JP2011201140A - Processing apparatus, processing system, and control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To stop or maintain supply of power to an expanded function part by interlocking it with the cooperated processing operation in the constitution for performing the processing operation in which the expanded function part of a processing apparatus is cooperated with other processing apparatuses.SOLUTION: A main image processing apparatus 10 includes a basic function part 20, the expanded function part 50, a main power switch 12 for changing the supplying condition of power according to operations, a basic function power supply control part 32 and an expanded function power supply control part 61 for stopping the supplying of power to the basic function part 20 and the expanded function part 50 when the operation for stopping the supplying of power is applied to the main power switch 12, and an expanded function control part 70 for maintaining the supplying of power to the expanded function part 50 with the expanded function power supply control part 61 based on the condition of the processing operation performed in cooperation of the expanded function part 50 with a periphery image processing apparatus.

Description

  The present invention is a processing apparatus, a processing system, and a control program.

In Patent Literature 1, when a main image device set in advance among a plurality of image devices is turned off, a power-off command is sent to other image devices via a network. A power management system for a group of devices that turns off the power of its own device when an image device receives a power-off command is disclosed.
Patent Document 2 discloses an image forming apparatus that makes a response request to an external device connected to a network and performs on / off control of its own power supply depending on whether there is a response from the external device.

JP 2006-165990 A JP 2006-259181 A

  An object of the present invention is to stop or maintain power supply to an extended function unit in conjunction with the linked process operation in a configuration in which the extended function unit of the processing apparatus performs a process operation linked with another processing device. is there.

  The invention according to claim 1 is a first processing means for performing the requested processing, a second processing means for performing the requested processing, capable of processing operation in cooperation with another processing apparatus, and operation. And switching operation means for switching the power supply state in response to the switching operation means, and when the operation for stopping the power supply is performed on the switching operation means, the supply of power to the first processing means and the second processing means is stopped. And a maintaining means for maintaining the supply of power to the second processing means by the power supply means based on the state of the processing operation in cooperation between the second processing means and the other processing apparatus. Is a processing apparatus.

According to a second aspect of the present invention, in the first aspect of the invention, the maintaining unit is configured such that when the second processing unit performs a processing operation in cooperation with the other processing device, the second processing unit by the power supply unit. It is the processing apparatus which maintains supply of the power supply to.
According to a third aspect of the present invention, in the second aspect of the present invention, when the second processing unit performs a processing operation in cooperation with the other processing device when the other processing device is activated. It is the processing apparatus of the description to determine.

  The invention according to claim 4 starts with the update of the operating state information of the other processing device according to any one of claims 1 to 3, and the update is started when the own device is activated. A state of a processing operation in cooperation between the second processing unit and the other processing device based on information on an operation state of the other processing device updated by the updating unit. It is a processing apparatus which determines.

According to a fifth aspect of the present invention, in the method according to the fourth aspect, the update unit is configured to perform the other based on the activation information transmitted from the other processing device when the other processing device is activated. It is a processing apparatus which updates the information of the operation state of the processing apparatus.
The invention according to claim 6 is the processing apparatus according to any one of claims 1 to 5, further comprising invalid operation means for invalidating maintenance by the maintenance means according to an operation.

According to a seventh aspect of the invention, in the sixth aspect, when the invalid operation means is operated to invalidate the maintenance by the maintenance means, the processing operation linked by the second processing means cannot be performed. It is a processing apparatus provided with the transmission means which transmits the information of the content to said other processing apparatus.
The invention according to claim 8 is the maintenance according to any one of claims 1 to 7, wherein the maintaining means maintains the supply of power to the second processing means by the power supply means. It is a processing apparatus provided with the alerting | reporting means to alert | report.

  The invention according to claim 9 performs the requested processing with the first processing device that performs the requested processing, and the processing operation in cooperation with the first processing device that is connected via the communication means. A second processing device capable of performing the requested processing, and the second processing device is configured to perform the requested processing and is connected via the communication means. Second processing means capable of processing operation in cooperation with the first processing apparatus, switching operation means for switching the power supply state according to the operation, and operation for stopping the power supply to the switching operation means were performed The power supply means for stopping the supply of power to the first processing means and the second processing means, and the state of the processing operation in cooperation between the second processing means and the first processing device, The power supply means supplies power to the second processing means. And maintaining means for maintaining the supply of a processing system comprising a.

  The invention according to claim 10 is a first processing means for performing the requested processing, a second processing means for performing the requested processing and capable of processing operation in cooperation with another processing apparatus, and for operation. A power supply means for stopping the supply of power to the first processing means and the second processing means when an operation to stop the power supply is made to the switching operation means for switching the power supply state accordingly; Based on the state of the processing operation in cooperation between the second processing means and the other processing device, the computer executes a maintenance means for maintaining the supply of power to the second processing means by the power supply means. A control program readable by a computer.

According to the first, ninth, and tenth aspects of the present invention, in the configuration in which the second processing means of the processing device performs a processing operation linked to another processing device, the second processing means is linked to the linked processing operation to the second processing means. Can be stopped or maintained.
According to the second aspect of the present invention, even when an operation for stopping the supply of power to the switching operation means is performed, when the second processing means performs a processing operation in cooperation with another processing apparatus, the processing operation is performed. It becomes possible.

According to the third aspect of the present invention, the other processing apparatus can perform a processing operation in cooperation with the second processing means while it is operating.
According to the invention which concerns on Claim 4, compared with the case where there is no such structure, the state of the processing operation linked with the other processing apparatus can be determined earlier.
According to the invention which concerns on Claim 5, compared with the case where there is no such structure, the burden of the update process of the information of the operation state of another processing apparatus can be reduced.

According to the invention which concerns on Claim 6, a user can stop the 2nd processing means which the maintenance means supplies and supplies and operates.
According to the seventh aspect of the present invention, the user of another processing apparatus can be notified that the processing in cooperation with the second processing means cannot be performed due to the stop of the second processing means.
According to the eighth aspect of the present invention, it is possible to notify the user that the second processing unit is in an operating state after the switching operation unit is operated to stop the supply of power.

1 is a diagram illustrating a schematic configuration of an image processing system according to a first embodiment. It is a figure which shows the structural example of a main image processing apparatus and a periphery image processing apparatus. 1 is a diagram illustrating an example of an image processing system in which each image processing apparatus connected to a communication unit includes a basic function unit and an extended function unit. It is a block diagram which shows the example of schematic structure of a main image processing apparatus. It is a block diagram which shows the example of schematic structure of a basic function control part. It is a block diagram which shows the example of schematic structure of an extended function control part. It is a figure which shows the example of a list. It is a flowchart which shows the process sequence which concerns on the power supply process in a main image processing apparatus. It is a flowchart which shows the process of an extended function part. It is a flowchart which shows the subroutine which is a specific example of the list update process of step S34 of FIG. It is a flowchart which shows a process when the power supply of the extended function part to which power supply is continued even after the main power switch is turned off is forcibly turned off. It is a flowchart which shows the process of the extended function part in 2nd Embodiment. It is a flowchart which shows the list update process of an extended function part. It is a flowchart which shows the process of the periphery image processing apparatus in the modification of 2nd Embodiment. It is a flowchart which shows the process of the main image processing apparatus in the modification of 2nd Embodiment.

First, an image processing system according to a first embodiment to which the present invention is applied will be described.
FIG. 1 shows a schematic configuration of an image processing system 1 according to the first embodiment.
As shown in FIG. 1, the image processing system 1 includes a main image processing device 10 and a plurality of peripheral image processing devices 101, 102,. In this image processing system, a main image processing apparatus 10 and peripheral image processing apparatuses 101, 102,... Are communicably connected via communication means 200 such as a LAN (Local Area Network).

  The peripheral image processing apparatuses 101 and 102 have basic function units 101a and 102a. The basic function units 101a and 102a perform basic processing such as image reading processing and printing processing in the peripheral image processing apparatuses 101 and 102.

  The main image processing apparatus 10 includes a basic function unit 20 and an extended function unit 50. The basic function unit 20 performs basic processing in the main image processing apparatus 10. For example, the processing of the basic function unit 20 of the main image processing device 10 and the processing of the basic function units 101a and 102a of the peripheral image processing device are the same processing. Further, the extended function unit 50 has an extended function (expanded processing) that cannot be provided by the basic function unit 20 in the main image processing apparatus 10. Further, the extended function unit 50 can perform a processing operation in cooperation with the peripheral image processing apparatuses 101a and 102a. That is, the peripheral image processing apparatus 101 and the peripheral image processing apparatus 102 can perform processing using the extended function of the main image processing apparatus 10.

FIG. 2 shows a configuration example of the main image processing apparatus 10 and the peripheral image processing apparatus 101 (102,...).
As shown in FIG. 2, the main image processing apparatus 10 and the peripheral image processing apparatus 101 are image forming apparatuses that can read an image and form the image on a print medium. In this example, both the main image processing apparatus 10 and the peripheral image processing apparatus 101 include image reading apparatuses 21 and 101a1 and printing apparatuses 22 and 101a2 as basic function units 20 and 101a. The main image processing apparatus 10 and the peripheral image processing apparatus 101 both have basic function control units 40 and 101a3 for controlling the image processing reading apparatuses 21 and 101a1 and the printing apparatuses 22 and 101a2.

  As a result, in the main image processing apparatus 10 and the peripheral image processing apparatus 101, the image of the original is read by the image reading apparatuses 21 and 101a1 under the control of the basic function control units 40 and 101a3, and based on the image data obtained by the reading. Then, an image is formed on the print medium by the printing devices 22 and 101a2. The printing apparatuses 22 and 101a2 are configured to form an image on a printing medium by a printing method such as an electrophotographic method or an inkjet recording method.

  On the other hand, the main image processing apparatus 10 includes an extended function control unit 70 (extended function unit 50) that is not included in the peripheral image processing apparatus 101. For example, the extended function control unit 70 performs various processing such as format conversion and high compression processing on the image data obtained by the image reading device 21.

  The main image processing apparatus 10 operates the extended function provided by the extended function control unit 70 (extended function unit 50) in cooperation with the peripheral image processing apparatus 101 (basic function unit 101a). Can be done. For example, in this cooperation operation (cooperation function), the peripheral image processing apparatus 101 communicates the read image data read by the image reading apparatus 101a1 and processing instruction data (image processing content data) for the read image data. To the main image processing apparatus 10. In the main image processing apparatus 10, when these data are received via the communication unit 200, the extended function control unit 70 performs image processing on the read image data according to the content of the instruction data. For example, if the function provided by the extended function control unit 70 is format conversion or high compression processing, format conversion or high compression processing is performed on the read image data accordingly. Then, the main image processing apparatus 10 transmits the processed data processed by the extended function control unit 70 to the peripheral image processing apparatus 101 via the communication unit 200. The peripheral image processing apparatus 101 stores the received processed data in an unillustrated HDD (Hard Disk Drive) or transmits it to a designated unillustrated PC.

  3, all of the image processing apparatuses 310, 320, 330,... Connected to the communication unit 200 are all basic function units 311, 321, 331,. , 332,...

  As shown in FIG. 3, each image processing device 310, 320, 330,... Has basic function units 311, 321, 331,... And extended function units 312, 322, 332,. In such a case, if a new extended function is required for the image processing apparatus, it may be necessary to replace all image processing apparatuses that require the extended function.

On the other hand, as in this embodiment, the extended function unit 50 of the main image processing apparatus 10 can be operated in cooperation with the peripheral image processing apparatuses 101, 102,. If only the image processing apparatus 10 copes with it, the other peripheral image processing apparatuses 101, 102,... That do not have the extended function unit 50 can use the function.
However, when the extended function unit 50 is under the same power control as that of the basic function unit 20 as in a conventional option card, if the main image processing apparatus 10 is turned off, the extended function unit 50 is also turned off. It will be done.

  In such a case, for example, if the peripheral image processing devices 101, 102,... That do not have the extended function unit use the extended function provided by the extended function unit 50 of the main image processing device 10, In the peripheral image processing apparatuses 101, 102,..., The extended function cannot be used. In order to avoid such a situation, it is convenient for the user or administrator to turn off the main image processing apparatus 10 after checking the operation status of the peripheral image processing apparatuses 101, 102,. Incurs a decline.

  For this reason, in the first embodiment, the extended function unit 50 of the main image processing apparatus 10 represents the peripheral image processing apparatuses 101, 102,... (In the following description, the peripheral image processing apparatus 101 is represented. In the configuration in which the extended function provided by the extended function unit 50 of the main image processing apparatus 10 is used in cooperation, the extended function is used when the main image processing apparatus 10 is turned off. The operation of the extended function unit 50 is continued according to the operation status of the peripheral image processing apparatuses 101, 102,.

The configuration and processing in the first embodiment will be described below.
FIG. 4 shows an example of a schematic configuration of the main image processing apparatus 10 of the first embodiment.
As shown in FIG. 4, the main image processing apparatus 10 includes a power supply unit (power supply unit, power supply system) 11, a main power switch 12, a sub power switch 13, a basic function unit 20, an image reading device 21, and a printing device 22. And an extended function unit 50.

  The basic function unit 20 performs basic processing in the main image processing apparatus 10 as described above. The basic function unit 20 includes a basic function control unit 40, a basic function power supply control unit 32, and a main power switch state detection unit 33.

FIG. 5 shows an example of the configuration of the basic function control unit 40.
As shown in FIG. 5, the basic function control unit 40 includes a CPU (Central Processing Unit) 41, a ROM (Read Only Memory) 42, a RAM (Random Access Memory) 43, a reading device I / F (interface) 44, and a printing device. It has an I / F 45, an extended function unit I / F 46, and a power management unit 47.

  For example, the reading device I / F 44 is a connection interface with the image reading device 21. The printing apparatus I / F 45 is a connection interface with the printing apparatus 22. The extended function unit I / F 46 is a connection interface for transmitting / receiving data and command status to / from the extended function unit 50, notification of a switch state, and the like. In addition, the power management unit 47 controls the basic function power control unit 32 based on the input from the main power switch state detection unit 33. The ROM 42 stores a program 42 a and data used for processing by the basic function control unit 40.

  Further, as described above, the extended function unit 50 has an extended function (extended processing) that cannot be provided by the basic function unit 20 in the main image processing apparatus 10. The extended function unit 50 includes an extended function control unit 70, an extended function power supply control unit 61, a power supply state detection unit 62, and a sub power switch state detection unit 63.

FIG. 6 shows an example of the configuration of the extended function control unit 70.
As illustrated in FIG. 6, the extended function control unit 70 includes a CPU 71, ROM 72, RAM 73, nonvolatile storage unit 74, communication I / F 75, basic function unit I / F 76, and power supply management unit 77.
For example, the nonvolatile storage unit 74 is an HDD (Hard Disk Drive). The nonvolatile storage unit 74 stores a program 74 a and data used for processing by the extended function control unit 70.

Here, the program 74a may be stored in the non-volatile storage unit 74 from the beginning of shipment of the main image processing apparatus 10, but a storage medium such as a CD-ROM may be used by the user or the like after the shipment. It is also possible to read the data from the storage unit 74 and store it in the nonvolatile storage unit 74.
The communication I / F 75 is an interface for connecting to communication means such as a LAN or the Internet. The basic function unit I / F 76 is a connection interface for transmitting / receiving data and command status to / from the basic function unit 20 and notifying a switch state. The power management unit 77 controls the extended function power control unit 61 based on the input from the sub power switch state detection unit 63.

  The extended function control unit 70 generates and stores a list of statuses (for example, operating states) for all the peripheral image processing apparatuses 101. Therefore, in the extended function control unit 70, there is a list management program as the program 74a, and the CPU realizes the list management unit 71a by this list management program. A list 74 b in which generation or update of the list management unit 71 a is managed is stored in the nonvolatile storage unit 44.

FIG. 7 shows an example of the list 74b.
As shown in FIG. 7, for example, in the list 74b, the name, IP address, and status of the peripheral image processing apparatus are managed in association with each other.

Next, processing related to power processing in the main image processing apparatus 10 will be described.
8 and 9 are flowcharts showing the processing procedure. FIG. 8 shows a processing procedure of the basic function unit 20. FIG. 9 shows a processing procedure of the extended function unit 50. The processing of each component of the basic function unit 20 and the extended function unit 50 will be described along the processing procedures of FIGS.

  First, the power processing procedure of the basic function unit 20 will be described. As shown in FIG. 8, the power management unit 47 of the basic function unit 20 uses the detection signal detected by the main power switch state detection unit 33 in step S11. Then, it is determined whether or not the main power switch 12 is OFF. When the power management unit 47 determines that the main power switch 12 is OFF, the process proceeds to step S12.

In step S12, the basic function control unit 40 notifies the extended function unit 50 (power supply state detection unit 62) that the main power switch 12 is OFF.
In subsequent step S <b> 13, the basic function power supply control unit 32 performs a process of turning off the power supply to the basic function unit 20. Thereby, the basic function unit 20 stops the power supply from the power supply unit 11.

  Next, the power processing procedure of the extended function unit 50 will be described. As shown in FIG. 9, in step S31, the extended function control unit 70 of the extended function unit 50 turns off the main power switch 12 by the power state detection unit 62. It is determined whether or not. Specifically, the extended function control unit 70 determines whether or not the power supply state detection unit 62 has a notification that the main power switch 12 is OFF. When the extended function control unit 70 determines that the main power switch 12 is OFF, the process proceeds to step S32.

  In step S <b> 32, the extended function control unit 70 determines whether the cooperation function with the peripheral image processing apparatus 101 is valid. For example, the extended function control unit 70 determines whether or not the extended function unit 50 can accept a processing request such as image processing from the peripheral image processing apparatus 101. Alternatively, the extended function control unit 70 determines whether or not the extended function unit 50 can operate the cooperative function, and also determines whether or not the extended function unit 50 is operating the cooperative function. If the extended function control unit 70 determines that the cooperation function with the peripheral image processing apparatus 101 is valid, the process proceeds to step S33. If the extended function control unit 70 determines that the cooperation function with the peripheral image processing apparatus 101 is invalid, the process proceeds to step S36.

In step S33, the list management unit 71a realized by the CPU 71 initializes the statuses of all peripheral image processing apparatuses on the list to OFF.
In subsequent step S34, the list management unit 71a performs list update processing. Specifically, the list management unit 71a confirms a response from the peripheral image processing device. Then, the list management unit 71a updates the status of the peripheral image processing apparatus on the list stored in the list storage unit 72 based on the response confirmation result.

  In subsequent step S35, the list management unit 71a determines whether or not the statuses of all the peripheral image processing apparatuses on the list are OFF. If the list management unit 71a determines that the statuses of all the peripheral image processing apparatuses on the list are OFF, the process proceeds to step S36. If the list management unit 71a determines that the statuses of all the peripheral image processing apparatuses on the list are not OFF, the process continues from step S34 after a predetermined time has elapsed.

In step S <b> 36, the extended function control unit 70 performs a shutdown process for the extended function unit 50. At this time, the extended function control unit 70 performs a process of turning off the power supply from the power supply unit 11 by the extended function power supply control unit 61 as a shutdown process.
FIG. 10 is a flowchart showing a subroutine which is a specific example of the list update process in step S34.

As shown in FIG. 10, first in step S51, the list management unit 71a issues a response request message to all the peripheral image processing apparatuses in the list.
That is, the list management unit 71a transmits a response request message to all the peripheral image processing devices via the communication unit 200.

  In subsequent step S52, the list management unit 71a determines whether or not there is a response from the peripheral image processing apparatus. That is, the list management unit 71a determines whether or not a response message corresponding to the response request message has been transmitted from the peripheral image processing apparatus via the communication unit 200. If the list management unit 71a determines that there is a response from the peripheral image processing apparatus, the process proceeds to step S53. If the list management unit 71a determines that there is no response from the peripheral image processing apparatus, the process proceeds to step S54.

In step S53, the list management unit 71a sets the status of the list for the peripheral image processing apparatus having a response to ON (“1”). Then, the list management unit 71a ends the process shown in FIG. 10 (proceeds to the process of step S35).
In step S54, the list management unit 71a sets the list status to OFF (“0”) for the peripheral image processing apparatus that does not respond. Then, the list management unit 71a ends the process shown in FIG. 10 (proceeds to the process of step S35).

  As described above, the list management unit 71a confirms the response to the peripheral image processing apparatus by a so-called polling method, and sets or updates the status of the peripheral image processing apparatus on the list based on the response confirmation result.

  Next, since the peripheral image processing apparatus that uses the extended function is operating, the power supply of the extended function unit 50 that is continuously supplied with power after the main power switch 12 is turned off for some reason. Processing for forcibly turning off will be described.

FIG. 11 is a flowchart showing the processing.
As shown in FIG. 11, first, in step S61, the power management unit 77 of the extended function control unit 70 determines whether or not the sub power switch 13 has been pressed based on the detection signal from the sub power switch state detection unit 63. judge. When the power management unit 77 determines that the sub power switch 13 has been pressed, the process proceeds to step S62.

In step S <b> 62, the extended function control unit 70 notifies the peripheral image processing apparatus 101 via the communication unit 200 that the cooperation function is invalid.
In subsequent step S <b> 63, the power management unit 77 performs processing for turning off the power supply to the extended function unit 50.
The image processing system 1 is configured as described above, and the operation of the image processing system 1 is as follows.

When the main power switch 12 is turned off, the main image processing apparatus 10 performs a process of turning off the power supply to the basic function unit 20 (see FIG. 8).
On the other hand, even if the main power switch 12 is turned off, the main image processing apparatus 10 initializes the statuses of all the peripheral image processing apparatuses on the list to OFF when the cooperation function with the peripheral image processing apparatus is valid. (Steps S31 to S33).

  Then, the main image processing apparatus 10 confirms the response to the peripheral image processing apparatus 101, and updates the list based on the result of the response confirmation (step S34). That is, the main image processing device 10 transmits a response request message to all the peripheral image processing devices in the list, sets the list status for the peripheral image processing device having the response to ON, and has no response. The status of the list for the peripheral image processing apparatus is set to OFF (see FIG. 10). Thereby, for example, the main image processing apparatus 10 does not have a response at first, but when there is a response later, the status of the list for the peripheral image processing apparatus is changed to ON. On the contrary, the list management unit 71a changes the status of the list for the peripheral image processing apparatus to OFF when there is an initial response but there is no response later.

  When the main image processing apparatus 10 determines that the statuses of all the peripheral image processing apparatuses on the list are OFF, the main image processing apparatus 10 performs a shutdown process of the extended function unit 50 (step S36).

  By the operation as described above, the main image processing apparatus 10 turns off the power supply to the basic function unit 20 when the main power switch 12 is turned off. Then, if the cooperative operation with the peripheral image processing apparatus is enabled, the main image processing apparatus 10 then expands the function on the condition that the statuses of all the peripheral image processing apparatuses on the list are turned off. The power supply to the unit 50 is turned off.

  Further, when the cooperation function with the peripheral image processing apparatus 101 is originally disabled, the main image processing apparatus 10 and the extended function section 50 together with the basic function section 20 when the main power switch 12 is turned off. The power supply to is also turned off.

  Further, in the main image processing apparatus 10, the extended function unit 50 allows the peripheral image processing apparatus when the sub power switch 13 is turned off even when power is continuously supplied after the main power switch 12 is turned off. A notification that the cooperation function is disabled is sent to 101, and a process of turning off the power supply to the extended function unit 50 is performed (see FIG. 11).

The main image processing apparatus 10 is activated as follows when the main power switch 12 is turned on.
Here, before the main power switch 12 is turned on, the basic function power control unit 32 and the main power switch state detection unit 33 of the basic function unit 20 and the extended function power control unit 61 and the power supply state detection of the extended function unit 50 are detected. The unit 62 is driven by being constantly supplied with power from the power supply unit 11. That is, these components are always supplied with power from the power supply unit 11 regardless of the operation state of the main power switch 12 and the sub power switch 13. Therefore, the state of the main power switch 12 can be detected.

  Thus, the basic function power supply control unit 32 outputs a power supply request to the power supply unit 11 when detecting the ON of the main power switch 12 based on the detection signal detected by the main power switch state detection unit 33. Then, the basic function control unit 40 (for example, the power management unit 47) performs a boot operation after power supply is started, and outputs a startup request to the power state detection unit 62. On the other hand, the extended function power supply control unit 61 outputs a power supply request to the power supply unit 11 when the activation request is input to the power supply state detection unit 62. Then, the extended function control unit 70 performs a boot operation after power supply is started.

  As described above, in the first embodiment, the main image processing apparatus 10 supplies power from the power supply unit 11 to the basic function unit 20 and the extended function unit 50 when the main power switch 12 is turned off. In the configuration in which the supply is turned off, the processing that does not stop the power supply, that is, the processing that maintains the power supply based on the state of the processing operation in cooperation between the extended function unit 50 and the peripheral image processing apparatus 101 is possible. Yes.

  Specifically, the main image processing apparatus 10 is effective even when the main power switch 12 is turned off, and a response is received from the peripheral image processing apparatus 101 that uses the cooperation function. In some cases (when the peripheral image processing apparatus 101 is powered on), it is possible that the extended function unit 50 is currently performing a processing operation in cooperation with the peripheral image processing apparatus 101, or a cooperative processing operation can be performed in the future. Therefore, the supply of power to the extended function unit 50 is not stopped (see FIG. 9).

  As a result, the main image processing apparatus 10 determines whether or not the peripheral image processing apparatus 101 that uses the extended function is operating in a configuration in which the extended function unit 50 performs a processing operation in cooperation with the peripheral image processing apparatus 101. Thus, the supply of power to the extended function unit 50 can be stopped or maintained.

  As a result, the main image processing apparatus 10 can prevent the extended function unit 50 from performing a processing operation in cooperation with the peripheral image processing apparatus 101 due to the main power switch 12 being turned off.

Further, the peripheral image processing apparatus 101 can use the extended function of the extended function unit 50 of the main image processing apparatus 10 while it is operating.
In the first embodiment, the main image processing apparatus 10 is configured to forcibly turn off the power supply of the extended function unit 50 that is continuously supplied with power even after the main power switch 12 is turned off. A power switch 13 is provided (see FIG. 11).

Accordingly, when there is a need to turn off the cooperation function by the extended function unit 50 that is continuously supplied with power even after the main power switch 12 is turned off for some reason, the user forcibly turns it off. be able to.
Further, in the first embodiment, the main image processing apparatus 10 disables the cooperation function for the peripheral image processing apparatus 101 via the communication unit 200 when the cooperation function by the extended function unit 50 is turned off by the sub power switch 13. (See FIG. 11).

Thereby, the user of the peripheral image processing apparatus 101 can know that the peripheral image processing apparatus 101 cannot use the cooperation function of the extended function unit 50 of the main image processing apparatus 10.
In the first embodiment, the basic function unit 20 is used as the first processing means. Further, the extended function unit 50 is used as the second processing means. The main power switch 12 is used as the switching operation means. Further, the basic function power control unit 32 and the extended function power control unit 61 are used as power supply means. Further, the extended function control unit 70 is used as a maintenance unit. Moreover, the list management part 71a is used as an update means. Further, the sub power switch 13 is used as an invalid operation means.

Moreover, the following examples are also given in connection with the first embodiment.
In addition to the first embodiment, after the main power switch 12 is turned off, the extended function unit 50 is continuously supplied with power, that is, the cooperation function is valid. You can also. For example, the main image processing apparatus 10 is notified by providing a display unit such as an LED in a place where the visibility of the user is good.

Thereby, the user of the main image processing apparatus 10 can know that the extended function unit 50 is in an operating state after turning off the main power switch 12.
In addition, the modification of the first embodiment can be applied to a processing apparatus that performs other processing in addition to the image processing apparatus that performs image processing.

  In the modification of the first embodiment, the extended function unit 50 (the extended function control unit 70) may have a function of transmitting an image read by the image reading device by e-mail. In this case, the peripheral image processing device (peripheral device) that does not have this e-mail transmission function reads the image read by its own image reading device together with the instruction data (instruction document) designating the transmission destination by e-mail transmission. It transmits to the main image processing apparatus (main processing apparatus) 10 which has a function. Thereby, the main image processing apparatus 10 attaches the image transmitted from the peripheral image processing apparatus to the e-mail using the e-mail transmission function, and transmits it to a desired transmission destination.

  Further, in the modified example of the first embodiment, a network storage function can be provided as the extended function of the extended function unit 50. In this case, the peripheral image processing apparatus (peripheral apparatus) stores the read image or the like in the HDD of the main image processing apparatus (main processing apparatus) 10 having a work storage function, or passes through the main image processing apparatus 10. And stored in a server on the communication means.

Next, a second embodiment to which the present invention is applied will be described.
In the second embodiment, when the main power switch 12 is turned on (when the power is turned on), the list is initialized, and thereafter the list is periodically updated.
12 and 13 are flowcharts showing processing of the extended function unit 50 in the second embodiment.

  As shown in FIG. 12, first, in step S71 and step S72, the extended function control unit 70 turns off the main power switch 12 in the same manner as the processing in the first embodiment (step S31, step S32). When it is determined, it is further determined whether or not the cooperation function with the peripheral image processing apparatus 101 is valid. At this time, if the extended function control unit 70 determines that the cooperation function with the peripheral image processing apparatus 101 is valid, the process proceeds to step S73. If the extended function control unit 70 determines that the cooperation function with the peripheral image processing apparatus 101 is invalid, the process proceeds to step S75.

  In step S73, the list management unit 71a confirms the list stored in the list storage unit 72. That is, the list management unit 71a checks the status of the peripheral image processing apparatus on the list.

  In subsequent step S74, the list management unit 71a determines whether or not the statuses of all the peripheral image processing apparatuses on the list are OFF, similarly to the processing in the first embodiment (step S35). If the list management unit 71a determines that the statuses of all the peripheral image processing apparatuses on the list are OFF, the process proceeds to step S75. If the list management unit 71a determines that the statuses of all the peripheral image processing apparatuses on the list are not OFF, the list management unit 71a continues the process again from step S73.

In step S75, the extended function control unit 70 performs a shutdown process of the extended function unit 50, similarly to the process (step S36) in the first embodiment.
Next, the list update process of the extended function unit 50 will be described.

FIG. 13 is a flowchart showing the processing.
As shown in FIG. 13, first, in step S91, the extended function control unit 70 of the extended function unit 50 initializes the statuses of all the peripheral image processing apparatuses on the list to OFF by the list management unit 71a.

In subsequent step S92, the list management unit 71a issues a response request message to all the peripheral image processing devices in the list.
In subsequent step S93, the list management unit 71a determines whether or not there is a response from the peripheral image processing apparatus. If the list management unit 71a determines that there is a response from the peripheral image processing apparatus, the process proceeds to step S94. If the list management unit 71a determines that there is no response from the peripheral image processing apparatus, the process proceeds to step S95.

In step S94, the list management unit 71a sets the status of the list for the peripheral image processing apparatus having a response to ON (“1”). And the list management part 71a continues a process again from step S92.
In step S95, the list management unit 71a sets the status of the list for the peripheral image processing apparatus having no response to OFF (“0”). Then, the list management unit 71a returns to step S92, and performs this update processing at regular intervals while the extended function unit 50 is ON.

The image processing system of the second embodiment is configured as described above, and the operation of the image processing system is as follows.
When the main power switch 12 is turned off, the main image processing apparatus 10 performs a process of turning off the power supply to the basic function unit 20 (see FIG. 8).
On the other hand, the main image processing apparatus 10 checks the list when the cooperation function is valid even when the main power switch 12 is turned off (steps S71 and S72).

  Here, the main image processing apparatus 10 starts updating the list when the main power switch 12 is turned on, that is, immediately after the main image processing apparatus 10 is activated. Specifically, when the main power switch 12 is turned on, the main image processing apparatus 10 initializes the statuses of all the peripheral image processing apparatuses on the list to OFF (step S91). Then, the main image processing device 10 transmits a response request message to all the peripheral image processing devices, sets the status of the list for the peripheral image processing device with the response to ON, and the peripheral image without the response The list status for the processing device is set to OFF (steps S92 to S95). Thereby, for example, the main image processing apparatus 10 does not have a response at first, but when there is a response later, the status of the list for the peripheral image processing apparatus is changed to ON. On the contrary, when there is a response at first, the main image processing apparatus 10 changes the status of the list for the peripheral image processing apparatus to OFF when there is no response later.

  When the main image processing apparatus 10 confirms the list updated as described above and determines that the statuses of all the peripheral image processing apparatuses on the list are OFF, the main image processing apparatus 10 performs the shutdown process of the extended function unit 50. (Step S75).

  By the operation as described above, the main image processing apparatus 10 turns off the power supply to the basic function unit 20 when the main power switch 12 is turned off. Then, if the cooperative operation with the peripheral image processing apparatus is enabled, the main image processing apparatus 10 then expands the function on the condition that the statuses of all the peripheral image processing apparatuses on the list are turned off. The power supply to the unit 50 is turned off.

Further, when the cooperation function with the peripheral image processing apparatus 101 is originally disabled, the main image processing apparatus 10 and the extended function section 50 together with the basic function section 20 when the main power switch 12 is turned off. The power supply to is also turned off.
As described above, in the second embodiment, the list management unit 71a starts updating the list when the main image processing apparatus 10 is activated.

  Thereby, the main image processing apparatus 10 can quickly determine the operation state of the peripheral image processing apparatus 101 or the state of the processing operation in cooperation with the peripheral image processing apparatus 101 as compared with the case where there is no such configuration. it can. For example, the main image processing apparatus 10 can make an early determination as compared with the configuration in which the list update is started when the main power switch 12 is turned off.

Moreover, the following is mentioned as a modification of 2nd Embodiment.
As a modification of the second embodiment, the list can be updated by the processing shown in FIGS. FIG. 14 is a flowchart showing processing of the peripheral image processing apparatus 101, and FIG. 15 is a flowchart showing processing of the main image processing apparatus 10.

  First, the processing of the peripheral image processing apparatus 101 will be described. As shown in FIG. 14, first, in step S111, the peripheral image processing apparatus 101 (main peripheral image processing apparatus 10 registered in the list held by itself) The image processing apparatus 101 transmits a power-on message to the main image processing apparatus 10) that can perform the cooperative processing or is permitted to perform the cooperative processing.

  In subsequent step S <b> 112, the peripheral image processing apparatus 101 determines whether or not there is a response message for the power ON message from the main image processing apparatus 10. If the peripheral image processing apparatus 101 determines that there is a response message to the power ON message from the main image processing apparatus 10, the peripheral image processing apparatus 101 proceeds to step S113. If the peripheral image processing apparatus 101 determines that there is no response message for the power ON message from the main image processing apparatus 10, the process proceeds to step S117.

In step S <b> 113, the peripheral image processing apparatus 101 validates a function used in the main image processing apparatus 10 (function for performing linked processing).
In subsequent step S114, the peripheral image processing apparatus 101 determines whether or not its own power switch is turned off. When the peripheral image processing apparatus 101 determines that its power switch is OFF, the peripheral image processing apparatus 101 proceeds to step S115.

In step S115, the peripheral image processing apparatus 101 transmits a power OFF message to the main image processing apparatus 10 registered in the list.
In subsequent step S116, the peripheral image processing apparatus 101 performs a shutdown process.
In step S117, since the extended function unit 50 of the main image processing apparatus 10 is not operating or cannot communicate due to a problem on the network, the peripheral image processing apparatus 101 has a function ( Disable (disable) the function that performs linked processing. Thereafter, the peripheral image processing apparatus 101 returns to the process of step S111.

On the other hand, as shown in FIG. 15, first, in step S131, the extended function control unit 70 initializes the statuses of all the peripheral image processing apparatuses on the list to OFF by the list management unit 71a.
In subsequent step S <b> 132, the list management unit 71 a determines whether a message has been received from the peripheral image processing apparatus 101. When the list management unit 71a determines that a message has been received from the peripheral image processing apparatus 101, the process proceeds to step S133.

  In step S133, the list management unit 71a determines whether the message determined to have been received in step S132 is a power ON message. If the list management unit 71a determines that the message determined to have been received in step S132 is a power ON message, the list management unit 71a proceeds to step S134. If the list management unit 71a determines that the message determined to be received in step S132 is not a power ON message, that is, if the message is a power OFF message, the list management unit 71a proceeds to step S136.

  In step S134, the list management unit 71a sets the status on the list of the peripheral image processing apparatus that has received the power-on message, that is, the peripheral image processing apparatus that has transmitted the power-on message, to ON (“1”). Set. Then, the list management unit 71a proceeds to step S135.

  In step S135, the list management unit 71a transmits a response message to the peripheral image processing apparatus 101 that has received the power ON message. Then, the list management unit 71a returns to step S132 and continues to update the list.

  In step S136, the list management unit 71a turns off the status on the list of the peripheral image processing apparatus that has received the power OFF message, that is, the peripheral image processing apparatus that has transmitted the power OFF message ("0"). ). Then, the list management unit 71a returns to step S132 and continues to update the list.

  By such processing, the peripheral image processing apparatus 101 transmits a power-on message to the main image processing apparatus 10 registered in the list when its own power is turned on (step S111). As a result, when the main image processing apparatus 10 receives the power ON message from the peripheral image processing apparatus 101, the main image processing apparatus 10 sets the status on the list of the peripheral image processing apparatus 101 to ON and responds to the peripheral image processing apparatus 101. A message is transmitted (steps S132 to S135). As a result, when there is a response message from the main image processing apparatus 10, the peripheral image processing apparatus 101 validates the function used by the main image processing apparatus 10 (function for performing linked processing).

Further, when there is no response message for the power-on message from the main image processing apparatus 10, the peripheral image processing apparatus 101 disables the functions used in the main image processing apparatus 10 until there is a response message, and the main image processing A power ON message is continuously transmitted to the apparatus 10 periodically (steps S117 and S111).
Then, when the peripheral image processing apparatus 101 is turned off, the peripheral image processing apparatus 101 transmits a power OFF message to the main image processing apparatus 10 registered in the list and performs a shutdown process (steps S114 to S116). .

  As described above, in the modified example of the second embodiment, the peripheral image processing apparatus 101 transmits a power ON message to the main image processing apparatus 10 when its own power is turned on (FIG. 14). . Then, the main image processing apparatus 10 updates the list based on the power ON message (FIG. 15).

  Thereby, the main image processing apparatus 10 can reduce the burden of the list update process as compared with the case where there is no such configuration. For example, the main image processing apparatus 10 reduces the burden of list update processing compared to a configuration in which messages are sent to the peripheral image processing apparatus 101 one by one to check responses (confirm response using a polling method). The overall load can be reduced.

  DESCRIPTION OF SYMBOLS 10 Main image processing apparatus, 11 Power supply part, 12 Main power switch, 13 Sub power switch, 20 Basic function part, 32 Basic function power supply control part, 33 Main power switch state detection part, 40 Basic function control part, 50 Extended function part 61 extended function power supply control unit 62 power supply state detection unit 63 sub power switch state detection unit 70 extended function control unit 71a list management unit

Claims (10)

First processing means for performing the requested processing;
Second processing means for performing the requested processing and capable of processing operation in cooperation with another processing device;
Switching operation means for switching the power supply state according to the operation;
A power supply means for stopping the supply of power to the first processing means and the second processing means when an operation to stop the supply of power to the switching operation means is performed;
Maintaining means for maintaining the supply of power to the second processing means by the power supply means based on the state of the processing operation in cooperation between the second processing means and the other processing device;
A processing apparatus comprising:   The process according to claim 1, wherein the maintaining unit maintains the supply of power to the second processing unit by the power supply unit when the second processing unit performs a processing operation in cooperation with the other processing apparatus. apparatus.   The processing device according to claim 2, wherein the maintaining unit determines that the second processing unit performs a processing operation in cooperation with the other processing device when the other processing device is activated. Updating the operating state information of the other processing device, comprising update means for starting the update when the own device is activated,
The maintenance unit determines a state of a processing operation in cooperation between the second processing unit and the other processing device based on information on an operation state of the other processing device updated by the updating unit. 4. The processing apparatus according to any one of items 1 to 3.   5. The update unit updates the operation state information of the other processing device based on the activation information transmitted from the other processing device when the other processing device is activated. The processing apparatus as described.   The processing apparatus according to claim 1, further comprising an invalid operation unit that invalidates maintenance by the maintenance unit according to an operation.   A transmission unit configured to transmit, to the other processing device, information on content that makes it impossible to perform a processing operation linked by the second processing unit when an operation to invalidate the maintenance by the maintenance unit is performed on the invalid operation unit; The processing apparatus of Claim 6 provided.   The processing apparatus according to claim 1, further comprising a notifying unit that notifies the maintenance when the maintaining unit maintains the supply of power to the second processing unit by the power supply unit. . A first processing device that performs the requested processing; a second processing device that performs the requested processing and is capable of processing operation in cooperation with the first processing device connected via the communication means; With
The second processing device includes:
First processing means for performing the requested processing;
Second processing means for performing the requested processing and capable of processing operation in cooperation with the first processing device connected via the communication means;
Switching operation means for switching the power supply state according to the operation;
A power supply means for stopping the supply of power to the first processing means and the second processing means when an operation to stop the supply of power to the switching operation means is performed;
Maintaining means for maintaining the supply of power to the second processing means by the power supply means based on the state of the processing operation in cooperation between the second processing means and the first processing device;
A processing system comprising: First processing means for performing the requested processing;
Second processing means for performing the requested processing and capable of processing operation in cooperation with another processing device;
A power supply means for stopping the supply of power to the first processing means and the second processing means when an operation for stopping the power supply is performed on the switching operation means for switching the power supply state according to the operation. When,
Maintaining means for maintaining the supply of power to the second processing means by the power supply means based on the state of the processing operation in cooperation between the second processing means and the other processing device;
A computer-readable control program for causing a computer to execute.

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