JP6516819B2 - SYSTEM, PRINT CONTROL DEVICE, CONTROL METHOD OF PRINT CONTROL DEVICE, AND PROGRAM - Google Patents

Description

  The present invention relates to a print control apparatus, a print system, a control method of the print control apparatus, and a program, which control a printing process by communicating with a data processing apparatus and an image forming apparatus.

  Conventionally, when an image forming apparatus with a print control device is ended, the end processing is manually performed on each of the print control device and the image forming apparatus, and the respective devices individually perform shutdown processing. The system was generally known. Further, depending on the system of the printing control apparatus, it is essential that the power supply of the image forming apparatus is in operation.

  In such a system, the power supply of the print control apparatus is linked with the power supply system of the image forming apparatus, and a system is realized in which when the image forming apparatus is manually terminated, the print control apparatus is also linked and terminated. However, if the image forming apparatus terminates the power of the printing control apparatus in conjunction with the printing control apparatus without confirming the status of the printing control apparatus, the possibility that the hard disk may be damaged if the printing control apparatus is accessing the hard disk was there.

  As a method capable of solving the above problems, in Patent Document 1, in the system in which the power is interlocked and terminated, the other hard disk access status is taken into consideration, and the power is interlocked only when the hard disk is not accessed. A method has been proposed. In addition, a system is also realized which remotely terminates the image forming apparatus from other data processing apparatuses on the network, instead of manually executing the termination process.

JP 2007-36318 A

The problems in the printing system in which the print control apparatus and the image forming apparatus are connected and the print control apparatus communicates with the data processing apparatus via the network will be described below with reference to the sequence example illustrated in FIGS. 13 and 14. S1301 and S1401 to S1403 indicate notifications and instructions.
As shown in the sequence example of FIG. 13, there is a problem when the system of the image forming apparatus 207 to which the print control apparatus 201 is connected is to be remotely terminated from the data processing apparatus 211.
According to the remote end instruction (S1301) from the data processing apparatus 211, the power supply of only the print control apparatus 201 is ended, and there is a system in which the power supply of the image forming apparatus 207 can not be ended simultaneously.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to perform remote termination in cooperation with a print control device and an image forming device when performing remote termination according to an instruction from a data processing device. Provide a mechanism to

A print control apparatus of the present invention for achieving the above object has the following configuration.
A system including a printing apparatus and a print control apparatus in communication with the printing apparatus, wherein the print control apparatus comprises: first receiving means for receiving a first end instruction from a data processing apparatus; When the end instruction is received, the power state of the printing device is changed from the first transmission unit that transmits the second end instruction to the printing device, and the printing device that receives the second end instruction. A second receiving unit that receives a power supply status notification for notifying the user and a termination notification for notifying that a part of the termination processing for turning off the power supply status of the printing apparatus has ended; And a limiting unit configured to limit execution of the termination process of the print control apparatus from the reception of the first termination instruction to the reception of the termination notification, the limitation unit printing the termination notification When received from a device Wherein to execute the shutdown processing of the print control device, the printing device receives the second end instruction, transmits the power state information to the print control apparatus, and transmission of the second to send the end notification The print control apparatus transmits, to the data processing apparatus, power supply state information obtained by rewriting a communication address included in the power supply state information received from the printing apparatus.

  According to the present invention, when remote termination is performed in accordance with an instruction from the data processing apparatus, the print control apparatus and the image forming apparatus can be linked to each other to remotely terminate.

It is a figure explaining composition of a printing system which shows this embodiment. FIG. 2 is a block diagram showing an example of a schematic configuration of a print control device shown in FIG. 1; FIG. 2 is a block diagram showing a configuration of the image forming apparatus shown in FIG. FIG. 3 is a diagram showing a first example of a power control sequence of the printing system showing the embodiment. 5 is a flowchart illustrating a control method of the print control apparatus according to the present embodiment. 6 is a flowchart illustrating a control method of the image forming apparatus showing the present embodiment. 6 is a flowchart illustrating a control method of the image forming apparatus showing the present embodiment. 6 is a flowchart illustrating a control method of the image forming apparatus showing the present embodiment. 5 is a flowchart illustrating a control method of the print control apparatus according to the present embodiment. It is the figure which showed the final transfer time of Socket and the relationship of connection start time. It is a figure which shows the example of a 2nd power supply control sequence of the printing system which shows this embodiment. 5 is a flowchart showing a control method of the image forming apparatus showing the present embodiment. FIG. 6 is a diagram illustrating an example of a power control sequence of the printing system. FIG. 6 is a diagram illustrating an example of a power control sequence of the printing system.

Next, the best mode for carrying out the present invention will be described with reference to the drawings.
<Description of system configuration>
First Embodiment

FIG. 1 is a diagram for explaining the configuration of a printing system according to the present embodiment. In this embodiment, a print control apparatus connected to the data processing apparatus via the first communication unit and connected to the image forming apparatus via the second communication unit is taken as an example. Here, the first communication means corresponds to a network (LAN) 212 described later, and the second communication means corresponds to the dedicated transmission path 206.
In FIG. 1, reference numeral 211 denotes a data processing apparatus, which is communicably connected to the print control apparatus 201 via the LAN 212 and the connector 202. An image forming apparatus 207 is connected to the connector 203 of the print control apparatus 201 via the connector 208 and the local LAN 210. Further, a dedicated transmission path 206 is connected between the connector 209 of the image forming apparatus 207 and the connector 204 of the print control apparatus 201.

FIG. 2 is a block diagram showing an example of a schematic configuration of the print control apparatus 201 shown in FIG.
In FIG. 2, a NIC (Network Interface Card) 101 functions as a first communication means interface which controls low-level connection with the LAN 212 shown in FIG.
A RIP processing unit 102 rasterizes a received print language such as PDL or a specific (compressed with JBIG) data format. An encode unit 103 converts rasterized data into print data or data format of a format supported by the image forming apparatus 207. Reference numeral 104 denotes an NIC unit which functions as a second communication interface for managing low-level connection.

  A hard disk drive (HDD) unit 105 temporarily stores (spools) print data received by the NIC unit 101 or temporarily stores compressed data after RIP. A first memory unit 106 is used by the RIP processing unit 102 for image development processing. A CPU unit 107 controls the entire print control apparatus.

  A second memory unit 108 is used by the CPU unit 107 as a temporary data storage area. An operation unit 109 has buttons, keys, a touch panel, and the like to operate the print control apparatus. Reference numeral 110 denotes a display unit which transmits information to the operator by means of images and characters.

  An image interface board (I board) 111 is connected to a connector 204 for interface. The image data is transferred using the I board unit 111 and the connector 204 to create the dedicated transmission path 206. The switch 112 receives power-off and power-on operations of the user, and when the switch 112 is operated, an interrupt is input to the CPU unit 107.

  When detecting an interrupt, the CPU unit 107 controls the power control unit 113 according to the processing state. Data packets from the data processing apparatus 211 to the print control apparatus 201 are propagated through the LAN 210 and taken into the print control apparatus 201 via the connector 202 and the LAN 212. In the print control apparatus 201, data reception processing is performed by the NIC unit 101.

  When print data is received from the data processing apparatus 211, the received print data is written to the HDD unit 105 as needed under the control of the CPU unit 107. This is a queuing (spool) generally performed for the purpose of improving the data transfer speed. The received print data stored in the HDD unit 105 is read from the RIP processing unit 102 in accordance with an instruction from the CPU unit 107.

On the other hand, print data for which queuing has not been performed is directly transferred to the RIP processing unit 102 by an instruction of the CPU unit 107. The print data sent to the RIP processing unit 102 in this way is subjected to raster imaging processing by the RIP processing unit 102.
Subsequently, data that can be interpreted by the image forming apparatus 207 based on the data format that can be interpreted by the image forming apparatus 207 preset by the encoding unit 103 that performs data format conversion function processing and the format of the received data Encoding to the format takes place. Since this encoding process is performed as necessary, if the format of the received print data can be interpreted by the image forming apparatus 207 as it is, it may be skipped if the encoding is not necessary.

The data after encoding needs to be in a format that can be interpreted by the image forming apparatus 207. For example, the format may be a specific print language format or a data format compressed by a specific method such as JBIG, etc. It changes with the ability of the interpretation means to incorporate.
Thus, the data encoded as necessary is re-packetized by the NIC unit 104 for transmission to the LAN 210, sent out from the connector 203, and sent to the image forming apparatus 207 via the LAN 210 and the connector 208.

The image forming apparatus 207 that has received the data packet performs a printing process on a recording medium such as a sheet according to the printing process procedure that it has. As another data transfer method, the data is transferred to the image interface board unit 111 via the encoding unit 103, and this data passes through the connector 204, flows through the dedicated transmission path 206, and is sent to the image forming apparatus 207 via the connector 209. Be
Since the data processing apparatus 211 sends data packets to the print control apparatus 201 as described above, it is necessary to timely acquire the power control status of the print control apparatus 201 and the image forming apparatus 207 and the status of normal start.

Therefore, the processing of the data processing apparatus 211 is changed by performing polling for acquiring the status at fixed time intervals or acquiring a status change notification packet sent by the print control apparatus 201 or the image forming apparatus 207. ing.
As an example, when the data processing apparatus 211 receives a power state notification packet to be transmitted when the image forming apparatus 207 is powered off, the data processing apparatus 211 can stop the execution of polling and can not apply unnecessary traffic to the network.

FIG. 3 is a block diagram showing the configuration of the image forming apparatus 207 shown in FIG.
In FIG. 3, the image forming apparatus according to the present embodiment includes an image forming apparatus main body 301 and an image input / output control unit 305. The image forming apparatus main body 301 includes an operation unit 302, a reader unit 303, and a printer unit 304.

An operation unit 302 is used to operate the image forming apparatus main body 301 and the image input / output control unit 305. The reader unit 303 reads an image of a document, and outputs image data corresponding to the document image to the printer unit 304 and the image input / output control unit 305. The printer unit 304 records an image corresponding to the image data from the reader unit 303 and the image input / output control unit 305 on a recording sheet.
The image input / output control unit 305 is connected to the reader unit 303, and includes an interface unit 306, an image memory 307, a control unit 308, and a hard disk (HDD) 309. The hard disk (HDD) 309 stores settings of the image forming apparatus (for example, an address book, operation history, user settings, ID settings, network settings).

The interface unit 306 is an interface between the print control apparatus 201 and the data processing apparatus 211 on the network 212 and the control unit 308. The interface unit 306 receives code data representing an image transferred from the print control apparatus 201 by the connector 209, expands the received data into image data that can be recorded by the printer unit 304, and passes the image data to the control unit 308.
The interface unit 306 also receives code data representing image data transferred from the data processing apparatus 211 from a connector 208 such as Ethernet (registered trademark).

If it is necessary to expand the data received from the data processing apparatus 211 into data that can be recorded by the printer unit 304, the data is expanded and passed to the control unit 308. Furthermore, the connector 209 may be a network interface, and may be connected to the print control apparatus 201 via a network.
The interface may be a parallel interface or an interface such as a USB interface, and may be directly connected to the print control apparatus 201 via an interface cable or the like. Moreover, you may use not only one cable but many cables.

The control unit 308 includes a CPU 308A, a ROM 308B, a RAM 308C, a power control unit 308D, and the like. The CPU 308A of the control unit 308 loads a program stored in the ROM 308B or another storage medium onto the RAM and executes it. This program controls the flow of data between the reader unit 303, the interface unit 306, the image memory 307, and the like. Note that, instead of the HDD 309, another nonvolatile memory in which data is not erased even when the power is turned off may be provided, and the data may be stored in the nonvolatile memory.
The switch 310 receives the user's power-off and power-on operations, and when the switch 310 is operated, an interrupt is input to the control unit 308. When the CPU 308A of the control unit 308 detects an interrupt, the CPU controls power control in accordance with the state.

FIG. 4 is a diagram showing a first sequence example of the printing system showing the present embodiment. S1101 to S1105 indicate instructions or notifications.
In FIG. 4, the data processing apparatus 211 executes a remote end instruction to the print control apparatus 201 (S1101). The print control apparatus 201 having received this remote end instruction executes the remote end instruction to the image forming apparatus 207 (S1102). The image forming apparatus 207 that has received the remote end instruction starts remote end processing of the image forming apparatus 207, and transmits a power status notification to the data processing apparatus 211 (S1103). Upon receiving the power state notification, the print control device 201 transmits the power state notification to the data processing device 211 (S1104). Next, the image forming apparatus 207 transfers a remote end notification to the print control apparatus 201 (S1105).

  When the image forming apparatus 207 transmits the remote end notification, the switch 310 of the image forming apparatus 207 is turned off. When the print control apparatus 201 receives the remote end notification (S1105), the power control of the print control apparatus 201 is ended. Hereinafter, a flow chart of the print control apparatus 201 and the image forming apparatus 207 will be described with reference to FIGS.

  FIG. 5 is a flowchart for explaining the control method of the print control apparatus according to the present embodiment. In this example, the data processing apparatus 211 transmits a remote end instruction to the print control apparatus 201, and the process from when the print control apparatus 201 receives this instruction to when the print control apparatus 201 ends the power is an example of processing. . Each step is realized by execution of the CPU unit 107 of the print control apparatus 201 according to the programs stored in the first memory unit 106 and the second memory unit 108.

  In S401, the CPU unit 107 receives a remote end instruction from the data processing apparatus 211 connected to the LAN 212 (S1101 in FIG. 4). The remote end instruction may be any protocol that allows communication between the data processing apparatus 211 and the print control apparatus 201.

In the present embodiment, the data processing apparatus 211 uses the Simple Network Management Protocol (SNMP) to SetRequest a remote termination instruction to the MIB object capable of instructing the remote termination of the print control apparatus 201.
The CPU unit 107 instructs the image forming apparatus 207 to issue a remote termination instruction, and upon detecting that the data has been written in the MIB object, the processing proceeds to step S402. Then, in step S402, the CPU unit 107 instructs the image forming apparatus 207 to end the remote (S1102 in FIG. 4).

  The remote end instruction from the print control apparatus 201 is also issued using the MIB. When the print control apparatus 201 sets the remote end instruction to a MIB object capable of instructing the remote end of the image forming apparatus 207, the process proceeds to step S403.

  Then, in step S403, the CPU unit 107 waits for the notification of the power state of the image forming apparatus 207 and the notification of the remote end transmitted from the image forming apparatus 207 (S1103 in FIG. 4). Here, since the CPU unit 107 waits for the process of the image forming apparatus 207, the description shifts from the description of the flow of the print control apparatus 201 of FIG. 5 to the flow of the image forming apparatus 207 of FIG.

FIG. 6 is a flow chart for explaining a control method of the image forming apparatus showing the present embodiment. The present example is an example of remote end processing of the image forming apparatus 207. Each step is realized by execution of the CPU 308A of the control unit 308 of the image forming apparatus 207 in accordance with a program stored in the ROM 308B of the control unit 308.
First, in step S501, when a remote end instruction is set from the print control apparatus 201 to the image forming apparatus 207 as a MIB object, the process transitions to step S502. In step S <b> 502, the CPU 308 </ b> A of the image forming apparatus 207 starts the remote end processing timer, and transitions to step S <b> 503. In S503, the CPU 308A starts an application end timer, and transitions to S504. The processing relating to these timers will be described later.

In step S504, in order to notify the data processing apparatus 211 on the LAN 212 that the power state changes, the CPU 308A sends a power state notification to the LAN 210 (S1103 in FIG. 4). The power status notification is transmitted when the power of the image forming apparatus 207 is turned on or when the power is turned off, or when the status of the image forming apparatus 207 changes, such as when it is paused.
In step S504, since the power of the image forming apparatus 207 is ended, the attribute value in the power state notification indicates that the power is turned off.

Next, in step S505, the CPU 308A of the image forming apparatus 207 transmits an end notification to the application in the image forming apparatus 207, and transitions to step S506. Then, in S506, the process waits for the end process of the application in the image forming apparatus 207 to be completed. Here, when it is confirmed that all the applications have ended, the process transitions to S507.
Next, in S507, the CPU 308A of the image forming apparatus 207 transmits a remote end notification to the print control apparatus 201 (S1105 in FIG. 4), and the process transitions to S508. In step S508, the CPU 308A of the image forming apparatus 207 performs OS termination processing, and the process transitions to step S509. In step S509, the CPU 308A of the image forming apparatus 207 turns off the switch 310 to cut off the power supply to the image forming apparatus 207.

The timer process in S502 and S503 described above will be described below.
First, the application end timer set in S503 will be described.
Although it has been described that the image forming apparatus 207 waits for the end of the application in S506, the application may not end for some reason, and the end notification may not be received from the application. An application termination timer is used to enable remote termination even in such a case.
FIG. 7 is a flowchart illustrating a control method of the image forming apparatus according to the present embodiment. This example is an example of power switch control by an application end timer. Each step is realized by execution by the CPU 308A of the control unit of the image forming apparatus 207 in accordance with a program stored in the ROM 308B of the control unit 308.
When the application end timer is started in S503 shown in FIG. 6, the process proceeds to S601.

In S601, the CPU 308A determines whether the application end timer has timed up to a preset time. Here, when the CPU 308A determines that the time is not up, it waits for the time up time.
On the other hand, if the CPU 308A determines in step S601 that the time is up, the loop for waiting for application termination is interrupted in step S506, and the process transitions to step S507. The description of the process after S507 is omitted.
Next, the remote end start timer set in S502 will be described.
Although it has been described that the image forming apparatus 207 performs the termination process in S508, the OS termination process may not terminate due to some reason. This remote termination timer is used to implement remote termination even in such a case.

FIG. 8 is a flowchart for explaining a control method of the image forming apparatus showing the present embodiment. This example is an example of power switch control by the remote end timer. Each step is realized by execution of the CPU 308A of the control unit 308 of the image forming apparatus 207 in accordance with a program stored in the ROM 308B of the control unit 308.
When the remote end timer is started in S502, the CPU 308A of the control unit 308 determines in S701 whether or not the remote end timer has timed up to a preset time. Here, when the CPU 308A determines that the time is not up, it waits for the time up time.
On the other hand, when the CPU 308A determines that the time is up, the OS termination process of S508 is interrupted, and the process proceeds to S508. The description of the process after S508 is omitted.

The description returns to the flow of the print control apparatus 201 of FIG.
In step S <b> 403, the CPU unit 107 of the print control apparatus 201 waits for the power state notification and the remote end notification transmitted from the image forming apparatus 207. When the CPU unit 107 receives the power state notification (S1103 in FIG. 4), the process proceeds to S404.
In step S404, the CPU unit 107 refers to the attribute value of the power state notification, and searches whether there is an attribute value that needs to be rewritten to the attribute value of the print control apparatus 201. Here, the attribute value to be rewritten means that, when the print control apparatus 201 transfers the power state notification to the LAN 212, the attribute value of the image forming apparatus 207 should not be rewritten to the attribute value of the print control apparatus 201. This is an attribute value that makes it impossible for the device 211 to process normally. An example is an IP address or MAC address information.

If the CPU unit 107 determines in S404 that the information is included in the power state notification, the process proceeds to S405. Then, in step S405, the CPU unit 107 rewrites the attribute value that needs to be rewritten to the attribute value of the print control apparatus, and transitions to step S406.
On the other hand, if the CPU unit 107 determines that there is no attribute value to be rewritten in step S404, the process proceeds to step S406.
Then, in S406, CPU 107, (S1104 in Fig. 4) transmits the power state notification packet to LAN 212, a transition to S40 3.
Then, at S40 3, CPU 107 receives the remote end notification (S1105 in Fig. 4), the process proceeds to S407.
In S407, the software termination process of the CPU unit 107 is executed, and the process proceeds to S408. In step S408, when the remote end notification is received from the image forming apparatus in accordance with the remote end instruction for cutting off the power supply in step S403, the CPU unit 107 turns off the switch 112, that is, executes the shutdown processing. End the process. When the switch 112 is a switch such as a push switch that does not require hardware processing when it is OFF, the explicit OFF operation of the switch 112 is not necessary.
As a result, after notifying the data processing apparatus of the power supply status received from the image forming apparatus 207, the print control apparatus 201 can limit the start of the shutdown process until the remote end notification is received from the image forming apparatus. .
Second Embodiment

  FIG. 9 is a flow chart for explaining the control method of the print control apparatus showing the present embodiment. In this example, the data processing apparatus 211 transmits a remote end instruction to the print control apparatus 201, and the process from when the print control apparatus 201 receives this instruction until the print control apparatus 201 ends the power supply is an example of processing. Each step is realized by the CPU unit 107 of the print control apparatus 201 executing according to the programs stored in the first memory unit 106 and the second memory unit 108.

The basic flowchart on the side of the image forming apparatus 207 is the same as that of the first embodiment, and is thus omitted. Further, in the flowchart of FIG. 9, the steps for performing the same processing as that of FIG.

In step S801, when the CPU unit 107 detects that the remote end instruction has been written to the MIB object, the processing proceeds to step S802. In step S802, the CPU unit 107 determines whether the upper limit of currently available sockets has been reached in the power state notification transmission process. Specifically, it is determined whether the remote end notification can be transferred to the data processing apparatus 211, based on whether the number of packet transfers to communicate with the data processing apparatus 211 exceeds the upper limit number.
Here, if the CPU unit 107 determines that the upper limit has been reached, the process proceeds to step S803, and if the CPU unit 107 determines that the upper limit is not reached, the process proceeds to step S804.
In step S803, the power state notification transfer process of the print control apparatus 201 ends the Socket, which is assumed to be the least frequently used. The power state notification transfer process (communication process) identifies the least frequently used Socket between the time when the packet was last transferred (final transfer time) and the time when the connection was started (connection start time). As a result, it is possible to notify the data processing apparatus of the power supply state of the image forming apparatus while suppressing the traffic of the communication interface including the network and the transmission path.

FIG. 10 is a diagram showing the relationship between the final transfer time of the Socket in a certain state and the connection start time.
In the present embodiment, when the upper limit value of Socket is “5”, the state of FIG. 10 has already reached the upper limit value. In this case, first, the one with the most elapsed time since the final transfer is selected. In the example of FIG. 10, since Socket 3 has a long final transfer time, this Socket is ended. If the final transfer time is the same, select the one with the old connection start time and close the Socket.
When the CPU unit 107 ends one Socket in step S803, the process proceeds to step S804. In step S804, the print control apparatus 201 issues a remote end instruction to the image forming apparatus 207, and the processing proceeds to step S805.

In step S805, the CPU unit 107 waits for the power state notification and the remote end notification transmitted from the image forming apparatus 207. When the CPU unit 107 receives the power state notification, the process proceeds to step S806. In step S806, the CPU unit 107 refers to the attribute value of the power state notification to search whether there is a value that needs to be rewritten to the attribute value of the print control apparatus 201. Here, if the CPU unit 107 determines that rewriting is necessary, the process proceeds to step S807.
Then, in step S807, the CPU unit 107 rewrites the value that needs to be rewritten, and transitions to step S808. On the other hand, if the CPU unit 107 determines that there is no value to be rewritten in step S806, the processing proceeds to step S808.

Then, in step S808, the CPU unit 107 transmits this power state notification to the LAN 212, turns on the flag for which the power state notification has been received, stores it in the first memory unit 106, and transitions to step S809. In step S809, the CPU unit 107 determines whether the remote end notification transmitted by the image forming apparatus 207 has been received. Note that the CPU unit 107 acquires the remote end notification reception flag from the first memory unit 106. Here, if the CPU unit 107 determines that the flag has not been received, the process proceeds to step S810.
If the CPU unit 107 determines in step S809 that the flag is received, the process advances to step S811, the switch 112 is turned off, and the processing ends.

  In step S810, the CPU unit 107 instructs the image forming apparatus 207 to transmit a remote end notification. When receiving the remote end notification transmission instruction, the image forming apparatus 207 causes the state of the image forming apparatus 207 to transition to the step of S507 (FIG. 6), transmits the remote end notification, and then executes the processing of the OS. If the CPU unit 107 transmits a remote end transmission instruction to the image forming apparatus 207 in step S810, the process advances to step S805.

Then, in step S805, when the CPU unit 107 receives the remote end notification, the process proceeds to step S812. In step S812, the CPU unit 107 turns on the remote end notification received flag, saves the flag in the first memory unit 106, and transitions to step S813.
Then, in step S813, the CPU unit 107 confirms whether the power supply status notification has already been received. Whether or not the CPU 308A has received this packet confirms the flag that has received the power state notification packet set in S808. Here, if the flag is ON, the CPU unit 107 determines that it has already been received, and transitions to S816.

Then, in step S816, the CPU unit 107 executes shutdown processing of the print control apparatus, and transitions to step S811.
On the other hand, if the CPU unit 107 determines that the print control apparatus 201 has not transferred the power supply status notification in step S813, the processing proceeds to step S814. In step S814, the CPU unit 107 activates only the process required to transfer the power state notification, executes the end process of the other processes, and transitions to step S815.
In step S814, it may be determined whether the upper limit of the power state notification performed in step S802 has reached the upper limit. In the present embodiment, the printing system of the printing control apparatus 201 and the image forming apparatus 207 is considered to be terminated as soon as possible, so this step is executed. However, this step is executed if it is not necessary to terminate particularly. You don't have to.

  Next, in step S815, the CPU unit 107 instructs the image forming apparatus 207 to transmit a power state notification. When the image forming apparatus 207 receives the notification, the image forming apparatus 207 may immediately transmit the power status notification or may start the process again from S502. If the image forming apparatus 207 has already been started when the power state notification transmission instruction request has been made, the print control apparatus 201 may substitute for the power state notification and transition to S816. Also, the print control apparatus 201 may shift to S816 without doing anything.

In step S815, when the CPU unit 107 instructs the image forming apparatus 207 to transmit a power state notification, the process advances to step S805 to stand by for the power state notification. Although the power supply status notification has been described above in this embodiment, the remote termination notification may be received first.
Thus, after notifying the data processing apparatus of the power supply status received from the image forming apparatus 207, the print control apparatus 201 also performs control to limit the start of the shutdown process until the remote end notification is received from the image forming apparatus. be able to.
Third Embodiment

FIG. 11 is a diagram showing a sequence example of the printing system showing the present embodiment. S1201 to S1205 indicate instructions or notifications.
The data processing apparatus 211 issues a remote end instruction to the image forming apparatus 207 (S1201). The print control apparatus 201 that has received this remote end instruction transfers this packet to the image forming apparatus 207. The image forming apparatus 207 that has received this remote termination instruction executes the remote termination instruction to the print control apparatus 201 (S1202). The image forming apparatus 207 that has received the remote termination instruction starts remote termination processing, and transmits a power status notification to the data processing apparatus 211 (S1203).

  Upon receiving the power state notification, the print control device 201 transmits the power state notification to the data processing device 211 (S1204). Next, the image forming apparatus 207 transmits a remote end notification to the print control apparatus 201 (S1205). When the image forming apparatus 207 transmits the remote end notification, the switch 112 of the image forming apparatus 207 is turned off. When the print control apparatus 201 receives the remote end notification (S1205), the power control of the print control apparatus 201 is ended.

FIG. 12 is a flowchart showing a control method of the image forming apparatus showing the present embodiment. In this example, the data processing apparatus 211 transmits a remote end instruction to the image forming apparatus 207, and the image forming apparatus 207 receives the instruction and starts the remote end timer. The operations after the start of the remote end timer are the same as those described in the first embodiment, and thus are omitted.
Also, each step is realized by the CPU 308A of the control unit of the image forming apparatus 207 according to the program stored in the ROM 308B of the control unit 308.

  In step S1001, the data processing apparatus 211 transmits a remote end instruction to the image forming apparatus 207. The print control apparatus 201 receives the remote end instruction packet transmitted by the information processing apparatus 211 from the LAN 212. When the print control device receives this packet, it transfers it to the image forming device 207. The CPU unit 107 of the print control apparatus uses a TCP or UDP port number to determine whether it is a remote end instruction addressed to the image forming apparatus 207 or a remote end instruction addressed to the print control apparatus 201. As another example, the determination may be made based on the object of the MIB, or based on the value written in the MIB object. When the image forming apparatus 207 receives the shutdown instruction, the process proceeds to step S1002.

In step S1002, the CPU 308A of the image forming apparatus determines whether the remote end instruction is an instruction from the print control device 201. Here, if the CPU 308A determines that the instruction is from the print control apparatus 201, the processing proceeds to step S1004. On the other hand, if the CPU 308A determines that the instruction is not an instruction from the print control apparatus 201, the process proceeds to step S1003. The CPU 308A instructs the print control apparatus 201 to remotely end, and the process proceeds to step S1004. The flow after S1004 is the same as in the first embodiment and the second embodiment, and is thus omitted.
In step S1002, the CPU 308A determines from the transmission source address and port number of the remote end instruction in the determination from the print control apparatus 201. Also in the print control apparatus 201, the CPU unit 107 may determine whether the remote end instruction has been received from the image forming apparatus 207 and may not transmit the remote end instruction to the image forming apparatus 207.
Thus, the print control apparatus 201 can restrict the start of the shutdown process until the remote end notification is received from the image forming apparatus 207.

  Each process of the present invention can also be realized by executing software (program) acquired via a network or various storage media with a processing device (CPU, processor) such as a personal computer (computer).

  The present invention is not limited to the above embodiments, and various modifications (including organic combinations of the respective embodiments) are possible based on the spirit of the present invention, which are excluded from the scope of the present invention is not.

101 NIC unit 102 RIP processing unit 103 encoding unit 104 NIC unit 105 HDD unit 106 first memory unit 107 CPU unit 108 second memory unit 109 operation unit 110 display unit 111 I board unit 112 switch 113 power control unit

Claims (30)

A system comprising: a printing device; and a print control device in communication with the printing device, the system comprising:
The print control device
First receiving means for receiving a first end instruction from the data processing device;
First transmitting means for transmitting a second end instruction to the printing apparatus when the first end instruction is received;
Power status notification for notifying that the power status of the printing apparatus is changed from the printing apparatus that has received the second termination instruction, and termination processing for turning off the power status of the printing apparatus Second receiving means for receiving an end notification for notifying that a part has ended;
Restricting means for restricting execution of the termination process of the print control apparatus from reception of the first termination instruction to reception of the termination notification;
Have
The restriction unit causes the print control apparatus to execute shutdown processing when the end notification is received from the printing apparatus.
The printing device is
When the second end instruction is received, power state information is transmitted to the print control device, and a second transmission unit that transmits the end notification is provided.
The system according to claim 1, wherein the print control device transmits, to the data processing device, power supply state information obtained by rewriting a communication address included in the power supply state information received from the printing device.   The system according to claim 1, wherein the print control apparatus is connected to the printing apparatus via a Local Area Network (LAN). The print control device includes a RIP processing unit that rasterizes print data received from the data processing device.
The system according to claim 1, wherein the print control device transmits print data rasterized by the RIP processing unit to the printing device. The print control apparatus communicates with the printing apparatus via a first communication path and a second communication path.
The print control apparatus transmits print data to the printing apparatus via the first communication path,
The system according to claim 1, wherein the second receiving unit of the printing apparatus receives the power status notification via the second communication path.   The system according to any one of claims 1 to 4, wherein the communication address is an IP address or a MAC address.   The system according to any one of claims 1 to 5, wherein the termination process is a shutdown process.   The system according to any one of claims 1 to 6, wherein the print control device performs the termination process according to the first termination instruction.   The system according to any one of claims 1 to 7, wherein the printing apparatus starts an ending process of the printing apparatus according to the second end instruction.   When the printing apparatus receives the second termination instruction, it causes an application termination timer to be started, and when time is up to a preset application termination time, the application termination waiting state is interrupted and the termination notification is issued. The system according to any one of claims 1 to 8, wherein the system transmits to the printing control apparatus.   The printing apparatus, upon receiving the second termination instruction, causes a remote termination timer to be started, and when timed up to a preset remote termination time, transits to an OS termination process of the printing apparatus. The system according to any one of the preceding claims, characterized in that The ending process of the printing apparatus includes an ending process of an application of the printing apparatus and a process of turning off a power switch of the printing apparatus.
The second transmission means transmits the termination notification before turning off the power switch after termination processing of the application is completed, according to any one of claims 1 to 10. System. A printing control device,
First receiving means for receiving a first end instruction from the data processing device;
First transmitting means for transmitting a second end instruction to the printing apparatus when the first end instruction is received;
Power status notification for notifying that the power status of the printing apparatus is changed from the printing apparatus that has received the second termination instruction, and termination processing for turning off the power status of the printing apparatus Second receiving means for receiving an end notification for notifying that a part has ended;
A second transmission unit that transmits, to the data processing apparatus, power supply status information obtained by rewriting a communication address included in power supply status information received from the printing apparatus;
After receiving the first end instruction until receiving the completion notification, it possesses a limiting means for limiting the execution of the termination processing of the print control apparatus,
The print control apparatus according to claim 1, wherein the limiting unit executes shutdown processing of the print control apparatus when the end notification is received from the printing apparatus.   The print control apparatus according to claim 12, wherein the print control apparatus is connected to the printing apparatus via a local area network (LAN). A RIP processing unit that rasterizes print data received from the data processing apparatus;
14. The print control device according to claim 12, wherein the print control device transmits print data rasterized by the RIP processing unit to the printing device. The print control apparatus communicates with the printing apparatus via a first communication path and a second communication path.
The print control apparatus transmits print data to the printing apparatus via the first communication path,
13. The print control apparatus according to claim 12, wherein the second receiving unit receives the power state notification via the second communication path.   The print control apparatus according to any one of claims 12 to 15, wherein the communication address is an IP address or a MAC address.   The print control apparatus according to any one of claims 12 to 16, wherein the end process is a shutdown process.   The print control apparatus according to any one of claims 12 to 17, wherein the print control apparatus performs the end process according to the first end instruction.   The print control apparatus according to any one of claims 12 to 18, wherein the printing apparatus starts an ending process of the printing apparatus according to the second end instruction. The ending process of the printing apparatus includes an ending process of an application of the printing apparatus and a process of turning off a power switch of the printing apparatus.
19. The apparatus according to claim 12, wherein the second reception unit transmits the termination notification transmitted by the printing apparatus before the power switch is turned off after the termination processing of the application is completed. The print control device according to any one of the items. A control method of a printing control apparatus
A first receiving step of receiving a first end instruction from the data processing device;
A first transmission step of transmitting a second end instruction to the printing apparatus when the first end instruction is received;
A second receiving step of receiving, from the printing apparatus that has received the second end instruction, a power status notification for notifying that the power status of the printing apparatus changes;
A third reception step of receiving an end notification for notifying that a part of the end processing for turning off the power state of the printing apparatus has ended;
A second transmission step of transmitting, to the data processing apparatus, power supply status information obtained by rewriting the communication address included in the power supply status information received from the printing apparatus;
After receiving the first end instruction until receiving the completion notification, it possesses a restriction step of restricting execution of a termination processing of the print control apparatus,
A control method characterized in that, in the limiting step, when the end notification is received from the printing apparatus, a shutdown process of the print control apparatus is executed .   22. The control method according to claim 21, wherein the print control apparatus is connected to the printing apparatus via a local area network (LAN). A RIP processing step of rasterizing print data received from the data processing apparatus;
23. The control method according to claim 21, further comprising: a third transmission step of transmitting print data rasterized in the RIP processing step to the printing apparatus. The print control apparatus communicates with the printing apparatus via a first communication path and a second communication path.
The print control apparatus transmits print data to the printing apparatus via the first communication path,
22. The control method according to claim 21, wherein the power state notification is received through the second communication path in the second receiving step .   The control method according to any one of claims 21 to 24, wherein the communication address is an IP address or a MAC address.   The control method according to any one of claims 21 to 25, wherein the termination process is a shutdown process.   The control method according to any one of claims 21 to 26, further comprising an end processing step of performing the end processing according to the first end instruction.   The control method according to any one of claims 21 to 27, wherein the printing apparatus starts an ending process of the printing apparatus according to the second end instruction. The ending process of the printing apparatus includes an ending process of an application of the printing apparatus and a process of turning off a power switch of the printing apparatus.
29. The apparatus according to claim 21, wherein after said application termination process is completed, said termination notification sent by said printing apparatus is received before said power switch is turned off, in said third reception step. The control method according to any one of the items. On a computer included in the print control device,
A first reception procedure for receiving a first end instruction from the data processing device;
A first transmission procedure for transmitting a second end instruction to the printing apparatus when the first end instruction is received;
A second reception procedure for receiving, from the printing apparatus that has received the second end instruction, a power status notification for notifying that the power status of the printing apparatus is changed;
A third reception procedure for receiving an end notification for notifying that a part of the end processing for turning off the power state of the printing apparatus has ended;
A second transmission procedure for transmitting, to the data processing apparatus, power supply status information obtained by rewriting a communication address included in power supply status information received from the printing apparatus;
A restriction procedure for restricting execution of the termination process of the print control apparatus is executed from the reception of the first termination instruction to the reception of the termination notification .
In the limiting procedure, upon receiving the completion notification from the printing apparatus, because of the program to execute the shutdown processing of the print control apparatus.

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