JP3756085B2 - Printing system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printing system capable of reading a document image with a single image processing apparatus and forming the read document image with another image processing apparatus capable of communicating with the image processing apparatus. .
[0002]
[Prior art]
Conventionally, there is a printing system technology that performs image processing and image formation using two image processing apparatuses.
For example, Japanese Patent Application Laid-Open No. 2000-184218 discloses that one of the two image processing apparatuses (hereinafter, “apparatus A” and “apparatus B” is assumed) has a document scanning function. And the other device B has a function that cannot be performed by the device A (for example, color printing), and connects the two, for example, scans a document by the device A (in this case, the device A And a color scanner, which performs image processing, and transmits the image data subjected to the image processing to the apparatus B for color printing.
With the above-described technology, for example, functions such as color printing of a document image, which was impossible with the device A alone, can be easily performed by connecting the device B.
Further, in the above technique, when the image data is printed out by the device B, the image processing is performed by the device A so that it can be printed out in an optimum state. That is, image processing is performed by the device A in consideration of the performance and printing characteristics unique to the device B.
That is, in the above technique, when printing is performed using the apparatus B, image processing parameters relating to image processing for optimally performing the printing output are stored in the apparatus A in advance, and the apparatus is based on the image processing parameters. A performs image processing.
[0003]
[Problems to be solved by the invention]
However, when the image processing parameters are stored in the device A in advance as described above, when the number of models of the image processing device corresponding to the device B is increased, the increased image processing of the device B is performed. Since it is necessary to add or update parameters to the device A, the user needs to perform troublesome addition or change processing.
In view of this, the above-described technique is such that by connecting two image processing apparatuses to each other, a document image read by one image processing apparatus can be printed out from the other image processing apparatus at any time. It's hard to say that it provides us.
Therefore, the present invention has been made in view of the above circumstances, and an object of the present invention is to, for example, increase the image processing parameters of the device B when the user increases the model of the device B. An easy-to-use printing system that does not need to be added or changed.
[0004]
[Means for Solving the Problems]
The present invention includes a first image processing apparatus capable of performing image processing for printing by reading a document image and changing characteristics of image data of the read document image;
In a printing system comprising a second image processing apparatus capable of communicating with the first image processing apparatus and capable of forming an image based on the image data.
The second image processing apparatus stores image processing parameters relating to image processing for printing,
The first image processing apparatus acquires the image processing parameter stored in the second image processing apparatus from the second image processing apparatus, and based on the acquired image processing parameter, stores the image data The image processing for printing is performed by changing the characteristics, and the image data subjected to the image processing is output to the second image processing apparatus, and further from the second image processing apparatus After changing and setting the acquired image processing parameter, the set image processing parameter can be transmitted to the second image processing device;
The second image processing apparatus is configured as a printing system characterized in that stored contents can be added or updated based on the changed image processing parameters transmitted from the first image processing apparatus. Yes.
Since the present invention is configured in this way, the number of models of the second image processing apparatus has increased in a form in which image processing parameters are stored in the first image processing apparatus in advance as in the prior art. In this case, it is not necessary to perform the troublesome work of adding, updating, or changing the image processing parameters of the increased model, and the user can connect the second image processing apparatus to the first image processing apparatus at any time. Thus, printing by the second image processing apparatus becomes possible.
[0005]
Further, the first image processing apparatus changes and sets the image processing parameter acquired from the second image processing apparatus (for example, set for each user or according to the type of the first image processing apparatus). after, it is Rukoto stores the image processing parameters the setting to the second image processing apparatus, when printing by using the second image processing apparatus, to perform printing in accordance with various situations Is possible.
[0006]
In the present invention, the second image processing device further stores a printing mode parameter relating to a printing mode included in the second image processing device,
The first image processing apparatus acquires the print mode parameter stored in the second image processing apparatus from the second image processing apparatus, and acquires the acquired print mode parameter and the first image processing. Based on the printing mode provided in the apparatus, a printing mode for output by the second image processing apparatus may be constructed. Further, it is desirable to display the constructed printing mode on a display unit included in the first image processing apparatus.
In this case, when printing using the second image processing apparatus, for example, the original image reading function provided in the first image processing apparatus and the printing function that can be performed by the second image processing apparatus are combined. Since it is possible to construct a printing function comprehensively with the printing system of the present invention, it is possible to set a wide variety of printing modes that are impossible with each unit.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments and examples of the present invention will be described with reference to the accompanying drawings so that the present invention can be understood. It should be noted that the following embodiments and examples are examples embodying the present invention, and do not limit the technical scope of the present invention.
Here, FIG. 1 is an example diagram showing a schematic configuration of a printing system according to an embodiment of the present invention, FIG. 2 is an explanatory diagram of image processing parameters and printing mode parameters, and FIG. 3 is an example of a series of processing in a multifunction peripheral. FIG. 4 is a display example diagram of the display operation unit of the multifunction device. FIG. 5 is a flowchart illustrating an example of a procedure for the multifunction device to acquire image processing parameters (image processing table) stored for each model. FIG. 6 is a flowchart showing another example of the flowchart of FIG. 3, and FIG. 7 is a flowchart showing an example of a procedure for the MFP to acquire image processing parameters (image processing table) stored for each user.
[0008]
A first image processing apparatus and a second image processing apparatus that employ a printing system according to an embodiment of the present invention will be described.
The first image processing apparatus can read a document image, and can perform image processing for printing by changing the characteristics of the image data of the read document image itself. It is.
Of course, the first image processing apparatus may include, for example, a function for performing image formation, a facsimile function, and the like in addition to the above. In the following, a multifunction machine A (see FIG. 1) is used as a specific example.
The second image processing apparatus is capable of communication such as data communication with the first image processing apparatus. In the first image processing apparatus, an image after image processing for printing performed is performed. An image can be formed based on the data.
Of course, the second image processing apparatus may include, for example, a function for performing image processing for printing, a facsimile function, and the like in addition to the above. In the following, an inkjet printer B (see FIG. 1) will be described as a specific example. Use.
[0009]
Next, the multifunction peripheral A and the ink jet printer B will be described with reference to FIG.
The multi-function device A has a control unit 10 having a CPU 11, a ROM 12, and a RAM 13 for controlling the whole multi-function device A, and a user inputs an instruction to the multi-function device A and displays a processing status and the like. A touch panel type display operation unit 20, a scanner unit 30 for reading a document image, an image processing unit 60 for performing image processing of the document image read by the scanner unit 30, and for printing out image data An image forming unit 50 that performs image formation, a printer communication unit 70 that performs communication processing by connecting an external device such as an inkjet printer B, and a PC communication unit 40 that performs communication processing by connecting a computer such as a personal computer C. It is provided and is roughly configured. In the following description, it is assumed that the multifunction device A cannot perform color printing.
The ink jet printer B has a configuration for performing generally known ink jet type image formation, and further stores unique information including image processing parameters and printing mode parameters in the ROM 80. In the following description, the inkjet printer B is assumed to be capable of color printing.
[0010]
Here, the image processing parameters and the printing mode parameters stored in the ROM 80 will be described with reference to FIG.
(Image processing parameters)
The image processing parameter is a guideline or reference for image processing executed by the multifunction device A so that the image data of the original image read by the multifunction device A can be formed in an optimum state by the inkjet printer B. is there.
That is, the specific contents of the image processing parameters include, for example, values such as resolution, color gradation, color correction, density (gamma) correction, brightness correction, and the like so that the inkjet printer B can optimally form an image. These are the quantities determined in.
FIG. 2 is defined as a table-type image processing table corresponding to the type of model of the first image processing apparatus to which such various amounts (image processing parameters) are connected. Further, in FIG. 2, the above-mentioned various amounts are set according to the types of paper (two types of the plain paper table and the glossy paper table) when the second image processing apparatus performs image formation for each model. Stored in the format.
(Print mode parameters)
The printing mode parameter indicates the printing mode of the inkjet printer B, that is, what kind of printing is possible in the second image processing apparatus. More specifically, for example, the paper size and paper type selectivity of the ink jet printer B, and whether double-sided printing or color printing is possible are shown. Here, as shown in FIG. 2, the printing mode parameters are defined as a table-type printing mode table.
In the following description, it is assumed that the image processing parameter and the printing mode parameter are in the format of the image processing table and the printing mode table as shown in FIG.
[0011]
Next, the MFP A reads a document image data, performs image processing to print out the read image data with the inkjet printer B, and then prints out the image data with the inkjet printer B. Processing will be described with reference to FIG.
The process starts from step S10.
First, the control unit 10 of the multifunction device A determines whether there is an instruction for external printing by the inkjet printer B, that is, external printing using an external device other than the multifunction device A (S10).
In step S10, for example, it is determined that external printing is performed when a user inputs an external printing instruction to the display operation unit 20. Further, when an external device such as the inkjet printer B is connected to the multi-function device A, it may be determined that the external printing is executed only when a print instruction is input.
If there is no instruction for external printing in step S10, for example, the copying of the original document is performed by the MFP A alone (S100).
On the other hand, if it is determined in step S10 that there is an instruction for external printing, the multi-function peripheral A acquires the specific information from the inkjet printer B (S20).
Next, in order to optimally form an image using the inkjet printer B and print it out, the multifunction device A performs an initial process for optimizing various settings of itself (the multifunction device A) based on the unique information ( S30).
“Initial processing for optimization of various settings” in step S30 is, for example, according to various amounts such as resolution, color gradation, color correction, density (gamma) correction, brightness correction, etc. based on the above-described image processing table. That is, the MFP A prepares the operating environment so as to perform image processing.
In addition, the MFP A can perform printing modes that can be performed by the inkjet printer B based on the above-described printing mode table, that is, paper size, paper type, double-sided printing, and color printing in the initial processing of step S30. The result is displayed on the display operation unit 20 as shown in FIG. 4B (S40).
FIG. 4B showing the display status of the display operation unit 20 shows a case where external printing by the inkjet printer B is performed. FIG. 4A shows the case where the printing process is performed by the MFP A alone (an example of step S100).
When the user inputs an operation to the display operation unit 20 in the display state shown in FIG. 4B, print settings and image processing settings are changed (S50). In other words, in the process of step S50, the settings of the multi-function peripheral A set based on the image processing table and the print mode table included in the unique information acquired in step S20 can be changed according to the user's preference. Yes .
The change of the print setting in step S50 is specifically performed as follows.
For example, the currently inactive (thin frame) paper size “B5” display button 132 becomes active (thick frame) when touched by the user, and the currently active (thick frame) “A4” display button 131 is inactive. Becomes active (thin frame). By changing the display content of the display operation unit 20 in this way, it is possible to change the paper size when forming an image with the inkjet printer B from “A4” to “B5”.
The item “enlargement / reduction” shown in FIG. 4B is a setting item when the scanner unit 30 included in the multifunction device A reads a document image. It can also be said that the printing modes of the (first image processing apparatus) and the inkjet printer B (second image processing apparatus) are comprehensively constructed and reflected.
Next, when the display button 110 is pressed by the user, an instruction to execute printing is given by the user (S60).
[0012]
When the print execution instruction is input, the multi-function peripheral A starts reading the original image using the scanner unit 30, and stores the read image data in the image processing unit 60 or the RAM 13 (S70).
Then, based on the setting in which the initial processing is performed in step S30, the image processing unit 60 performs image processing on the image data stored in step S70 (S80).
That is, in this step S80, image processing for optimally forming (printing) the image data read in step S70 with the inkjet printer B is performed.
Next, the multifunction device A transmits the image data processed in step S80 and information related to the setting status set by the user in step S50 from the printer communication unit 70 to the ink jet printer B (S90).
After the processing in step S90, an image is formed by the ink jet printer B based on the image data processed by the multifunction device A and printed out.
Further, the ink jet printer B adds the contents of the image processing table and the printing mode table corresponding to the multi-function peripheral A based on the information regarding the setting status set in step S50 (that is, the printing setting and the image processing setting). , Update or change.
By executing the processing in this way, the user can change the image processing parameters of the increased second image processing apparatus (inkjet printer B side) to the first image processing apparatus (multifunction peripheral A side) as in the prior art. Therefore, it is no longer necessary to perform the troublesome work of adding, updating, or changing the image, and the print output by the second image processing apparatus can be output only by connecting the second image processing apparatus to the first image processing apparatus at any time. It becomes possible.
[0013]
【Example】
Example 1
In the above-described embodiment, when the process moves from step S20 to step S30, a series of processes as shown in FIG. 5 may be performed.
As shown in FIG. 2, this series of processing is performed by the first image processing apparatus when the image processing table is defined for each type of the plurality of first image processing apparatuses. This is a procedure for selecting an image processing table corresponding to itself from unique information of the second image processing apparatus.
Such a series of processes is executed when a plurality of image processing tables are defined for each type of the first image processing apparatus in the second image processing apparatus. This is because it is necessary to perform image processing after acquiring an image processing table corresponding to itself from among the image processing tables.
Hereinafter, a case where the inkjet printer B (second image processing apparatus) is connected to the multifunction peripheral A (first image processing apparatus) will be described.
First, after the MFP A acquires unique information in step S20, the MFP A determines whether or not an image processing table corresponding to itself exists in the unique information (S110).
If it is determined in step S110 that there is an image processing table corresponding to itself, the multi-function peripheral A adopts the image processing table, and the process proceeds to step S30 (S120).
On the other hand, if it is determined in step S110 that there is no image processing table corresponding to itself, the multi-function peripheral A uses a standard image processing table included in the unique information.
The standard image processing table is originally provided in the ink jet printer B, and should be adopted as an initial value of the image processing parameter when the ink jet printer B is connected to the first image processing apparatus for the first time. It is a memory of things. That is, the default image processing table.
In the above description, the case of the image processing table has been described. Of course, if the print mode table is also determined for each first image processing apparatus, the multifunction device A performs the same processing as described above, so that the multifunction device A print mode table corresponding to A can be selected.
[0014]
(Example 2)
In the first embodiment, when an image processing table and a printing mode table are predetermined for each type of the first image processing apparatus, the first image processing table selects the table corresponding to itself. Stated.
Here, a procedure in which the first image processing apparatus selects an image processing table corresponding to the user when the image processing table is determined for each user will be described. Also in this case, as in the first embodiment, when a plurality of image processing tables are defined for each user in the second image processing apparatus, the first image processing apparatus is configured to store the plurality of image processing tables defined for each user. This is because it is necessary to perform image processing after acquiring an image processing table corresponding to the user from the inside.
Hereinafter, as in the first embodiment, a case where the inkjet printer B (second image processing apparatus) is connected to the multifunction peripheral A (first image processing apparatus) will be described.
First, by adding the process of step S15 shown in FIG. 6 between step S10 and step S20 of the flowchart of FIG. 3, it becomes possible to select an image processing table determined for each user.
In step S15, a user identifier (for example, ID number, password, etc.) is input to the display operation unit 20 of the multi-function peripheral A (S15).
Then, as described above, the multi-function peripheral A acquires the unique information from the ink jet printer B (S20).
Then, when the processing shifts from step S20 to step S30, the multi-function device A performs processing as shown in FIG.
First, the multi-function peripheral A determines whether or not an image processing table corresponding to the user exists in the unique information (S210). This determination can be made by determining whether there is an image processing table corresponding to an identifier such as the user ID input in step S15 (see FIG. 6).
If it is determined in step S210 that an image processing table corresponding to the user exists, the multi-function peripheral A adopts the image processing table, and the process proceeds to step S30 (S220).
On the other hand, if it is determined in step S210 that there is no image processing table corresponding to the user, the multi-function peripheral A uses a standard image processing table included in the unique information.
This standard image processing table stores information to be adopted as the initial values of image processing parameters, as in the first embodiment.
Although the case of the image processing table has been described here, of course, as in the first embodiment, if the printing mode table is also determined for each user, the multifunction device A performs the same processing as described above, so that the multifunction device In other words, the printing mode table corresponding to A is selected.
[0015]
【The invention's effect】
The present invention includes a first image processing apparatus capable of performing image processing for printing by reading a document image and changing characteristics of image data of the read document image;
In a printing system comprising a second image processing apparatus capable of communicating with the first image processing apparatus and capable of forming an image based on the image data.
The second image processing apparatus stores image processing parameters relating to image processing for printing,
The first image processing apparatus acquires the image processing parameter stored in the second image processing apparatus from the second image processing apparatus, and based on the acquired image processing parameter, stores the image data The image processing for printing is performed by changing the characteristics, and the image data subjected to the image processing is output to the second image processing apparatus, and further from the second image processing apparatus After changing and setting the acquired image processing parameter, the set image processing parameter can be transmitted to the second image processing device;
The second image processing apparatus is configured as a printing system characterized in that stored contents can be added or updated based on the changed image processing parameters transmitted from the first image processing apparatus. Yes.
Since the present invention is configured in this way, the number of models of the second image processing apparatus has increased in a form in which image processing parameters are stored in the first image processing apparatus in advance as in the prior art. In this case, it is not necessary to perform the troublesome work of adding, updating, or changing the image processing parameters of the increased model, and the user can connect the second image processing apparatus to the first image processing apparatus at any time. Thus, printing by the second image processing apparatus becomes possible.
[0016]
Further, the first image processing apparatus changes and sets the image processing parameter acquired from the second image processing apparatus (for example, set for each user or according to the type of the first image processing apparatus). after, it is Rukoto stores the image processing parameters the setting to the second image processing apparatus, when printing by using the second image processing apparatus, to perform printing in accordance with various situations Is possible.
[0017]
In the present invention, the second image processing device further stores a printing mode parameter relating to a printing mode included in the second image processing device,
The first image processing apparatus acquires the print mode parameter stored in the second image processing apparatus from the second image processing apparatus, and acquires the acquired print mode parameter and the first image processing. Based on the printing mode of the apparatus, a printing mode for output by the second image processing apparatus may be constructed. Further, it is desirable to display the constructed printing mode on a display unit included in the first image processing apparatus.
In this case, in printing using the second image processing apparatus, for example, the original image reading function provided in the first image processing apparatus and the printing function that can be performed in the second image processing apparatus are combined. Since it is possible to construct a printing function comprehensively with the printing system of the present invention, it is possible to set a wide variety of printing modes that are impossible with each unit.
[Brief description of the drawings]
FIG. 1 is an example diagram showing a schematic configuration of a printing system according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram of image processing parameters and printing mode parameters.
FIG. 3 is a flowchart illustrating an example of a series of processes in the multifunction machine.
FIG. 4 is a display example diagram of a display operation unit of the multifunction machine.
FIG. 5 is a flowchart illustrating an example of a procedure in which the multifunction peripheral acquires image processing parameters (image processing table) stored for each model.
6 is another example of the flowchart of FIG.
FIG. 7 is a flowchart illustrating an example of a procedure in which the multifunction peripheral acquires image processing parameters (image processing table) stored for each user.
[Explanation of symbols]
A .... Machine B .... Inkjet printer 10 .... Control unit 20 .... Display operation unit 30 .... Scanner unit 60 .... Image processing unit 70 ..... Printer communication unit

Claims (5)

A first image processing apparatus capable of reading a document image and performing image processing for printing by changing characteristics of image data of the read document image;
In a printing system comprising a second image processing apparatus capable of communicating with the first image processing apparatus and capable of forming an image based on the image data.
The second image processing apparatus stores image processing parameters relating to image processing for printing,
The first image processing apparatus acquires the image processing parameter stored in the second image processing apparatus from the second image processing apparatus, and based on the acquired image processing parameter, stores the image data The image processing for printing is performed by changing the characteristics, and the image data subjected to the image processing is output to the second image processing apparatus, and further from the second image processing apparatus After changing and setting the acquired image processing parameter, the set image processing parameter can be transmitted to the second image processing device;
The printing system, wherein the second image processing apparatus is capable of adding or updating stored contents based on the changed image processing parameters transmitted from the first image processing apparatus . Wherein the image processing parameters, the printing system of claim 1, wherein those that can be set for each user. Wherein the image processing parameters, the printing system of claim 1, wherein those which can be set according to the type of the first image processing apparatus. The second image processing apparatus further stores a printing mode parameter relating to a printing mode included in the second image processing apparatus,
The first image processing apparatus acquires the print mode parameter stored in the second image processing apparatus from the second image processing apparatus, and acquires the acquired print mode parameter and the first image processing. The printing system according to any one of claims 1 to 3 , wherein a printing mode at the time of output by the second image processing device is constructed based on a printing mode included in the device. The printing system according to claim 4 , wherein the constructed printing mode is displayed on a display unit included in the first image processing apparatus.

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