim 20 has a finder function for displaying still image data being photographed on the display means in the recording mode, and a monitor function for displaying still image data photographed and recorded on the display means in the reproduction mode. A printing apparatus that uses a digital camera as an external device and prints image data that has been photographed and recorded from the digital camera, and stores the operation display data necessary for the printing operation. Control means for transferring the stored operation display data to the digital camera and controlling the digital camera to display on the display means is provided.
[0024]
According to the twentieth aspect of the invention, since the display means of the digital camera having both the finder function and the monitor function can be used as a monitor for display data relating to the printing operation of the printing apparatus, the display section of the printing apparatus is small and insufficient. Even if there is no display unit at all, the printing operation can be easily performed while viewing the display on the camera side.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
1A and 1B are external perspective views showing a state in which a digital camera (electronic still camera) and a printing apparatus (hereinafter referred to as a printer apparatus) are connected in an embodiment. A digital camera is shown, and FIG.
[0026]
First, the digital camera 1 is composed of a camera body 2 and a lens unit 3 as shown in FIG. In the camera main body 2, the operation mechanism portion is concentrated on the top surface and the back surface (front side in FIG. 1), and nothing is arranged on the front surface (the other side in FIG. 1) other than marks and exterior patterns.
[0027]
On the back of the camera body 2, a viewfinder 4 made of a large color LCD is disposed at the center, and slide-type switches 5 and 6 are disposed in the vicinity thereof. First, a power switch 5 is disposed above the viewfinder 4, and a mode switching key 6 for switching the operation mode between the image capturing mode (RE) and the image reproduction mode (PL) is disposed on the right side. On the upper surface of the camera body 2, the shutter button 9, a “+” key 11 for sequentially calling and viewing captured and recorded images, and “−” for returning to the previous image of the currently viewed image. A key 12 is disposed, and a communication terminal 13 is disposed near the front surface in the vicinity thereof. A plug provided at one end of the communication cable 14 is inserted into the communication terminal 13.
[0028]
The lens unit portion 3 is not visible because it is on the opposite side in FIG. The lens unit 3 is provided so as to be rotatable with respect to the camera body 2 and rotates 90 ° in the direction of arrow A in the figure and 180 ° in the direction of arrow B in the figure. When the lens is turned 180 ° in the direction of arrow B and the lens is turned to the back, the lens position is reversed, but the posture of this lens is detected by the internal circuit, and the image being shot is automatically corrected to an upright image. Displayed on the screen.
[0029]
On the other hand, as shown in FIG. 4B, the printer device 15 has an insertion port for inserting the recording paper P on the front surface (front side of the same drawing), a discharge port for discharging the printed recording paper P, and the like. A paper insertion / discharge port 16 is also provided. An operation panel 17 is formed in front of the upper surface of the printer device 15 so as to be inclined slightly forward. Seven operation buttons 18 (“−” key 18 a and “+” key 18 b) are formed on the operation panel 17. "SET" key 18c, "POWER" key 18d, "EASY" key 18e, "MENU" key 18f, "BACK" key 18g), and communication terminal 19 are provided. A plug provided at the other end of the communication cable 14 is inserted into the communication terminal 19.
[0030]
2A is a circuit block diagram of the digital camera 1 and FIG. 2B is a circuit block diagram of the printer device 15 in the digital camera 1 and the printer device 15 having the above-described external configuration.
[0031]
In the circuit block diagram of FIG. 2A, a CCD (charge coupled device) 21 is an image sensor that converts a video signal into an analog electric signal and outputs it, and captures an image input through a lens (not shown). . The drive circuit (driver 22) is a circuit that drives the CCD 21, and drives the CCD 21 according to the timing signal output from the timing generator 20.
[0032]
An analog / digital conversion circuit (hereinafter referred to as an A / D converter) 24 is a circuit that converts an analog signal output from the CCD 21 via an amplifier 23 into a digital signal, and converts the output of the CCD 21 into a digital image signal. . The DRAM 25 temporarily stores the converted digital image signal. The compression / decompression unit 26 compresses the above-described digital image signal by encoding processing. In contrast to the above, the compression / decompression unit 26 performs a decoding process on the digital image signal and also performs a data expansion process. The image memory 27 is a memory for storing a large number of digital image signals compressed by the compression / decompression unit 26, and is constituted by a flash memory, for example.
[0033]
The video signal generation unit 32 generates a digital video signal by adding a synchronization signal or the like to the digital image signal. The VRAM 33 is a memory that stores a digital video signal. A digital / analog conversion circuit (hereinafter referred to as a D / A converter) 34 converts the digital video signal output from the video signal generator 32 into an analog video signal, and displays a color LCD (liquid crystal display) 35 as display means. The circuit that outputs to The color LCD 35 displays a photographic image by driving a liquid crystal based on an analog video signal inputted from the D / A converter 34 via the amplifier 36.
[0034]
The CG (character generator) 37 stores numerical data, cursor data, and the like for displaying the image data of the image memory 27 on the color LCD 35.
[0035]
On the other hand, the ROM 28 stores a program for driving and controlling the digital camera 1 and outputs the program to the CPU 30. The CPU 30 operates based on a program stored in the ROM 28 and controls the digital camera 1. Note that the RAM 29 is a memory that temporarily stores intermediate data of arithmetic processing and the like during the control processing of the CPU 30. As described above, the CPU 30 operates based on the program stored in the ROM 28, uses the work area of the RAM 29, and controls each unit according to the key operation signal input from the key input unit 31. The key input unit 31 corresponds to various keys 5 to 6 arranged in the digital camera 1 described above. The I / O port 38 is an interface that controls input / output of an image signal converted into a serial signal.
[0036]
Here, the operation of the digital camera 1 having the above-described configuration will be briefly described. First, a video capture key (shutter button 9) is operated, a timing signal is output from the timing generator 21, and an external video is captured by the CCD 21. Then, the image is taken into the CCD 21. The image data captured by the CCD 21 is stored in the DRAM 25 as a digital image signal as described above, and a luminance signal and a color signal are generated on this data to create a luminance signal and a color signal from the image signal. The luminance signal and the color signal are transferred to the compression / decompression unit 26, and the luminance signal and the color signal are compressed and stored in the image memory 27.
[0037]
Next, when reproducing the image data stored in the image memory 27, the reproduction key (RE key 8) is operated to read out the compressed image signal (compressed luminance signal and color signal) from the image memory 27 and compress it. / Transfer to the decompression unit 26. The digital image signal composed of the luminance signal and the color signal expanded by the compression / decompression unit 26 is transferred to the video signal generation unit 32, and the digital video signal obtained by adding a synchronization signal to the digital image signal by the video signal generation unit 32. Is temporarily written in the VRAM 33, and the written digital video signal is output to the color LCD 35 through the D / A converter 34 and the amplifier 36 and displayed on the color LCD 35.
[0038]
Next, the configuration of the printer device 15 shown in FIG. The printer device 15 includes a CPU 40 and an image memory 41 connected to the CPU 40 via a bus 49, an expansion unit 42, a selection unit 43, a key input unit 44, an I / O port 45, a ROM 46, a color printer unit 47, a RAM 48, and the like. It is configured.
[0039]
The I / O port 45 is composed of a circuit having a serial communication function, and is generally built in an LSI of a one-chip CPU and transmits / receives data to / from the outside. The key input unit 44 is connected to a general-purpose port of the CPU 40 and outputs key operation signals from the seven operation keys 18 of the operation panel 17 shown in FIG. Various processes based on the control of the CPU 40 are performed based on the key operation signal. The function of each key operation signal will be described later.
[0040]
The ROM 46 stores a program area in which operation programs such as communication processing, print data creation processing, print processing, and calendar creation processing performed by the CPU 40 are stored, real image data such as compressed display data, compressed background data, and CG, and a layout, for example. And an image data area storing compressed data of various printer operation images such as mini-labels and postcards. Each of the above-described printer operation images has a plurality of format selection screens.
[0041]
The selection unit 43 operates each operation key 18 described above based on the above-described printer operation image displayed on the viewfinder 4, and based on a key operation signal input from the key input unit 44, the ROM 46 described later. Each program or printer operation image is selected, and each corresponding format image is selected.
[0042]
The image memory 41 is a memory that temporarily stores compressed image data composed of luminance signals and color signals that are read from the image memory 27 of the camera 1 and transferred.
The decompression unit 42 has a known image decompression function such as MPEG, and decompresses, for example, a background image stored in the ROM 46 or an actual image corresponding to the selected format image. Further, the photographic image read from the digital camera 1 is decompressed. That is, since the actual image stored in the ROM 46 and the photographic image output from the digital camera 1 are stored and transferred in the form of compressed data, it must be enlarged to a predetermined size when creating a print image. Because.
[0043]
The RAM 48 is a work area for arithmetic processing performed by the CPU 40, and the image data stored in the image memory 41 is decompressed by the decompressing unit 42 and then created according to the print data creation processing program in the ROM 46, yellow (Y), magenta ( M), a print data storage area for storing print data of each color of cyan (C), an image composition processing area for compositing these print data and decoration data such as background data for decoration, and data set by the CPU 40 A storage area is provided.
[0044]
The color printer unit 47 is a printer engine unit, and is connected to a motor driver that drives a DC motor, a stepping motor, and the like, a print head, and various sensors. The sensor is composed of an optical sensor, a mechanical contact type sensor, and the like, and detects the position of the ink ribbon of three colors of yellow (Y), magenta (M), and cyan (C) for color printing, and the paper P to be inserted. Perform detection.
[0045]
FIG. 3 is a diagram showing a connection configuration of representative members among the drivers and sensors described above. In other words, the head motor 50 is connected to the CPU 40 via the motor driver 50 ', the ribbon motor 51 is connected via the motor driver 51', and the paper feed motor 52 is connected via the motor driver 52 '. Yes. The head motor 50 moves the print head between the print position and the non-print position, and the print head presses the paper through the ink ribbon at the print position. The ribbon motor 51 is a motor that conveys the ink ribbon and sequentially feeds the ink portions of yellow (Y), magenta (M), and cyan (C) to the print head and the paper pressing portion. The paper feed motor 52 is a motor that moves the paper P in the sub-scanning direction line by line.
[0046]
The print head 53 connected to the CPU 40 is composed of 960 heating elements each having a density of 300 dpi (dots / inch) on a ceramic plate, and a driver IC that individually drives them on / off. The sensor 54 is a sensor that detects that the paper P has been inserted into the printer apparatus.
[0047]
Under the control of the CPU 40, the color printer unit 47 turns on the heating element at the position to be printed based on the image data in the RAM 48 for a predetermined time at the printing timing for each line to generate a predetermined amount of heat. The ink is transmitted to the ribbon, and a predetermined color ink is transferred to the paper to create a printed image.
[0048]
Next, the function of each key provided in the printer device 15 will be described.
First, the “POWER” key 18 d is for turning on / off the printer 15.
[0049]
Next, the “EASY” key 18e is a key for switching to the “easy print mode” when pressed when the initial screen is displayed, regardless of the format selection. This “simple print mode” is a processing mode in which a captured reproduced image displayed on the viewfinder 4 of the digital camera 1 is printed as it is.
[0050]
Next, the “MENU” key 18 f has a function of returning the image displayed on the viewfinder 4 to the initial screen. Therefore, the pressing operation is invalid while the initial screen is displayed. Further, the “BACK” key 18 g has a function of returning to the screen immediately before the screen displayed in the viewfinder 4.
[0051]
Further, the “SET” key 18c is a confirmation key, and when the “SET” key 18c is pressed during the selection process, the format displayed on the viewfinder 4 is confirmed, and a selection screen is displayed.
[0052]
Further, the “−” key 18 a and the “+” key 18 b perform format selection, page switching described later, and the like. The “+” key 18b is, for example, forward feed, and the “−” key 18a is backward feed.
[0053]
The processing operation of the printer apparatus 15 and the printing system having the above configuration will be described below. FIG. 4 is a flowchart for explaining the processing operation of this embodiment.
[0054]
First, in FIG. 4, when the “POWER” key 18d of the printer device 15 is turned on, the control process of the printer device 15 is started. That is, when the “POWER” key 18d is turned on, the CPU 40 performs an initial setting process, and first determines whether or not the printer device 15 of this example is connected to the digital camera 1 (step (hereinafter, indicated by S in the figure) 1). . In this determination, the CPU 40 determines the connection of the communication cable 14 by checking the I / O port 45. If the printer apparatus 1 is not connected to the digital camera 1 via the communication cable 14 (S1 is N (No)), the connection of the digital camera 1 is confirmed.
[0055]
On the other hand, if the digital camera 1 is connected to the printer device 15 of this example, the model of the connected digital camera 1 is checked (S2). For confirmation of this model, the code is confirmed from the information input via the communication cable 14, and the CPU 40 determines the model of the digital camera 1 connected from this code.
Next, the CPU 40 instructs the viewfinder 4 to display a top menu screen (S3). Based on this command, the compressed data of the top menu screen is read from the ROM 46 and output to the digital camera 1 via the bus 49 and the communication cable 14. The compressed data of the top menu screen output to the digital camera 1 is expanded by the compression / expansion unit 26, converted into corresponding video data by the video signal generation unit 32, and then displayed on the color LCD 35 (viewfinder 4). .
[0056]
FIG. 5 is a diagram showing a state in which the top menu screen is displayed on the viewfinder 4 of the digital camera 1. As shown in the figure, the top menu screen displays a total of six icons in two upper and lower stages. The upper left icon is accompanied by a letter “LAYOUT”. In addition, the icon next to the letter “CALENDAR”, the icon next to the letter “MINI”, the icon on the lower side with the letter “POSTCARD” from the left, and “COLAGE” An icon with an English letter and an icon with an English letter of “NIDEX” are displayed. In this initial screen, a line cursor C indicates a layout icon.
[0057]
Next, the CPU 40 waits for a key input from the operator (S4 is N (No)). Note that the cursor C is positioned as described above in the layout display of the top menu screen displayed on the viewfinder 4, and the cursor can be moved to the right on the top menu screen by pressing the “+” key 18b, and the “−” key. The cursor can be moved to the left by pressing 18a. The CPU 40 outputs a processing command to the digital camera 1 side via the communication cable 14 (S4 is Y, S5), reads the display character of the cursor C from the CG 37 in the digital camera 1, and moves the color LCD 35 ( It is displayed on the top menu screen of the viewfinder 4). When the “MENU” key 18f or the “BACK” key 18g is pressed in the above-described top menu screen display state, the screen returns to the key input waiting state (S4 is Y, S4), and the screen display state is not changed.
[0058]
On the other hand, when the “EASY” key 18e is pressed in the display state of the above-described top menu screen (S4 is Y, S6), a one-screen display command is output (S7). Operating the “EASY” key 18e means that the image displayed on the viewfinder 4 is printed as it is, that is, the above-described “easy print mode” is entered. Hereinafter, the printing operation in the “simple printing mode” will be described.
<Easy print mode>
In this mode, when the “EASY” key 18e is pressed, one image (one frame of photographic image) of images taken by the digital camera 1 is displayed on the viewfinder 4. For example, if 96 photographic images are stored as compressed data in the image memory 27, the first photographic image “1” is read from the image memory 27, and the compression / decompression unit 26 performs a predetermined decompression process. Then, the video signal generator 32 converts the video data into the corresponding video data, and the first photographic image “1” is displayed on the color LCD 35 (viewfinder 4). FIG. 6A shows the display state.
[0059]
When the “+” key 18b is pressed in this display state (S8 is Y, S9), the frame advance command is executed (S9), and the next photographic image “2” stored in the image memory 27 is read. It is displayed on the viewfinder 4. This display state is the display state of FIG. 6B, and thereafter, by sequentially pressing the “+” key 18b, the photographic images stored in the image memory 27 are displayed as “3”, “4”, “5”. ,... Can be sequentially displayed (S8 is Y, S9). On the other hand, by depressing the “−” key 18a, the frame is reversed and photographic images “3”, “2” and “1” are displayed on the viewfinder 4 (Y in S8, S9). When a photographic image desired to be printed is displayed on the viewfinder 4, the “SET” key 18c is pressed (S8 is Y). With this process, the print image is determined (S10), and the CPU 40 subsequently executes the print process.
[0060]
On the other hand, when the user wishes to print the multi-screen display, the “EASY” key 18e is further pressed in the above-described one-screen display state (S8 is Y). When the “EASY” key 18e is pressed, the CPU 40 issues a multi-screen display command (S11). When this command is output, the first four frames of images “1” to “4” are transferred from the image memory 27 to the compression / decompression unit 26, and after performing a predetermined decompression process, a four-division screen is displayed on the color LCD 35. To do. FIG. 6C shows the display state of the first four frames of photographic images “1” to “4”. Also in the case of this 4-split screen, as in the above-described process, the next images “5” to “8” are displayed by pressing the “+” key 18b ((d) in FIG. 6). The images “9” to “12”, “13” to “16”,... Are sequentially displayed by pressing the “+” key 18b. On the other hand, by depressing the “−” key 18a, the frame is reversed, and “9” to “12”, “8” to “5”, and “4” to “1” are displayed ( S8 is Y, S9). When the image desired to be printed is displayed on the viewfinder 4, the “SET” key 18c is pressed (S8) as described above, and the print image is confirmed (S10).
[0061]
Further, if printing of 9-divided multi-screen display is desired, the “EASY” key 18e is pressed again in the above-described 4-divided multi-screen display state (Y in S8), and a 9-divided multi-screen display command (S11). In response to this command, the first nine frames of the photographic images “1” to “9” are output from the image memory 27, and after corresponding decompression processing is performed, a nine-division screen is displayed on the color LCD 35 and the first nine frames are displayed. The frame images “1” to “9” are displayed as shown in FIG. Note that the image can be updated every nine frames by pressing the “+” key 18b or the “−” key 18a, which is the same as in the case of single screen display or quad screen display (S8, S9). Also, when an image desired to be printed is displayed on the viewfinder 4 in a nine-divided screen state, the “SET” key 18c is pressed (S8 is Y), and the print image is confirmed (S10) as described above. It is.
[0062]
In this way, after displaying the confirmed photographic image on the viewfinder 4, when the paper P is inserted into the paper insertion / discharge port 16 of the printer device 15, the sensor 54 detects the insertion of the paper P and sends a detection signal to the CPU 40. The CPU 40 starts the printing process.
[0063]
FIG. 7 is a flowchart specifically explaining this printing process. After the “SET” key 18c is pressed as described above, when the paper P is inserted from the paper insertion / ejection port 16 (step (hereinafter referred to as ST in FIG. 1) 1), the CPU 40 executes a printing process (ST2). ). In this process, image data corresponding to one screen or multiple screens to be displayed on the viewfinder 4 is read from the image memory 27 and taken into the printer 15 via the communication cable 14. The image data captured by the printer 15 is temporarily stored in the image memory 41. Since the image data transferred from the camera 1 is compressed data of image data composed of a luminance signal and a color signal, the image data is subjected to predetermined decompression processing in the decompression unit 42, and further print data for each of Y, M, and C colors. And stored in the print data storage area of the RAM 48.
[0064]
Thereafter, print data for each of the colors Y, M, and C is sequentially output from the print data storage area of the RAM 48 to the print head 53 to perform printing processing on the paper P. During this time, the ribbon motor 51 and the paper feed motor 52 are driven, and the yellow (Y), magenta (M), and cyan (C) ink ribbons are sequentially sent to the print head, and the paper P is sent to the print unit. The dot pattern data developed in the image memory 41 is transferred to the paper P, and color printing is performed on the paper P.
[0065]
The paper P on which printing has been performed in this manner is returned to the paper insertion / discharge port 16 by a paper feeding mechanism (not shown) and discharged outside the apparatus. The discharge of the paper P is detected by the sensor 54, and the CPU 40 knows the end of printing (ST3).
[0066]
On the other hand, if there is a key input after the "SET" key 18c is pressed and before the paper P is inserted into the paper insertion / discharge port 16, the pressed key is determined from the key operation signal ( ST4 is Y). For example, if the key pressed at this time is the “BACK” key 18g, the display state is returned to the immediately preceding image displayed on the viewfinder 4 (Y in ST5, ST6). For example, in the case of the single screen display, if the display state is shown in FIG. 6B, the display state is returned to the display state shown in FIG. Further, if the display is the quad screen display (multi-screen display) shown in FIG. 6 (d), the display state of FIG. 6 (c) is restored. If the “MENU” key 18f is pressed (ST7 is Y), the screen returns to the first top menu screen. If the “EASY” key 18e is pressed (ST8 is Y), the screen returns to the selection screen state of the “EASY” process described above.
[0067]
By performing the processing as described above, the image displayed on the viewfinder 4 by the printer device 15 of this example can be printed as it is, and the view on the digital camera 1 side can be printed without providing the printer device 15 with a display. A photographic image to be displayed on the viewfinder 4 can be printed.
<Layout / Background printing>
Next, returning to the description of FIG. 4, the menu selection process will be described. This menu selection process can be shifted by directly pressing the “SET” key 18 c from the above-mentioned top menu screen. That is, by pressing the “SET” key 18c in the flowchart of FIG. 4, it is possible to shift to a selected process such as a layout / background print process, a calendar print process, or the like (S12).
[0068]
First, FIG. 8 is a flowchart for explaining the layout / background printing process. As described above, when the “SET” key 18c is pressed from the top menu screen and the layout / background printing process is selected, the CPU 40 issues a display instruction for a layout selection image (step (hereinafter, indicated by STP in FIG. 1) 1). . In this process, the compressed data of the layout selection image is read from the ROM 46, sent to the digital camera 1 side via the communication cable 14, decompressed by the compression / decompression unit 26, and then displayed on the viewfinder 4. is there.
[0069]
FIG. 9A is a diagram showing a state in which the above-described layout selection image is displayed on the viewfinder 4. For example, layout 1 is an example in which one image 56 is printed on the background portion 55, and layout 2 is a layout example in which a plurality of photographic images 58 arranged in the horizontal direction with respect to the background portion 57 are superimposed. Is a layout example in which a plurality of photographic images 60 arranged in the vertical direction are superimposed on the background portion 59. The layouts 4 to 6 are as shown in FIG. In this display state, the operator selects a layout desired to be printed.
[0070]
This selection is performed by pressing the “+” key 18b or the “−” key 18a and moving the cursor C to the desired layout (STP2 is Y, STP3), and the cursor C is the desired layout as described above. When the position is moved to the position, the “SET” key 18c is pressed to confirm the layout (STP2 is Y, STP4). There are three layout selection screens as shown in FIG. 9. When the display 6 of the first layout selection screen (1/3) is exceeded by operating the “+” key 18b, the second layout selection screen is displayed. (2/3) display 1 is displayed. Similarly, when the display 6 of the second layout selection screen (2/3) is exceeded, the display 1 of the third layout selection screen (3/3) is displayed. Of course, when a new layout selection screen is displayed on the viewfinder 4, the compressed data of the second or third layout selection screen is sent from the ROM 46 to the digital camera 1 side under the control of the CPU 40, and compressed / decompressed. After being expanded by the unit 26, it is displayed. The operator presses the “SET” key 18c to select a desired layout from the respective format screens of the three layout selection screens described above.
[0071]
When the “BACK” key 18g is pressed when the above-described layout selection screen is displayed on the viewfinder 4, the CPU 40 causes the layout selection screen displayed on the viewfinder 4 to be the first layout selection screen ( 1/3) (STP5) If the second screen or the third screen layout selection screen (2/3, 3/3) (STP5 is N), the display state is the layout of the first screen. Return to the selection screen (1/3) (STP6). On the other hand, if the layout selection screen displayed on the viewfinder 4 is the first layout selection screen (1/3) (Y in STP5), it is determined that the layout / background printing process has been stopped, and the display state Is returned to the top menu screen (STP5 is Y, S3 in FIG. 4).
[0072]
When the “MENU” key 18f is pressed at the time when the layout selection screen of any one of the above 1/3 to 3/3 is displayed on the viewfinder 4, the screen is returned to the top menu screen (STP2 is Y, S3 in FIG.
[0073]
After the layout screen is set as described above, a background image is selected. If no background image is added to the layout screen (STP7: N), the process immediately proceeds to image selection processing described later (STP8). On the other hand, when adding a background image, the following processing is performed (Y in STP7, STP9 to STP14).
[0074]
That is, first, the CPU 40 issues a display command for a background image selection screen (STP9), sends the compressed data of the background image selection screen stored in the ROM 46 to the digital camera 1, performs decompression processing, and displays it on the viewfinder 4. . FIG. 10 shows the display state. However, there are four background image selection screens, and the background image selection screen (1/4) shown in the figure is displayed as the initial screen. The background image selection process is the same as the layout screen selection process described above, and the cursor is moved on the first background image selection screen (1/4) by pressing the “+” key 18b. By this processing, the cursor moves in the background 1 → 2 → 3 →... When the cursor reaches the background 6, the second background image selection screen (2/4) is read to the viewfinder 4 and two more images are displayed. When the background 6 of the eye background image selection screen (2/4) is reached, the third background image selection screen (3/4) is read to the viewfinder 4. The background of each background image selection screen is returned by pressing the “−” key 18a (background 6 → 5 → 4 →...), And the background image selection screen itself is pressed by pressing the “BACK” key 18g. Is displayed as 4/4 → 3/4 →... (STP10 is Y, STP12, STP13). When the desired background image is displayed, the background image pointed to by the cursor can be selected by pressing the “SET” key 18c (Y in STP10, STP14).
[0075]
When the background image selection screen displayed on the viewfinder 4 when the “BACK” key 18g is pressed is the first (1/4), the screen returns to the top menu screen (Y for STP10, Y for STP12), When the “MENU” key 18f is pressed, the display returns to the top menu screen (STP 10 is Y, S3 in FIG. 4).
[0076]
After selecting the layout screen and its background image as described above, the photographed image to be displayed on the actual layout screen is selected. This process is the next image selection process (STP8). A specific flowchart of this process is shown in FIG.
[0077]
First, the first photographic image recorded in the image memory 27 is read out, decompressed to a predetermined size by the compression / decompression unit 26, converted into a video signal by the video signal generation unit 32, and displayed in the viewfinder 4. The first photographic image is displayed (step (hereinafter referred to as U in the figure) 1). Here, the first recorded image displayed on the viewfinder 4 is, for example, the photographic image “1” described above. For example, if the layout screen selected by the above-described processing is the layout 1 shown in FIG. 9, the photographic image to be printed on the layout “1” is selected.
[0078]
On the other hand, when selecting another photographic image, the "+" key 18b or the "-" key 18a is operated to execute the image selection process (U3). For example, when the image selection processing is performed by operating the “+” key 18b or the “−” key 18a, the recorded image is sequentially updated by pressing the “+” key 18b (“1” → “2” → “3”). “→”), the “−” key 18a is depressed to update the recorded images in reverse order (for example, “96” → “95” → “94” →...), And the desired recorded image is displayed. When this is done, the "SET" key 18c is pressed to confirm the recorded image (U2 is Y, U4).
[0079]
When the “BACK” key 18g is pressed on the recording image selection screen, the screen returns to the background image selection screen (U2 is Y, STP9 in FIG. 8), and when the “MENU” key 18f is pressed, the screen returns to the top menu screen (U2 is Y). , S3 in FIG.
[0080]
Next, an image direction setting process is performed. FIG. 12 is a flowchart for explaining this process. When there is a display instruction for the image direction setting screen (step (hereinafter, indicated by V in the figure) 1), the compressed data of the image direction setting screen stored in the ROM 46 is sent to the digital camera 1 side and displayed on the viewfinder 4. . FIG. 13 shows the display state. In this state, the “+” key 18b is pressed to move the cursor C to the left and right to select the direction of the photographic image to be printed (V2 is Y, V3). In the figure, the letter “A” indicates a photographic image. When the cursor C moves in the desired image direction, the direction of the photographic image is determined by pressing the “SET” key 18c (V2 is Y, V4).
[0081]
When the “BACK” key 18g is pressed, the previous display state is restored, and when the “MENU” key 18f is pressed, the top menu screen is returned (STP10 is Y, S3 in FIG. 4). It is the same.
[0082]
When the photographic image is also determined as described above, the layout / background printing process is performed. As shown in FIG. 14, the printer 15 first transfers the print start screen to the digital camera 1 and receives the selected image data from the digital camera 1 (step (hereinafter indicated by W in FIG. 14)). 1).
[0083]
The printer 15 stores the compressed image data transferred from the camera 1 in the image memory 41, decompresses it by the decompression unit 42, further converts it into Y, M, and C print data, and stores it in the print data storage area of the RAM 48. Remember. Then, the print data is combined with the background data selected in accordance with the arrangement position determined by the layout data selected in the image composition area of the RAM 48. Since the background data is stored in the ROM 46 as compressed data, the decompression unit 42 decompresses the background data and combines it with the image data. Further, this composition processing is performed in sequence every time Y, M, and C print data are printed. In this way, after the print data is created in the RAM 48, the insertion of the paper P is awaited (W2).
[0084]
However, if there is a key input while waiting for the insertion of the paper P, it is determined that the printing process is stopped (W3 is Y), and the instructed key process is performed. For example, if the “BACK” key 18g is pressed, the screen returns to the previous screen (W4 is Y, W5), and if the “MENU” key 18f is pressed, the screen returns to the top menu screen (W4 is N, W6). If the “EASY” key 18e is pressed, the above-described simple print screen is displayed (W6 is N, W7 is Y).
[0085]
On the other hand, when the paper P is inserted into the paper insertion / ejection port 16 of the printer device 15 (W2 is Y), the printer device 15 executes a printing process (W8). In this printing process, the paper feed motor 52 is driven in accordance with the control of the paper feed CPU 40, and the paper P is sent to the printing unit. At the same time, the layout / background print image is transferred from the RAM 48 to the print head, and the ribbon motor 51 is driven. (Y), magenta (M), and cyan (C) ink ribbons are sent to the printing unit. With this process, yellow (Y), magenta (M), and cyan (C) are sequentially printed on the paper P, and a color image is printed on the paper P (W9).
[0086]
Therefore, by performing the processing as described above, the printer device 15 performs the photographic image layout and background image selection processing using the viewfinder 4 on the digital camera 1 side without having a display device in the device itself. The printing process based on the selection result can be performed.
<Calendar printing process>
Next, the calendar printing process will be described with reference to the flowchart of FIG. The calendar printing process can be shifted by pressing the “SET” key 18c from the above-mentioned top menu screen. That is, in the flowchart of FIG. 4, after the cursor is moved to the calendar print display, the “SET” key 18c is pressed to shift to the calendar print process (S12).
[0087]
When the process proceeds to the calendar printing process, the CPU 40 issues a format selection screen display command (step (hereinafter, indicated by T in the figure) 1). In this process, the compressed data of the format selection screen is read from the ROM 46, sent to the digital camera 1, the decompression process is performed as described above, and the format selection screen is displayed on the viewfinder 4.
[0088]
FIG. 16 is a diagram showing a state in which the above-described format selection screen is displayed on the viewfinder 4. For example, the display 1 has a configuration in which the photographic image unit 60 is arranged on the left side of the screen and the calendar unit 61 is arranged on the right side of the screen, and the display 2 has a photographic image unit 62 slightly wider than the display 1 on the left side of the screen. The display 3 has a configuration in which the calendar unit 63 is arranged on the right side of the screen, and the display 3 has a configuration in which the photographic image unit 64 is arranged on the upper side of the screen and the calendar unit 65 is arranged on the lower side of the screen. The display 4 is also configured as shown in FIG.
[0089]
In this display state, the operator selects a calendar format desired to be printed. This selection processing is performed by pressing the “+” key 18b or the “−” key 18a and moving the cursor to the desired layout (T2 is Y, T3), and the cursor is in the format of the desired format. When the position is moved, the “SET” key 18c is pressed to determine the calendar printing format (T2 is Y, T4). Note that returning to the top menu screen by pressing the “MENU” key 18f or the “BACK” key 18g is the same as described above (T2 is Y, S3 in FIG. 4).
[0090]
After the calendar printing format is thus determined, image selection processing is performed as described above (T5). This process is a process of selecting a photographic image to be inserted into the photographic image portions 60 and 62 in the calendar format. Specifically, the process according to the flowchart of FIG. 11 is performed. That is, first the first recorded image recorded in the image memory 27 is read out and decompressed to a predetermined size by the compression / decompression unit 26, and then the first recorded image “1” is displayed on the viewfinder 4. (U1). Here, the first photographic image displayed on the viewfinder 4 is “1”. For example, if this photographic image “1” is selected, the printed image is a photographic image portion 60, 62, 62 in the calendar format. The photographic image “1” is printed.
[0091]
When another photograph is to be inserted, the image selection process (U3) is executed, and the “+” key 18b and the “−” key 18a are operated as described above, for example, the “+” key 18b is pressed to record. The images are sequentially updated (“1” → “2” → “3” →...), And the “−” key 18a is pressed to reversely update the recorded images sequentially (for example, “96” → “95”). → “94” →...), Select a photographic image. Then, the selected photographic image is confirmed by pressing the “SET” key 18 c.
[0092]
Next, an image direction setting process is performed (T6). This process is also the same as that described with reference to the flowchart of FIG. 12, and the direction of the photographic image to be printed is determined.
After selecting the calendar printing format and photographic image as described above, the year setting process is performed. In this process, a command for displaying the year setting screen is issued (T7). Under the control of the CPU 40, the compressed data of the year setting screen is read from the ROM 46, sent to the digital camera 1 and decompressed to a predetermined size, and then viewed. Displayed on the viewfinder 4. FIG. 16A shows the display state (T8 is Y, T9). In this display state, for example, when the “+” key 18b is pressed, the display on the cursor C indicating the position of the year 2000 is updated as 2001 → 2002 → 2003 →. Conversely, when 1999 is pressed, 1999 → 1998 → 1997 →... Is updated. When the desired year is displayed, the “SET” key 18c is pressed to determine the year in the calendar (T8 is Y, T10).
[0093]
In this way, when the setting process of the year of the year is completed, the CPU 40 next performs a process of selecting the “month” to be printed (T11). Also in this process, for example, display data of “month” indicating December is output from the ROM 46 to the viewfinder 4 and displayed as shown in FIG. 16C (T12 is Y, T13). In this state, when the “+” key 18b is pressed, the display on the cursor C changes from December → January → February →... When the “−” key 18a is pressed, the display on the cursor C is changed. On the contrary, changes from December to November to October to.
[0094]
In this way, when the desired month is displayed on the cursor C that changes sequentially, the “month” to be printed is determined by pressing the “SET” key 18c.
[0095]
When the year and the “month” of the year are determined in this way, calendar data creation processing is performed (T15). That is, the CPU 40 knows the year of the year displayed on the viewfinder 4 and the “month” displayed by the year. For example, the CPU 40 reads the compressed data of the corresponding calendar from the ROM 46 and decompresses the compressed data by the decompressing unit 42. , The calendar data is developed in the RAM 48. In this calendar creation process, calendar data for the designated month is automatically created by designating the year and month by the calendar creation program stored in the ROM 46, and the CG character pattern data in the ROM 46 is used as the character data of the calendar data. You may make it do.
[0096]
The calendar data is combined with the selected image transferred from the camera 1 according to the selected calendar format and the Y, M, and C colors in the print data creation area of the RAM 48 to create print data. Then, as shown in FIG. 16C, a print processing waiting state is displayed.
[0097]
Thereafter, when the paper P is inserted into the paper insertion / discharge port 16 of the printer device 15, the printer device 15 executes a printing process (T16). In this printing process, as described above, the paper feeding motor 52 is driven according to the control of the CPU 40, the paper P is sent to the printing unit, and the calendar print data obtained by combining the photographed image and the month calendar is transferred from the RAM 48 to the print head. The motor 51 is driven, and yellow (Y), magenta (M), and cyan (C) ink ribbons are sequentially printed on the paper P, a fixing process is performed, and a color image is printed on the paper P.
[0098]
Therefore, by performing the processing as described above, the printer device 15 does not have a display device itself, and the calendar printing in the format selected based on the selected calendar printing image displayed on the viewfinder 4 on the digital camera 1 side. It can be performed.
<Card printing process>
Next, card printing processing will be described with reference to the flowchart shown in FIG. This card printing process is also shifted by pressing the “SET” key 18c from the above-mentioned top menu screen.
[0099]
When the process proceeds to the card printing process, first, a format selection screen display processing command is issued (step (hereinafter denoted by K in the figure) 1), the compressed data of the format selection screen stored in the ROM 46 is decompressed, and then the viewfinder. 4 is displayed.
[0100]
FIG. 19 is a diagram showing a format selection screen for the card printing process described above. For example, the display 1 has a photographic image portion 67 located at the center of the screen and a background drawn around it. In the display 2, a photographic image portion 68 is located in the center of the screen (in a circular background), and a background is drawn around it. The display 3 and the display 4 are as shown in FIG. In this display state, the operator selects a postcard format desired to be printed. This selection process is performed by pressing the “+” key 18 b or the “−” key 18 a and moving the cursor to the desired layout, as described above. For example, the “+” key 18b is pressed (K2 is Y, K3 is N, K5 is Y), the cursor C is sequentially shifted, and the display 1 → 2 → 3 → 4 is sequentially moved. When the cursor C indicates the display 4 of the first format selection screen (1/2), the determination (K3) is Y, and the screen is switched to the next selection screen (K3 is Y, K4).
[0101]
Conversely, the "-" key 18a is depressed to sequentially shift the cursor C and move sequentially from display 4 → 3 → 2 → 1 (K2 is Y, K6 is N, K8). Further, when the cursor C indicates the display 1 of the second format selection screen (2/2), the determination (K6) is Y, and the screen is switched to the previous selection screen (K7).
[0102]
As described above, after the cursor C is moved to the desired format image, the “SET” key 18c is pressed to determine the card printing format (K9). Next, an image selection process is performed (K10). This image selection process is a process according to the flowchart shown in FIG. 11 described above, and reads out a photographic image to be recorded in the image memory 41, displays it on the viewfinder 4, and prints it on the above-described photographic image portions 67, 68, etc. This is a process of selecting a photographic image. This process is also confirmed by operating the “+” key 18b and the “−” key 18a to select a photo image to be selected, and then pressing the “SET” key 18c.
[0103]
Next, an image direction setting process is performed (K11). This process is also performed according to the flowchart of FIG. 12, and the direction of the photographic image is selected.
After the format of the card printing process and the photographic image to be inserted therein are determined as described above (K12), the year setting process is performed. In this process as well, a display command for the year setting screen is issued (K13), the "+" key 18b is pressed to increment the year by +1 (K14 is Y, K15), and the "-" key 18a is pressed. Press to decrement the year by -1 (K14 is Y, K16). When the desired year is displayed, press the “SET” key 18c to determine the year to be inserted in the card printing process (K17). ). The year determined in this way can be read out from the character generator CG of the ROM 46 as character pattern data.
[0104]
Further, the CPU 30 instructs the CPU 30 of the digital camera 1 to read out the compressed data of the selected photographic image from the image memory 27 and transfer it. The compressed image data transferred from the camera 1 is temporarily stored in the image memory 41, decompressed by the decompressing unit 42, converted into Y, M, and C print data, and stored in the print data storage area of the RAM 48. The Y, M, and C print data are combined with the character pattern data of the set year in the image composition processing area of the RAM 48. Thereafter, a print processing waiting state is displayed. During this time, the processing when the “EASY” key 18e, the “MENU” key 18f, and the “BACK” key 18g are pressed is the same as the above example.
[0105]
Thereafter, when the paper P is inserted into the paper insertion / discharge port 16 of the printer device 15, the printer device 15 executes a printing process (K18). This printing process is also the same as described above, and the paper feed motor 52 and the ribbon motor 51 are driven under the control of the CPU 40 to sequentially apply yellow (Y), magenta (M), and cyan (C) ink ribbon ink to the paper P. The color image is printed on the paper P.
<Mini label printing process>
Next, the mini label printing process will be described with reference to the flowchart shown in FIG. This mini label printing process is also shifted by pressing the “SET” key 18c from the above-mentioned top menu screen.
[0106]
When the process proceeds to the mini label printing process, first, a display instruction for the mini label illustration selection screen is issued (step (hereinafter referred to as M) 1), and the compressed data of the mini label format selection screen stored in the ROM 46 is expanded. After processing, it is displayed on the viewfinder 4.
[0107]
FIG. 21A is a diagram showing a state in which a mini-label format selection screen is displayed. There are two mini label format selection screens, and the format selection screen (1/2, 2/2) has six background mini label format screens of displays 1 to 6, respectively.
[0108]
In this display state, the operator selects a mini-label format desired to be printed. This selection process is performed by pressing the “+” key 18 b or the “−” key 18 a and moving the cursor C to the desired mini label as described above. For example, the “+” key 18b is pressed (M2 is Y, M3 is N, K4), and the cursor is sequentially shifted from display 1 → 2 → 3 → 4. Further, when the cursor C indicates the display 4 of the first format selection screen (1/2), the judgment (M3) becomes Y, and the next selection screen is switched (M3 is Y, M5).
[0109]
Conversely, the “−” key 18a is depressed to sequentially shift the cursor C and move sequentially from display 6 → 5 → 4 →... (M2 is Y, M6 is N, M7). Further, when the cursor indicates the display 1 of the second format selection screen (2/2), the determination (M6) is Y, and the screen is switched to the previous selection screen (M8).
[0110]
In this way, after the cursor is moved to the desired format image, the “SET” key 18c is pressed to determine the mini label printing format (M9).
[0111]
Next, a photographic image is displayed (M11). This display is the same as described above, and a photographic image is read from the image memory 27 and displayed on the viewfinder 4 after decompression processing. The desired photographic image is operated by operating the “+” key 18b and the “−” key 18a. (M11 is Y, M12 or M13). Then, the photograph image is confirmed by pressing the “SET” key 18c (M14).
[0112]
As described above, after selecting the format of the mini label printing process and the photographic image to be inserted therein, the printing process is performed (M15). This process is the same as the process shown in FIG. 14 described above, and when the paper P is inserted into the paper insertion / discharge port 16 of the printer apparatus 15, the printer apparatus 15 executes the printing process. FIG. 21 (b) shows an example of a mini label printed by the above-described mini label printing.
<Index (list display) print processing>
Next, the index printing process will be described with reference to the flowchart shown in FIG. This index printing process is also shifted by pressing the “SET” key 18c from the above-described top menu screen.
[0113]
First, in this index printing process, the CPU 40 receives information of a recorded image stored in the image memory 27 from the digital camera 1 side (step (hereinafter, indicated by N in the figure) 1). When the reception of the photographic image information is completed, the frame information display screen is transferred and displayed (N2 is Y, N3). In response to this instruction, the CPU 40 outputs the index screen compressed from the ROM 46 to the digital camera 1 side and displays it on the viewfinder 4. Further, the CPU 40 calculates how many photo images are transferred in the normal mode from the above-described photo image information and how many photo images are transferred in the fine mode, and displays this data on the index screen read from the ROM 46. Therefore, this data is output to the digital camera 1 side and displayed on the index image displayed on the viewfinder 4 (N4). FIG. 23A shows a display state on the viewfinder 4 at this time.
[0114]
FIG. 5B shows a display example in the case of a digital camera capable of storing a photographic image only in the normal mode depending on the model connected to the printer device 15 of this example.
In this display state, the operator presses the “SET” key 18c to perform a list screen confirmation process (N5 is Y), and outputs a print start screen transfer command (N6). The compressed data of the print start screen read from the ROM 46 according to this command is output to the digital camera 1 side and displayed on the viewfinder 4. FIG. 23C shows a display state on the viewfinder 4 at this time.
[0115]
Thereafter, when the paper P is inserted into the paper insertion / discharge port 16 of the printer device 15, the printer device 15 executes a printing process (N7 is Y, N9). This printing process is the same as described above, and the paper feeding motor 52 and the ribbon motor 51 are driven to print yellow (Y), magenta (M), and cyan (C) ink ribbons on the paper P sequentially. A fixing process is performed, and a color image is printed on the paper P (N10).
[0116]
During this time, the processing when the “EASY” key 18e, the “MENU” key 18f, and the “BACK” key 18g are pressed is the same as the above example (N8 is Y).
By performing the processing as described above, the printer device 15 can print the list image by the printer device 15 without having the display device in the device itself.
[0117]
As described above, since the printer device 15 can obtain the information of the photographic image stored in the image memory 27 from the digital camera 1, for example, the CPU 40 calculates the number of shots that can be taken and displays it on the viewfinder 4. You can also By displaying in this way, the digital camera 1 can be used efficiently. In the above description of the embodiment, the example of the collage is not specifically described, but in this case, it is almost the same process as the postcard printing process, and the printer operation image displayed on the viewfinder 4 is, for example, The display state shown in FIG. 24 is obtained. Then, a format is selected, a photographic image is selected, and printing processing is performed by the printer device 15.
[0118]
【The invention's effect】
As described above in detail, according to the present invention, the display unit normally provided in the digital camera is used to display the layout setting for the printing process and perform the setting process. This is not necessary, and the printer device can be miniaturized.
[0119]
In addition, since the digital camera and the printer device can be directly connected to perform printing without using a personal computer, which has been necessary in the past, the system can be miniaturized and the operation can be simplified.
[0120]
In addition, the printer operation image displayed on the digital camera can also display a number and the like, the format can be easily selected, and the operability is improved.
Further, since the personal computer is not required, dedicated software for linking the personal computer and the digital camera is also unnecessary.
[0121]
Furthermore, since the display means of a digital camera having both a finder function and a monitor function can be used as a monitor for display data related to the printing operation of the printing apparatus, even if the display section of the printing apparatus is small enough or the display section Even when there is no image, the printing operation can be easily performed while viewing the display on the camera side.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing a state in which an electronic still camera and a printer are connected in an embodiment; FIG. 1A is a view showing an electronic still camera, and FIG. 1B is a view showing a printer.
2A is a circuit block diagram of a digital camera, and FIG. 2B is a circuit block diagram of a printer apparatus.
FIG. 3 is a diagram illustrating a connection configuration of representative members in a driver and a sensor. FIG. 4 is a flowchart for explaining a processing operation of the present embodiment.
FIG. 5 is a diagram showing a state in which a top menu screen is displayed on the viewfinder of the digital camera. FIG. 6 is a diagram showing a display state of the viewfinder.
FIG. 7 is a diagram illustrating a printing process in an “easy printing mode”.
FIG. 8 is a flowchart for explaining layout / background printing processing;
FIG. 9 is a layout image selection screen.
FIG. 10 is a background print image selection screen.
FIG. 11 is a flowchart illustrating image selection processing.
FIG. 12 is a flowchart illustrating an image direction setting process.
FIG. 13 is a selection screen for selecting an image direction.
FIG. 14 is a flowchart illustrating print processing during menu processing.
FIG. 15 is a flowchart illustrating calendar printing processing.
FIG. 16 is a calendar printing display screen.
FIG. 17 is an image for selecting a year and “month” of the year.
FIG. 18 is a flowchart illustrating card printing processing.
FIG. 19 is a card printing selection screen.
FIG. 20 is a flowchart illustrating a mini label printing process.
FIG. 21A is a diagram showing a selection screen for mini-label printing, and FIG. 21B is a diagram showing an example of a mini-label after printing processing.
FIG. 22 is a flowchart illustrating a list printing process.
23A shows a display example of list printing, FIG. 23B also shows a display example of list printing, and FIG. 23C shows a display example of a print waiting state.
FIG. 24 is a diagram illustrating a display example of a selection screen for collagen printing.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Digital camera 2 Camera main-body part 3 Lens unit part 4 Viewfinder 5 Power switch 6 Mode switch 9 Shutter button 11 "+" key 12 "-" key 13 Communication terminal 14 Communication cable 15 Printer P Recording paper 16 Paper insertion and discharge Exit 17 Operation panel 18 Operation key 18a "-" key 18b "+" key 18c "SET" key 18d "POWER" key 18e "EASY" key 18f "MENU" key 18g "BACK" key 19 Communication terminal 20 Timing generator 21 CCD
22 Driver 24 A / D converter 25 DRAM
26 Compression / Expansion Unit 27 Video Memory 28 ROM
29 RAM
30 CPU
31 Key input unit 32 Video signal generation unit 33 VRAM
34 D / A converter 35 Color LCD (Liquid Crystal Display)
36 Amplifier 37 CG
38 I / O port 40 CPU
41 Image memory 42 Expansion unit 43 Selection unit 44 Key input unit 45 I / O port 46 ROM
47 Color printer section 48 RAM
49 Bus 50 Ribbon Motor 51 Head Motor 52 Paper Feed Motor 53 Print Head 54 Sensor 55, 57, 59 Background 56, 58, 60, 62, 64, 67, 68 Photo 61, 63, 65 Calendar

Claims (5)

An electrical image signal photoelectrically converted based on an optical image captured and connected by a lens device is converted into a digital signal, the digital signal is stored in an image memory as photographic image data, and an output of the image memory is temporarily displayed. Communication means for storing in the display memory, displaying the photographic image data of the display memory on the display means, and transmitting / receiving a control signal and the photographic image data to / from an externally connected printing apparatus, and the display means And a control means for controlling the communication means, wherein the printing apparatus is connected via the communication means to a digital camera that stores and reproduces photographic images as digital image data,
Storage means for storing a printer operation image including a format selection screen for allowing a user to select a desired print format from a plurality of print formats, and an actual image corresponding to the plurality of print formats;
Output means for outputting the printer operation image to the digital camera and displaying it on the display means of the digital camera;
Reading control means for instructing reading of a photographic image stored in the digital camera;
Selection means for allowing a user to select a desired print format from the print format selection screen and to select a desired photographic image from photographic images stored in the digital camera;
The real image corresponding to the format selected by the selection means is read from the storage means, the photographic image selected by the selection means is read from the digital camera by the read control means, and the real image read from the storage means and the Print image creation means for creating a print image from the photo image selected by the selection means ;
Printing means for printing the image created by the print image creating means on recording paper;
A printing apparatus comprising: The printing apparatus according to claim 1, wherein the actual image stored in the storage unit is compressed data, and the print image creation unit decompresses the actual image. The printing apparatus according to claim 1, wherein the photographic image read from the digital camera is compressed data, and the print image creating unit decompresses the photographic image. The printing apparatus according to claim 1, wherein the printer operation image is a list printing image. An electrical image signal photoelectrically converted based on an optical image captured and connected by a lens device is converted into a digital signal, the digital signal is stored in an image memory as photographic image data, and an output of the image memory is temporarily displayed. Communication means for storing in the display memory, displaying the photographic image data of the display memory on the display means, and transmitting / receiving a control signal and the photographic image data to / from an externally connected printing apparatus, and the display means And a control means for controlling the communication means, a printing method of a digital camera system connected to a digital camera for storing and reproducing a photographic image as digital image data via the communication means,
Storing a printer operation image including a format selection screen for allowing a user to select a desired print format from a plurality of print formats, and an actual image corresponding to the plurality of print formats;
The printer operation image is output to the digital camera and displayed on the digital camera,
Instructing the readout of the photographic image stored in the digital camera,
Let the user select a desired print format from the print format selection screen, and select a desired photographic image from photographic images stored in the digital camera,
A real image corresponding to the selected print format is read from the storage means, a photo image selected by the user is read from the digital camera, and a print image is created from the stored real image and the photo image selected by the user. ,
A printing method comprising printing the created image on a recording sheet.

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