JP3884330B2 - Image printing system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image printing system, more specifically, an electronic camera configured to acquire and record electronic image data, and an image for printing out a corresponding image based on the image data acquired by the electronic camera. The present invention relates to an image printing system including a printer.
[0002]
[Prior art]
Conventionally, an electronic camera capable of recording electronic image data acquired by photoelectric conversion of an optical image as a digital data on a predetermined recording medium, and a corresponding image based on the image data acquired by the electronic camera 2. Description of the Related Art An image printing system (also referred to as an image printing system) including an image printer that can print out on printing paper or the like is generally put into practical use.
[0003]
In such a conventional image printing system, a general procedure for printing out an image corresponding to image data acquired by an electronic camera by an image printer is as follows.
[0004]
First, the user of the electronic camera performs a shooting operation on a desired subject or the like using the electronic camera. Predetermined image data representing a desired subject is acquired by this photographing operation, and this image data is recorded on a recording medium such as a memory card that is detachably attached to the electronic camera.
[0005]
Next, the user transfers image data corresponding to an image desired to be printed out of the image data already recorded on the recording medium to an external device such as an image processing apparatus such as a small computer. As the data transfer means in this case, for example, a recording medium on which image data has been recorded is taken out from the electronic camera, and is attached to a part or device having a predetermined recording medium interface, and the image is transmitted through the part or device. There are means for transferring data to the processing device, means for transferring data by electrically connecting the electronic camera and the image processing device with a predetermined connection cable, and the like.
[0006]
In other words, conventionally, as means for transferring data between the electronic camera and the image processing apparatus, for example, both the electronic camera and the image processing apparatus are provided with a portion where the same recording medium can be attached and detached. Above, means configured to have a writing and reading function for the recording medium attached to this part, a function of reading image data recorded on the recording medium, a function of writing image data to the recording medium, etc. A recording medium reading / writing external device configured independently of the image print system, and moving image data recorded on the recording medium via the external device.
[0007]
Alternatively, apart from these means, for example, both the electronic camera and the image processing apparatus are provided with a predetermined connection terminal for connecting a predetermined connection cable, and data is transmitted between the electronic camera and the image processing apparatus. There are also means for connecting the electronic camera and the image processing apparatus via a connection cable when transferring image data by providing predetermined communication means for realizing communication. By using various data transfer means as described above, the image data acquired by the photographing operation in the electronic camera is transferred from the electronic camera side to the image processing apparatus side.
[0008]
In response to this, the image processing apparatus side performs predetermined signal processing on the received image data, for example, processing for generating image data that is optimal for printing, and the like. Print out using an image printer connected to the.
[0009]
Such a conventional image print system is premised on the use of an external device such as an image processing apparatus, and thus various operations and operations required for outputting an image become complicated. Therefore, there is a problem that it is difficult for a general user who is not familiar with the operation of the image processing apparatus or the like to easily use it.
[0010]
Therefore, conventionally, a system having a configuration in which the image processing apparatus or the like in the above-described image print system is omitted, that is, both the electronic camera and the image printer are electrically connected by a connection cable, and the electronic camera or the image printer is simple. Proposals have also been made for a system that can obtain a print output of an image by performing an operation, and is generally put into practical use.
[0011]
However, in such an image printing system, when an image is printed out, an operation such as connecting an electronic camera and an image printer with a connection cable is involved. is there.
[0012]
On the other hand, conventionally, as a means for obtaining a print output of a corresponding image based on image data acquired by an electronic camera, a form in which a small printer is incorporated in the electronic camera itself has been proposed and generally put into practical use. ing. However, if the electronic camera and the image printer are integrated as described above, the camera itself inevitably increases in size, and it is inevitable that the manufacturing cost increases. There was a problem.
[0013]
From the viewpoints described above, in an image print system comprising an electronic camera and an image printer, each of which is configured separately, the electronic camera and the image printer can be used without using an external device such as a small computer or a connection cable. 2. Description of the Related Art Conventionally, proposals have been made for an image printing system configured to ensure electrical connection and print an image based on image data acquired by an electronic camera.
[0014]
For example, in an image print system disclosed in Japanese Patent No. 2606340, Japanese Patent Laid-Open No. 11-008792, Japanese Patent Laid-Open No. 11-155120, etc., an electronic camera and an image printer are directly connected without a connection cable. Then, data transfer is performed to execute print output, and further, a charging operation for a rechargeable battery provided on the electronic camera side can be performed.
[0015]
In addition, the image print system disclosed in Japanese Patent Laid-Open No. 11-254664 can be connected to the electronic camera and the image printer by a connection cable, and also includes a recording medium mounting portion so that the cable is connected. Image data is read from either an electronic camera or a recording medium mounted on the recording medium mounting unit, and a print output of the image can be obtained. In this case, when image data is read from the recording medium mounted on the recording medium mounting unit and the image is printed out, predetermined printer control information (for example, print correction information) is added to the recording medium. Means for doing so are disclosed.
[0016]
Further, the means disclosed in Japanese Patent Application Laid-Open No. 2000-143006 is provided with a recording medium mounting portion in which the same recording medium as that used in the electronic camera can be detachably disposed. This is a configuration system in which a recording medium taken out from an electronic camera is loaded, image data is read from the recording medium, and an image is printed out based on the image data. In this system, when a selection button provided on a cartridge for storing print paper is operated, the control circuit refers to image information attached to image data recorded on the recording medium, and an image corresponding to the operation, that is, the recording medium The image data of all image data (all frames) recorded in the image, image data with unprinted information (remaining frames), or the latest image data with the date information (latest shooting frames) is selectively printed. Configured to get.
[0017]
[Problems to be solved by the invention]
However, many of the conventional image printing systems disclosed in the above-mentioned Japanese Patent No. 2606340, Japanese Patent Application Laid-Open No. 11-008792, Japanese Patent Application Laid-Open No. 11-155120, Japanese Patent Application Laid-Open No. 11-25464, etc. are simple. It is a means devised so that an image can be printed out by an operation, but for a means for selecting an image to be printed, printing is performed on the photographed electronic data after the photographing is finished using the electronic camera. Information on whether or not to be set is set in advance by the user, and an image is printed based on this information.
[0018]
Therefore, with such means, the number of operations to be performed by the user increases. For example, when it is desired to print out an image for all of the captured image data, the load on the user increases. There is a problem that it ends up.
[0019]
That is, when obtaining a print output of an image based on image data that has been taken using an electronic camera, for example, an operation of taking out a recording medium from the electronic camera and mounting it on an image printer, or an electronic camera and an image printer Various operations, such as connecting the camera to the terminal using a connection cable, or selecting desired image data to be printed after the photographing operation by the electronic camera and adding information indicating that the printing should be performed by performing a predetermined operation Is considered to be a complicated operation for the user.
[0020]
Further, in the means disclosed in the above Japanese Patent Laid-Open No. 2000-143006, in addition to requiring an operation of removing the recording medium from the electronic camera and mounting it on the image printer, the print control itself of the image printer is Since it is a single printer, it is difficult to use, and at the same time, the image printer is configured as a single device, so there is room for further improvement in order to reduce manufacturing costs. It can be said that it is a system.
[0021]
The present invention has been made in view of the above-described points, and an object of the present invention is to obtain a print output of an image based on image data that has been taken using an electronic camera. By simplifying the power operations and making it possible to easily and quickly print out desired images based on desired image data, an image that has good operability and can reduce manufacturing costs It is to provide a printing system.
[0022]
[Means for Solving the Problems]
  An image print system according to the present invention includes a first connection means capable of detachably connecting an electronic camera without using a connection cable, a print engine for outputting an image print based on data transferred from the electronic camera, and a print A print start switch for generating an instruction signal instructing start of operation;A discharge port for discharging the printed paper,An image memory including image data that has been subjected to data compression processing, and print history information related to image print processing that has been performed in the past as attribute information of the image data, and the first memory Second connection means detachably connectable to the connection means, transfer means for transferring the image data recorded in the image memory to the image printer via the second connection means, and update the printing history information An electronic camera comprising updating means forWithAn image printing system,The electronic camera includes image display means capable of displaying an image based on the image data recorded in the image memory and a predetermined symbol related to the image, and the first connection means and the second connection means. Are connected to each other, the image display means is controlled to display to prompt the operation of the print start switch, and the image printer has the first connection means and the second connection means connected to each other. After that, when the print start switch is operatedImage data that has not been subjected to image print output processing at least so far based on the printing history informationAre printed out sequentially,When print output for the image data is completed, the corresponding print history information is updated.And control to discharge the printed paper from the discharge port.It is characterized by that.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below with reference to the illustrated embodiments.
FIG. 1 is an overall perspective view showing an outline of an image printing system according to an embodiment of the present invention. FIG. 2 is a block diagram showing an outline of an electronic camera that constitutes a part of the image print system. FIG. 3 is a block diagram showing an outline of an image printer that constitutes a part of the image print system.
[0032]
As shown in FIG. 1, the image print system of the present embodiment includes an electronic camera 10 configured to acquire a desired subject image as an electrical image signal and record it as image data of a predetermined form. The image printer 50 is configured by two devices configured to print out an image based on the image data acquired and recorded by the electronic camera 10.
[0033]
On the upper surface side of the image printer 50, a placement portion 50d for placing the electronic camera 10 is formed. The mounting portion 50d is provided with a printer-side connection connector 54 (not shown in FIG. 1, see FIG. 3, second connection means) for detachably connecting the image printer 50 to the electronic camera 10. Correspondingly, on the side of the electronic camera 10, a camera side connection connector 34 (not shown in FIG. 1) which is a first connection means for detachably connecting the electronic camera 10 to the image printer 50 on the bottom surface thereof. (See FIG. 2).
[0034]
The camera side connection connector 34 (first connection means) and the printer side connection connector 54 (second connection means) constitute a part of data transfer means for enabling both devices to perform data communication with each other. Also, it serves as a power supply means for enabling power to be supplied from the image printer 50 side to the electronic camera 10 side.
[0035]
Therefore, both devices are electrically connected only by mounting the electronic camera 10 on the mounting portion 50d of the image printer 50, and the image printing system of this embodiment is configured. In this state, the two devices are controlled by control means inside them, that is, a camera controller 17 and a printer controller 51 (details will be described later, see FIGS. 2 and 3). A data transfer operation between the two apparatuses, a print output operation by the image printer 50, a charging operation for the electronic camera 10, and the like are performed.
[0036]
  Here, first, main components of the electronic camera 10 will be described below with reference to FIGS.
  In the exterior part of the electronic camera 10 constituting a part of the image printing system of the present embodiment, the user of the electronic camera 10 performs a desired operation mainly at predetermined positions on the upper surface part and the back surface part. A plurality of operation members 25 that are operated during execution are provided (see FIGS. 1 and 2). The operation member 25 is for generating an instruction signal or the like for instructing various settings or operations in the electronic camera 10, and as shown in FIG.
  Release button 25A for instructing the start of the shooting operation, etc.
  A mode dial 25B for selecting and switching the operation mode of the electronic camera 10;
  A zoom lever 25C for changing the magnification of the photographing optical system;
  A camera power supply operation member 25D, which is an operation member for switching the open / close (on / off) state of the power supply,
  A reprint button 25E that is operated when a reprint operation is instructed;
etcIs included. When any one of the operation members 25 is operated, a predetermined instruction signal is generated from the switch portions 25a, 25b, 25c, 25d, and 25e (see FIG. 2; not shown in FIG. 1) that are linked to the operation members 25. The instruction signal is transmitted to the camera controller 17 via the switch controller (SW) 24 shown in FIG. In response to this, the camera controller 17 executes predetermined control.
[0037]
In addition, a display device 30 as image display means is disposed at a predetermined position on the back surface of the electronic camera 10 with the display surface of the display unit facing the outer surface. The display device 30 is an image display means for displaying an image corresponding to an image signal acquired by the electronic camera 10, and is constituted by, for example, a liquid crystal display device (LCD; Liquid Crystal Display).
[0038]
In the vicinity of the display device 30, a finder unit 40 is provided for observing a subject or the like desired to be photographed and assisting in setting a composition or the like to be photographed. The finder unit 40 is a general finder configured by, for example, a plurality of optical lenses.
[0039]
On the upper surface of the exterior of the electronic camera 10, an information display unit 41 that displays the setting items and the like in the electronic camera 10 in a form that can be visually confirmed is disposed. The information display unit 41 is constituted by a small LCD or the like, for example. The information display unit 41 is not shown in FIG.
[0040]
The internal configuration of the electronic camera 10 is as shown in FIG. That is, it is a control means for performing overall control of the operation of the electronic camera 10 and is composed of a CPU (Central Processing Unit) formed by, for example, a system LSI (Large Scale Integration) or the like. A camera controller 17, a photographic optical system 11 that includes a plurality of optical elements and the like to collect a light beam from a subject to form an optical subject image, and mechanically drives the photographic optical system 11 under the control of the camera controller 17. A lens driving unit 18 that controls the amount of light that is provided on the optical axis of the light beam that has passed through the photographic optical system 11 and that is applied to the light receiving surface of the imaging device 13 that will be described later. A shutter aperture drive unit 19 that mechanically drives the shutter aperture unit 12 and a photoelectric sensor such as a CCD (Charge-Coupled Device) sensor. An image sensor 13 including a conversion element, an image sensor drive unit 20 that drives the image sensor 13, a timing controller 21 that sends a synchronization signal to the image sensor drive unit 20 and controls the drive timing of the image sensor 13; A preprocess circuit 14 that receives an electrical signal corresponding to a subject image acquired by the image sensor 13 and performs predetermined signal processing, and AD conversion that receives an output (analog signal) of the preprocess circuit 14 and converts it into a digital signal A circuit 15; a digital processing circuit 16 that receives a digital signal output from the AD conversion circuit 15 and performs predetermined digital signal processing; and a memory controller that is a temporary recording means for temporarily storing image data and various data. 22 and image data for printing generated under the control of the camera controller 17 (image data for printing). A frame memory 23 for temporarily recording data, and image display by image display means based on image data acquired by the electronic camera 10 or image data recorded on a recording medium 33 (described later). A display control circuit 29 for performing various signal processing relating to display, such as processing for generating an image signal for display in an optimal form, and a display unit for displaying the image signal output from the display control circuit 29 as an image. Acquired by the electronic camera 10, the display device 30 serving as an image display means, a recording medium interface 31 that is interposed between the camera controller 17 and a recording medium 33, which will be described later, and carries image data for recording. And a semiconductor memory medium for recording image data for recording generated through predetermined signal processing, a magnetic or optical recording medium, and the like. A recording medium 33 that is a recording memory, a recording medium mounting portion 32 that is interposed between the recording medium 33 and the recording medium interface 31 and is electrically connected to each other, and an operation program in the electronic camera 10 are recorded in advance. Firmware 28 which is a memory, ROM (Rom: Lead Only Memory) 26 and RAM (Ram: Random Access Memory) 27 in which basic initial setting values relating to the operation of the electronic camera 10 are recorded in advance, A camera side connection connector 34 for detachably connecting the electronic camera 10 to the image printer 50, and a circuit constituting a part of the data transfer means, interposed between the camera side connection connector 34 and the camera controller 17, and image data And the connection interface 35 which is a data transfer means for controlling the transfer operation of various instruction signals and the like, and the electronic camera 10 A rechargeable battery 37 comprising a secondary battery and a DC power supply control unit 70 of the image printer 50 to be connected to the electronic camera 10 (described later). 3) to receive a part of the power (DC2) supplied via the connection connectors 34 and 54 and charge the rechargeable battery 37, and from the DC power supply controller 70 of the image printer 50. A camera-side power supply circuit 38 that controls a part of the power (DC1) supplied through the connection connectors 34 and 54 and supplies necessary power to each electric circuit of the electronic camera 10, and an auxiliary during shooting It is comprised by the flash light emission device 40 etc. which become a light source.
[0041]
Each circuit inside the electronic camera 10 is electrically connected to the camera controller 17 by a bus line 39. As a result, image data and the like can be transmitted and received between the camera controller 17 and each component.
[0042]
The camera controller 17 is a control unit that performs overall control of the electronic camera 10 as described above, and controls the entire image printing system when the electronic camera 10 and the image printer 50 are connected. You can also do. In this case, the camera controller 17 performs control to transmit various instruction signals, predetermined image data, and the like to a printer controller 51 (described later) that controls the overall control of the image printer 50. Yes.
[0043]
In the electronic camera 10, the camera controller 17 controls the image sensor 13 to acquire an image signal representing a subject image, and controls the preprocess circuit 14, the AD conversion circuit 15, the digital processing circuit 16, and the like to capture an image. The image signal acquired by the element 13 is subjected to various types of image signal processing and the like, and control for generating image data in a predetermined form is performed.
[0044]
The digital processing circuit 16 performs various kinds of signal processing, for example, recording, on the image signal obtained by the image pickup device 13 and subjected to predetermined signal processing by the preprocess circuit 14 and then converted into a digital signal by the AD conversion circuit 15. Generating image data for recording (for example, compressed image data) in an optimum form for the recording, or expanding and developing recording image data (compressed data) read from a recording medium 33 to be described later. Various signal processing such as conversion into electrical signals is performed. That is, the digital processing circuit 16 serves as a compression means and decompression means for the image signal.
[0045]
The various types of image data generated in the digital processing circuit 16 include the display device 30 via the display control circuit 29, the memory controller 22, the recording medium interface 31, and the recording medium 33 via the recording medium mounting unit 32. In addition to being output to each predetermined component, it is appropriately output to the image printer 50 via the connection interface 35, the camera side connection connector 34, and the like.
[0046]
As described above, the image print system according to the present embodiment is configured in such a manner that the electronic camera 10 and the image printer 50 are connected via the predetermined connection means, that is, the camera side connection connector 34 and the printer side connection connector 54. Is.
[0047]
In this case, in a state where the electronic camera 10 and the image printer 50 are directly connected, in addition to various types of information, instruction signals, control signals, and the like, image data that has been signal-processed in a predetermined form is transmitted and received between both devices. At the same time, power is supplied from the image printer 50 side to the electronic camera 10 side.
[0048]
When the electronic camera 10 operates alone, the charging control unit 36 receives power from the rechargeable battery 37 and controls the power supply system of the electronic camera 10 to control each circuit unit (not shown) of the electronic camera 10. ) To supply necessary power (see symbol DC2 in FIGS. 2 and 3).
[0049]
Further, when the electronic camera 10 and the image printer 50 are connected by the two connection connectors 34 and 54, the DC power supply control unit 70 on the image printer 50 side is connected to the electronic camera 10 via the both connection connectors 34 and 54. The camera side power supply circuit 38 and the charging control unit 36 are electrically connected.
[0050]
When this state is reached, the DC power supply control unit 70 of the image printer 50 functions as a power source for supplying power to the entire image printing system including both the electronic camera 10 and the image printer 50. .
[0051]
That is, when the image printing system is operated in a state in which the electronic camera 10 and the image printer 50 are connected, the power supplied from the DC power supply control unit 70 on the image printer 50 side is supplied to both connection connectors 54 and 34. Via the camera side power supply circuit 38. Accordingly, the present image print system is thereby operated. In other words, the DC power supply control unit 70 of the image printer 50 serves as a main power supply in the image print system of the present embodiment.
[0052]
At the same time, when the electronic camera 10 and the image printer 50 are connected, the rechargeable battery 37 receives power from the DC power supply control unit 70 on the image printer 50 side supplied via the charge control unit 36. To get. That is, the DC power supply control unit 70 of the image printer 50 can also perform the function of charging the rechargeable battery 37 of the electronic camera 10.
[0053]
In addition, the basic configuration of the electronic camera 10 has substantially the same technology as that of a conventional general electronic camera.
[0054]
Next, main components constituting the inside of the image printer 50 will be described below with reference to FIGS.
[0055]
As the image printer 50 constituting a part of the printing system of this embodiment, for example, a printer employing a general printing method such as a sublimation thermal transfer method or an ink jet method is applied. In the present embodiment, a case where a sublimation type thermal transfer system including a thermal print head and an ink ribbon is employed is described as an example.
[0056]
As shown in FIG. 1, the image printer 50 is provided with a paper cassette 50d for storing a plurality of predetermined print papers 100 supplied when performing a printing operation so as to be detachable from the main body 50a. Yes.
[0057]
In addition, the image printer 50 includes an ink ribbon cassette (not shown) in which an ink ribbon coated with a dye or the like for printing a desired image on the printing paper 100 is wound and stored. It is arranged so as to be detachable with respect to a predetermined position inside 50a.
[0058]
Therefore, at a predetermined position of the main body 50a of the image printer 50, a cassette opening 50b corresponding to the paper cassette 50d and a printed paper 100 on which a desired image is printed by a printing operation (see FIG. 1). A discharge opening 50c is formed. In addition, although not shown, an opening of a storage chamber for storing the ink ribbon cassette in the main body 50a is also provided at a predetermined position of the main body 50a.
[0059]
  Then, at a predetermined position on the exterior surface of the main body 50a of the image printer 50, a printer power supply operation member 67A that is an operation member for performing opening / closing (on / off) operation of the main power supply or a printing operation is started. A plurality of operation members 67 such as a print start operation member 67B (see FIG. 3; not specifically shown except in FIG. 1 and FIG. 3) are provided. The plurality of operation members 67 are operated by the user in a state where the image printer 50 and the above-described electronic camera 10 are connected..
TheIn addition, at a predetermined position on the exterior surface of the main body 50a of the image printer 50, a status display means 68 including a plurality of light emitting diodes (LEDs) provided for displaying the status of the image printer 50, etc. Is provided. The status display means 68 displays the operation status of the image printer 50 by performing control such as blinking or changing the color at the time of light emission.
[0060]
On the other hand, as shown in FIG. 3, the image printer 50 includes a printer controller 51 that is connected to the camera controller 17 of the electronic camera 10 to control the image printer 50 and a camera side of the electronic camera 10. It is a part of data transfer means that contributes to data communication between the image printer 50 and the electronic camera 10 by being connected to the connection connector 34, and from the image printer 50 side to the electronic camera 10 side. A printer-side connection connector 54 serving as a second connection means serving also as a power supply means for supplying power, and a circuit constituting a part of the data transfer means, the printer-side connection connector 54 and the printer controller 51; A connection interface 55 for controlling the transfer of image data, various instruction signals and the like, and the present image printer 50. A ROM (ROM; Lead Only Memory) 52 in which basic initial setting values (for example, a printer ID) and the like relating to the operation are recorded in advance, and image data for each line transferred from the electronic camera 10 side are temporarily stored. A line buffer 53 composed of, for example, a semiconductor element or the like, and an image data received by the dye on the ink ribbon (not shown) are transferred onto a predetermined print paper 100. A head unit 63 which is a thermal print head constituting a part of a print engine having a mechanism for printing an image, and image data temporarily recorded in the line buffer 53 are read out for each line and transferred to the head unit 63. A head drive unit 62 that outputs and controls the head unit 63 to form part of the print engine, and the head unit 6 A thermistor 64 which is a measuring means for detecting the temperature of 3 or the vicinity thereof, an interface 65 for converting the resistance value of the thermistor 64 into an electric signal of a predetermined form and transmitting it to the printer controller 51, and a printer controller A ribbon driving unit 56 that controls the feeding of the ink ribbon based on an instruction signal from 51, and an ink that appropriately feeds the ink ribbon stored in an ink ribbon cassette (not shown) by the control of the ribbon driving unit 56. Based on an instruction signal from the printer controller 51, the feeding control of the print paper 100 is performed based on the ribbon motor 57, the ribbon sensor 58 that monitors the state of the ink ribbon and the ink ribbon cassette disposed inside the image printer 50, and the like. The paper driving unit 59 and the paper driving unit 59 are controlled. A paper feed motor 60 that appropriately feeds a predetermined amount of print paper 100 at a predetermined speed at a predetermined time, a paper feed sensor 61 that monitors the state of the print paper 100 in the image printer 50, and a predetermined time A timer 66 that is a time measuring means (timer means) for measuring the time and a switch member that generates a predetermined instruction signal in conjunction with an operation member 67 including a printer power supply operation member 67A, a print start operation member 67B, and the like (see FIG. 1). The image printer 50 receives a switch group such as a power switch 67a and a print start switch 67b mounted on a circuit unit (not shown) of the image printer 50 and power supplied from an external power supply (AC). Control is performed to convert the voltage into a voltage suitable for each of the 50 circuit units (not shown) and supply the voltage appropriately, and this image pre- When the printer 50 and the electronic camera 10 are connected, a DC power supply control unit 70 that serves as a power source for supplying power to the entire image printing system including both the electronic camera 10 and the image printer 50, and Various components such as a status display unit 68 including a plurality of light emitting diodes (LEDs) for displaying the status of the image printer 50 are disposed.
[0061]
As described above, the present image printer 50 is for printing in an optimum form for printing various constituent blocks that are normally provided in a conventional image printer, for example, image data (RGB data) acquired by the electronic camera 10. Data conversion block for converting to image data (CMY data), decompression block for decompressing and decompressing compressed image data recorded in the recording medium 33. Temporarily one or a plurality of print image data The image memory block for recording the image, the image display means for displaying the image corresponding to the image data to be printed, the image display block including the display control circuit for controlling the image display block, and the like are omitted.
[0062]
When executing a print operation of a desired image using the main image printer 50, the main image printer 50 and the electronic camera 10 are directly connected, that is, directly connected, so that the main image printer 50 is connected to the camera of the electronic camera 10. It is placed under the control of the controller 17. As a result, the printer controller 51 of the image printer 50 performs a control operation in response to a command from the camera controller 17 of the electronic camera 10, and functions to be executed by the above-described omitted configuration blocks are the functions of the electronic camera 10. It is executed by a corresponding predetermined configuration block on the side.
[0063]
The image data for printing (CMY data) generated on the electronic camera 10 side is transferred to the image printer 50 side for each line or every several lines. In response to this, 51 performs a predetermined control to execute an image printing operation.
[0064]
Therefore, the image printer 50 applied to the printing system of the present embodiment cannot execute a printing operation alone, and has a specification that operates only in a form directly connected to the electronic camera 10 described above.
[0065]
The printer controller 51 receives instruction signals and image data transmitted from the electronic camera 10 side via the connection interface 35 and connection connector 34 on the camera side, and the connection connector 54 and connection interface 55 on the printer side. It serves as a control means for controlling the printing operation and the like of the image printer 50 based on the above.
[0066]
The printer controller 51 also monitors various instruction signals and the like corresponding to each switch member corresponding to the operation member 67 (67A, 67B, etc.) provided in the main body 50a of the image printer 50, and the operation member 67 by the user. The drive circuit and the like corresponding to the operation are controlled.
[0067]
For example, when the user operates a printer power operation member 67A, which is one of the operation members 67 provided in the image printer 50, the power switch 67a operates in conjunction with this operation. As a result, an instruction signal for instructing to open or close (on or off) the power of the image printer 50 is generated, and the instruction signal is transmitted to the printer controller 51. In response to this, the printer controller 51 performs predetermined drive control.
[0068]
Further, for example, when the user operates a print start operation member 67B which is one of the operation members 67 provided in the image printer 50, the print start switch 67b and the like act in conjunction therewith. As a result, a predetermined instruction signal for starting the printing operation is generated, and the instruction signal is transmitted to the printer controller 51.
[0069]
That is, when the user operates one of the predetermined operation members 67 of the image printer 50, a predetermined instruction signal is generated from the corresponding switch member. In response to this, the printer controller 51 performs corresponding control. As a result, an image printing operation desired by the user can be executed.
[0070]
In addition, the basic configuration of the image printer 50 is substantially the same as that of a conventional general sublimation thermal transfer type image printer.
[0071]
The operation of the printing system of the present embodiment configured as described above will be described below.
4 and 5 are flowcharts showing the operation of the electronic camera in the image print system of the present embodiment. Among these, FIG. 4 is a flowchart schematically showing a main operation flow of the electronic camera. FIG. 5 is a flowchart schematically showing an operation flow related to print processing among the operations of the electronic camera.
[0072]
6 and 7 are flowcharts showing the operation of the image printer in the image printing system of this embodiment. Among these, FIG. 6 is a flowchart schematically showing the main operation flow of the image printer. FIG. 7 is a flowchart schematically showing the flow of operations related to print processing in the operations of the image printer.
[0073]
First, the flow of main operations of the electronic camera 10 in the image print system will be described with reference to FIG.
The camera power operation member 25D of the electronic camera 10 is operated by the user, and the power state of the electronic camera 10 is switched to the open (on) state. Then, the instruction signal is transmitted to the camera controller 17 via the switch unit 25d / switch controller (SW) 24. In response to this, the camera controller 17 executes a predetermined initialization process in the electronic camera 10 in step S1 as shown in FIG. When this initialization process is completed, the process proceeds to the next step S2.
[0074]
In step S <b> 2, the camera controller 17 confirms whether or not the electronic camera 10 is connected to the image printer 50. This confirmation can be made, for example, by connecting the camera side connection connector 34 and the printer side connection connector 54 so that the controllers 17 and 51 of both apparatuses 10 and 50 can communicate with each other via the connection interfaces 34 and 55. This is a process of confirming whether or not.
[0075]
If it is confirmed that the electronic camera 10 and the image printer 50 are connected, the process proceeds to the next step S3. On the other hand, if it is confirmed that the electronic camera 10 is not connected to the image printer 50 and is in an activated state, the process proceeds to step S7. In step S7, the electronic camera 10 The process proceeds to a normal camera mode process (the process of step S7) in which a shooting operation can be performed.
[0076]
During the normal camera mode process in step S7, the electronic camera 10 monitors an output signal from the connection interface 35, for example, every predetermined time, and determines whether the image printer 50 is connected. Repeat the check. In this case, if it is confirmed that the image printer 50 is connected, the process immediately proceeds to the next step S3.
[0077]
In step S3, the camera controller 17 executes a predetermined print process on the camera side (process according to the flowchart of FIG. 5). Details of the camera-side print processing will be described later. Next, the process proceeds to step S4.
[0078]
In step S4, the camera controller 17 checks whether or not a predetermined print process has been completed. Here, if it is confirmed that the printing process is completed, the process proceeds to the next step S5. If it is confirmed that the printing process has not been completed, the process returns to step S3 described above, and the subsequent processes are repeated.
[0079]
In step S5, the camera controller 17 executes a predetermined charging process on the camera side. The camera-side charging process is not described in detail because a general process in a conventional electronic camera is performed. Then, the process proceeds to the next step S6.
[0080]
In step S <b> 6, the camera controller 17 monitors the charging control unit 36 and confirms whether or not the rechargeable battery 37 is in a predetermined charging completion state. Here, when it is confirmed that the rechargeable battery 37 is in a fully charged state, an instruction signal indicating that charging has been completed is transmitted to the printer controller 51 of the image printer 50, and then a series of processing ends. . When it is confirmed that the charging is not yet completed, the process returns to the above-described step S5, and the subsequent processing is continued until the charging of the rechargeable battery 37 is completed.
[0081]
Next, details of the camera-side print process (the process of step S3 in FIG. 4) in the electronic camera 10 will be described below with reference to FIG.
[0082]
As described above, when it is confirmed in step S2 in FIG. 4 that the electronic camera 10 and the image printer 50 are connected, the camera controller 17 of the electronic camera 10 performs the camera-side print process (FIG. 4 in step S3 (sequence in FIG. 5).
[0083]
When the process proceeds to the camera-side print process, the camera controller 17 first requests the printer controller 51 to transmit a printer ID via both connection interfaces 35 and 55 and both connection connectors 34 and 54 in step S11 of FIG. . In response to this, the printer controller 51 reads a predetermined printer ID from the initial setting values recorded in advance in the ROM 52, and transmits this to the camera controller 17 (see the process in step S61 in FIG. 7). Then, the process proceeds to the next step S12.
[0084]
Here, the printer ID is unique information determined so that the model of the image printer 50 can be specified. For example, the print ID (dot / line), the total number of lines of image data that can be processed, Various information such as color correction data and gamma correction data.
[0085]
In other words, in the image print system of the present embodiment, a plurality of types of image printers 50 can be selectively connected to a specific electronic camera 10 to execute an image print operation. Therefore, when executing the print operation, the electronic camera 10 needs to specify the model of the image printer 50 connected to the electronic camera 10 and generate print image data in accordance with the specifications of the image printer 50.
[0086]
For this purpose, the electronic camera 10 is confirmed to be connected to the image printer 50 and, when executing an image printing operation, acquires the printer ID from the image printer 50 connected at the first stage of the print processing. I have to.
[0087]
By including such processing, even if the combination of the electronic camera 10 and the image printer 50 is changed, the image print system can be configured without any problem, and a good print result can always be obtained. It has become.
[0088]
Next, in step S12, the camera controller 17 searches a plurality of image data recorded on the recording medium 33 mounted on the recording medium mounting unit 32 via the recording medium interface 31, and searches for the total number of image data or individual image data. Information such as printing history information on the image data of the image data is acquired. Thereafter, the process proceeds to step S13.
[0089]
Here, the print history information is information related to the past usage status of each image data, for example, “printed” information indicating whether or not print output has been performed by the image printer 50 in the past, or “print date and time” when printed. "Information", "Print count" information, "Reprint designation" information when a print output instruction is added again, etc., which records the printing history, etc., and refers to attribute information associated with each image data .
[0090]
Here, FIG. 8 is a conceptual diagram showing details of a data file including image data recorded on a recording medium used in the image printing system of the present embodiment.
[0091]
A recording medium used in the image printing system of the present embodiment records a plurality of data files including image data as shown in FIG. Each data file includes a header portion in which information indicating the start of the data file is recorded as shown in FIG. 8B, and reduced image data of the image represented by the image data included in the data file. A thumbnail image data portion to be recorded, an image data portion in which the image data main body is recorded, an EOF (End Of File) portion in which information indicating the end of the data file is recorded, and the like.
[0092]
In the header section, as shown in FIG. 8C, for example, various information conforming to the DPOF standard including the name of the camera manufacturer (manufacturer), the model name of the camera, the file creation date and time, etc. Apart from that, unique information such as printing history information is coded and recorded.
[0093]
On the other hand, FIG. 9 is a conceptual diagram showing details of another example of a data file including image data recorded on a recording medium used in the image printing system of the present embodiment.
[0094]
In this other example, the printing history information is recorded as a single data file separately from a data file including a plurality of image data recorded on a recording medium (see FIG. 9A). In this single print history information file, print history information corresponding to each of a plurality of data files recorded on the recording medium is listed together (see FIG. 9B). .
[0095]
The printing history information corresponding to individual image data is recorded on a recording medium at the same time when the image data is recorded as a data file, and the image printer prints out predetermined image data. Each time, the printing history information is updated by the recording medium interface 31 controlled by the camera controller 17. Therefore, in this case, the recording medium interface 31 serves as an updating unit that updates the printing history information.
[0096]
Returning to FIG. 5, in step S13, the camera controller 17 sets a frame counter or the like of an image to be printed based on the information acquired in step S12. Thereafter, the process proceeds to step S14.
[0097]
In step S <b> 14, the camera controller 17 controls the display device 30 via the display control circuit 29 and displays a predetermined print menu using the display unit of the display device 30. This print menu is performed based on predetermined display information recorded in advance in, for example, the ROM 26 or the RAM 27. For example, “Press the print start button” or “Print an image with frame number n”. It is a display such as “ Thereafter, the process proceeds to step S15.
[0098]
Returning to FIG. 5, in step S15, the camera controller 17 receives a predetermined instruction signal from the print start switch 67b or the like interlocked with the operation of the print start operation member 67B of the image printer 50, that is, an instruction to instruct the start of printing. A signal (hereinafter referred to as a print start instruction signal) is monitored. Here, the camera controller 17 waits until the print start instruction signal is confirmed, and when the instruction signal is confirmed, the process proceeds to the next step S16.
[0099]
In step S <b> 16, the camera controller 17 reads out image data for one frame from the recording medium 33 mounted on the recording medium mounting unit 32 via the recording medium interface 31. The image data read out here is temporarily recorded in the memory controller 22. Thereafter, the process proceeds to step S17.
[0100]
In step S <b> 17, the camera controller 17 controls the display control circuit 29 to correspond to the image data read out in the above-described step S <b> 16 by using predetermined signal processing, that is, the display device 30. Conversion processing is performed so as to obtain image data (display image data) in an optimal form for displaying an image. Then, an image corresponding to the display unit of the display device 30 is displayed based on the generated image signal. Thereafter, the process proceeds to step S18.
[0101]
As the image display performed here, a display in a form in which a predetermined symbol or the like based on the printing history information about the image is combined with an image corresponding to the image data is performed. 10 to 13 are examples of display forms in this case.
[0102]
FIG. 10 shows a state in which a predetermined image is only displayed on the display unit of the display device 30. This display form shows a case where “printed” information indicating that a print output operation has already been performed exists in the print history information corresponding to the image data.
[0103]
In FIG. 11, a predetermined image is displayed on the display unit of the display device 30, and a symbol 101 (indicated by [★] in the figure) indicating “unprinted” is displayed at a predetermined position on the screen by being superimposed on the predetermined image. It is in the state. This display form is a display when “unprinted” information indicating that the print output operation has never been performed in the past is included in the print history information corresponding to the image data.
[0104]
In FIG. 12, a predetermined image is displayed on the display unit of the display device 30, and a symbol 102 (indicated by the numeral [3] in the figure) representing the “number of times of printing” is superimposed at a predetermined position on the screen. It is in the displayed state. This display form is a display when “print count” information indicating how many times the print output operation has been performed in the past is included in the print history information corresponding to the image data. This “print count” information is displayed using numbers, and the example of FIG. 12 shows a case where three print processes have been executed in the past.
[0105]
In FIG. 13, a predetermined image is displayed on the display unit of the display device 30, and is superimposed on the symbol 102 (indicated by the numeral [3] in the figure) indicating “number of prints” at a predetermined position in the screen. In addition, a frame symbol 103 surrounding the “print count” symbol 102 is displayed. In this display form, the print history information corresponding to the image data includes “print count” information indicating that the print output operation has been executed three times in the past, and the user operates the operation member 25 of the electronic camera 10. This is a display when information (so-called print reservation information) indicating that reprint output is desired is added by operating the reprint button 25E.
[0106]
Returning to FIG. 5, in step S <b> 18, the camera controller 17 executes predetermined signal processing based on the image data read out in step S <b> 16 and temporarily recorded in the memory controller 22 to generate print image data. This is temporarily recorded in the frame memory 23. The signal processing executed here is general signal processing performed when an image is printed based on image data, such as data expansion processing, color conversion processing, gamma setting, line length conversion processing, and the like. . Thereafter, the process proceeds to step S19.
[0107]
In step S19, the camera controller 17 executes a process for initializing a set value of a line counter (not shown) provided therein. This line counter serves as a counter used when transferring image data to be printed to the image printer 50 side by line. Then, the printer controller 51 waits for a print image data transmission request command (see the process in step S62 in FIG. 7 described later). When the print image data transmission request command is received, the process proceeds to step S20.
[0108]
In step S20, the camera controller 17 reads one line of the print image data temporarily recorded in the frame memory 23, and outputs this (one line of image data) to the connection interfaces 35 and 55 and the connection connector. Then, the image data is transferred to the printer controller 51 of the image printer 50 via 34 and 54. Here, the printer controller 51 receives the transferred data and temporarily records it in the line buffer 53 (details will be described later, see step S63 in FIG. 7). Thereafter, the process proceeds to step S21.
[0109]
In step S21, the camera controller 17 refers to the count value of the line counter and confirms whether or not the value indicates the final line. If it is confirmed that the image data transferred this time is the last line, the process proceeds to the next step S23. If it is confirmed that this is not the case, the process proceeds to step S22. In step S22, the count value of the line counter is subtracted, and then the process returns to step S20. Then, the subsequent processing is repeated.
[0110]
In step S23, the camera controller 17 performs a subtraction process for the count value of the frame counter. That is, here, by subtracting (−1) the count value of the frame counter, information indicating that the print processing of the image corresponding to the image data of the first frame is completed is secured. Thereafter, the process proceeds to step S24.
[0111]
In step S <b> 24, the camera controller 17 controls the recording medium interface 31 to execute a printing history information update process for the recording medium 33 loaded in the recording medium loading unit 32. Thereafter, the process proceeds to the next step S25.
[0112]
In step S <b> 25, the camera controller 17 confirms whether or not the image that has been subjected to the print process this time is the last frame by confirming the count value of the frame counter. Here, if it is confirmed that it is not the last frame, the process returns to the above-described step S16, and the subsequent processing is repeated until the print processing of the last frame is completed. If it is confirmed that the frame is the last frame, the series of print processing is terminated and the process returns to the sequence of FIG. 4 (return).
[0113]
As described above, in the present image printing system, the charging process for the rechargeable battery 37 of the electronic camera 10 is automatically executed after a series of printing operations are completed. When it is detected that the charging process is completed, control is performed to switch the power state of the electronic camera 10 itself to an off state.
[0114]
Next, a flow of main operations in the image printer 50 will be described below with reference to FIG.
When the user operates the printer power supply operating member 67A of the image printer 50, an instruction signal for switching the power state of the image printer 50 to the open (on) state is generated from the power switch 67a in conjunction with this operation. The instruction signal is transmitted to the printer controller 51. In response to this, the printer controller 51 executes a predetermined initialization process in the image printer 50 in step S41 shown in FIG. When this initialization process is completed, the process proceeds to the next step S42.
[0115]
In step S <b> 42, the printer controller 51 confirms whether or not the image printer 50 is connected to the electronic camera 10. This confirmation is the same processing as in step S2 (see FIG. 4) in the above-described operation sequence of the electronic camera. For example, when the camera side connection connector 34 and the printer side connection connector 54 are connected, both devices 10 This is a process for confirming whether or not each of the 50 controllers 17 and 51 can communicate via the connection interfaces 34 and 55. Here, this confirmation is repeated until it is confirmed that the image printer 50 and the electronic camera 10 are connected. When the connection between the two apparatuses 10 and 50 is confirmed, the process proceeds to the next step S43. .
[0116]
At this time, the power state on the electronic camera 10 side may be whatever. That is, the image printer 50 starts the printing operation and the charging operation after confirming the connection with the electronic camera 10 without depending on the power state of the electronic camera 10, that is, the switching state of the camera power operation member 25D. It is controlled.
[0117]
In step S <b> 43, the printer controller 51 controls the timer 66 to start a time measuring operation by the timer 66. Thereafter, the process proceeds to step S44.
[0118]
In step S44, the printer controller 51 confirms whether or not the print start operation member 67B has been pressed. The process executed here is a process in which the printer controller 51 monitors a print start instruction signal from the print start switch 67b or the like interlocked with the operation of the print start operation member 67B and confirms the instruction signal. Here, if the print start instruction signal cannot be confirmed, the printer controller 51 proceeds to the process of step S51.
[0119]
Subsequently, in step S51, the printer controller 51 checks whether or not the set time of the timer 66 has elapsed (time up). If the time is not up, the process returns to the above-described step S44, and the subsequent processes are repeated. If time-up is confirmed, it is determined that the printing operation is not performed, and the process proceeds to step S48, that is, the charging process.
[0120]
That is, in the present image printing system, when the image printer 50 and the electronic camera 10 are connected to each other (step S42), the time counting operation by the timer 66 is started (step S43). At this time, when a predetermined set time by the timer 66 has elapsed (time up) while the instruction signal from the print start switch 67b is not generated, the charging process is controlled to start (step S48). Yes.
[0121]
On the other hand, in step S44 described above, when the printer controller 51 confirms the predetermined print start instruction signal, the process proceeds to the next step S45.
[0122]
In step S45, the printer controller 51 executes a predetermined print process on the printer side (details are processes according to the flowchart of FIG. 7). Details of the printer-side print processing will be described later. Next, the process proceeds to step S46.
[0123]
In step S46, the printer controller 51 checks whether or not a predetermined print process has been completed. Here, if it is confirmed that the printing process is completed, the process proceeds to the next step S48. If it is confirmed that the print process has not been completed, the process proceeds to step S47. In step S47, the printer controller 51 executes the re-time (restart) process of the timer 66, and then the above-described process. Returning to the process of step S45, the subsequent processes are repeated.
[0124]
Note that the set time of the timer set again here is set to be slightly longer than the time required to print an image for one frame, for example.
[0125]
In step S48, the printer controller 51 executes a predetermined charging process (details are omitted) on the printer side. Then, the process proceeds to the next step S49.
[0126]
In step S49, the printer controller 51 confirms whether or not an instruction signal indicating that charging has been completed is transmitted from the camera controller 17, and waits until it is received. Then, when it is confirmed that the charging of the rechargeable battery 37 of the electronic camera 10 is completed by receiving the instruction signal, the process proceeds to the next step S50.
[0127]
In step S50, the printer controller 51 controls the DC power supply controller 70 to execute a process of shutting down its main power supply (power-off process), and ends a series of processes (return).
[0128]
Next, details of the printer-side print process (the process of step S45 in FIG. 6) in the image printer 50 will be described with reference to FIG.
[0129]
When the electronic camera 10 and the image printer 50 are connected as described above, if it is confirmed in step S44 in FIG. 6 that the print start operation member 67B has been operated, the printer controller 51 Then, the printer side print process (the process in step S45 in FIG. 6; the sequence in FIG. 7) is executed.
[0130]
When the printer-side print process is started, first, the printer controller 51 responds to the printer ID transmission request from the camera controller 17 of the electronic camera 10 (see the process in step S11 in FIG. 5) in step S61 in FIG. A predetermined printer ID is read from the camera and transmitted to the camera controller 17. Then, the process proceeds to the next step S62.
[0131]
In step S <b> 62, the printer controller 51 transmits a command requesting transmission of image data for printing of an image to be printed to the camera controller 17. In response to this, the camera controller 17 transfers one line of the print image data toward the printer controller 51 in step S20 of FIG. Thereafter, the process proceeds to step S63.
[0132]
In step S <b> 63, the printer controller 51 receives print image data for one line transferred from the electronic camera 10. Thereafter, the process proceeds to step S64.
[0133]
In step S64, the printer controller 51 confirms whether or not the print image data for one line received in the process of step S62 described above is image data in a normal form, that is, a received data check process. Thereafter, the process proceeds to step S65.
[0134]
Subsequently, in step S65, the printer controller 51 checks whether there is an abnormality in the communication operation performed between the image printer 50 and the electronic camera 10, that is, executes a communication error check process. If no communication error is found and the result of the data check in step S64 is confirmed to be normal, the process proceeds to the next step S67.
[0135]
On the other hand, if a communication error is found in step S65, or if it is confirmed that the received data is abnormal as a result of the data check in step S64 described above, the process proceeds to step S66. In step S <b> 66, the printer controller 51 sends a command to request re-transmission of image data to the camera controller 17. Thereafter, the processing returns to the above-described step S63, and the subsequent processing is repeated.
[0136]
If there is no abnormality in the received data and no error is found in the communication operation, the process proceeds to step S67. In step S67, the printer controller 51 transfers the received print image data for one line to the line buffer 53. Forward. Thereby, the received data is temporarily recorded here. Thereafter, the process proceeds to step S68.
[0137]
In step S68, the printer controller 51 executes processing for setting a count value of a buffer counter (not shown) provided therein. This buffer counter serves to count the number of lines of received print image data. Thereafter, the process proceeds to step S69.
[0138]
Next, in step S69, the printer controller 51 controls the head unit 63 via the head driving unit 62 to start energization of the head unit 63 (head energization on process). Thereafter, the process proceeds to step S70.
[0139]
In step S70, the printer controller 51 confirms the energization time for the head unit 63. When a predetermined time has elapsed, the process proceeds to the next step S71.
[0140]
In step S <b> 71, the printer controller 51 controls the head unit 63 via the head driving unit 62 to stop energization of the head unit 63 (head energization off process). Thereafter, the process proceeds to step S72.
[0141]
In step S72, the printer controller 51 executes a subtraction process (-1) of the count value of the buffer counter. Thereafter, the process proceeds to step S73.
[0142]
In step S <b> 73, the printer controller 51 drives and controls the ink ribbon motor 57 via the ribbon driving unit 56, and causes the supply amount of ink ribbon corresponding to the printing image data for one line to travel. Thereafter, the process proceeds to step S74.
[0143]
In step S74, the printer controller 51 refers to the count value of the buffer counter and confirms whether or not the count value indicates the final buffer. If it is confirmed that the image data that has been printed this time is not the final buffer, the process proceeds to step S75 in order to prepare for the printing process of the next one line of image data.
[0144]
Subsequently, in step S <b> 75, the printer controller 51 performs paper feed processing for driving and controlling the paper feed motor 60 via the paper drive unit 59 to move the print paper 100 by one line. Thereafter, the process returns to the above-described step S62. In step S62, a command for requesting transfer of the next one line of image data is transmitted to the camera controller 17. Then, the subsequent processing is repeated.
[0145]
On the other hand, if it is confirmed in step S74 that the image data printed this time is the final buffer, it is determined that the printing process for a predetermined image has been completed by the printing process for one line this time, The process proceeds to step S76.
[0146]
Subsequently, in step S <b> 76, the printer controller 51 performs a paper discharge process for discharging the print paper 100 to the outside of the main image printer 50 by drivingly controlling the paper feed motor 60 via the paper drive unit 59. Thereafter, the process proceeds to step S77.
[0147]
Next, in step S77, the printer controller 51 checks whether or not the image data that has been subjected to the current print processing is the image data of the last frame. If it is confirmed that the image data is not the final frame, the process returns to the above-described step S62. In step S62, the camera controller 17 issues a command requesting transfer of the image data of the next frame to be printed. Is transmitted. Then, the subsequent processing is repeated.
[0148]
Also, in this step S77, when it is confirmed that the image data that has been subjected to the print process this time is the image data of the last frame, the series of processes is terminated (return).
[0149]
As described above, according to the above-described embodiment, the user does not need to perform a particularly troublesome setting operation when printing out a desired image, and the captured image data is simply recorded. After the electronic camera 10 with the recording medium 33 mounted is placed on a predetermined position of the image printer 50, that is, on the placement portion 50d, it is extremely simple to operate the print start operation member 67B of the image printer 50. A printout result of a desired image can be obtained immediately by simply performing the operation.
[0150]
In other words, the printing history information corresponding to each image data is recorded, and when executing the print output process of the image, the print output process is controlled based on the print history information. Thus, it is possible to save the user's operations. Since the corresponding print history information is updated each time after executing the print output process, the latest print history information can always be held together with the corresponding image data. Therefore, even when different types of image printers are used, it is possible to always perform print processing based on the latest print history information.
[0151]
In addition, since the print output process is controlled based on various information recorded on the recording medium 33, a desired effect can be easily obtained without adding or changing any components. it can. Accordingly, there is no need to change the manufacturing process, which can contribute to a reduction in manufacturing cost.
[0152]
【The invention's effect】
As described above, according to the present invention, when an image printout is obtained based on image data that has been taken using an electronic camera, the operation to be performed by the user is simplified, and a desired operation can be easily and quickly performed. By making it possible to print out a desired image based on image data, it is possible to provide an image printing system that has good operability and can realize a reduction in manufacturing cost.
[Brief description of the drawings]
FIG. 1 is an overall perspective view showing an outline of an image printing system according to an embodiment of the present invention.
FIG. 2 is a schematic block diagram showing an electronic camera that constitutes a part of the image print system of FIG.
FIG. 3 is a schematic block diagram showing an image printer that constitutes a part of the image print system of FIG. 1;
4 is a flowchart schematically showing a main operation flow of the electronic camera in the image print system of FIG. 1;
FIG. 5 is a flowchart schematically showing the flow of operations related to print processing among the operations of the electronic camera of FIG. 2;
6 is a flowchart schematically showing a main operation flow of the image printer in the image print system of FIG. 1;
7 is a flowchart schematically showing the flow of operations related to print processing in the operations of the image printer of FIG. 3;
8 is a conceptual diagram showing details of a data file including image data recorded on a recording medium used in the image print system of FIG.
9 is a conceptual diagram showing in detail another example of a data file containing image data recorded on a recording medium used in the image print system of FIG.
10 is a diagram showing an example of a display form displayed on the display unit of the display device of the electronic camera in the process of executing the image print output process by the image print system of FIG. 1;
11 is a diagram showing another example of a display form displayed on the display unit of the display device of the electronic camera in the process of executing the image print output process by the image print system of FIG.
12 is a diagram showing another example of a display form displayed on the display unit of the display device of the electronic camera in the execution process of the image print output process by the image print system of FIG. 1. FIG.
13 is a view showing still another example of the display form displayed on the display unit of the display device of the electronic camera in the execution process of the image print output process by the image print system of FIG. 1. FIG.
[Explanation of symbols]
10 …… Electronic camera
13 …… Image sensor
17 …… Camera controller (control means)
16 …… Digital processing circuit (deployment means)
25D …… Camera power supply operation member (operation member on the electronic camera side)
25E …… Reprint button (electronic camera side operation member)
30 …… Display device (image display means)
33 …… Recording medium (image memory)
34 …… Camera side connector (first connecting means)
35 …… Connection interface (data transfer means)
37 …… Rechargeable battery (secondary battery)
50 …… Image printer
51 …… Printer controller (control means)
54 …… Printer side connector (second connection means)
55 …… Connection interface (data transfer means)
62 …… Head drive unit (print engine)
63 …… Head (print engine)
66 …… Timer (timer means)
67A: Printer power supply operation member (operation member on the image printer side)
67B: Print start operation member (operation member on the image printer side)
70 …… DC power supply controller (power supply means)

Claims (2)

First connection means for detachably connecting an electronic camera without using a connection cable, a print engine for outputting an image print based on data transferred from the electronic camera, and an instruction signal for instructing the start of a printing operation An image printer comprising: a print start switch for generating a print output; and a discharge port for discharging the printed paper .
Image memory including photographed image data subjected to data compression processing and print history information related to image print processing in the past as attribute information of the image data, and detachably connected to the first connection means A second connecting means capable of transferring, a transferring means for transferring the image data recorded in the image memory to the image printer via the second connecting means, and an updating means for updating the printing history information. An electronic camera,
An image printing system comprising:
The electronic camera has image display means capable of displaying an image based on the image data recorded in the image memory and a predetermined symbol related to the image,
When the first connecting means and the second connecting means are connected to each other, the image display means is controlled to display to prompt the operation of the print start switch,
In the image printer, when the print start switch is operated after the first connection unit and the second connection unit are connected to each other, at least the output processing of the image print is performed based on the print history information. The image data that has not been printed are sequentially printed out, and when the print output for the image data is completed, the corresponding print history information is updated, and control is performed so that the printed print paper is discharged from the discharge port. An image printing system characterized by this. The image printing system according to claim 1, wherein the image display unit is a display device in the electronic camera, and performs display by pressing the print start switch .

Images