JP6606852B2 - Image forming apparatus, firmware update method, and program - Google Patents

Description

  The present invention relates to an image forming apparatus such as a printer, a method for updating firmware of optional equipment mounted on the image forming apparatus, and a program installed in a computer of the image forming apparatus.

  Some image forming apparatuses such as printers can be equipped with optional equipment in the main body of the image forming apparatus. Examples of optional equipment of the image forming apparatus include a supply tray that supports a sheet before image formation and a discharge tray that supports a sheet on which an image has been formed.

  If the optional device is equipped with a control unit that controls each part of the optional device, a flash memory or other data rewritable memory is built in the optional device, and the memory is used to control each part of the optional device. May be stored. This firmware update (update) is performed via the image forming apparatus main body. That is, when updating the firmware of the optional device, new firmware (latest version firmware) is taken into the image forming apparatus main body from the external device. Then, the new firmware is transmitted from the main body of the image forming apparatus to the option device, and the firmware stored in the memory of the option device is rewritten with the new firmware.

  When it is necessary to update the firmware of multiple optional devices, the process of importing new firmware from an external device to the image forming apparatus main body and transmitting the new firmware from the image forming apparatus main body to the optional device is usually performed for each optional device. Will be repeated. For this reason, it takes time to update the firmware of the optional device. In order to shorten the time required for this update, new firmware for each of multiple optional devices is batch-loaded from the external device to the image forming device main unit, and the batch-loaded new firmware is stored in the update data storage means for each option. It has been proposed to update the device firmware to new firmware (see, for example, Patent Document 1).

JP 2005-78343 A

  However, in the proposed configuration, a large capacity is required for the memory in order to store a plurality of new firmware fetched collectively in the image forming apparatus main body.

  An object of the present invention is to provide an image forming apparatus, a firmware update method, and a program capable of reducing a capacity necessary for storing optional firmware used in a plurality of optional devices.

  In order to achieve the above object, an image forming apparatus according to the present invention includes a storage unit, a control unit, and a connection unit that connects the control unit and a plurality of optional devices, and the storage unit includes a plurality of options. Multiple types of optional firmware used by the device are stored, and the control unit is connected to each of the multiple types of the same type of optional devices when the multiple types of optional devices include the same type of optional devices. The same option firmware is transmitted from among a plurality of types of option firmware stored in the storage unit.

  According to this configuration, option firmware common to a plurality of option devices of the same type is stored in the storage unit. When a plurality of option devices of the same type are included in a plurality of option devices mounted on the image forming apparatus (main body), the same option firmware is transmitted to each of the plurality of option devices of the same type. As a result, the optional firmware of the optional device can be updated if necessary. Since option firmware transmitted to a plurality of option devices of the same type is common, the capacity required for storing option firmware in the storage unit can be reduced. Further, when new option firmware is downloaded from the external device to the image forming apparatus, the time required for the download can be shortened.

  The present invention can be realized not only in the form of an image forming apparatus but also in the form of a firmware update method executed in the image forming apparatus and a program installed in a computer of the image forming apparatus, for example. it can.

  According to the present invention, since option firmware transmitted to a plurality of option devices of the same type is common, the capacity necessary for storing option firmware in the storage unit can be reduced. Further, when new option firmware is downloaded from the external device to the image forming apparatus, the time required for the download can be shortened.

1 is a block diagram showing an electrical configuration of a printer according to an embodiment of the present invention. It is a flowchart which shows the flow of a process at the time of power-on. It is a flowchart which shows the flow of OP update processing. It is a flowchart which shows the flow of a process at the time of a power saving mode. It is a flowchart which shows the flow of an update priority process. It is a flowchart which shows the flow of a normal update process. It is a flowchart which shows the flow of another normal update process.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

<Printer configuration>

  As shown in FIG. 1, the printer 1 (an example of an image forming apparatus) includes an image forming unit 11. The image forming unit 11 executes image formation for the image forming job (forms an image related to the image forming job on a sheet). The image forming method may be an electrophotographic method or an inkjet method.

  The printer 1 is provided with a supply tray (not shown). The supply tray is configured to be able to support a plurality of stacked sheets and is disposed at the bottom of the printer 1. In the printer 1, a lower tray LTn (n: natural number) is mounted below the supply tray. The lower tray LTn is an optional device of the printer 1, and the user can arbitrarily mount a lower tray LTn of a predetermined upper limit number (for example, four) or less on the printer 1. When two or more lower trays LTn are mounted on the printer 1, the two or more lower trays LTn are arranged so as to be stacked one above the other. Each lower tray LTn is configured to be able to support a plurality of stacked sheets.

  Further, the printer 1 is provided with a discharge tray (not shown). The discharge tray is formed on the upper surface of the printer 1 and can support a plurality of stacked sheets. In the printer 1, a mail box MBn (n: natural number) is mounted above the discharge tray. The mailbox MBn is an optional device of the printer 1, and the user can arbitrarily attach the mailbox MBn of a predetermined upper limit number (for example, 4) or less to the printer 1. When two or more mailboxes MBn are attached to the printer 1, the two or more mailboxes MBn are arranged one above the other. Each mailbox MBn is configured to be supported in a state where a plurality of sheets are stacked.

  When the image forming unit 11 executes image formation, one sheet is sent out from the supply tray or one of the lower trays LTn. The sheet sent out from the supply tray or the lower tray LTn is conveyed toward the image forming unit 11. Then, while the sheet passes through the image forming unit 11, the image forming unit 11 forms an image related to the image forming job on the sheet. The image-formed sheet is discharged to a discharge tray or one of the mailboxes MBn.

  FIG. 1 shows a configuration in which three lower trays LT1, LT2, LT3 and mail boxes MB1, MB2, MB3 are mounted on the printer 1 as an example of mounting the lower tray LTn and the mail box MBn.

  The printer 1 includes an ASIC (Application Specific Integrated Circuit) 12. The ASIC 12 incorporates a CPU 13. In addition, a ROM 14 (an example of a storage unit) and a RAM 15 are connected to the ASIC 12.

  The ROM 14 is a rewritable memory such as a flash memory (flash ROM). The ROM 14 stores main firmware and sub-firmware. The main firmware controls the overall operation of the printer 1, including image formation by the image forming unit 11, sheet supply from the supply tray or lower tray LTn, and sheet discharge to the discharge tray or mail box MBn. It is a program. The sub-firmware is a program for executing rasterization of image data related to image formation. The main firmware and the sub firmware are executed by the CPU 13 (ASIC 12). The ROM 14 stores LT firmware and MB firmware. The LT firmware and the MB firmware are stored for distribution to the lower tray LTn and the mail box MBn, respectively, and neither is subject to execution by the CPU 13.

  The RAM 15 is used as a work area when executing the main firmware and the sub firmware.

  Further, a network interface (I / F) 16 (an example of a reception unit and a communication unit) and an option interface (I / F) 17 (an example of a connection unit) are connected to the ASIC 12.

  The network interface 16 is an interface for network communication via a LAN (Local Area Network) 2. The LAN 2 may be configured by a wired LAN or a wireless LAN, or may be configured by both a wired LAN and a wireless LAN. A terminal 3 such as a PC (Personal Computer) and a server 4 (an example of an external device) that distributes main firmware, sub-firmware, LT firmware, and MB firmware are connected to the LAN 2. The terminal 3 and the server 4 may be directly connected to the LAN 2 or may be connected via the Internet.

  When the printer 1 is used, the user operates the terminal 3 to select an image formation target file (image data), and the image formation conditions (the sheet size used for image formation, the sheet supply source, the sheet Destination). Thereafter, when the user operates the terminal 3 to instruct execution of image formation, an image forming job including a file selected by the user and specified image forming conditions is transmitted from the terminal 3 to the printer 1. In the printer 1, a file included in the image forming job is rasterized and image formation is executed, whereby an image related to the file is formed on a sheet.

  The option interface 17 is an interface for communicatively connecting the ASIC 12 to the lower tray LTn and the mailbox MBn.

  The lower tray LTn includes a CPU 21, a ROM 22, a RAM 23, and an interface (I / F) 24. The ROM 22 is a rewritable memory such as a flash memory. The ROM 22 stores LT firmware. The LT firmware is a program for controlling each unit so that the lower tray LTn is linked to the printer 1, and is executed by the CPU 21. The RAM 23 is used as a work area when the LT firmware is executed. The interface 24 is an interface for connecting the lower tray LTn (CPU 21) so as to be communicable with the ASIC 12 of the printer 1.

  The mail box MBn includes a CPU 31, a ROM 32, a RAM 33, and an interface (I / F) 34. The ROM 32 is a data rewritable memory such as a flash memory. The ROM 32 stores MB firmware. The MB firmware is a program for controlling each unit so that the mail box MBn is linked to the printer 1, and is executed by the CPU 31. The RAM 33 is used as a work area when the LT firmware is executed. The interface 34 is an interface for connecting the mail box MBn (CPU 31) to the ASIC 12 of the printer 1 so as to be communicable.

<Power-on processing>

  When the power switch of the printer 1 is turned on, the power-on process shown in FIG. 2 is executed by the CPU 13 of the ASIC 12. The printer 1 can execute image formation for an image forming job after the power-on process is completed.

  When the power switch of the printer 1 is turned on, the supply of the operating voltage to the ASIC 12 is started, and when the ASIC 12 starts to receive power, the CPU 13 determines that the power is turned on (S1: YES).

  In the power-on process, the CPU 13 determines whether or not the lower tray LTn is attached to the printer 1 (S2).

  When the lower tray LTn is attached to the printer 1 (S2: YES), the CPU 13 executes an OP update process for the LT firmware (S3). The OP update process is a process for updating (updating) the LT firmware and the MB firmware. The OP update process will be described later.

  After the OP update process, the CPU 13 determines whether or not the mail box MBn is attached to the printer 1 (S4). When the lower tray LTn is not attached to the printer 1 (S2: NO), the CPU 13 skips execution of the OP update process and determines whether or not the mail box MBn is attached to the printer 1 (S4). ).

  When the mail box MBn is attached to the printer 1 (S4: YES), the CPU 13 executes an OP update process for the MB firmware (S5) and ends the power-on process.

  When the mail box MBn is not attached to the printer 1 (S4: NO), the CPU 13 skips the execution of the OP update process for the MB firmware and ends the power-on process.

  In addition, the process before and after steps S2 and S3 and steps S4 and S5 may be interchanged. In that case, in response to the power-on of the printer 1, the CPU 13 determines whether or not the mail box MBn is attached to the printer 1 (S4). If the mail box MBn is attached to the printer 1 (S4: YES), OP update processing for MB firmware is executed (S5). Thereafter, the CPU 13 determines whether or not the lower tray LTn is attached to the printer 1 (S2). If the lower tray LTn is attached to the printer 1 (S2: YES), an OP update process for the LT firmware is executed. (S3).

<OP update process>

  The flow of the OP update process executed in steps S3 and S5 in FIG. 2 is shown in FIG.

  In the OP update process executed in step S3 of FIG. 2, that is, the OP update process for the LT firmware, the CPU 13 resets the lower tray number n for identifying the lower tray LTn to be updated to 0 (S31).

  Thereafter, the CPU 13 adds 1 to the lower tray number n reset to 0 (+1) (S32). As a result, the lower tray LTn to be updated is specified as the lower tray LT1 having the lower tray number n = 1.

  Then, the CPU 13 communicates with the CPU 21 of the lower tray LT1, and acquires information about the LT firmware stored in the ROM 22 of the lower tray LT1, for example, the version of the LT firmware (S33).

  After acquiring the information related to the LT firmware, the CPU 13 determines whether the LT firmware of the lower tray LT1 needs to be updated based on the information (S34). That is, the CPU 13 determines whether the LT firmware of the lower tray LT1 and the LT firmware for distribution stored in the ROM 14 of the printer 1 are new or old based on information about the LT firmware. If the LT firmware for distribution stored in the ROM 14 is newer than the LT firmware stored in the ROM 22 of the lower tray LT1, it is determined that the LT firmware of the lower tray LT1 needs to be updated. On the other hand, if the LT firmware stored in the ROM 22 of the lower tray LT1 is newer than the delivery LT firmware stored in the ROM 14, it is determined that the LT firmware of the lower tray LT1 is not required to be updated. Further, based on the information regarding the LT firmware, it is determined whether or not the LT firmware is broken. If the LT firmware is broken, it is determined that the LT firmware of the lower tray LT1 needs to be updated.

  When the CPU 13 determines that the LT firmware of the lower tray LT1 needs to be updated (S34: YES), the CPU 13 transmits the distribution LT firmware stored in the ROM 14 to the lower tray LT1 (S35).

  When receiving the LT firmware from the printer 1, the CPU 21 of the lower tray LT 1 temporarily stores the received LT firmware in the RAM 23, and then rewrites the LT firmware stored in the ROM 22 with the LT firmware stored in the RAM 23. Thereby, the update of the LT firmware stored in the ROM 22 of the lower tray LT1 is achieved.

  Thereafter, the CPU 13 determines whether or not the lower tray number n is the final number (S36). The final number is the number of lower trays LTn attached to the printer 1. For example, as shown in FIG. 1, when three lower trays LT 1, LT 2, LT 3 are mounted on the printer 1, the final number of the lower tray number n is 3.

  If the CPU 13 determines that updating of the LT firmware of the lower tray LT1 is unnecessary (S34: NO), the CPU 13 does not transmit the LT firmware to the lower tray LT1 (S35: skip), and whether or not the lower tray number n is the final number. Determine whether.

  When the lower tray number n is not the final number (S35: NO), the CPU 13 adds 1 to the lower tray number n (+1) (S32). Thereby, when the lower tray number n is 1, the lower tray LTn to be updated is specified as the lower tray LT2 having the lower tray number n = 2. And CPU13 performs the process of step S33-S35 about the lower tray LT2 similarly to the case of the lower tray LT1.

  When the CPU 13 repeats the processes of steps S32 to S36 by the same number as the final number, the CPU 13 affirms whether or not the lower tray number n is the final number (S36: YES), and ends the OP update process for the LT firmware. .

  The OP update process executed in step S5 of FIG. 2, that is, the OP update process for MB firmware, is the same as the OP update process for LT firmware.

  In the OP update process for the MB firmware, the CPU 13 resets the mailbox number n for identifying the mailbox MBn to be updated to 0 (S51).

  Thereafter, the CPU 13 adds 1 to the mailbox number n reset to 0 (+1) (S52). As a result, the mailbox MBn to be updated is specified as the mailbox MB1 with the mailbox number n = 1.

  Then, the CPU 13 communicates with the CPU 31 of the mailbox MB1 and acquires information on the MB firmware stored in the ROM 32 of the mailbox MB1, for example, the MB firmware version (S53).

  After acquiring the information related to the MB firmware, the CPU 13 determines whether or not the MB firmware of the mail box MB1 needs to be updated based on the information (S54). That is, the CPU 13 determines whether the MB firmware of the mail box MB1 and the MB firmware for distribution stored in the ROM 14 of the printer 1 are new or old based on the information about the MB firmware. If the MB firmware for distribution stored in the ROM 14 is newer than the MB firmware acquired from the mailbox MB1, it is determined that the MB firmware in the mailbox MB1 needs to be updated. On the other hand, when the MB firmware acquired from the mailbox MB1 is newer than the MB firmware for distribution stored in the ROM 14, it is determined that the MB firmware of the mailbox MB1 does not need to be updated. Further, based on the information about the MB firmware, it is determined whether or not the MB firmware is broken. If the MB firmware is broken, it is determined that the MB firmware in the mailbox MB1 needs to be updated.

  When the CPU 13 determines that the MB firmware of the mailbox MB1 needs to be updated (S54: YES), the CPU 13 transmits the MB firmware for distribution stored in the ROM 14 to the mailbox MB1 (S55).

  When receiving the MB firmware from the printer 1, the CPU 31 of the mailbox MB 1 temporarily stores the received MB firmware in the RAM 33, and then rewrites the MB firmware stored in the ROM 32 with the MB firmware stored in the RAM 33. Thereby, the update of the MB firmware stored in the ROM 32 of the mailbox MB1 is achieved.

  Thereafter, the CPU 13 determines whether or not the mailbox number n is the final number (S56). The final number is the number of mailboxes MBn attached to the printer 1. For example, as shown in FIG. 1, when the three mailboxes MB1, MB2, and MB3 are attached to the printer 1, the final number of the mailbox number n is 3.

  If the CPU 13 determines that the MB firmware of the mailbox MB1 does not need to be updated (S54: NO), the CPU 13 does not send the MB firmware to the mailbox MB1 (S55: skip), and the mailbox number n is the final number. Judge whether there is.

  When the mailbox number n is not the final number (S55: NO), the CPU 13 adds 1 to the mailbox number n (+1) (S52). Thereby, when the mailbox number n is 1, the mailbox MBn to be updated is specified as the mailbox MB2 with the mailbox number n = 2. And CPU13 performs the process of step S53-S55 about mailbox MB2, similarly to the case of mailbox MB1.

  When the CPU 13 repeats the processes of steps S52 to S56 as many times as the final number, the CPU 13 affirms the determination as to whether the mailbox number n is the final number (S56: YES) and ends the OP update process for the MB firmware. To do.

<Processing in power saving mode>

  When the printer 1 is in a power-on state and no image forming job is received from the terminal 3 and a certain time elapses, the power consumption mode changes from the standby mode until then to the power saving mode in which the power consumption is lower than the standby mode It is transferred to. In the power saving mode, the supply of operating power to the image forming unit 11 is stopped. When the printer 1 receives an image forming job from the terminal 3 in the power saving mode, the power consumption mode is shifted from the power saving mode to the standby mode, and the supply of operating power to the image forming unit 11 is resumed.

  When the power consumption mode shifts from the standby mode to the power saving mode (S11: YES), the CPU 13 of the ASIC 12 executes the power saving mode process shown in FIG.

  In the power saving mode process, the CPU 13 determines whether or not the current time is the firmware update timing (S12). The firmware update timing comes, for example, every time the power saving mode continues for a predetermined time.

  Until the firmware update timing comes (S12: NO), the CPU 13 repeatedly determines whether or not the current power consumption mode is the power saving mode (S11). When the power consumption mode is not the power saving mode (S11: NO), the CPU 13 ends the process in the power saving mode.

  In the power saving mode, when the firmware update timing comes (step S12: YES), the CPU 13 accesses the server 4 via the LAN 2 to determine whether there is update firmware for each of main firmware, sub-firmware, LT firmware, and MB firmware ( It is confirmed whether it is stored in the server 4 (S13). The update firmware refers to a new version of main firmware, sub firmware, LT firmware, and MB firmware with respect to main firmware, sub firmware, LT firmware, and MB firmware stored in the ROM 14, respectively.

  If none of the main firmware, sub-firmware, LT firmware, and MB firmware has been saved in the server 4 (S13: NO), the CPU 13 ends the process in the power saving mode.

  If any of the main firmware, sub-firmware, LT firmware, and MB firmware is stored in the server 4 (S13: YES), the CPU 13 receives an image from the terminal 3 during or after checking for the presence or absence of the updated firmware. It is determined whether or not a formation job has been received (S14).

  When the image forming job is received (S14: YES), the CPU 13 determines whether or not at least one of the LT firmware and the MB firmware needs to be updated to execute the image forming for the image forming job (S15). . For example, if collation processing is specified by the image forming conditions included in the image forming job and the collation processing cannot be executed unless the MB firmware stored in the ROM 32 of the mailbox MBn is updated, the CPU 13 updates the MB firmware. Is determined to be necessary. The collating process is a process in which a plurality of copies of the image are formed by the image forming unit 11 and the sheets of the respective parts on which the image has been formed are discharged to separate mailboxes MBn.

  If the CPU 13 determines that it is necessary to update the LT firmware and / or MB firmware for execution of image formation for the image formation job (S15: YES), the CPU 13 executes the image formation using the image formation job as a standby job. An update priority process for updating the LT firmware and / or MB firmware that needs to be updated is executed in a standby state (S16). Details of the update priority process will be described later.

  Then, after executing the update priority process, the CPU 13 causes the image forming unit 11 to perform image formation for the standby job (step S17), and ends the power saving mode process.

  On the other hand, if the CPU 13 determines that it is not necessary to update the LT firmware and / or MB firmware for the execution of image formation for the image formation job (S15: NO), the CPU 13 executes the image formation job (S18), thereby saving power. End the mode processing.

  If an image forming job has not been received from the terminal 3 during and after the confirmation of the presence / absence of update firmware (S14: NO), the CPU 13 acquires at least one of main firmware, sub-firmware, LT firmware, and MB firmware. A normal update process for updating to the updated firmware is executed (S19), and the process in the power saving mode is terminated. Details of the normal update process will be described later.

<Update priority processing>

  The flow of the update priority process executed in step S16 in FIG. 4 is shown in FIG.

  In the update priority process, the CPU 13 of the ASIC 12 determines whether there is an update firmware (hereinafter referred to as “update main firmware”) of the main firmware stored in the ROM 14 (S161).

  If the CPU 13 determines that there is updated main firmware (S161: YES), that is, if the updated main firmware is stored in the server 4, the updated main firmware is downloaded from the server 4 (S162). The downloaded updated main firmware is temporarily stored in the RAM 15.

  When the updated main firmware is stored in the server 4 and the updated firmware of the sub-firmware stored in the ROM 14 (hereinafter referred to as “updated sub-firmware”) is not stored in the server 4, the updated main firmware is stored in the ROM 14. The LT firmware and / or MB firmware update firmware (hereinafter referred to as “update LT / MB firmware”) may accompany the update main firmware. In this case, the updated LT / MB firmware is stored in the RAM 15 together with the updated main firmware.

  After downloading the updated main firmware, the CPU 13 determines whether or not the updated LT / MB firmware is attached to the updated main firmware (S163).

  When the updated LT / MB firmware is attached to the updated main firmware (S163: YES), the CPU 13 transfers the updated LT / MB firmware from the RAM 15 to the ROM 14, and the LT firmware and / or MB firmware stored in the ROM 14 Is updated to the updated LT / MB firmware. Thereafter, the CPU 13 executes the OP update process shown in FIG. 3 (S164), and ends the update priority process.

  When the LT firmware stored in the ROM 14 is rewritten with the updated firmware (updated LT firmware), the LT firmware stored in the ROM 22 of each lower tray LTn is executed by executing the OP update process for the updated LT firmware. Are updated to the updated LT firmware. Further, when the MB firmware stored in the ROM 14 is rewritten with the updated firmware (updated MB firmware), the OP update process for the updated MB firmware is executed, so that it is stored in the ROM 22 of each mailbox MBn. The existing MB firmware is updated to the updated MB firmware.

  When the CPU 13 determines that there is no updated main firmware (S161: NO), that is, when the updated main firmware is not stored in the server 4, or the downloaded updated main firmware is not accompanied by the updated LT / MB firmware. If it is found (S163: NO), the presence or absence of the updated sub-firmware in the server 4 is determined (S165).

  If the updated sub-firmware is stored in the server 4 (S165: YES), the updated sub-firmware is downloaded from the server 4 (S166) and temporarily stored in the RAM 15.

  When the updated main firmware, the updated sub firmware, and the updated LT / MB firmware are stored in the server 4, the updated LT / MB firmware is transmitted from the server 4 to the printer 1 along with the updated sub firmware. When the updated main firmware is not stored in the server 4 and the updated sub firmware and the updated LT / MB firmware are stored in the server 4, the updated LT / MB firmware is updated from the server 4 to the printer 1. Sent along with The update priority process is executed when it is necessary to update the LT firmware and / or MB firmware for execution of image formation for the image forming job (S15 in FIG. 4: YES). The updated LT / MB firmware is always stored. When the updated sub-firmware is stored in the server 4, the updated LT / MB firmware is downloaded from the server 4 to the printer 1 along with the updated sub-firmware. The updated LT / MB firmware is stored in the RAM 15 together with the updated sub firmware.

  After downloading the updated sub-firmware and the updated LT / MB firmware, the CPU 13 transfers the updated LT / MB firmware from the RAM 15 to the ROM 14 and rewrites the LT firmware and / or MB firmware stored in the ROM 14 with the updated LT / MB firmware. . Thereafter, the CPU 13 executes the OP update process shown in FIG. 3 (S164), and ends the update priority process.

  When both the updated main firmware and the updated sub-firmware are not stored in the server 4 (S165: NO), only the updated LT / MB firmware exists in the server 4. The CPU 13 downloads the updated LT / MB firmware from the server 4 (S167), temporarily stores it in the RAM 15, and then transfers the updated LT / MB firmware from the RAM 15 to the ROM 14. Thereafter, the CPU 13 executes the OP update process shown in FIG. 3 (S164), and ends the update priority process.

<Normal update process>

  The flow of the normal update process executed in step S19 in FIG. 4 is shown in FIG.

  In the normal update process, the CPU 13 of the ASIC 12 determines whether or not the updated main firmware is stored in the RAM 15 (S1901).

  In the update priority process shown in FIG. 5, as described above, the updated main firmware may be downloaded from the server 4 and stored in the RAM 15. Therefore, after execution of the update priority process, image formation for the standby job is executed (S17 in FIG. 4), and then the power consumption mode shifts again from the standby mode to the power saving mode, and the normal update process is executed. In some cases, the updated main firmware may be stored in the RAM 15.

  When the updated main firmware is stored in the RAM 15 (S1901: YES), the CPU 13 rewrites the main firmware stored in the ROM 14 with the updated main firmware (S1902).

  Thereafter, the CPU 13 reboots the control unit including the ASIC 12, the ROM 14, and the RAM 15 in order to validate the main firmware (update main firmware) newly stored in the ROM 14 (S1903), and returns to the top of the normal update process. It is determined whether the updated main firmware is stored in the RAM 15 (S1901).

  When the updated main firmware is not stored in the RAM 15 (S1901: NO), the CPU 13 accesses the server 4 and confirms the presence or absence of the updated main firmware (S1904).

  If there is updated main firmware (S1904: YES), the CPU 13 downloads the updated main firmware from the server 4 (S1905). The downloaded updated main firmware is temporarily stored in the RAM 15.

  Then, the CPU 13 determines whether or not the updated LT / MB firmware is attached to the updated main firmware (S1906). When the updated LT / MB firmware is attached to the updated main firmware, the updated LT / MB firmware is stored in the RAM 15 together with the updated main firmware.

  When the updated LT / MB firmware is attached to the updated main firmware, the CPU 13 stores the updated LT / MB firmware in the ROM 14 (S1907). That is, the CPU 13 transfers the updated LT / MB firmware from the RAM 15 to the ROM 14 and rewrites the LT firmware and / or MB firmware stored in the ROM 14 with the updated LT / MB firmware.

  Thereafter, the CPU 13 transfers the updated main firmware stored in the RAM 15 to the ROM 14 and rewrites the main firmware stored in the ROM 14 with the updated main firmware (S1902). Then, the CPU 13 executes a reboot (S1903), returns to the top of the normal update process, and determines whether or not the updated main firmware is stored in the RAM 15 (S1901).

  When the updated main firmware is not stored in the RAM 15 and the updated main firmware is not stored in the server 4 (S1904: NO), the CPU 13 determines whether or not the updated sub-firmware is stored in the RAM 15 (S1908). .

  In the update priority process shown in FIG. 5, the update sub-firmware is downloaded from the server 4 to the printer 1 because the update main firmware is not stored in the server 4 and the update sub-firmware is stored in the server 4. Or the case where both the updated main firmware and the updated sub-firmware are stored in the server 4. In these cases, after the update priority process is executed, image formation for the standby job is executed, and then the update is performed when the power consumption mode is changed from the standby mode to the power saving mode again and the normal update process is started. Main firmware and updated sub-firmware are stored in the RAM 15. However, in the latter case, in the normal update process, the main firmware stored in the ROM 14 is rewritten with the updated main firmware, and then the reboot is performed, whereby the updated sub-firmware is erased from the RAM 15. Therefore, the updated sub-firmware is not stored in the RAM 15 when the normal update process is started again after the reboot. Therefore, the determination as to whether or not the updated sub-firmware is stored in the RAM 15 is positive because the updated main firmware is not stored in the server 4 and the updated sub-firmware is stored in the server 4 In the process, the updated sub-firmware is downloaded from the server 4 to the printer 1.

  When the updated sub-firmware is stored in the RAM 15 (S1908: YES), the CPU 13 rewrites the sub-firmware stored in the ROM 14 with the updated sub-firmware (S1909).

  Thereafter, the CPU 13 executes a reboot to validate the sub-firmware (updated sub-firmware) newly stored in the ROM 14 (S1903), returns to the top of the normal update process, and the updated main firmware is stored in the RAM 15. It is determined whether or not (S1901).

  When the updated main firmware is not stored in the RAM 15, the updated main firmware is not stored in the server 4, and the updated sub-firmware is not stored in the RAM 15 (S1908: NO), the CPU 13 accesses the server 4 and updates it. The presence or absence of sub-firmware is confirmed (S1910).

  If there is updated sub-firmware (S1910: YES), the CPU 13 downloads the updated sub-firmware from the server 4 (S1911). The downloaded updated sub-firmware is temporarily stored in the RAM 15.

  Then, the CPU 13 determines whether or not the updated LT / MB firmware is attached to the updated sub-firmware (S1912). When the updated LT / MB firmware is attached to the updated sub-firmware, the updated LT / MB firmware is stored in the RAM 15 together with the updated sub-firmware.

  When the updated LT / MB firmware is attached to the updated sub-firmware, the CPU 13 stores the updated LT / MB firmware in the ROM 14 (S1913).

  Thereafter, the CPU 13 transfers the update sub-firmware stored in the RAM 15 to the ROM 14 and rewrites the sub-firmware stored in the ROM 14 with the update sub-firmware (S1909). Then, the CPU 13 executes a reboot (S1903), returns to the top of the normal update process, and determines whether or not the updated main firmware is stored in the RAM 15 (S1901).

  If the updated main firmware and the updated sub-firmware are not stored in the RAM 15 and the updated main firmware and the updated sub-firmware are not present in the server 4 (S1910: NO), whether or not the updated LT / MB firmware is stored in the ROM 14 Is determined (S1914).

  When the updated LT / MB firmware is stored in the ROM 14 (S1914: YES), that is, the updated LT / MB firmware is downloaded from the server 4 along with the updated main firmware or the updated sub-firmware, and the updated LT / MB firmware Is already stored in the ROM 14, the CPU 13 executes the OP update process shown in FIG. 3 (S1915) and ends the normal update process.

  On the other hand, when the updated LT / MB firmware is not stored in the ROM 14 (S1914: NO), only the updated LT / MB firmware exists in the server 4. The CPU 13 downloads the updated LT / MB firmware from the server 4 (S1916), temporarily stores it in the RAM 15, and then transfers the updated LT / MB firmware from the RAM 15 to the ROM 14. Thereafter, the CPU 13 executes the OP update process shown in FIG. 3 (S1915), and ends the normal update process.

<Effect>

  As described above, the ROM 14 of the printer 1 stores (stores) the LT firmware common to the plurality of lower trays LTn. In response to the power-on of the printer 1, it is determined whether or not the lower tray LTn is attached to the printer 1. If the lower tray TLn is attached, the OP update process for the LT firmware is executed.

  In the OP update process for the LT firmware, it is determined whether the LT firmware stored in the ROM 22 of each lower tray LTn and the LT firmware stored in the ROM 14 of the printer 1 are new, and the LT firmware of each lower tray LTn is updated. Necessity is judged. The LT firmware stored in the ROM 14 of the printer 1 is transmitted to the lower tray LTn that needs to update the LT firmware. When it is necessary to update the LT firmware of a plurality of lower trays LTn, the same LT firmware is transmitted from the printer 1 to each of the lower trays LTn.

  Similarly, when a plurality of mailboxes MBn are attached to the printer 1, MB firmware common to the plurality of mailboxes MBn is stored (stored) in the ROM 14 of the printer 1. In response to the power-on of the printer 1, it is determined whether or not the mail box MBn is attached to the printer 1. If the mail box MBn is attached, an OP update process for MB firmware is executed.

  In the OP update process for the MB firmware, it is determined whether the MB firmware stored in the ROM 22 of each mailbox MBn and the MB firmware stored in the ROM 14 of the printer 1 are new and old, and the MB firmware of each mailbox MBn is updated. The necessity of the update is determined. The MB firmware stored in the ROM 14 of the printer 1 is transmitted to the mailbox MBn that requires MB firmware update. When the MB firmware of a plurality of mailboxes MBn needs to be updated, the same MB firmware is transmitted from the printer 1 to each of the mailboxes MBn.

  Since LT firmware transmitted to a plurality of lower trays LTn is common and MB firmware transmitted to a plurality of mailboxes MBn is common, the capacity required for storing the LT firmware and MB firmware in the ROM 14 of the printer 1 is reduced. can do. Further, when the updated LT / MB firmware is stored in the server 4, the update LT / MB firmware can be downloaded from the server 4 to the printer 1 only once, so that the time required for the download can be shortened. .

  Further, when the power consumption mode of the printer 1 is the power saving mode, it is confirmed whether or not there is update firmware for each of the sub firmware, the LT firmware, and the MB firmware. When the updated LT / MB firmware (LT firmware and / or MB firmware updated firmware) is stored in the server 4, the updated LT / MB firmware is transferred from the server 4 to the printer in the update priority process or the normal update process. 1 and the updated LT / MB firmware is transmitted from the printer 1 to each lower tray LTn and / or each mailbox MBn. Thereby, the LT firmware of the lower tray LTn can be updated, and the MB firmware of the mailbox MBn can be updated. In addition, since the LT firmware and the MB firmware are updated in the power saving mode, it is possible to reduce the possibility that the update hinders the execution of the image formation for the image forming job.

  Further, when it is confirmed that the updated LT / MB firmware is stored in the server 4, it is determined whether or not the printer 1 has received an image forming job from the terminal 3 during or after checking for the presence or absence of the updated firmware. Is done. When an image forming job is received, it is determined whether at least one of the LT firmware and the MB firmware needs to be updated in order to execute image formation for the image forming job. When the update is necessary, the LT firmware and / or MB firmware that needs to be updated is updated before the image formation for the image forming job is executed. Thereby, the image formation for the image forming job can be executed satisfactorily. On the other hand, if no update is required, an image forming job is executed before the update. Accordingly, the user can quickly obtain a sheet on which an image for the image forming job is formed.

  When the updated main firmware, the updated sub firmware, and the updated LT / MB firmware are stored in the server 4, the updated LT / MB firmware is transmitted from the server 4 to the printer 1 along with the updated main firmware or the updated sub firmware. Is done. Then, after the sub firmware update is completed and rebooted, the updated LT / MB firmware is transmitted from the printer 1 to each lower tray LTn and / or each mailbox MBn. As a result, a reboot is not performed during the transmission of the updated LT / MB firmware from the printer 1 to each lower tray LTn and / or each mailbox MBn, so that the reboot is performed in the middle of the transmission and the data is stored in the ROM 22 of the lower tray LTn. The possibility that the LT firmware and the MB firmware stored in the ROM 32 of the mailbox MBn are damaged can be reduced.

  When the updated main firmware, the updated sub firmware, and the updated LT / MB firmware are stored in the server 4, a configuration in which the updated LT / MB firmware is transmitted from the server 4 to the printer 1 along with the updated main firmware is also conceivable. When this configuration is adopted, it is preferable to execute the normal update process shown in FIG. 7 instead of the normal update process shown in FIG.

  In FIG. 7, steps corresponding to the steps shown in FIG. 6 are assigned the same step numbers as those steps. In the following, only the difference between the normal update process shown in FIG. 7 and the normal update process shown in FIG. 6 will be described.

  In the normal update process shown in FIG. 7, the CPU 13 of the ASIC 12 downloads the updated sub-firmware from the server 4 to the printer 1 (S1911), and then determines whether or not the updated LT / MB firmware is stored in the ROM 14 ( S1917).

  When the updated LT / MB firmware is stored in the ROM 14 (S1917: YES), the CPU 13 executes the OP update process shown in FIG. 3 (S1918).

  After executing the OP update process, the CPU 13 transfers the update sub-firmware stored in the RAM 15 to the ROM 14 and rewrites the sub-firmware stored in the ROM 14 with the update sub-firmware (S1909). Then, the CPU 13 executes a reboot (S1903), returns to the top of the normal update process, and determines whether or not the updated main firmware is stored in the RAM 15 (S1901).

  As described above, the OP update process is executed before the reboot, thereby suppressing the reboot from being performed during the transmission of the updated LT / MB firmware from the printer 1 to each lower tray LTn and / or each mailbox MBn. This can reduce the possibility that the LT firmware stored in the ROM 22 of the lower tray LTn and the MB firmware stored in the ROM 32 of the mail box MBn will be damaged.

  Note that the process of rewriting the sub-firmware stored in the ROM 14 with the updated sub-firmware may be executed following the download of the updated sub-firmware. That is, before executing the OP update process, a process of rewriting the sub-firmware stored in the ROM 14 with the updated sub-firmware may be executed. However, even in that case, the reboot is executed after the OP update process is completed.

<Modification>

  As mentioned above, although embodiment of this invention was described, this invention can also be implemented with another form.

  For example, although the main firmware and the sub-firmware are exemplified as the firmware executed by the printer 1, there may be a third firmware other than the main firmware and the sub-firmware, or the main firmware and the sub-firmware are one firmware. May be integrated.

  Further, in the OP update process, the CPU 13 determines whether or not the LT firmware of the lower tray LTn needs to be updated based on the information about the LT firmware, and when the update is necessary, the LT firmware is transmitted to the lower tray LTn. . However, the CPU 13 may transmit the LT firmware to the lower tray LTn without determining whether the LT firmware of the lower tray LTn needs to be updated. In this case, the CPU 21 of the lower tray LTn determines whether the LT firmware needs to be updated, and the LT firmware stored in the ROM 22 may be updated when the update is necessary. The same applies to the MT firmware.

  In the above-described embodiment, the case where the CPU 13 executes each process has been described. However, the ASIC 12 may include a plurality of CPUs, and the plurality of CPUs may cooperate to execute each process.

  In the above-described embodiment, the case where the LT firmware or the MB firmware received from the printer 1 is temporarily stored in the RAM 23 or 33 has been described. However, if all the firmware cannot be stored because the capacity of the RAM 23 or RAM 33 is small, the firmware update is achieved by repeatedly receiving a part of the firmware that can be stored in the RAM 23 or the RAM 33 and executing the firmware update partially. Also good.

  In the above-described embodiment, the case where the rasterization of the file included in the image forming job is executed in the printer 1 has been described. However, rasterization may be executed by the PC 3 or the server 4 and the rasterized data may be included in the image forming job.

  In the above-described embodiment, the case where the power saving mode process is terminated after the execution of the image forming job in the power saving mode process illustrated in FIG. 4 has been described. However, the power saving mode process may be terminated after all the update processes are completed after the execution of the image forming job.

  Although the printer 1 is taken up as an example of the image forming apparatus, the image forming apparatus may be, for example, an MFP (Multi-Function Peripheral) as long as the apparatus has a printer function.

  In addition, various design changes can be made to the above-described configuration within the scope of the matters described in the claims.

DESCRIPTION OF SYMBOLS 1 Printer 4 Server 11 Image formation part 12 ASIC
13 CPU
14 ROM
16 Network interface 17 Optional interface LTn Lower tray MBn Mailbox

Claims (9)

A storage unit;
A control unit;
A connection unit for connecting the control unit and a plurality of optional devices ;
An image forming unit that performs image formation on a sheet;
A reception unit that receives an instruction to execute image formation by the image forming unit ;
The storage unit stores a plurality of types of option firmware used in the plurality of option devices,
The controller is
When the plurality of option devices includes a plurality of option devices of the same type, the plurality of types stored in the storage unit via the connection unit for each of the plurality of option devices of the same type. when sending each the same option firmware out of options firmware,
Determining whether or not the execution instruction is received by the reception unit;
When it is determined that the execution instruction is not received by the reception unit, the same option firmware is transmitted to each of the plurality of the same type of option devices,
If it is determined that the execution instruction has been received, it is further determined whether or not it is necessary to update the option firmware of the plurality of the same type of optional devices for execution of image formation related to the received execution instruction,
If it is determined that the option firmware needs to be updated to execute the image formation, the same option firmware is transmitted to each of the plurality of the same type of option devices before the image formation is executed.
If it is determined that it is not necessary to update the option firmware to execute the image formation, the image formation according to the execution instruction is executed before the same option firmware is transmitted to each of the plurality of the same type of option devices. An image forming apparatus that controls the image forming unit. The image forming apparatus according to claim 1 ,
A communication unit that communicates with external devices
The storage unit stores main firmware and sub-firmware executed by the control unit,
The controller is
Controlling the communication unit to sequentially receive the updated main firmware and the updated sub-firmware from the external device;
Rewrite the main firmware and sub-firmware stored in the storage unit by the received update main firmware and update sub-firmware,
When the received update sub-firmware is accompanied by the option firmware related to the plurality of the same type of option devices, the image forming apparatus transmits the accompanying option firmware to each of the plurality of the same type of option devices. . The image forming apparatus according to claim 1 ,
A communication unit that communicates with external devices
The storage unit stores main firmware and sub-firmware executed by the control unit,
The controller is
Controlling the communication unit to sequentially receive the updated main firmware and the updated sub-firmware from the external device;
The main firmware and sub-firmware stored in the storage unit are rewritten and rebooted by the received update main firmware and update sub-firmware, respectively.
After that, when option firmware related to the plurality of same type option devices is attached to either the received update main firmware or update sub-firmware, the attached option firmware is used as the plurality of option devices of the same type. The image forming apparatus transmits to each of the above. The image forming apparatus according to any one of claims 1 to 3 ,
The controller is
In response to the start of receiving the operating power, the option device that needs to be updated is extracted from the plurality of the same type option devices, and the same option firmware is transmitted to all of the extracted option devices. Image forming apparatus. An image forming apparatus according to any one of claims 1 to 4 ,
The controller is
In a state in which the supply of operating power to the image forming unit that performs image formation on the sheet is stopped, an optional device that requires an optional firmware update is extracted from the plurality of the same type of optional devices, An image forming apparatus that transmits the same optional firmware to all the extracted optional devices.   A storage unit;
  A control unit;
  A connection unit for connecting the control unit and a plurality of optional devices;
  The storage unit includes a ROM,
  The controller is
  A plurality of types of optional firmware used in the plurality of optional devices are stored in the ROM,
  When the plurality of option devices include a plurality of option devices of the same type, the plurality of types of option devices stored in the ROM via the connection unit for each of the plurality of option devices of the same type. An image forming apparatus that transmits the same optional firmware among the optional firmware.   The image forming apparatus according to claim 6,
  The controller is
  After storing the plurality of types of optional firmware in the ROM, a reboot is performed,
  An image forming apparatus that, after execution of the reboot, extracts an optional device that requires an optional firmware update from the plurality of the same type of optional devices, and transmits the optional firmware to the extracted optional device. A storage unit;
A control unit;
A connection unit for connecting the control unit and a plurality of optional devices ;
An image forming unit that performs image formation on a sheet;
A reception unit that receives an instruction to execute image formation by the image forming unit ;
A firmware update method executed by an image forming apparatus in which a plurality of types of option firmware used in the plurality of option devices are stored in the storage unit,
When the plurality of option devices includes a plurality of option devices of the same type, the plurality of types stored in the storage unit via the connection unit for each of the plurality of option devices of the same type. When sending the same optional firmware among the optional firmware
Determining whether or not the execution instruction is received by the reception unit;
When it is determined that the execution instruction is not received by the reception unit, the same option firmware is transmitted to each of the plurality of the same type of option devices,
If it is determined that the execution instruction has been received, it is further determined whether or not it is necessary to update the option firmware of the plurality of the same type of optional devices for execution of image formation related to the received execution instruction,
If it is determined that the option firmware needs to be updated to execute the image formation, the same option firmware is transmitted to each of the plurality of the same type of option devices before the image formation is executed.
If it is determined that it is not necessary to update the option firmware to execute the image formation, the image formation according to the execution instruction is executed before the same option firmware is transmitted to each of the plurality of the same type of option devices. A firmware update method for controlling the image forming unit as described above . A storage unit;
A computer,
A connection for connecting the computer and a plurality of optional devices ;
An image forming unit that performs image formation on a sheet;
A reception unit that receives an instruction to execute image formation by the image forming unit ;
In the image forming apparatus in which a plurality of types of option firmware used in the plurality of option devices are stored in the storage unit, the program is installed in the computer, and the computer includes
When the plurality of option devices includes a plurality of option devices of the same type, the plurality of types stored in the storage unit via the connection unit for each of the plurality of option devices of the same type. When executing the process of sending the same optional firmware among the optional firmware of
Let the receiving unit determine whether the execution instruction has been received;
When it is determined that the execution instruction is not received by the reception unit, the same option firmware is transmitted to each of the plurality of the same type of option devices,
If it is determined that the execution instruction has been received, it is further determined whether or not it is necessary to update the option firmware of the plurality of the same type of optional devices for execution of the image formation related to the received execution instruction,
If it is determined that the option firmware needs to be updated for execution of image formation, the same option firmware is transmitted to each of the plurality of the same type of option devices before execution of image formation,
If it is determined that it is not necessary to update the option firmware to execute the image formation, the image formation according to the execution instruction is executed before the same option firmware is transmitted to each of the plurality of the same type of option devices. A program for controlling the image forming unit .

Images