JP2008289123A - Apparatus, system, and method for processing image - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To increase a communication speed and to use an interface capable of achieving a longer communication transmission distance. <P>SOLUTION: The present invention relates to an image processing apparatus 1 comprising: an input/output control unit 14 including a first network interface connectable to a network 10 in which communication is performed based on a general protocol; and a main control unit 11 including a second network interface connectable to a network 20 in which communication is performed based on a local protocol that is a communication protocol defined beforehand between an image processing apparatus 2 and itself. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an image processing apparatus, an image processing system, and an image processing method that enable network connection and can perform processing coupled to another apparatus.

  In an operation of connecting a plurality of image processing devices and performing processing in cooperation with the plurality of image processing devices (referred to as “duplication / connection processing”), the first image processing device and the second image processing device Are connected via a single communication path (network), and a connection process is executed via this communication path, or the first image processing apparatus and the second image processing apparatus are connected to the network and 2 such as iEE1394. There is known a method of connecting via one communication path and executing a connection process via one communication path such as iEEE1394.

  Further, for example, in Patent Document 1, two communication paths can be selectively used in image transfer, parallel processing can be performed in image transfer of at least two jobs, and the image transfer processing time is shortened. An image forming system capable of reducing the load on the image data transmission side is disclosed. In this prior art, the first image processing apparatus is connected to two communication paths, that is, a network and a video interface, and the connection processing is realized by selectively using the two communication paths.

JP 2005-108113 A

  By the way, as matters required for realizing the connection processing, first, it is necessary to improve productivity, that is, to improve the communication speed. Secondly, it is necessary to use an interface that has no restrictions on the installation of the image processing apparatus, that is, an excellent communication transmission distance.

  A method of realizing connection processing by connecting a first image processing apparatus and a second image processing apparatus via a single communication path (network) is excellent in that an interface excellent in communication transmission distance can be used. However, there is a problem in terms of improving the communication speed. That is, in this method, since the two image processing apparatuses share a single network, it is difficult to ensure a certain productivity or increase the communication speed due to an increase in overhead associated with TCP / IP protocol processing. It is.

  In a method in which two image processing apparatuses are connected by two communication paths (network and iEEE 1394, etc.) and the connection process is executed by one communication path such as iEEE 1394, a dedicated line (iEEE 1394) is prepared and configured. Although excellent in terms of improving the communication speed, restrictions on the communication transmission distance are greater than network connections.

  Further, in Patent Document 1, two communication paths (network and video interface) can be selectively used, and parallel processing can be performed in image transfer of at least two jobs. However, with this conventional technique, it is possible to ensure a certain productivity for improving the communication speed, but the communication transmission distance is restricted. Further, in this conventional technique, the design is complicated because different interfaces can be selectively used.

  The present invention has been made in view of the above, and an image processing apparatus and an image processing system capable of improving the communication speed and using an interface excellent in communication transmission distance when executing a connection process. And an image processing method.

  In order to solve the above-described problems and achieve the object, an image processing apparatus according to the present invention is an image processing apparatus, and includes a first network interface for connecting to a first network in which communication is performed according to a general protocol. And a second network interface for connecting to a second network in which communication is performed in accordance with a local protocol, which is a predetermined communication protocol with an external device.

  An image processing system according to the present invention is an image processing system including a first image processing apparatus and the first image processing apparatus, and the first image processing apparatus performs communication according to a general-purpose protocol. A second network for connecting to a second network in which communication is performed between a first network interface for connecting to the first network and a local protocol that is a predetermined communication protocol between the second image processing apparatus. In accordance with the interface and the local protocol, the first control executes communication processing with the second image processing apparatus through the second network interface and performs connection processing that is image processing in cooperation with the second image processing apparatus. And the second image processing device includes the second image processing device and the second image processing device. The third network interface for connecting to the network and the first image processing apparatus communicate with the second network interface according to the local protocol, and execute the connection process with the first image processing apparatus And a second control unit.

An image processing method according to the present invention is an image processing method executed by an image processing system including a first image processing device and the first image processing device, wherein the first image processing device includes:
A first network interface for connecting to a first network that performs communication according to a general protocol and a second network that performs communication according to a local protocol that is a predetermined communication protocol between the second image processing apparatus and the second network A second network interface for connection, and the second image processing apparatus includes a third network interface for connecting to the second network with the first image processing apparatus, A step in which the image processing apparatus communicates with the second image processing apparatus by the second network interface according to the local protocol, and executes connection processing that is image processing in cooperation with the second image processing apparatus; And the second image processing device conforms to the local protocol. Te, communicating with the second network interface and the first image processing apparatus, characterized by comprising the steps of: executing the connection processing between the first image processing apparatus.

  According to the present invention, it is possible to improve the communication speed and execute an interface excellent in communication transmission distance when executing the connection process.

  Exemplary embodiments of an image processing apparatus, an image processing system, and an image processing method according to the present invention are explained in detail below with reference to the accompanying drawings.

  FIG. 1 is an explanatory diagram showing a schematic configuration of an image processing system according to the present embodiment. As shown in FIG. 1, each of the image processing apparatuses 1 and 2 has a plurality of network interfaces (LAN (Local Area Network) interfaces), and is connected to a network 10 and a network 20 which are independent network networks.

  The network 10 communicates with a general-purpose protocol represented by TCP / IP or the like, and is connected to the image processing apparatuses 1 and 2 and host computers 3, 4, and 5 that give print instructions, for example.

  The other network 20 performs communication between the image processing apparatuses 1 and 2 using a local protocol that is a predetermined communication protocol.

  The image processing apparatuses 1 and 2 according to the present embodiment include a single mode in which image processing such as copying and printing is performed by the image processing apparatus 1 alone, and a linked machine such as linked copy or linked print, which is a parent machine or a slave machine. And a connection mode that is a mode for performing processing.

  Here, the concatenation process is an image process executed in cooperation with a plurality of image processing apparatuses, such as a concatenated copy and a concatenated print. Concatenated copying is a copy process in which image data of a copy source document is transmitted to a child device after the document is scanned and printed by the parent device, and the image data is also printed by the child device. Linked printing refers to printing data sent from the host computers 3, 4, 5 and so on to the master unit using the master unit, and then sending the print data to the slave unit. Is a printing process.

  In the following description of the present embodiment, the configuration in which the image processing apparatus 1 serves as a master unit and the image processing apparatus 2 serves as a slave unit is described as an example, but the present invention is not limited to this.

  The image processing apparatus 1 according to the present embodiment is a multi-function printer in which a copy, a printer, a facsimile, a scanner, and the like are accommodated in one housing. FIG. 2 is a block diagram illustrating a schematic configuration of the controller of the image processing apparatus 1 according to the present embodiment.

  As shown in FIG. 2, the image processing apparatus 1 according to the present embodiment includes a main control unit 11, image processing units 12 and 13, an input control unit 14, a FAX Board 15, a USB Host 16, a ROM and a RAM. A storage medium 17 such as a printer unit and a scanner unit are mainly provided.

  The scanner unit is an engine that scans a document and acquires image data, and the printer unit is an engine that prints image data.

  The main control unit 11 includes a CPU (Central Processing Unit), a memory controller, an interface with each chip, a network interface, and the like. The main control unit 11 is configured by an SOC (System On a Chip) which is an integrated circuit that integrates a plurality of series of functions on a single semiconductor chip. As will be described later, the main control unit 11 generates a data frame in which commands to be executed by the image processing apparatus 2 of the slave unit and setting conditions thereof are set according to a local protocol. Details of the data frame will be described later.

  In the image processing apparatus 1 serving as the master unit, the connection mode is designated by the user from the operation panel in the initial setting or the like. When the connection mode is designated, the fact that the current mode is the connection mode is stored in the storage medium 17 such as the RAM. When image processing such as copy processing or print processing is started, the main control unit 11 acquires the current mode with reference to the RAM. Generation is performed, and the generated data frame is transmitted to the image processing apparatus 2 serving as a slave unit via the network 20.

  The image processing unit 12 performs image processing on image data transferred from the scanner unit. The image processing unit 13 performs image processing on image data to be sent to the printer unit. The image processing units 12 and 13 are configured by an ASIC (Application Specified IC) equipped with such an image processing function.

  The input / output control unit 14 mainly includes an external interface such as a network interface, and is configured by an SOC. The FAX Board 15 includes a FAX interface. The USB-Host 16 is used for connection to an operation panel of a multi-function printer or a single function printer.

  The image processing apparatuses 1 and 2 according to the present embodiment are characterized by including a plurality of network interfaces. One communicates with a general-purpose protocol represented by TCP / IP and the like, and as shown in FIG. 1, for example, host computers 3, 4, 5, image processing apparatuses 1, 2, etc. It is connected to the network 10 to be arranged. The other communicates with a local protocol and is connected to a network 20 in which the image processing apparatuses 1 and 2 are arranged as shown in FIG. The input / output control unit 14 includes a network interface for connecting to the network 10 that performs communication according to a general-purpose protocol. The main control unit 11 includes a network interface for connecting to a network 20 that performs communication according to a local protocol.

  Here, the local protocol will be described. Unlike general-purpose protocols such as TCP / IP, the local protocol is a communication protocol defined for connection processing executed only with a predetermined apparatus such as between the image processing apparatuses 1 and 2, and image formation Any communication protocol that can communicate between the devices 1 and 2 and that can be connected can be defined as a local protocol.

  In this embodiment, the local protocol is defined as follows. That is, the local protocol of the present embodiment has a data structure in which a command instructing execution on the receiving side can be set in a data frame transmitted / received between the image forming apparatuses 1 and 2. FIG. 3 is a data structure diagram of a data frame defined by the local protocol of the present embodiment.

  As shown in FIG. 3, the data frame defined by the local protocol of the present embodiment includes a header part and a command part. In the command portion, one or a plurality of commands and setting conditions for each command are set as D1, D2... Dn (n: an integer of 1 or more). When the command is a print command or an accumulation command, image data to be printed or accumulated is also set in the data frame. In the header portion, a size for each command is set.

  For this reason, in the image processing apparatus 1 serving as the master unit on the data frame transmission side in the concatenation process, the main control unit 11 causes the command and command of the function to be executed by the image processing apparatus 2 serving as the master unit on the data frame transmission side. Generate a data frame with a set size.

  On the other hand, when receiving the data frame, the image processing apparatus 2 serving as the slave unit analyzes the contents of the data frame received by the main control unit 21 described later, extracts the specified command, and executes the extracted command. . As a result, processing in accordance with the command specified by the image processing device 1 of the parent device is executed by the image processing device 2 of the child device, and connection processing can be performed between the image processing devices 1 and 2.

  The command and its setting conditions are an initial setting command for causing the slave unit to enter the connection mode, a print command and a print condition for instructing the slave unit to print, and a command for storing image data in the slave unit. This corresponds to an accumulation command and an accumulation condition that are instructions.

  Here, when the communication between the parent device and the child device in connection with the connection process is realized by a general protocol such as TCP / IP, for example, each layer (layer) of the OSI reference model is performed according to the communication procedure defined by the general protocol. In order to execute one connection process, the communication between the master unit and the slave unit must be performed a plurality of times, and the overhead for the connection process becomes excessive.

  On the other hand, in the present embodiment, the communication between the parent device and the child device in connection with the connection processing is performed using the local protocol that defines the structure of the data frame as described above. A data frame in which the initial setting command is set is generated and transmitted to the image processing apparatus 2 of the slave unit. Further, a data frame in which the print command is set is generated and transmitted to the image processing apparatus 2 of the slave unit. On the other hand, in the image processing apparatus 2 of the slave unit, it is possible to realize the concatenation process by shifting to the concatenation mode by the initial setting command set in the received data frame and then executing the command set in the data frame received. It becomes. For this reason, communication for connection processing between the image processing device 1 of the parent device and the image processing device 2 of the child device is limited to two times, and the overhead associated with the connection processing is greatly reduced. Can do.

  The image processing apparatus 2 according to the present embodiment is a single function printer having only a printer function. FIG. 4 is a block diagram illustrating a schematic configuration of the controller of the image processing apparatus 2 according to the present embodiment.

  As shown in FIG. 4, the image processing apparatus 2 according to the present embodiment includes a main control unit 21, an image processing unit 23, an input control unit 24, a USB host 26, a storage medium 27 such as a ROM or a RAM, and a printer. Mainly equipped with units. The printer unit is an engine that prints image data.

  The main control unit 21 includes a CPU, a memory controller, an interface with each chip, a network interface, and the like. The main control unit 21 is composed of SOC. As described above, the main control unit 21 receives a data frame via the network 20 from the image processing apparatus 1 that is a master unit. Then, the main control unit 21 analyzes the received data frame, extracts commands and setting conditions set in the data frame, and executes the set commands according to the setting conditions.

  In the image processing apparatus 2 serving as the slave unit, when the initial setting command is included in the data frame received from the master unit, the main control unit 21 sets the current mode to the connected mode. The connection mode is set by saving in the storage medium 27 such as a RAM that the current mode is the connection mode.

  The image processing unit 23 performs image processing of image data to be sent to the printer unit, and includes an ASIC equipped with an image processing function.

  The input / output control unit 24 mainly includes an external interface such as a network interface, and is configured by an SOC.

  The USB-Host 26 is used to connect to an operation panel of a multi-function printer or a single function printer.

  The image processing apparatus (single function printer) according to the present embodiment is characterized by including a plurality of network interfaces, and one communicates with a general-purpose protocol represented by TCP / IP or the like. As shown, for example, it is connected to a network 10 in which host computers 3, 4, 5, image processing apparatuses 1, 2, etc. that issue print instructions are arranged. The other communicates with a local protocol and is connected to a network 20 in which the image processing apparatuses 1 and 2 are arranged as shown in FIG. The input / output control unit 24 includes a network interface for connecting to the network 10 that performs communication according to a general-purpose protocol. The main control unit 21 includes a network interface for connecting to a network 20 that performs communication according to a local protocol.

  Next, linked copy processing will be described as an example of linked processing executed by the image processing apparatuses 1 and 2. That is, linked copy is instructed from the image processing apparatus 1 and linked copying is performed between the image processing apparatuses 1 and 2. FIG. 5 is a data flow diagram during linked copy processing.

  When the image processing apparatus 1 scans a document, the image processing apparatus 1 takes in the image data into the image processing apparatus 1 and performs image processing (step S1). The image data subjected to image processing is printed out (step S2), and a data frame in which a print command, print conditions, and image data to be executed by the slave image processing apparatus 2 are set is generated. This data frame is designated in advance. To the image processing apparatus 2 of the address destination (contact address) (step S3). At this time, a local protocol is used as the communication protocol. The image processing apparatus 2 that has received the data frame performs printout according to the information (step S4). This flow is mainly established between the multifunction printers shown in FIG.

  Next, the data flow of the linked copy in the controllers of the image processing apparatuses 1 and 2 is shown in FIGS. In the following description, the image processing device 1 shown in FIGS. 6 and 7 is a parent device, and the image processing device 2 shown in FIGS. 8 and 9 is a child device.

  FIG. 6 is a data flow diagram of the image processing apparatus (master unit) 1 during linked copying. FIG. 7 is a flowchart showing the processing procedure of the image processing apparatus (master) 1 during linked copying.

  First, in the image processing apparatus 1, the main control unit 11 determines whether or not the current mode is the connection mode with reference to the RAM (step SA-01), and when it is the connection mode (step SA). −01: Yes), a data frame in which an initial setting command for shifting the slave unit to the connection mode is set (step SA-02). Then, main controller 11 initializes the slave unit by transmitting this data frame to image processing device 2 of the slave unit via network 20 (step SA-03). This is processing for confirming whether the image processing apparatus 2 of the slave unit is in a responsive state such as whether the power is ON, and for shifting the image processing apparatus 2 of the slave unit to the connection mode.

  Next, a copy instruction (for example, pressing of a copy button) from the operation panel by a user and a copy condition (for example, the number of copies, paper output size, image quality mode is a character mode, a photo mode, or a character photo mode) Or double-sided / single-sided printing) (step SA-04). If a copy instruction and a copy condition are designated (step SA-04: Yes), the designated copy condition is changed. Set by the image processing unit 13 and copy processing is performed by the printer unit (step SA-05).

  Specifically, the image processing apparatus (master unit) 1 scans an image of a document and takes in image data (step S11), performs image processing on the image data in the image processing unit 12, and performs predetermined processing as image data. The data is stored in the memory (ROM or RAM) 17 (step S12).

  Thereafter, the image data is read from the memory 17 (step S13), the image processing unit 13 performs image processing again, and the image data is transmitted to the printer unit. Then, the image data is printed out (step 14).

  Next, the main control unit 11 of the image processing apparatus 1 generates a data frame in which the print command, the print condition, and the image data are set (step SA-06), and the image at the address specified in advance via the network 20. The data frame is transmitted to the processing device (child device) 2 (step SA-07, step S15). In the linked copy shown in the flowchart of FIG. 7, one job, that is, a data frame including one print command is transmitted to the slave unit and is terminated. After transmission, the process may return to step SA-01 to return to the standby state after setting the connection mode.

  Next, the linked copy process of the image processing apparatus 2 as a slave unit will be described. FIG. 8 is a data flow diagram of the image processing apparatus (slave unit) 2 during linked copying. FIG. 9 is a flowchart showing a processing procedure of the image processing apparatus (child device) 2 at the time of linked copying.

  The image processing apparatus (slave unit) 2 is in a data frame reception waiting state from the image processing apparatus (master unit) 1 via the network 20 (step SB-01), and receives the data frame (step SB-01). ) The main control unit 21 analyzes the received data frame (step SB-02). Then, the main control unit 21 determines whether or not an initial setting command is included in the data frame (step SB-03), and if not included (step SB-03: No), the data frame is again displayed. Waiting to receive.

  On the other hand, when the initial setting command is included in the data frame (step SB-3: Yes), the main control unit 21 shifts the current mode to the connection mode (step SB-04), A data frame reception waiting state, that is, a state in which only a print command is accepted (step SB05).

  When the data frame is received after shifting to the connection mode (step SB-05: Yes), the main control unit 21 analyzes the received data frame (step SB-06). Then, the main control unit 21 checks whether or not a print command is included in the data frame (step SB-07). If not included (step SB-07: No), the data frame is received again. It will be in a waiting state.

  On the other hand, if the received data frame includes a print command (step SB-07: Yes), the image data from the data frame and the print conditions (for example, the number of copies, the paper output size, and the image quality mode are character mode). The image processing unit 23 is set according to the printing conditions and the image data is printed by the printer unit. (Step SB-08).

  Specifically, the main control unit 21 temporarily stores the image data included in the received data frame in the memory 17 (step S21). Thereafter, the main control unit 21 reads the image data from the memory 17 (Step SS22), performs image processing in the image processing unit 12, and stores it again in the memory 17 (Step S23). Then, the re-stored image data is read out, image-processed again by the image processing unit 13, transmitted to the printer unit, and printed out (step S24).

  As described above, in the image processing system according to the present embodiment, linked copy processing is performed according to the flow described with reference to FIGS.

Next, linked print processing will be described as an example of linked processing executed by the image processing apparatuses 1 and 2. That is, linked printing is instructed from the host computer and linked printing is performed between the image processing apparatuses 1 and 2. FIG. 10 is a data flow diagram during linked print processing.
When the host computer 3 instructs the image processing apparatus 1 to print a document image (step S31), the image processing apparatus 1 performs a drawing process within itself. The image processing apparatus 1 prints out the processed data (step S32). Then, the image processing apparatus 1 generates a data frame in which a print command, a printing condition, and image data are set, and transmits this data frame to the image processing apparatus 2 at a predesignated address (step S33). At this time, a local protocol is used as the communication protocol. The image processing apparatus 2 that has received the data frame performs printout according to the information (step S34).
The data flow shown in FIG. 10 is mainly established between the multifunction printers shown in FIG. 2, between the multifunction printer shown in FIG. 2 and the single function printer shown in FIG. 3, and between the single function printers shown in FIG.

  Next, FIGS. 11 to 13 show the data flow of linked printing in the controllers of the image processing apparatuses 1 and 2. In the following description, the image processing device 1 shown in FIGS. 11 and 12 is a parent device, and the image processing device 2 shown in FIG. 13 is a child device.

  In the following description, as an example, the image processing apparatus 1 shown in FIG. 7 is a master unit, and the image processing apparatus 2 shown in FIG. 7 is a slave unit. For example, the image processing apparatus 1 is a multi-function printer shown in FIG. 2, and the image processing apparatus 2 is a single function printer shown in FIG.

  FIG. 11 is a data flow diagram of the image processing apparatus (master unit) 1 during linked printing. FIG. 12 is a flowchart showing the processing procedure of the image processing apparatus (master unit) 1 during linked printing.

  First, in the image processing apparatus 1, the main control unit 11 determines whether or not the current mode is the connection mode with reference to the RAM (step SC-01), and when it is the connection mode (step SC). −01: Yes), similarly to the linked copy process, a data frame in which an initial setting command for shifting the slave unit to the linked mode is generated (step SC-02). The main control unit 11 initializes the slave unit by transmitting this data frame to the image processing apparatus 2 of the slave unit via the network 20 (step SC-03).

  Then, a print request and print conditions including print data from the host computer (for example, the number of copies, paper output size, whether the image quality mode is a character mode, a photo mode or a character photo mode, duplex / single-sided printing, etc. (Step SC-04), when the print request and the print condition from the host computer are received (step SC-04: Yes), the designated print condition is received by the image processing unit 13. After setting, print processing is performed by the printer unit (step SC-05).

  Specifically, the image processing apparatus (master unit) 1 receives, for example, a drawing command (print request) from the host computer 3 via the network 10 and stores it in the memory 17 (step S41). The main control unit 11 performs drawing processing, and the image data is stored again in the memory 17 (step S42). The re-stored data is subjected to image processing by the image processing unit 13 and transmitted to the printer unit (step S43). Then, the image data is printed out.

  Next, the main control unit 11 of the image processing apparatus 1 generates a data frame in which the print command, the print condition, and the image data are set (step SC-06), and the image at the address specified in advance via the network 20. The data frame is transmitted to the processing device (slave device) 2 (step SC-07, S44).

  Next, the connection print processing of the image processing apparatus 2 as a slave unit will be described. FIG. 13 is a data flow diagram of the image processing apparatus (child device) 2 at the time of linked printing. Here, the flowchart of the linked print process in the image processing apparatus 2 is the same as that in FIG.

  When the image processing device (child device) 2 receives a data frame including a print command and image data from the image processing device 1 (parent device) via the network 20, the image processing device 2 extracts the image data from the data frame and temporarily Store in the memory 27 (step S51). The main control unit 21 reads out the image data stored in the memory 27, performs image processing again in the image processing unit 23, transmits the image data to the printer unit, and prints out (step S52).

  As described above, in the image processing system according to the present embodiment, linked print processing is performed according to the flow described with reference to FIGS. In the above description, the linked process has been described taking the linked copy process and the linked print process as examples. However, the present invention is not limited to these. In the image processing system according to the present embodiment, any connection process related to image processing can be executed. For example, it may be configured to perform a linked scan process in which image data scanned by the image processing apparatus 1 is stored in a storage medium of the image processing apparatus 2 that is a slave. In this case, a data frame in which an accumulation command and image data are set may be generated from the image processing apparatus 1 and transmitted to the image processing apparatus 2.

  In the description of the above embodiment, the image processing apparatus and the computer unit (information processing apparatus) are connected in the same manner, or the image processing apparatus and the HDD (Hard Disk) are not limited to the connection operation between the image processing apparatuses. Drive) may be connected in the same manner.

As described above, according to the present embodiment, the following effects are obtained.
The image processing device (single function printer / multifunction printer) provides a LAN interface as a connection-dedicated interface, and this interface does not use a general-purpose protocol typified by TCP / IP. It is possible to prepare a configuration that is not subject to extremely few high-speed transfers and distance constraints.

  In addition, by connecting with computer units using such an interface protocol, it is possible to prepare a configuration that is not subject to high-speed transfer and distance restriction with extremely low overhead.

  While the present embodiment has been described above, it is not limited to the above description, and various modifications can be made without departing from the scope of the present invention.

  The present invention can be applied to an image processing apparatus, an image processing system, and an image processing method that enable network connection and perform cooperation processing with other units.

It is a figure which shows the structure of the image processing system of this Embodiment. FIG. 2 is a block diagram illustrating a controller configuration of the image processing apparatus (multifunction printer) according to the present embodiment. It is a data structure figure of the data frame prescribed | regulated by the local protocol of this Embodiment. FIG. 2 is a block diagram illustrating a controller configuration of the image processing apparatus (single function printer) according to the present embodiment. It is a figure which shows the data path at the time of the connection copy in the image processing system of this Embodiment. It is a figure which shows the data path at the time of the linked copy in the image processing apparatus (master) of this embodiment. 6 is a flowchart illustrating a processing procedure of the image processing apparatus (master) at the time of linked copying according to the present embodiment. It is a figure which shows the data path at the time of the linked copy in the image processing apparatus (slave unit) of this Embodiment. It is a flowchart which shows the process sequence of the image processing apparatus (slave unit) 2 at the time of the linked copy of this Embodiment. It is a figure which shows the data path at the time of the connection printing in the image processing system of this Embodiment. FIG. 4 is a diagram illustrating a data path during linked printing in the image processing apparatus (master unit) according to the present embodiment. 4 is a flowchart illustrating a processing procedure of the image processing apparatus (master unit) 1 during linked printing according to the present embodiment. It is a figure which shows the data path at the time of the connection printing in the image processing apparatus (slave machine) of this Embodiment.

Explanation of symbols

1 Image processing device (base unit)
2 Image processing device (child device)
3, 4, 5 Host computer (information processing terminal device)
10 Network 11, 21 Main control unit 12, 13, 23 Image processing unit 14, 24 Input / output control unit 15 FAX Board
16, 26 USB-Host
17, 27 Memory (ROM and RAM)
20 network

Claims (11)

A first network interface for connecting to a first network, which is an image processing apparatus and performs communication according to a general-purpose protocol;
A second network interface for connecting to a second network in which communication is performed in accordance with a local protocol, which is a predetermined communication protocol with an external device;
An image processing apparatus comprising: A control unit that performs communication processing that is image processing in cooperation with the external device by communicating with the external device through the second network interface according to the local protocol.
The image processing apparatus according to claim 1, further comprising: The local protocol further defines a data structure of a data frame to be transmitted to the external device so that a command for instructing a function to be executed by the external device can be set.
The control unit generates a data frame in which the command is set, and transmits the generated data frame to the external device through the second network interface, thereby performing the connection process with the external device. The image processing apparatus according to claim 2, wherein the image processing apparatus is executed.   The control unit generates a data frame in which an initial setting command, which is an instruction to perform the connection process, is set as the command, and the generated data frame is generated by the second network interface. The image processing apparatus according to claim 3, wherein the connection process is started with the external apparatus by transmitting to the external apparatus. A scanner unit that scans a document and obtains image data;
A first printer unit that prints the image data;
The external device includes a second printer unit that prints the image data.
The control unit executes a copy process in which the first printer unit prints image data acquired by scanning a document with the scanner unit, and prints the image data on the second printer unit of the external device. A data frame in which a print command indicating an instruction is set is generated, and the generated data frame is transmitted to the external device through the second network interface, so that the connection as the connection process with the external device is performed. The image processing apparatus according to claim 3, wherein a copy process is executed. A first printer unit for printing image data;
The first network interface receives image data from the outside via the first network;
The external device includes a second printer unit that prints the image data.
The control unit executes a print process for printing image data by the first printer unit, and a data frame in which a print command indicating an instruction to print the image data is set on the second printer unit of the external device And a connection print process as the connection process is executed with the external apparatus by transmitting the generated data frame to the external apparatus through the second network interface. Item 4. The image processing apparatus according to Item 3. A scanner unit that scans a document and obtains image data;
The external device includes a storage unit that stores the image data,
The control unit executes scan processing for acquiring image data by scanning a document with the scanner unit, and sets data for setting an accumulation command indicating an instruction to accumulate the image data in the storage unit of the external device Generating a frame, and transmitting the generated data frame to the external device through the second network interface, thereby executing a link scan process as the link process with the external device. The image processing apparatus according to claim 3.   The image processing apparatus according to claim 1, wherein the general-purpose protocol is a TCP / IP protocol. An image processing system comprising a first image processing device and the first image processing device,
The first image processing apparatus includes:
A first network interface for connecting to a first network in which communication is performed according to a general protocol;
A second network interface for connecting to a second network in which communication is performed in accordance with a local protocol which is a predetermined communication protocol with the second image processing device;
In accordance with the local protocol, a first control unit that communicates with the second image processing apparatus by the second network interface and executes a connection process that is an image process in cooperation with the second image processing apparatus; With
The second image processing device includes:
A third network interface for connecting to the second network with the first image processing device;
A second control unit configured to communicate with the first image processing apparatus through the second network interface according to the local protocol, and to execute the connection process with the first image processing apparatus;
An image processing system comprising: The local protocol can further set a command for instructing the second image processing device to execute a data structure of a data frame transmitted / received between the first image processing device and the second image processing device. To
The first control unit generates a data frame in which the command is set, and transmits the generated data frame to the second image processing device through the second network interface, thereby the second image processing device. And execute the connection process with
The third network interface receives the data frame from the first image processing device according to the local protocol;
The second control unit analyzes the received data frame, extracts the command from the data frame, and performs image processing according to the extracted command, whereby the second control unit performs the image processing with the first image processing apparatus. The image processing system according to claim 9, wherein a connection process is executed. An image processing method executed by an image processing system including a first image processing device and the first image processing device,
The first image processing apparatus includes:
A first network interface for connecting to a first network that performs communication according to a general protocol and a second network that performs communication according to a local protocol that is a predetermined communication protocol between the second image processing apparatus and the second network A second network interface for connection,
The second image processing apparatus includes a third network interface for connecting to the second network with the first image processing apparatus,
In accordance with the local protocol, the first image processing apparatus communicates with the second image processing apparatus through the second network interface, and performs a connection process that is image processing in cooperation with the second image processing apparatus. Steps to perform;
The second image processing device communicates with the first image processing device by the second network interface according to the local protocol, and executes the connection processing with the first image processing device;
An image processing method comprising:

Images