JP2019079578A - Print control apparatus and method of controlling print control apparatus - Google Patents

Abstract

To reduce time required for a printer to receive printing data and to execute printing using the printing data.SOLUTION: A print control apparatus connected to a printer that operates at least in standby state and a power-saving state which consumes less power than in the standby state includes: receiving means which receives a print request for causing the printer to execute printing, from an external device; generation means which generates print data, according to the print request received by the receiving means; determination means which determines whether the printer is in the power-saving state or not; and transmission means which transmits restoration data for restoring the printer from the power-saving state to the standby state before transmitting the print data generated by the generation means when the determination means determines that the printer is in the power-saving state, and does not transmit the restoration data when the determination means determines that the printer is not in the power-saving state.SELECTED DRAWING: Figure 8

Description

  The present invention is a print control apparatus communicably connected to a printing apparatus, generates raster image data according to a print request from an external apparatus, and transmits the print data to the printing apparatus, a control method thereof, and a print control apparatus and printing And a printing system including the device.

  There is known a printing system provided with a print controller that receives a print request from an external device and generates print data according to the print request, and a printer that performs printing using the print data received from the print controller. 1).

  The printer disclosed in Patent Document 1 shifts to the power saving state under the condition that the printer is not used for a fixed time. In the power saving state, power is supplied to the interface circuit for receiving data transmitted from the print controller, but the power supply to the image forming unit and the control unit is stopped.

Unexamined-Japanese-Patent No. 2003-72198

  When receiving the print job (print request) generated in the page description language (PDL: Page Description Language) from the external apparatus, the print controller of Patent Document 1 generates print data according to the print job. Then, the print controller transmits the generated print data and control commands (a command instructing start of printing, a sheet feed stage, the number of copies, a command specifying a print layout, etc.) to the printer in the power saving state.

  When the printer in the power saving state receives the print data and the control command, it resumes the power supply to the image forming unit and the control unit and cancels the power saving state. Thus, a preparation operation for printing is performed, such as raising the temperature of the fixing unit of the image forming unit to the fixing temperature.

  As described above, according to Patent Document 1, after the print controller interprets the page description language and generates print data, the generated print data and control command are transmitted to the printer. Since the printer executes the preparation operation for printing after receiving the print data and the control command, it takes time from the reception of the print data to the execution of the printing using the print data. .

  The present invention reduces the time required for the printing apparatus to execute printing after receiving the printing data by transmitting restoration data for restoring the printing apparatus from the power saving state before transmitting the printing data. The purpose is

  The print control apparatus according to the present invention is a print control apparatus connected to a printing apparatus operating in at least a standby state and a power saving state which consumes less power than the standby state, and a print request for causing the printing apparatus to execute printing A receiving unit for receiving from an external device; a generating unit for generating print data according to the print request received by the receiving unit; a determining unit for determining whether the printing apparatus is in a power saving state; For returning the printing apparatus from the power saving state to the standby state before transmitting the print data generated by the generating unit when it is determined by the means that the printing apparatus is in the power saving state. The return data is transmitted, and when it is determined that the printing apparatus is not in the power saving state by the determination unit, the return data Not transmitted, and a transmission unit.

  According to the printing control apparatus of the present invention, printing is performed after the printing apparatus receives print data by transmitting restoration data restoration data for restoring the printing apparatus from the power saving state before transmitting raster image data. Reduce the time it takes to execute

Block diagram showing the overall configuration of the printing system Hardware block diagram of printing device and printing control device Power supply block diagram of printing device Diagram showing printing device in power saving state Diagram showing print control device in power saving state Diagram showing the processing executed with the print control device when the printing device shifts to the power saving state A flowchart showing processing executed by the print control apparatus shifted to the power saving state A flowchart showing processing executed by the print control apparatus restored from the power saving state A flowchart showing processing executed by the printing apparatus shifted to the power saving state Figure showing the printing device recovered from the power saving state by receiving the recovery data Figure showing the printing device recovered from the power saving state by receiving WOL packets other than recovery data Communication sequence diagram when sending return data Power supply block diagram of printing apparatus according to the second embodiment A flowchart showing processing executed by the print control apparatus restored from the power saving state A flowchart showing processing executed by the printing apparatus shifted to the power saving state Power supply block diagram of printing apparatus according to the third embodiment A flowchart showing processing executed by the print control apparatus restored from the power saving state A flowchart showing processing executed by the printing apparatus shifted to the power saving state Figure showing the printer returned from the power saving state by a WOL packet of a specific destination port number Diagram showing packet structure of return data

First Embodiment
<Overall Configuration of Image Forming System>
FIG. 1 is a block diagram showing the overall configuration of the printing system 100. As shown in FIG.

  The printing system 100 includes a printing control device 102 and a printing device 103 separate from the printing control device 102. The printing system 100 is communicably connected to the client computer 101. The client computer 101 and the print control apparatus 102 are communicably connected via a Local Area Network (LAN) 110. The print control apparatus 102 and the LAN 110 are connected by an Ethernet (registered trademark) cable 109. The print control device 102 and the printing device 103 are connected via a video cable 107 and a control cable 108. In the present embodiment, the printing apparatus 103 is not directly connected to the LAN 110, but the printing apparatus 103 may be directly connected to the LAN 110.

  The client computer 101 generates a print job (print request) using a printer driver, and transmits the generated print job to the print control apparatus 102. The print job is PDL data described in a page description language (PDL). The print job is not limited to PDL data, and may be image data according to a predetermined compression method such as JPEG, or bitmap data.

  The print control apparatus 102 interprets the print job transmitted from the client computer 101 and generates raster image data. Then, the print control device 102 transmits, to the printing device 103, the generated raster image data and a control command for causing the printing device 103 to execute printing using the raster image data. Raster image data is transmitted to the printing apparatus 103 via the video cable 107. A control command (a command instructing start of printing, a command specifying a sheet feed stage, the number of copies, a print layout, etc.) is transmitted to the printing apparatus 103 via the control cable 108.

  Then, before transmitting the raster image data and the control command, the print control apparatus 102 according to the present embodiment transmits, to the printing apparatus 103, recovery data which is a packet for recovering the printing apparatus 103 from the power saving state. The return data is transmitted to the printing apparatus 103 via the control cable 108. The return data is a TCP packet in which a port number (port number: 9100 or 515) used for printing is designated.

  The printing apparatus 103 performs printing using raster image data in accordance with a control command transmitted from the print control apparatus 102. The printing apparatus 103 according to this embodiment is an MFP (Multifunction Peripheral) having various functions such as a scan function, a copy function, a BOX function, and a SEND function in addition to the print function. The printing apparatus 103 may have a bookbinding function, a staple function, and the like.

  As shown in FIG. 1, the printing apparatus 103 includes a scanner unit 104, a printer unit 105, and an operation unit 106. The scanner unit 104 reads an image of a document placed on a document table, and generates image data corresponding to the image. The printer unit 105 performs printing based on raster image data. The printer unit 105 includes an electrophotographic printing mechanism. This printing mechanism includes a photosensitive drum 105a, an exposure device (not shown) for forming an electrostatic latent image on the photosensitive drum 105a, a developing device (not shown) for developing an electrostatic latent image with toner, and printing paper And a fixing unit 105 b for fixing the toner image transferred onto the sheet to the printing sheet. The operation unit 106 also includes a display unit 106 a and an input unit 106 b. The display unit 106 a is, for example, a liquid crystal display, and the input unit 106 b is, for example, a touch panel or a button.

  FIG. 2 is a hardware block diagram of the printing apparatus and the printing control apparatus.

  Next, details of the controller 130 of the printing apparatus 103 will be described with reference to FIG. The controller 130 performs overall operation control, status management, image processing, and the like of the printing apparatus 103. For example, the controller 130 controls the operation of the operation unit 106, the scanner unit 104, and the printer unit 105.

  The controller 130 includes a CPU 131, a ROM 132, a RAM 133, an HDD 134, a power control unit 135, an image processing unit 136, a video interface (video I / F) 137, a network interface (NWI / F) 138, and a system bus 139.

  The CPU 131 executes the programs stored in the storage device (ROM 132, HDD 134) to control each part of the printing apparatus 103. The RAM 133 is used as a work memory of the CPU 131. The HDD 134 is a large-capacity storage device, and stores various control programs to be executed by the CPU 131 and image data. The image processing unit 136 is connected to the scanner unit 104 and the printer unit 105 via an image signal line. The video I / F 137 is connected to the print control device 102 via the video cable 107. The network I / F 138 is also connected to the print control apparatus 102 via the control cable 108. The video I / F 137 transmits raster image data to the print control apparatus 102 via the video cable 107. The network I / F 138 also transmits control commands to the print control apparatus 102 via the control cable 108. The power control unit 135 also controls the supply and stop of power to each unit of the printing apparatus 103.

  Next, the details of the print control device will be described with reference to FIG.

  The print control apparatus 102 includes a CPU 121, a memory 122, an HDD 123, a video I / F 124, a network I / F 125, and a network I / F 126. Hereinafter, the network I / F 125 for communicating with the printing apparatus 103 is called an internal network I / F 125, and the network I / F 126 for communicating with the client computer 101 is called an external network I / F 126.

  The CPU 121 executes the programs stored in the storage device (memory 122, HDD 123) to control each part of the print control apparatus 102. The memory 122 is used as a work memory of the CPU 131. The HDD 123 is a large-capacity storage device, and stores various control programs to be executed by the CPU 121 and image data. The video I / F 124 is connected to the printing apparatus 103 via a video cable 107. Also, the internal network I / F 125 is connected to the printing apparatus 103 via the control cable 108. The external network I / F 126 is connected to the LAN 110 via an Ethernet (registered trademark) cable 109.

  FIG. 3 is a power supply block diagram of the printing apparatus 103.

  The power supply system of the printing apparatus 103 will be described in detail with reference to FIG.

  The printing apparatus 103 operates in the standby state and a power saving state in which power consumption is smaller than that in the standby state. Needless to say, the printing apparatus 103 may be in a power state different from the standby state and the power saving state. For example, the printing apparatus 103 may be in the power-off state in which the power supply to each unit of the printing apparatus 103 is stopped. In addition, the printing apparatus 103 may save the state immediately before the printing apparatus 103 is turned off in the HDD 134 and enter hibernation state in which the operation is resumed from the state immediately before turning the power off next time. . In addition, the printing apparatus 103 may be in a suspended state in which the above-described state is stored in the RAM 133 instead of the HDD 134.

  The printing apparatus 103 includes a first power supply unit 151, a second power supply unit 152, and a third power supply unit 153. The first power supply unit 151 generates about 5.0 V DC power from the AC power supplied through the plug P. Then, the first power supply unit 151 supplies the generated DC power to the network I / F 138, the CPU 131, the RAM 133, the ROM 132, the HDD 134, and the input unit 106b of the operation unit 106. Hereinafter, a device which receives supply of power from the first power supply unit 151 is referred to as a first power system device.

  Further, the second power supply unit 152 generates a DC power of about 12.0 V from the AC power supplied through the plug P. Then, the second power supply unit 152 supplies the generated DC power to the display unit 106 b, the image processing unit 136, and the video I / F 137. Hereinafter, a device which receives supply of power from the second power supply unit 152 will be referred to as a second power system device.

  Further, the third power supply unit 153 generates a DC power of about 24.0 V from the AC power supplied through the plug P. Then, the third power supply unit 153 supplies the generated DC power to the printer unit 105 and the scanner unit 104. Hereinafter, a device which receives supply of power from the third power supply unit 153 will be referred to as a third power system device.

  Between the first power supply unit 151 and the first power supply system device, a power switch 154 which is turned on or off according to the user's operation is disposed. The power switch 154 has a mechanical relay 154a which is turned on or off according to the operation of the user, and a solenoid 154b for turning off the mechanical relay.

  Also, in parallel with the power supply switch 154, a relay switch 155 for supplying the power generated by the first power supply unit 151 to the first power supply system device is disposed. Even if the power switch 154 is turned off by the operation of the user, power is supplied from the first power supply unit 151 to the first power system device through the relay switch 155. The fact that the power switch 154 is turned off is notified to the power control unit 135 via the signal SEESAW. The power control unit 135 instructs the CPU 131 to execute the shutdown process when the power switch 154 is turned off. Then, when the shutdown process is executed by the CPU 131, the power control unit 135 turns off the mechanical relay 154a by supplying power to the solenoid 154b. As a result, the printing apparatus 103 is turned off.

  Further, between the plug P and the second power supply unit 152, a relay switch 156 that switches supply and disconnection of power from the plug P to the second power supply unit 152 is disposed. Further, between the plug P and the third power supply unit 153, a relay switch 157 that switches between supply and disconnection of power from the plug P to the third power supply unit 153 is disposed.

  In addition, between the CPU 131, the ROM 132, and the HDD 134 and the first power supply unit 151, a switch 158 that switches between supply and stop of power to the CPU 131, the ROM 132, and the HDD 134 is disposed.

  Further, between the printer unit 105 and the third power supply unit 153, a switch 159 for switching between supply and stop of power to the printer unit 105 is disposed. Further, between the scanner unit 104 and the third power supply unit 153, a switch 160 for switching between supply and stop of power to the scanner unit 104 is disposed.

  Next, the details of the power control unit 135 will be described.

  The power supply control unit 135 is a logic circuit capable of rewriting a program whose circuit can be rewritten. The power control unit 135 of the present embodiment is a CPLD (Complex Programmable Logic Device).

The power control unit 135 detects a recovery factor for recovering the printing apparatus 103 from the power saving state. In the power saving mode, as shown in FIG. 4, power is supplied to the power control unit 135, the network I / F 138, the input unit 106b, and the RAM 133, which are necessary for detecting a return factor described below. However, the power supply to other places has been shut down.
-Receiving a WOL (Wake On LAN) packet from the print control apparatus 102-Pressing the input unit 106 b by the user

  When the network I / F 138 receives the WOL packet, the power control unit 135 receives the return signal WAKE_LAN or WAKE_LAN2. When the network I / F 138 receives the WOL packet whose destination port number is 9100, the return signal WAKE_LAN2 becomes Hi level. When the WOL packet whose destination port number is other than 9100 is received, the return signal WAKE_LAN becomes Hi level.

  When the user presses the input unit 106b, the power control unit 135 receives the return signal KEY.

  When the network I / F 138 receives a WOL packet whose destination port number is 9100 while the printing apparatus 103 is in the power saving state, the power control unit 135 controls the signal CONT, the signal PRINT, and the signal RELAY. (Set to Hi level). As a result, the switches 156 to 159 are turned on, and power is supplied to the CPU 131, the ROM 132, the HDD 134, the operation unit 106, the image processing unit 136, the video I / F 137, and the printer unit 105. Here, an example in which power is supplied also to the display unit 106 b of the operation unit 106 has been described, but power supply to the display unit 106 b may be stopped.

  The destination port number 9100 is a port number used for RAW printing. When the WOL packet of the destination port number 515 used for LPR printing is received, the network I / F 138 may control the WAKE_LAN 2 (by setting it to the Hi level).

  In addition, when the network I / F 138 receives a WOL packet whose destination port number is other than 9100 while the printing apparatus 103 is in the power saving state, the power control unit 135 controls the signal CONT (Hi level) ). As a result, the switch 158 is turned on, and power is supplied to the CPU 131, the ROM 132, and the HDD 134. Then, the CPU 131 to which the power is supplied analyzes the received WOL packet, and determines whether it is necessary to restore the printer unit 105 or the scanner unit 104. If it is determined that the printer unit 105 or the scanner unit 104 needs to be restored, the CPU 131 instructs the power supply control unit 135 to supply power to the portion to be restored.

  Further, when the input unit 106 b is pressed while the printing apparatus 103 is in the power saving state, the power control unit 135 controls the signals CONT and RELAY (set the level to Hi). As a result, the switches 156 to 158 are turned on to supply power to the CPU 131, the ROM 132, the HDD 134, the operation unit 106, the image processing unit 136, and the video I / F 137.

  In the power saving state of the printing apparatus 103 described above, as shown in FIG. 4, power is supplied to the part necessary to restore the printing apparatus 103 from the power saving state, but power is supplied to the other parts. Stop. Specifically, in the power saving state, power is supplied to the power control unit 135, the network I / F 138, the RAM 133, and the input unit 106a.

  Similarly to the printing apparatus 103, the printing control apparatus 102 may also shift to the power saving state. As shown in FIG. 5, when the print control apparatus 102 shifts to the power saving state, the power supply to the CPU 121, the memory 122, the HDD 123, and the video I / F 124 is stopped. On the other hand, in the power saving state, power is supplied to the internal network I / F 125 and the external network I / F 126.

  FIG. 6 is a diagram showing processing executed with the print control apparatus when the printing apparatus shifts to the power saving state.

  Next, with reference to FIG. 6, a process performed with the print control apparatus 102 when the printing apparatus 103 shifts to the power saving state will be described.

  First, when the printing apparatus 103 detects a condition for shifting to the power saving state (Sleep transition condition) (S601), the printing apparatus 103 notifies the print control apparatus 102 to shift to the power saving state (S601). Sleep notification: S602).

Sleep transition condition is
The power saving button of the input unit 106b of the operation unit 106 is pressed. A predetermined time has elapsed since the printing apparatus 103 is not used.

  The print control apparatus 102 that has received the sleep notification executes processing such as stopping polling on the printing apparatus 103 (Sleep transition processing: S603). The print control apparatus 102 periodically polls information such as version information of the printing apparatus 103, media library information, configuration information of the sheet feeding device and the sheet discharging device, network setting information, sheet remaining amount, and toner remaining amount. There is. In the sleep transition processing, processing for canceling this polling and the like is performed.

  When the sleep shift process is completed, the print control apparatus 102 notifies the printing apparatus 103 that the shift process is completed (Sleep shift process completion notification: S604).

  The printing apparatus 103 that has received the sleep shift process completion notification executes a process for shifting to sleep (S605). Thus, the printing apparatus 103 shifts to the power saving state.

  The print control apparatus 102 that has executed the sleep transition processing completion notification also shifts to the power saving state in conjunction with the printing apparatus 103.

  When the printing apparatus 103 in the power saving state detects the above-described return factor (S606), the printing apparatus 103 notifies the printing control apparatus 102 that it has shifted to the standby state (the state in FIG. 3). (WakeUP notification: S607).

  The print control apparatus 102 that has received the WakeUP notification resumes the polling stopped in S603 (S608). The WakeUP notification is a TCP packet whose destination MAC address is the MAC address of the print control apparatus 102. When the print control apparatus 102 receives TCP addressed to the MAC address of the own apparatus, the print control apparatus 102 recovers from the power saving state.

  FIG. 7 is a flowchart showing processing executed by the print control apparatus that has shifted to the power saving state.

  A process executed by the external network I / F 126 of the print control apparatus 102 in the power saving state will be described with reference to FIG. 7.

  When the print control apparatus 102 is in the power saving state, the external network I / F 126 determines whether a packet has been received (S701). If it is determined that a packet has been received (S701: Yes), the external network I / F 126 determines whether the packet is a WOL packet (S702). The WOL packet is, for example, a print job input from the printer driver of the client computer 101.

  When the WOL packet is received, the external network I / F 126 instructs the print control apparatus 102 to recover from the power saving state (S703). On the other hand, if the received packet is not a WOL packet, the external network I / F 126 discards the packet (S704).

  FIG. 8 is a flowchart showing processing executed by the print control apparatus returned from the power saving state.

  Next, with reference to FIG. 8, a process executed by the print control apparatus restored from the power saving state by receiving the WOL packet will be described.

  First, the CPU 121 of the print control apparatus 102 determines whether the received WOL packet is a packet that requires activation of the printing apparatus 103 (S801). If it is determined that the packet does not require activation of the printing apparatus 103 (S801: No), the CPU 121 executes processing according to the received WOL packet (S808). For example, if the WOL packet is a packet in which the status of the printing apparatus 103 or the print control apparatus 102 can be answered without returning the printing apparatus 103 from the power saving state, the CPU 121 responds to the inquiry. Answer to.

  On the other hand, when it is determined that the packet requires the activation of the printing apparatus 103 (S801: No), the CPU 121 determines whether the packet is a print job that causes the printing apparatus 103 to execute printing (S802). In the present embodiment, the CPU 121 determines whether it is a print job based on the port number of the received WOL packet. If the destination port number of the received WOL packet is No. 9100, the CPU 121 determines that the WOL packet is a print job. The determination as to whether or not the job is a print job is not limited to the port number.

  If the received WOL packet is a print job (S802: Yes), the CPU 121 determines whether the printing apparatus 103 is in the power saving state (S803). If the printing apparatus 103 is in the power saving state, the CPU 121 transmits, to the printing apparatus 103, return data having a destination port number of 9100 or 515 (S804). Since the printing control apparatus 102 receives the sleep notification (S602 in FIG. 6) when the printing apparatus 103 shifts to the power saving state, it can determine whether the printing apparatus 103 is in the power saving state. It is.

  When the printing apparatus 103 is not in the power saving state (S803: No), the CPU 121 does not transmit the above-described return data to the printing apparatus 103.

  As described above, in the present embodiment, when the printing apparatus 103 is in the power saving state, return data is transmitted, but when the printing apparatus 103 is not in the power saving state, the return data is not transmitted. By transmitting recovery data to the printing apparatus 103 in the power saving state, it is possible to recover the printing apparatus 103 from the power saving state. On the other hand, by not transmitting the return data to the printing apparatus 103 in the standby state, the printing apparatus 103 does not have to execute unnecessary processing such as discarding the return data. If the return data is to be sent to the printing apparatus 103 in the standby state, in order to discard the return data to the printing apparatus 103, means for determining whether the data is the return data or the return data is used. We need a way to destroy it. In the present embodiment, when the printing apparatus 103 is in the standby state, the return data is not transmitted from the print control apparatus 102. Therefore, it is not necessary to provide the above-described means.

  The CPU 121 interprets the page description language of the received print job to generate printable raster image data, and generates a control command for causing the printing apparatus 103 to execute printing using the raster image data. (S805).

  The CPU 121 transmits raster image data to the printing apparatus 103 via the video I / F 124, and transmits a control command to the printing apparatus 103 via the internal network I / F 125 (S806). The destination port number of this control command is 9915.

  If it is determined in S802 that the received WOL packet is not a print job that causes the printing apparatus 103 to execute printing, the CPU 121 transmits the WOL packet to the printing apparatus 102 in order to cause the printing apparatus 102 to process the WOL packet ( S807). The destination port number of the WOL packet transmitted in S807 is a port number different from 9100. In step S 807, when the print control apparatus 102 transmits the WOL packet, for example, when the print control apparatus 102 receives a job for storing raster image data generated by the print control apparatus 102 in the HDD 134 of the printing apparatus 103, It can be mentioned.

  FIG. 9 is a flowchart illustrating processing executed by the printing apparatus that has shifted to the power saving state. A process performed by the network I / F 138 of the printing apparatus 103 in the power saving state will be described with reference to FIG.

  When the printing apparatus 103 is in the power saving state, the network I / F 138 determines whether a packet has been received (S901). If it is determined that a packet has been received (S901: Yes), the network I / F 138 determines whether the packet is a WOL packet (S902). The WOL packet is, for example, a control command or return data transmitted from the print control apparatus 102.

  When the WOL packet is received, the network I / F 138 determines whether the destination port number of the WOL packet is 9100 (or 515) (S903). If the destination port number is 9100 (or 515), the network I / F 138 sets the return signal WAKE_LAN2 to the Hi level (S904). As a result, as shown in FIG. 10, the signal CONT, the signal PRINT, and the signal RELAY become Hi level, and power is supplied to the printer unit 105, the CPU 131, the HDD 134, and the like. At this time, the printer unit 105 performs preparation for printing (rotational drive of the photosensitive drum 105a, processing for raising the temperature of the fixing unit 105b to the fixing temperature, and the like) without waiting for activation of the CPU 131. The activation process of the CPU 131 is executed in parallel with the preparation operation of the printer unit 105.

  As described above, since the network I / F 138 can perform the preparation operation of the printer unit 105 without waiting for the activation of the CPU 131, the preparation operation of the printer unit 105 is waited until the activation process of the CPU 131 is completed. The time until the completion of the preparation operation of the printer unit 105 can be shortened compared to the case where

  Here, although an example of determining whether or not to execute the preparation operation of the printer unit 105 by the destination port number of the WOL packet has been described, the present invention is not limited to the determination based on the destination port number. For example, in the case where the WOL packet includes identification information for identifying that the WOL packet is a packet that uses the printer unit 105, it is determined whether or not the preparation operation of the printer unit 105 is to be executed based on the identification information. good.

  If the destination port number is a number other than 9100 and 515, the network I / F 138 sets the recovery signal WAKE_LAN to the Hi level (S905). As a result, as shown in FIG. 11, the signal CONT becomes Hi level, and power is supplied to the CPU 131, the HDD 134, and the like. When the power-on process is completed, the CPU 131 interprets and processes the WOL packet. In the first embodiment, an example has been described in which the power supply to the printer unit 105 is not resumed unless the destination port number is other than 9100 and 515. However, the present invention is not limited to this. Although power supply to the printer unit 105 is resumed, control may be performed so as not to rotate the photosensitive drum 105a.

  On the other hand, if the received packet is not a WOL packet in S902, the network I / F 138 determines whether the received packet is a proxy responseable packet (S906). The packet capable of proxy response means a packet to which the network I / F 138 can respond in place of the CPU 131. Therefore, when the network I / F 138 receives a packet capable of proxy response (S906: Yes), the network I / F 138 responds to the received packet in the power saving state (S907).

  If the received packet is neither a WOL packet nor a packet capable of proxy response (S906: No), the network I / F 138 discards the received packet (S908).

  FIG. 12 is a communication sequence diagram at the time of transmission of return data.

  Next, with reference to FIG. 12, a communication sequence executed when return data is transmitted from the print control apparatus 102 to the printing apparatus 103 will be described.

  The print control apparatus 102 transmits return data to the target port (No. 9100 or 515) of the printing apparatus 103 (S1201). Thus, the preparation operation of the printer unit 105 of the printing apparatus 103 is started. Although the role of return data is played by starting the preparation operation of the printer unit 105, in the present embodiment, open processing and close processing of TCP communication are performed. Upon receiving the return data (a TCP packet in which the SYN flag is set), the printing apparatus 103 transmits a TCP packet in which the ACK flag and the SYN flag are set (S1202). Then, upon receiving the TCP packet in which the ACK flag and the SYN flag are set, the print control apparatus 102 transmits the TCP packet in which the ACK flag is set (S1203). A communication channel is established by the open processing of S1201 to S1203.

  When the client computer 101 transmits print data, after the communication path is established, the data unit transmits a print data packet as a TCP packet in which the PUSH flag is set. However, in the present embodiment, the purpose of starting the preparation operation of the printer unit 105 is fulfilled by the return data (a TCP packet in which the SYN flag is set), so data exists in the data portion of the TCP packet. Send no packets. Therefore, in the present embodiment, after the above-described open process, the close process is performed without transmitting data.

  Specifically, the print control apparatus 102 transmits a TCP packet in which the FIN flag is set (S1204). The printing apparatus 103 transmits the TCP packet in which the ACK flag is set (S1205). Also, the printing apparatus 103 transmits the TCP packet in which the FIN flag is set (S1206). Finally, the print control apparatus 102 transmits the TCP packet in which the ACK flag is set (S1207).

  The closing process up to S1204-S1207 is not limited to the process of S1204-S1207 as long as it is a closing process defined by the TCP protocol.

  FIG. 20 shows a packet structure of return data.

  Next, the details of the return data will be described with reference to FIG.

  As shown in FIG. 20, the MAC address of the printing apparatus 103 is set as the transmission destination address of the Ether header 2001 of the return data. Further, the MAC address of the print control apparatus 102 is set to the transmission source address of the Ether header 2001 of the return data.

  Also, the IP address of the printing apparatus 103 is set as the transmission destination address of the IP header 2002 of the return data. Further, the IP address of the print control apparatus 102 is set in the transmission source address of the IP header 2002 of the return data.

  Further, 9100 or 515 is set in the transmission destination port number 2005 of the TCP header 2003. The printing apparatus 103 uses No. 9100 as a port for receiving a print job from the printer driver.

  The transmission source port number 2004 of the TCP header 2003 is a port used by the print control apparatus 102 and is not used uniquely because it is dynamically used.

  Also, Flag 2006 indicates the connection state of the TCP packet. In the return data of this embodiment, SYN is set in Flag 2006. The packet in which this SYN is set is a packet requesting an open process of the TCP connection.

  As described above, the print control apparatus 102 transmits return data before transmitting raster image data and control commands to the printing apparatus 103. Thus, the printing apparatus can execute the preparation operation of the printer unit 105 before receiving the raster image data and the control command. As described above, since the printer unit 105 can perform the preparation operation before receiving the raster image data, when the raster image data and the control command are received, printing is performed without waiting for the completion of the preparation operation. can do.

Second Embodiment
In the first embodiment, an example has been described in which the return of the printer unit 105 is controlled depending on whether the destination port number of the WOL packet received by the network I / F 138 is a specific port number. In the second embodiment, when the WOL packet is received, the printer unit 105 is restored regardless of the destination port number.

  FIG. 13 is a power supply block diagram of the printing apparatus 103 according to the second embodiment.

  The power supply system of the printing apparatus 103 according to the second embodiment will be described in detail with reference to FIG. The description of the same parts as the first embodiment will be omitted.

  When the network I / F 238 of the printing apparatus 103 according to the second embodiment receives the WOL packet from the print control apparatus 102, the network I / F 238 controls the recovery signal WAKE_LAN2 input to the power control unit 135 to the Hi level. The network I / F 238 in the second embodiment differs from the network I / F 138 in the first embodiment in that the return signal WAKE_LAN2 is set to Hi level when the WOL packet is received regardless of the destination port number of the received WOL packet. Make it The WOL packet is a TCP packet or the like in which the MAC address of the printing apparatus 103 is designated.

  FIG. 14 is a flowchart showing processing executed by the print control apparatus returned from the power saving state.

  Next, with reference to FIG. 14, a process executed by the print control apparatus restored from the power saving state by receiving the WOL packet will be described.

  First, the CPU 121 of the print control apparatus 102 determines whether the WOL packet received from the client computer 101 is a packet that requires activation of the printing apparatus 103 (S1401). If it is determined that the packet does not require activation of the printing apparatus 103 (S1401: No), the CPU 121 executes processing according to the received WOL packet (S1408). For example, if the WOL packet is a packet in which the status of the printing apparatus 103 or the print control apparatus 102 can be answered without returning the printing apparatus 103 from the power saving state, the CPU 121 responds to the inquiry. Answer to.

  On the other hand, if it is determined that the packet requires activation of the printing apparatus 103 (S1401: No), the CPU 121 determines whether the packet is a print job that causes the printing apparatus 103 to execute printing (S1402). The CPU 121 determines whether it is a print job based on the port number of the received WOL packet. If the destination port number of the received WOL packet is No. 9100, the CPU 121 determines that the WOL packet is a print job. The determination as to whether a print job is made or not is not limited to the port number.

  If the received WOL packet is a print job (S1402: Yes), the CPU 121 determines whether the printing apparatus 103 is in the power saving state (S1403). If the printing apparatus 103 is in the power saving state, the CPU 121 transmits a WOL packet as return data to the printing apparatus 103 (S1404). The WOL packet is, for example, a TCP packet in which the MAC address of the printing apparatus 103 is designated. The printing apparatus 103 having received the WOL packet performs the close process without performing the data communication after the open process as shown in the communication sequence diagram shown in FIG.

  When the printing apparatus 103 is not in the power saving state (S1403: No), the CPU 121 does not transmit the WOL packet described above to the printing apparatus 103.

  The CPU 121 interprets the page description language of the received print job to generate printable raster image data, and generates a control command for causing the printing apparatus 103 to execute printing using the raster image data. (S1405).

  The CPU 121 transmits raster image data to the printing apparatus 103 via the video I / F 124, and transmits a control command to the printing apparatus 103 via the internal network I / F 125 (S1406).

  If it is determined in S1402 that the received WOL packet is not a print job that causes the printing apparatus 103 to execute printing, the CPU 121 transmits the WOL packet to the printing apparatus 103 in order to cause the printing apparatus 103 to process the WOL packet ( S1407). Unlike the communication sequence diagram shown in FIG. 12, the printing apparatus 103 that has received this WOL packet performs data communication after open processing and performs close processing.

  FIG. 15 is a flowchart showing processing executed by the printing apparatus that has shifted to the power saving state. A process executed by the network I / F 138 of the printing apparatus 103 in the power saving state will be described with reference to FIG.

  When the printing apparatus 103 is in the power saving state, the network I / F 138 determines whether a packet has been received (S1501). If it is determined that a packet has been received (S1501: Yes), the network I / F 138 determines whether the packet is a WOL packet (S1502). The WOL packet is a TCP packet in which the MAC address of the printing apparatus 103 is specified, and is, for example, a control command or return data transmitted from the print control apparatus 102.

  When the WOL packet is received, the network I / F 138 sets the return signal WAKE_LAN2 to the Hi level (S1504). As a result, as shown in FIG. 10, the signal CONT, the signal PRINT, and the signal RELAY become Hi level, and power is supplied to the printer unit 105, the CPU 131, the HDD 134, and the like. At this time, the printer unit 105 performs preparation for printing (rotational drive of the photosensitive drum 105a, processing for raising the temperature of the fixing unit 105b to the fixing temperature, and the like) without waiting for activation of the CPU 131. The activation process of the CPU 121 is executed in parallel with the preparation operation of the printer unit 105.

  On the other hand, if the received packet is not a WOL packet in S1502, the network I / F 138 determines whether the received packet is a proxy responseable packet (S1506). The packet capable of proxy response means a packet to which the network I / F 138 can respond in place of the CPU 131. Therefore, when the network I / F 138 receives a packet capable of proxy response (S1506: Yes), the network I / F 138 responds to the received packet in the power saving state (S1507).

  If the received packet is neither a WOL packet nor a packet capable of proxy response (S1506: No), the network I / F 138 discards the received packet (S1508).

Third Embodiment
In the first embodiment, when the print control apparatus 102 receives a print job, an example in which the printer unit 105 is restored without waiting for the activation of the CPU 131 of the printing apparatus 103 has been described. In the third embodiment, when the print control apparatus 102 receives a scan job, an example in which the scanner unit 104 is restored without waiting for activation of the CPU 131 of the printing apparatus 103 will be described. The scan job is, for example, a remote scan job that causes the scanner unit 104 of the printing apparatus 103 to read an image of a document and transmits image data of the read image to the print control apparatus 102.

  FIG. 16 is a power supply block diagram of the printing apparatus 103 according to the third embodiment.

  The power supply system of the printing apparatus 103 according to the third embodiment will be described in detail with reference to FIG. The description of the same parts as the first embodiment will be omitted.

  When the network I / F 338 of the printing apparatus 103 according to the third embodiment receives a WOL packet whose destination port number is a specific port number from the print control apparatus 102, the recovery signal WAKE_LAN3 input to the power control unit 135 Control to the Hi level. The specific port number is a port number designated to cause the printing apparatus 103 to perform the reading process.

  When the recovery signal WAKE_LAN3 becomes Hi level, the power supply control unit 135 sets the signal CONT, the signal SCAN, and the signal RELAY to Hi level. As a result, power is supplied to the scanner unit 104, the CPU 131, the HDD 134, and the like.

  FIG. 17 is a flowchart showing processing executed by the print control apparatus returned from the power saving state.

  Next, with reference to FIG. 17, the process executed by the print control apparatus restored from the power saving state by receiving the WOL packet will be described.

  First, the CPU 121 of the print control apparatus 102 determines whether the received WOL packet is a packet that requires activation of the printing apparatus 103 (S 1701). If it is determined that the packet does not require activation of the printing apparatus 103 (S1701: No), the CPU 121 executes processing according to the received WOL packet (S1708). For example, if the WOL packet is a packet in which the status of the printing apparatus 103 or the print control apparatus 102 can be answered without returning the printing apparatus 103 from the power saving state, the CPU 121 responds to the inquiry. Answer to.

  On the other hand, if it is determined that the packet requires activation of the printing apparatus 103 (S1701: No), the CPU 121 determines whether the packet is a scan job that causes the printing apparatus 103 to read (S1702). The CPU 121 determines whether it is a scan job or not based on the port number of the received WOL packet. If the destination port number of the received WOL packet is a specific port number, the CPU 121 determines that the WOL packet is a scan job. Note that the determination as to whether the job is a scan job is not limited to the port number.

  If the received WOL packet is a scan job (S1702: Yes), the CPU 121 determines whether the printing apparatus 103 is in the power saving state (S1703). If the printing apparatus 103 is in the power saving state, the CPU 121 transmits, to the printing apparatus 103, return data for a port number having a specific destination port number (S1704).

  When the printing apparatus 103 is not in the power saving state (S1703: No), the CPU 121 does not transmit the above-described return data to the printing apparatus 103.

  The CPU 121 interprets the received scan job (S1705), and sends control commands (reading resolution, monochrome / color designation, etc.) to the printing apparatus 103 via the internal network I / F 125 to cause the printing apparatus 103 to execute a scan. It transmits (S1706).

  If it is determined in S1702 that the received WOL packet is not a scan job that causes the printing apparatus 103 to read, the CPU 121 transmits the WOL packet to the printing apparatus 103 in order to cause the printing apparatus 103 to process the WOL packet ( S1707). The destination port number of the WOL packet transmitted in S1707 is a port number different from the specific port number.

  FIG. 18 is a flowchart illustrating processing executed by the printing apparatus that has shifted to the power saving state. A process performed by the network I / F 338 of the printing apparatus 103 in the power saving state will be described with reference to FIG. 18.

  When the printing apparatus 103 is in the power saving state, the network I / F 338 determines whether a packet has been received (S1801). If it is determined that a packet has been received (S1801: Yes), the network I / F 138 determines whether the packet is a WOL packet (S1802). The WOL packet is, for example, a control command or return data transmitted from the print control apparatus 102.

  When the WOL packet is received, the network I / F 338 determines whether the destination port number of the WOL packet is a specific port number (S1803). If the destination port number is a specific port number, the network I / F 338 sets the return signal WAKE_LAN3 to the Hi level (S1804). As a result, as shown in FIG. 19, the signal CONT, the signal SCAN, and the signal RELAY become Hi level, and power is supplied to the scanner unit 104, the CPU 131, the HDD 134 and the like. At this time, the scanner unit 104 performs a preparation operation for reading a document without waiting for the activation of the CPU 131. The activation process of the CPU 131 is performed in parallel with the preparation operation of the scanner unit 104.

  If the destination port number is a number other than the specific port number, the network I / F 338 sets the recovery signal WAKE_LAN to the Hi level (S1805). As a result, as shown in FIG. 11, the signal CONT becomes Hi level, and power is supplied to the CPU 131, the HDD 134, and the like. When the power-on process is completed, the CPU 131 interprets and processes the WOL packet.

  On the other hand, if the received packet is not a WOL packet in S1802, the network I / F 338 determines whether the received packet is a proxy responseable packet (S1806). The packet capable of proxy response means a packet to which the network I / F 338 can respond in place of the CPU 131. Therefore, when the network I / F 138 receives a packet capable of proxy response (S1806: Yes), the network I / F 138 responds to the received packet in the power saving state (S1807).

  If the received packet is neither a WOL packet nor a packet capable of proxy response (S1806: No), the network I / F 138 discards the received packet (S1808).

[Other embodiments]
The print control apparatus 102 according to the first embodiment may transmit no return data (a packet in which the SYN flag is set), and may not reply to a response from the printing apparatus 103 (does not transmit the packet in S1003). . Thus, the printing apparatus 103 ends the communication sequence as the TCP protocol.

  In addition, as another example of the return data described in the first embodiment, an area indicating the return data may be defined in the payload portion of the packet, and this area may be used. It is possible to use packets or to use packets as small as possible. That is, the content of the packet is not limited as long as the return data is a packet that can be determined as a print job transmitted from a printer driver or the like.

  Further, the port number designated by the return data in the present embodiment may be stored in advance by the print control apparatus 102 or may be acquired from the printing apparatus 103 as a print job.

  The print control apparatus 102 may not transmit the return data and the print command in a situation where an error has occurred in the printing apparatus 103 and printing can not be performed. The print control apparatus 102 may periodically acquire information indicating the state of the printing apparatus 103, and control transmission of return data and a print command based on the acquired state of the printing apparatus 103. That is, the print control apparatus 102 transmits the return data and the print command only when an error that printing can not be performed by the printing apparatus 103 has not occurred.

  After transmitting the return data (S804), the print control apparatus 102 according to the first embodiment described above starts RIP processing (S805). However, in the present invention, after the RIP process is started, the return data may be sent before the raster image data is sent.

  In the print control apparatus 102 according to the first embodiment described above, the return instruction is not transmitted when the printing apparatus 103 is not in the power saving state (S803: No). However, in the present invention, when the printing apparatus 103 is not in the power saving state, a return instruction may be transmitted. For example, when the printing apparatus 103 is in the low power state different from the power saving state, the printing control apparatus 102 can not determine whether the printing apparatus 103 is in the low power state, and transmits a return instruction. Thus, when the printing apparatus 103 is in the low power state, the printing apparatus 103 can be recovered from the low power state.

  In the case where the printing apparatus 103 is configured not to perform the preparation operation of the printer unit 105 even in the low power state described above, even if the printer unit 105 receives the return instruction with the port number 9100 designated. As the recovery instruction, a recovery instruction different from the recovery instruction for which the port number 9100 is designated is transmitted.

DESCRIPTION OF SYMBOLS 100 printing system 102 printing control apparatus 103 printing apparatus 121 CPU
125 Internal NW I / F
126 External NW I / F

Claims (13)

A printing control apparatus connected to a printing apparatus that operates in a power saving mode that consumes less power than at least a standby mode and the standby mode.
A receiving unit that receives a print request for causing the printing apparatus to execute printing from an external device;
Generation means for generating print data according to the print request received by the reception means;
A determination unit that determines whether the printing apparatus is in a power saving state;
When it is determined by the determination unit that the printing apparatus is in the power saving state, the printing apparatus is restored from the power saving state to the standby state before transmitting the print data generated by the generation unit. A print control apparatus, comprising: transmission means for transmitting return data for printing, and not transmitting the return data when the determination means determines that the printing apparatus is not in a power saving state.   The print control according to claim 1, wherein the transmission unit transmits the return data before transmitting a control command for causing the printing apparatus to execute printing using the print data. apparatus. The printing apparatus is a printing apparatus that activates a printer unit of the printing apparatus when it receives a packet in which a specific destination port number is designated.
2. The print control apparatus according to claim 1, wherein the transmission unit transmits a packet in which the specific destination port number is designated as the return data.   The print control apparatus according to claim 3, wherein the specific destination port number is 9100 or 515.   The printing apparatus performs startup of a printer unit of the printing apparatus when a network interface to which power is supplied in the power saving state receives a packet in which the specific destination port number is designated. The print control apparatus according to claim 3, wherein The apparatus further comprises a determination unit that determines whether the print request has been received.
The transmission means is
When the determination unit determines that the print request has been received, the return data for activating the printer unit of the printing apparatus is transmitted.
When the determination means determines that a request different from the print request has been received, return data for activating the control unit of the printing apparatus is transmitted. Print control device.   7. The print control apparatus according to claim 6, wherein the determination unit determines that the print request has been received when the destination port number of the received print request is a specific port number.   2. The print control apparatus according to claim 1, wherein the transmission unit transmits the return data before the generation unit starts generation of print data according to the print request.   The print control apparatus according to claim 1, wherein the return data is a TCP packet in which a SYN flag is set.   10. The print control according to claim 9, wherein the transmitting unit transmits the TCP packet in which the FIN flag is set without transmitting the TCP packet having the data portion after transmitting the TCP packet. apparatus.   The print control apparatus according to claim 1, wherein the printing apparatus includes an image processing unit configured to generate print data according to a print request received from the outside.   The print control apparatus according to claim 1, wherein the print control apparatus is an apparatus separate from the printing apparatus. A control method of a printing control apparatus connected to a printing apparatus operating in a power saving state which consumes less power than at least a standby state and the standby state.
Receiving from an external device a print request that causes the printing device to execute printing;
Generating print data according to the received print request;
Determining whether the printing device is in a power saving state;
When it is determined that the printing apparatus is in the power saving state, before the generated print data is transmitted, return data for returning the printing apparatus from the power saving state to the standby state is transmitted. A control method of a print control apparatus, comprising the steps of: if the printing apparatus is determined to be in a power saving state, the return data is not transmitted to the printing apparatus.

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