JP2017140851A - Printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent power from being wastefully consumed and noise from being generated due to the preparatory operation of a printer part or the like before the use of the printer part or the like is confirmed.SOLUTION: A printer includes: a printer part; a control part which controls the printer part; a display part; a touch panel which detects the user operation to the display part; a human sensor; and power control means which performs control so that the power is supplied to the control part on the basis of the detection result of the human sensor. The control part performs control so that the printer part executes a specific operation for turning the printer part into the printable state on the basis of detection of the user operation by the touch panel. The printer part does not execute the specific operation on the basis of the detection result of the human sensor.SELECTED DRAWING: Figure 12

Description

  The present invention relates to a technique for returning a printing apparatus from a power saving state.

  Printing that shifts to a power saving state in which power supply to a printing unit or a scanner unit (hereinafter, abbreviated as a printer unit, etc.) that executes the function is stopped when a function such as printing or scanning is not executed The device is known. When the image forming apparatus is in a power saving state, if a return factor such as a user pressing the return button is detected, power is supplied to the print unit and the scanner unit.

  However, even when a return factor is detected, the print unit or the like is not necessarily used. For example, when image data of a scanned document is stored in the memory of the image forming apparatus, it is not necessary to supply power to the printer unit. That is, if power is supplied to all devices when a recovery factor is detected, power is supplied to devices that are not necessary.

  Thus, a technique has been proposed in which power is supplied to a device that executes a function that is used, and control is performed so that power is not supplied to a device that executes a function that is not used (see Patent Document 1).

  In the image forming apparatus disclosed in Patent Document 1, it is determined to which device power is supplied according to a factor for canceling the power saving state. Specifically, in Patent Document 1, when a print request signal is received from an external device, power is supplied to the print unit for printing, but power is not supplied to the scanner unit. When the sensor detects that a document is placed on the scanner unit, power is supplied to the scanner unit, but power is not supplied to the print unit.

JP 2002-359703 A

  In the cited document 1 described above, when the use of the printer unit or the like is not confirmed, power is not supplied to the printer unit or the like. Specifically, when a return button provided on the operation unit is operated, it is not determined whether to use a print or scan function, so that power is not supplied to the print unit or the like. Thereafter, when it is determined that the print or scan function is used, power is supplied to a device necessary for executing the function (paragraph 0038 of Patent Document 1). That is, in Patent Document 1, power is not supplied to the printer unit or the like until use of a print or scan function is confirmed. For this reason, the user must wait until the power to the printer unit and the scanner unit is stabilized, reset the printer unit and the scanner unit, and prepare for the printer unit and the scanner unit (drive system (motors)). It is necessary to wait for the time to perform driving.

  On the other hand, if it is not determined whether to use the print or scan function, if a preparatory operation such as a printer unit is executed, the power associated with the preparatory operation is wasted if the printer unit is not used. Will be. Furthermore, when the printer unit or the like is not used, there is an inconvenience that noise accompanying the device preparation operation occurs.

  Therefore, an object of the present invention is to prevent wasteful power consumption and noise from being generated by a preparatory operation of a printer unit or the like before use of the printer unit or the like is confirmed.

  The printing apparatus of the present invention includes a printer unit, a control unit that controls the printer unit, a display unit, a touch panel that detects a user operation on the display unit, a human sensor, and a detection result of the human sensor. Power control means for controlling power to be supplied to the control unit based on the control unit, wherein the control unit is configured to make the printer unit in a printable state based on detection of a user operation by the touch panel. The printer unit is controlled to execute the operation, and the printer unit does not execute the specific operation based on the detection result of the human sensor.

  According to the printing apparatus of the present invention, it is possible to prevent wasteful power consumption and noise from being generated by the preparation operation of the printer unit or the like before the use of the printer unit or the like is confirmed.

1 is a diagram illustrating a structure of an image forming apparatus according to a first embodiment. 2 is a diagram illustrating details of a display unit of the image forming apparatus. FIG. 2 is a block diagram of a controller of the image forming apparatus. FIG. 2 is a power supply circuit diagram of the image forming apparatus. FIG. 3 is a power state transition diagram of the image forming apparatus. FIG. It is a table | surface which shows the electric power supply state of each device in each electric power state. FIG. 3 is a diagram illustrating a state of the image forming apparatus in a power-off state. FIG. 6 is a diagram illustrating a state of the image forming apparatus in a second sleep state. FIG. 3 is a diagram illustrating a state of the image forming apparatus in a first sleep state. 3 is a diagram illustrating a state of the image forming apparatus in a standby state (printer unit and scanner unit: normal mode). FIG. FIG. 4 is a diagram illustrating a state of the image forming apparatus in an adjusted state. 6 is a flowchart illustrating a process in which the image forming apparatus returns from a second sleep state. It is the sequence diagram which showed the signal which a power supply control part outputs, when the packet which cannot perform a proxy response is received. It is the sequence figure which showed the signal which a power supply control part outputs, when a job is received. It is the sequence figure which showed the signal which a power supply control part outputs, when a human body detection sensor detects a person or when the button of an operation part is pressed down. It is the sequence figure which showed the signal which a power supply control part outputs, when a timer counts predetermined time. FIG. 5 is a sequence diagram illustrating a signal output by a power supply control unit when a document detection sensor detects a document. FIG. 10 is a sequence diagram illustrating signals output from a power control unit when a sheet is set on a manual feed tray. (A) It is a flowchart which shows the return operation | movement of a printer part, (b) It is a flowchart which shows the return operation | movement of a scanner part. 6 is a flowchart illustrating an operation of the image forming apparatus when various function buttons displayed on the display unit are selected.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

<Overall configuration of image forming apparatus>
FIG. 1 is a diagram showing the structure of the image forming apparatus according to the first embodiment of the present invention.

  As shown in FIG. 1, the image forming apparatus 10 includes a scanner unit 13 that is an image input device and a printer unit 14 that is an image output device.

  The scanner unit 13 is a device that reads an image formed on a document and acquires image data. By inputting the reflected light of the light applied to the image formed on the original to the CCD, the information of the image is converted into an electrical signal. This electrical signal is converted into a luminance signal composed of R, G, and B colors and output to the controller 11 described later.

  Documents set on the tray 1250 of the scanner unit 13 are fed one by one to the reading position of the optical unit 1213 on the platen glass 1211 by the document feeder 1260. A document read by the optical unit 1213 is discharged to a discharge tray 1219. Light irradiated from the lamp 1212 of the optical unit 1213 and reflected from the document is input to the CCD image sensor 1218 via mirrors 1214, 1215, 1216 and a lens 1217. The document reading method may be a method of scanning a carriage on which the optical unit 1213 is mounted with respect to a document placed on the platen glass 1211 instead of the automatic feeding method by the document feeder 1260. In the first embodiment, the image forming apparatus 10 capable of monochrome printing is described. However, the image forming apparatus 10 may be capable of color printing.

  The printer unit 14 is a device that forms an image on a sheet using input image data. Note that the image forming method of the printer unit 14 of the present embodiment is an electrophotographic method using a photosensitive drum or a photosensitive belt, but the present invention is not limited to this. For example, the printer unit 14 may be an ink jet system that prints on paper by ejecting ink from a minute nozzle array.

  In addition, the image forming apparatus 10 includes a plurality of paper cassettes 1311, 1312, 1313, 1314 and a manual feed tray 1315 that store paper on which an image is formed by the printer unit 14. The laser driver 1321 of the printer unit 14 drives the laser light emitting unit 1322. The laser driver 1321 causes the laser emission unit 1322 to emit laser light corresponding to the image data output from the controller 11. The laser beam is applied to the photosensitive drum 1323, and a latent image corresponding to the laser beam is formed on the photosensitive drum 1323. A developer is attached to the latent image portion of the photosensitive drum 1323 by a developing device 1324. The transfer unit 1325 transfers the developer attached to the photosensitive drum 1323 onto the recording paper that has passed through the conveyance path 1331. The recording paper on which the developer is placed is conveyed to the fixing device 1327 by the conveyance belt 1326. The fixing device 1327 fixes the developer onto the recording paper with heat and pressure. The recording paper that has passed through the fixing device 1327 passes through the transport path 1335 and the transport path 1334 and is discharged to the paper discharge tray 1328. Alternatively, when the print surface is reversed and discharged to the paper discharge tray 1328, the recording is guided to the transport path 1336 and the transport path 1338 and then passes through the transport path 1337 and the transport path 1334.

  When performing duplex printing, the recording paper is guided from the fixing device 1327 to the transport path 1336 and is guided to the transport path 1333 by the flapper 1329. Thereafter, the recording paper is conveyed in the reverse direction and guided to the conveyance path 1338 and the refeed conveyance path 1332 by the flapper 1329. The recording sheet guided to the refeed conveyance path 1332 passes through the conveyance path 1331 and is fed to the transfer unit 1325.

<Details of operation unit>
FIG. 2 is a diagram showing details of the operation unit. The image forming apparatus 10 includes an operation unit 12. As illustrated in FIG. 2, the operation unit 12 includes various buttons 121 operated by the user and a display unit 122 that displays an image. A touch panel is provided on the surface of the display unit 122. A status screen for displaying the status of the image forming apparatus 10, a selection screen for selecting a copy function and a fax function, and information necessary for executing the function selected on the selection screen are input to the display unit 122. A setting screen is displayed. The selection screen described above is displayed on the display unit of FIG. The button 121 is a button 121a for inputting the number of copies to be printed, a start button 121b for starting copying or FAX transmission, and the image forming apparatus 10 for shifting to a power saving state (first sleep state described later). Power saving button 121c.

  When the image forming apparatus 10 is activated, a selection screen is displayed on the display unit 122. The selection screen includes a copy button 122a for executing the copy function, a scan button 122b for executing the scan function, a FAX button 122c for executing the FAX function, and a print button 122d for executing the print function. Be placed.

<Description of Controller 11 of Image Forming Apparatus 10>
FIG. 3 is a block diagram illustrating a controller that controls the entire image forming apparatus. The details of the controller 11 that controls the overall operation of the image forming apparatus 10 will be described with reference to FIG.

  As shown in FIG. 3, the controller 11 is electrically connected to the scanner unit 13, the printer unit 14, and the operation unit 12 described above. The controller 11 includes a CPU 301, a RAM 302, a ROM 303, an operation unit I / F 305, a LAN controller 306, a human body detection sensor 310, a paper detection sensor 312, and a power supply control unit 401. The CPU 301, RAM 302, ROM 303, operation unit I / F 305, LAN controller 306, human body detection sensor 310, paper detection sensor 312, and power supply control unit 401 are connected to the system bus 307. The controller 11 includes an HDD 304, an image processing unit 309, a scanner I / F 311, and a printer I / F 313. The HDD 304, the image processing unit 309, the scanner I / F 311, and the printer I / F 313 are connected to the image bus 308.

  The CPU 301 comprehensively controls access to various connected devices based on a control program or the like stored in the ROM 303 and also comprehensively controls various processes executed by the controller 11.

  A RAM 302 is a system work memory for the CPU 301 to operate. The RAM 302 is also a memory for temporarily storing image data. The RAM 302 includes an SRAM capable of holding the stored content even when the power is off, and a DRAM from which the stored content is erased when the power is off. The ROM 303 stores a boot program for the apparatus. The HDD 304 is a hard disk drive, and stores a program for controlling the image forming apparatus 10 and image data.

  The operation unit I / F 305 is an interface unit for connecting the system bus 307 and the operation unit 12. The operation unit I / F 305 receives image data to be displayed on the operation unit 12 from the system bus 307 and outputs the image data to the operation unit 12 and outputs information input from the operation unit 12 to the system bus 307.

  The LAN controller 306 controls input / output of information between the image forming apparatus 10 and the external apparatus 20 connected to the network 60.

  The human body detection sensor 310 is an infrared sensor array in which infrared sensors that receive infrared rays are arranged in a matrix. When the human body detection sensor 310 receives infrared rays emitted from a person or the like, it detects that a person has approached the image forming apparatus 10. In this embodiment, an example in which the human body detection sensor 310 detects a person will be described. However, any object that emits infrared light can be detected by the human body detection sensor 310. The human body detection sensor is not limited to the infrared sensor described above. Any sensor other than an infrared sensor (an optical sensor that detects light, a strain sensor that deforms by physical force, a magnetic sensor that detects magnetism, and a temperature) can be used as long as the sensor can detect that an object has approached the image forming apparatus 10. Temperature sensor).

  The paper detection sensor 312 detects that paper has been set on the manual feed tray 1315.

  The power control unit 401 controls power supply to each unit of the image forming apparatus 10. Details of the power supply control unit 401 will be described later.

  The image bus 308 is a transmission path for exchanging image data, and is configured by a PCI bus, an IEEE 1394 bus, or the like.

  The image processing unit 309 performs image processing, reads image data stored in the RAM 302, and performs image processing such as JPEG and JBIG enlargement or reduction, and color adjustment.

  The scanner unit 13 includes a scanner control unit 331 and a scanner driving unit 332. The scanner drive unit 332 is a device that is physically driven, including a paper transport motor for transporting a document set on the tray 1250 to the reading position of the scanner unit 13. The scanner control unit 331 controls the operation of the scanner driving unit 332. The scanner control unit 331 receives setting information set by the user when performing the scanner processing through communication with the CPU 301, and controls the operation of the scanner driving unit 332 based on the setting information.

  The printer unit 14 includes a printer control unit 341 and a printer driving unit 342. The printer driving unit 342 is a device that is physically driven, including a motor that rotates the photosensitive drum 1323, a motor that rotates the fixing device 1327, and a paper conveyance motor. The printer control unit 341 controls the operation of the printer driving unit 342. The printer control unit 341 receives setting information set by the user when performing print processing through communication with the CPU 301, and controls the operation of the printer driving unit 342 based on the setting information.

<Description of Power Supply Unit 40 of Image Forming Apparatus 10>
FIG. 4 is a power supply circuit diagram of the image forming apparatus 10. The power generated by the power supply unit 40 is supplied to each part of the image forming apparatus 10 described above. The power supply unit 40 includes a first power supply unit 410, a second power supply unit 411, and a third power supply unit 412.

  The first power supply unit 410 converts AC power supplied via the plug P into DC power (for example, 5.1 V (first output power)). Then, the DC power is supplied to the devices of the first power supply system (power control unit 401, CPU 301, RAM 302, ROM 303, HDD 304, LAN controller 306, human body detection sensor 310, paper detection sensor 312 and button 121 of the operation unit 12). Is done. In the present embodiment, the CPU 301 operates with power supplied only from the first power supply unit 410 without receiving power supply from the second power supply unit 411 or the third power supply unit 412. That is, the power supply of the CPU 301 is independent of the second power supply unit 411 and the third power supply unit 412. The second power supply unit 411 converts AC power supplied via the plug P into DC power (for example, 12V (second output power)). This DC power is supplied to the devices of the second power supply system (the display unit 122 of the operation unit 12, the image processing unit 309, the printer control unit 341 of the printer unit 14, and the scanner control unit 331 of the scanner unit 13). Further, the third power supply unit 412 converts AC power supplied via the plug P into DC power (for example, 24V), and the third power system devices (printer driving unit 342 and scanner driving unit 332). ).

  In addition, a power switch 416 that is turned on or off by a user operation is provided between the first power supply unit 410 and the first power system device. A signal D indicating the state (ON state or OFF state) of the power switch 416 is input to the power control unit 401. Further, the power supply unit 40 includes a switch 417 made of an FET (Field Effect Transistor) arranged in parallel with the power switch 416. The switch 417 is switched from an ON state to an OFF state or from an OFF state to an ON state by a control signal E output from the power supply control unit 401. The power switch 416 is provided with a solenoid 416a. In accordance with a control signal K output from the power control unit 401, a voltage is applied to the solenoid and the power switch 416 is turned off. When the auto shutdown function and the remote shutdown function provided in the image forming apparatus 10 are executed, the power supply control unit 401 outputs a control signal K to drive the solenoid and turn off the power switch 416. The auto-shutdown function is a function that shuts down the image forming apparatus 10 when a predetermined time elapses without any user operation in a second sleep state described later. The remote shutdown function is a function that causes the image forming apparatus 10 to shut down in response to a shutdown instruction transmitted from the external device 20.

  A relay switch 418 is provided between the plug P and the second power supply unit 411. A relay switch 419 is provided between the plug P and the third power supply unit 412. The relay switches 418 and 419 are switched from the ON state to the OFF state or from the OFF state to the ON state by the control signal F output from the power supply control unit 401.

  A switch 420 is provided between the power switch 416 and the CPU 301, ROM 303, and HDD 304. The switch 420 is switched from the ON state to the OFF state or from the OFF state to the ON state by the control signal H output from the power supply control unit 401.

  A switch 421a is provided between the second power supply unit 411 and the printer control unit 341. In addition, a switch 421b is provided between the third power supply unit 412 and the printer driving unit 342. These switches 421a and 421b are switched from the ON state to the OFF state or from the OFF state to the ON state by the control signal J output from the power supply control unit 401.

  A switch 422a is provided between the second power supply unit 411 and the scanner control unit 331. Further, a switch 422b is provided between the third power supply unit 412 and the scanner driving unit 332. These switches 422a and 422b are switched from the ON state to the OFF state or from the OFF state to the ON state by the control signal K output from the power supply control unit 401.

<Power State of Image Forming Apparatus 10>
FIG. 5 is a transition diagram of the power state of the image forming apparatus 10.

  As shown in FIG. 5, the image forming apparatus 10 is in any one of a power-off state, a second sleep state, a first sleep state, a standby state, and an adjustment state. Note that the image forming apparatus 10 may be in a state other than the above-described state.

  The image forming apparatus 10 shifts to the power-off state when the power switch 416 is turned off by the user.

  When the power switch 416 is turned on by the user in the power off state, the image forming apparatus 10 shifts to a standby state.

  When the power saving button 121c is pressed in the standby state, the image forming apparatus 10 shifts to the second sleep state. In addition, when a predetermined time has elapsed without the operation unit 12 (touch panel or button 121) being operated in the standby state, the image forming apparatus 10 shifts to the second sleep state.

  In this embodiment, when a PDL (page description language) job (print request) is received in the second sleep state, or when the power saving button 121c is pressed, the image forming apparatus 10 shifts to a standby state. In the second sleep state, when the human body detection sensor 310, the paper detection sensor 312 or the document detection sensor 333 (see FIG. 4) provided in the scanner unit 13 is in the detection state, the image forming apparatus 10 shifts to the standby state. To do.

  In the second sleep state, the LAN controller 306 returns a response to the specific packet transmitted from the external device 20 instead of the CPU 301 of the controller 11. The function of the LAN controller 306 is called a proxy response. When the LAN controller 306 makes a proxy response, it can respond to a specific packet transmitted from the external device while remaining in the second sleep state.

  When the LAN controller 306 receives a packet (excluding a PDL job) for which the LAN controller 306 cannot perform a proxy response in the second sleep state from the external device 20, the image forming apparatus 10 shifts from the second sleep state to the first sleep state. .

  The image forming apparatus 10 that has shifted to the first sleep state processes the packet that cannot be subjected to the proxy response, and then shifts to the second sleep state without waiting for the predetermined time described above.

  When the timer 350 (see FIG. 4) provided in the printer control unit 341 counts a predetermined time in the second sleep state, the image forming apparatus 10 shifts to the adjustment state. When the image forming apparatus 10 executes a specific operation (such as rotation of the photosensitive drum 1323) in the adjusted state, the image forming apparatus 10 again shifts to the second sleep state.

  FIG. 6 is a table summarizing the power supply state of the device in each power state of the image forming apparatus 10. 7 to 11 are diagrams illustrating the power state of the image forming apparatus in each power state. The power state of the image forming apparatus 10 will be described with reference to FIGS.

(1) Power Off State As shown in FIGS. 6 and 7, the power off state is a state where power is not supplied to each part of the image forming apparatus 10. In the power off state, as shown in FIG. 7, the switches 416 to 422 are in the OFF state. Note that the power-off state may be a hibernation state. The hibernation state is a state in which the state immediately before turning off the computer is stored in a nonvolatile memory, and the work can be resumed from the state immediately before turning off the power when the power is turned on next time. In this hibernation state, the switches 416 to 422 are in the OFF state as in the power-off state. In the hibernation state, the state of the image forming apparatus 10 before the transition to the hibernation state is stored in the HDD 304. When the image forming apparatus 10 returns from the hibernation state, the image forming apparatus 10 can return at high speed using the information stored in the HDD 304. The above-described power-off state has been described as a state in which power supply to each part of the image forming apparatus 10 is stopped. However, this power-off state is only in a state in which power supply to all parts of the image forming apparatus 10 is stopped. Absent. For example, the power-off state described above includes a suspend state in which power supply to the RAM 302 is maintained. Suspend state saves the state immediately before turning off the computer in volatile memory (for example, RAM 302), and can resume work from the state immediately before turning off the power when the power is turned on next time. It is a state. Note that the timer 350 is configured to be driven by a battery, and the timer 350 is driven even when the power is off.

(2) Second Sleep State In the second sleep state, as shown in FIGS. 6 and 8, the power control unit 401, the RAM 302, the LAN controller 306, the human body detection sensor 310, the paper detection sensor 312, the document detection sensor 333, and the operation Power is supplied to the button 121 of the unit 12. The above-described device to which power is supplied in the second sleep state is an example. On the other hand, in the second sleep state, power is not supplied to the CPU 301, ROM 303, HDD 304, image processing unit 309, scanner unit 13, and printer unit 14. In the second sleep state, from the first power supply unit 410 to the devices of the first power system (power control unit 401, RAM 302, LAN controller 306, human body detection sensor 310, paper detection sensor 312, document detection sensor 333, and button 121). Power is supplied. In the second sleep state, as shown in FIG. 8, the switches 416 and 417 are turned on, and the other switches 418 to 422 are turned off. In the second sleep state, an operation of the button 121 of the operation unit 12 by the user can be accepted. In the second sleep state, the LAN controller 306 can receive a packet transmitted from the external device 20. In the second sleep state, the human body detection sensor 310 can detect that a person has approached the image forming apparatus 10. In the second sleep state, the paper detection sensor 312 can detect that paper has been set on the manual feed tray. In the second sleep state, the document detection sensor 333 can detect that a document is set on the tray 1250.

(3) First Sleep State The first sleep state is a state for responding to an inquiry from the network 60 without activating all of the controllers 11. In the first sleep state, power is supplied from the first power supply unit 410 to at least the CPU 301 and the HDD 304. As a result, the CPU 301 can return a response to the packet that the LAN controller 306 cannot receive as a proxy response using the information stored in the HDD 304. In the first sleep state, as shown in FIGS. 6 and 9, power is supplied to the power control unit 401, RAM 302, LAN controller 306, button 121, CPU 301, and ROM 303. Further, in the first sleep state, power is also supplied to the human body detection sensor 310, the paper detection sensor 312, the document detection sensor 333, and the HDD 304. In the first sleep state, power is not supplied to the device of the second power supply system and the device of the third power supply system. In the first sleep state, as shown in FIG. 9, the switches 416, 417, and 420 are turned on, and the switches 418, 419, 421, and 422 are turned off. The above-described device to which power is supplied in the first sleep state is an example.

(4) Adjustment state The adjustment state is a state in which the photosensitive drum 1323 and the blade on the photosensitive drum 1323 are moved to prevent contact with each other at the same position for a long time. When the image forming apparatus 10 shifts to this adjustment state, the photosensitive drum 1323 rotates and the relative position between the photosensitive drum 1323 and the blade changes. In this adjustment state, as shown in FIGS. 6 and 10, power is supplied to the printer control unit 341 and the printer driving unit 342, but power is not supplied to the CPU 301 and the HDD 304. In the adjustment state, as shown in FIG. 10, the switches 416, 417, 418, 419 and 421 are turned on, and the switches 420 and 422 are turned off.

(5) Standby State The standby state is a state in which power is supplied to each part of the controller 11, the operation unit 12, the printer unit 14, and the scanner unit 13, as shown in FIGS. Specifically, in the standby state, the switches 416 to 422 in FIG. 11 are turned on.

  Here, details of the power supply control unit 401 will be described.

  The power supply control unit 401 is a CPLD (Complex Programmable Logic Device). The power control unit 401 controls the image forming apparatus 10 to shift to each power state described above. The power control unit 401 is supplied with power in the second sleep state, and detects a plurality of types of recovery factors from the second sleep state. As shown in FIG. 4, the power supply control unit 401 receives the signal NW-1 and the signal NW-2 from the LAN controller 306 as a return factor. The signal NW-1 is output to the power supply control unit 401 when the LAN controller 306 receives a PDL job. The signal NW-2 is output to the power supply control unit 401 when the LAN controller 306 receives a packet that cannot be subjected to a proxy response. Further, the power supply control unit 401 receives the signal P from the button 121 of the operation unit 12 as a return factor. The signal P is output to the power supply control unit 401 when the button 121 is operated by the user. Moreover, the power supply control part 401 receives the signal Q from the human body detection sensor 310 as a return factor. The signal Q is output to the power supply control unit 401 when the human body detection sensor 310 detects a person approaching the image forming apparatus 10. Further, the power supply control unit 401 receives the signal R from the timer 350 as a return factor. The signal R is output to the power supply control unit 401 when the set time is counted by the timer 350. The above-described time is set in the timer 350 by the CPU 301 before the image forming apparatus 10 shifts to the second sleep state. Further, the power supply control unit 401 receives the signal V from the document detection sensor 333 as a return factor. The signal V is output to the power control unit 401 when the document detection sensor 333 detects a document. Further, the power supply control unit 401 receives a signal W from the paper detection sensor 312 provided in the manual feed tray as a return factor. The signal W is output to the power control unit 401 when paper is set on the manual feed tray.

  The power control unit 401 sets the state of each of the switches 417 to 422 to the ON state or the OFF state based on the logic of the return factor (signals NW-1, NW-2, P, Q, R, V, W). To do.

  When the signal NW-1 is input, the power supply control unit 401 as the signal output unit outputs the control signals E, F, K, J, and H (the signal level is set to “Hi”). As a result, the image forming apparatus 10 shifts to a standby state. When signal NW-1 is input, power supply control unit 401 does not output control signals S1 and T (the signal level is set to “Low”).

  Similarly, when the signal P, the signal Q, the signal V, or the signal W is input to the power control unit 401, the power control unit 401 outputs the control signals E, F, K, J, and H (signal level). Is set to “Hi”), the image forming apparatus 10 shifts to a standby state. When the signal P or Q is input, the power supply control unit 401 outputs the control signals S1 and T (the signal level is set to “Hi”). When the signal V is input, the power supply control unit 401 outputs the control signal S1 (sets the signal level to “Hi”) but does not output the control signal T (sets the signal level to “Low”). . When the signal W is input, the power supply control unit 401 outputs the control signal T (sets the signal level to “Hi”), but does not output the control signal S1 (sets the signal level to “Low”). .

  When the signal NW-2 is input to the power supply control unit 401, the control signals E and H are output (the signal level is set to “Hi”). As a result, the image forming apparatus 10 shifts to the first sleep state.

  When the signal R is input to the power supply control unit 401, the control signals F and J are output (the signal level is set to “Hi”). Thereby, the image forming apparatus 10 shifts to the adjustment state. When the signal R is input, the power supply control unit 401 outputs a control signal S2.

  Further, the signal D indicating the state of the power switch 416 is input to the power controller 401. When the power switch 416 is turned off by a user operation, a signal D is input to the power control unit 401. The power supply control unit 401 to which the signal D is input outputs the control signals E, F, H, J, and K (the signal level is set to “Hi”). As a result, the image forming apparatus 10 shifts to a power-off state.

<Returning from the second sleep state>
FIG. 12 is a flowchart illustrating processing in which the image forming apparatus returns from the second sleep state. FIGS. 13 to 18 are sequence diagrams of signals input to the power supply control unit 401 and signals output from the power supply control unit 401. Next, with reference to FIGS. 12 to 18, signal processing performed by the power control unit 401 when the image forming apparatus 10 returns from the second sleep state will be described.

  The power supply control unit 401 detects one of the signals NW-1, NW-2, P, Q, R, V, and W as a return factor (S100).

(A) When a packet for which proxy response is not possible is received As shown in FIGS. 12 and 13, when the LAN controller 306 receives a packet for which proxy response is not possible, the power controller 401 receives a signal NW− from the LAN controller 306. 2 is input (the signal NW-2 becomes “Hi” level). When the signal NW-2 becomes “Hi” level, the power supply control unit 401 sets the signal level of the control signal H to “Hi” (S111). As a result, the switch 420 is turned on, and power is supplied from the first power supply unit 410 to the CPU 301, the ROM 303, and the HDD 304. As a result, the image forming apparatus 10 changes from the second sleep state to the first sleep state.

(B) When PDL Job is Received As shown in FIGS. 12 and 14, when the LAN controller 306 receives a PDL job, the signal NW-1 is input from the LAN controller 306 to the power controller 401 ( The signal level of the signal NW-1 becomes “Hi”). When the signal NW-1 becomes “Hi” level, the power supply control unit 401 sets the signal level of the control signal H to “Hi” (S121). Thereby, the switch 420 is turned on, and power is supplied from the first power supply unit 410 to the CPU 301, the ROM 303, and the HDD 304.

  Next, the power supply control unit 401 sets the signal level of the control signal F to “Hi” (S122). Thereby, the power supply of the 2nd power supply part 420 and the 3rd power supply part 430 starts. When the voltage levels of the second power supply unit 420 and the third power supply unit 430 are stabilized, the power supply control unit 401 sets the signal levels of the control signals J and K to “Hi” (S123). As a result, power is supplied to the printer unit 14 and the scanner unit 13. As a result, the image forming apparatus 10 changes from the second sleep state to the standby state. Although an example in which power is supplied to both the printer unit 14 and the scanner unit 13 when a PDL job is received has been described here, the present invention is not limited to this. For example, when a PDL job is received, power is supplied to the printer unit 14, but power may not be supplied to the scanner unit 13.

(C) When the button 121 is pressed, when the human body detection sensor 310 detects a person As shown in FIGS. 12 and 15, when the button 121 is pressed, the power control unit 401 receives a signal from the button 121. P is input (the signal level of the signal P becomes “Hi”). When the human body detection sensor 310 detects a person or the like, the power control unit 401 receives the signal Q from the human body detection sensor 310 (the signal level of the signal Q becomes “Hi”). When the signal P or Q becomes the “Hi” level, the signal levels of the control signals S1 and T are set to “Hi” (S130). Then, the power supply control unit 401 sets the signal level of the control signal H to “Hi” (S131). Thereby, the switch 420 is turned on, and power is supplied from the first power supply unit 410 to the CPU 301, the ROM 303, and the HDD 304.

  Next, the power supply control unit 401 sets the signal level of the control signal F to “Hi” (S132). Thereby, the power supply of the 2nd power supply part 420 and the 3rd power supply part 430 starts. When the voltage levels of the second power supply unit 420 and the third power supply unit 430 are stabilized, the power supply control unit 401 sets the signal levels of the control signals J and K to “Hi” (S133). As a result, power is supplied to the printer unit 14 and the scanner unit 13. As a result, the image forming apparatus 10 changes from the second sleep state to the standby state.

(D) When Timer 350 Counts Predetermined Time As shown in FIGS. 12 and 16, when timer 350 counts a predetermined time, signal R is input from timer 350 to power supply control unit 401 (signal The signal level of R becomes “Hi”). When the signal R becomes “Hi” level, the signal level of the control signal S2 is set to “Hi” (S140).

  Next, the power supply control unit 401 sets the signal level of the control signal F to “Hi” (S142). Thereby, the power supply of the 2nd power supply part 420 and the 3rd power supply part 430 starts. When the voltage levels of the second power supply unit 420 and the third power supply unit 430 are stabilized, the power supply control unit 401 sets the signal level of the control signal J to “Hi” (S143). As a result, power is supplied to the printer unit 14. As a result, the image forming apparatus 10 changes from the second sleep state to the adjustment state.

(E) When Document Detection Sensor 333 Detects a Document As shown in FIGS. 12 and 17, when document detection sensor 333 detects a document, power supply control unit 401 receives signal V from document detection sensor 333. (The signal level of the signal V becomes “Hi”). When the signal V becomes “Hi” level, the signal level of the control signal S1 is set to “Hi” (S150). Then, the power supply control unit 401 sets the signal level of the control signal H to “Hi” (S151). Thereby, the switch 420 is turned on, and power is supplied from the first power supply unit 410 to the CPU 301, the ROM 303, and the HDD 304.

  Next, the power supply control unit 401 sets the signal level of the control signal F to “Hi” (S152). Thereby, the power supply of the 2nd power supply part 420 and the 3rd power supply part 430 starts. When the voltage levels of the second power supply unit 420 and the third power supply unit 430 are stabilized, the power supply control unit 401 sets the signal levels of the control signals J and K to “Hi” (S153). As a result, power is supplied to the printer unit 14 and the scanner unit 13. As a result, the image forming apparatus 10 changes from the second sleep state to the standby state.

(F) When the paper detection sensor 312 detects the paper As shown in FIGS. 12 and 18, when the paper detection sensor 312 detects the paper, the signal W is input from the paper detection sensor 312 to the power control unit 401. (The signal level of the signal W becomes “Hi”). When the signal W becomes “Hi” level, the signal level of the control signal T is set to “Hi” (S160). Then, the power supply control unit 401 sets the signal level of the control signal H to “Hi” (S161). Thereby, the switch 420 is turned on, and power is supplied from the first power supply unit 410 to the CPU 301, the ROM 303, and the HDD 304.

  Next, the power supply control unit 401 sets the signal level of the control signal F to “Hi” (S162). Thereby, the power supply of the 2nd power supply part 420 and the 3rd power supply part 430 starts. When the voltage levels of the second power supply unit 420 and the third power supply unit 430 are stabilized, the power supply control unit 401 sets the signal levels of the control signals J and K to “Hi” (S163). As a result, power is supplied to the printer unit 14 and the scanner unit 13. As a result, the image forming apparatus 10 changes from the second sleep state to the standby state.

<Return processing of printer unit>
FIG. 19A is a flowchart showing the return process of the printer unit 14.

  Next, the return process of the printer unit 14 will be described with reference to FIG.

  First, when the voltage supplied from the second power supply unit 411 to the printer control unit 341 of the printer unit 14 is stabilized (S191), the printer control unit 341 cancels the reset (S192). The printer control unit 341 whose reset has been released checks the logic of the signal input to the printer control unit 341 (S193).

  When neither of the control signals S1 and S2 are input to the printer control unit 341 (when the signal levels of the control signals S1 and S2 are both “Low” level), the printer control unit 341 performs a preparatory operation of the printer driving unit 342. Perform (S194). This preparation operation is an operation executed until the printer unit 14 is ready to print, and includes a rotation operation of the photosensitive drum 1323 and a rotation operation of the fixing device 1327. When this preparation operation is completed, the printer unit 14 is ready for printing.

  When the control signal S2 is input to the printer control unit 341 (when the signal level of the control signal S2 is “Hi” level), the printer control unit 341 performs the adjustment operation of the printer driving unit 342 (S195). When the photosensitive drum 1323 and the blade that scrapes off the toner on the surface of the photosensitive drum 1323 are in contact with each other for a long time, a trace of the blade may remain on the surface of the photosensitive drum 1323. The adjustment operation described above refers to an operation of changing the relative position between the photosensitive drum 1323 and the blade so that no trace of the blade remains. Specifically, the printer control unit 341 rotates the photosensitive drum 1323 intermittently.

  When the control signal S1 is input to the printer control unit 341 (when the signal level of the control signal S1 is “Hi” level), the printer control unit 341 does not drive the printer drive unit 342.

<Return processing of scanner unit>
FIG. 19B is a flowchart showing the return process of the scanner unit 13.

  Next, the return process of the scanner unit 13 will be described with reference to FIG.

  First, when the voltage supplied from the second power supply unit 411 to the scanner control unit 331 of the scanner unit 13 is stabilized (S196), the scanner control unit 331 cancels the reset (S197). The scanner control unit 331 whose reset is released checks the logic of the signal input to the scanner control unit 331 (S198).

  When the control signal T is not input to the scanner control unit 331 (when the signal level of the control signal T is “Low” level), the scanner control unit 331 performs a preparatory operation of the scanner drive unit 332 (S199). This preparatory operation is a preparatory operation that is executed until the scanner unit 13 is ready for scanning, and includes a homing operation of the optical unit 1213 and a lighting operation of the lamp 1212. When this preparation operation is completed, the scanner unit 13 is ready to read a document.

  When the control signal T is input to the scanner control unit 331 (when the signal level of the control signal T is “Hi” level), the scanner control unit 331 does not drive the scanner drive unit 332.

<Operation flow when use of print function or scan function is confirmed>
FIG. 20 is a flowchart illustrating the operation of the power supply control unit 401 when a function button is selected by the user on the selection screen displayed on the display unit. When the image forming apparatus 10 enters a standby state, a selection screen (see FIG. 2) is displayed on the display unit 122 of the operation unit 12. Here, the operation of the image forming apparatus 10 that has shifted to the standby state when the signal levels of the control signals S1 and T are “Hi” will be described.

  When the copy button 122a of the display unit 122 is pressed by the user (S210), the power control unit 401 sets the signal levels of the control signals S1 and T to “Low” (S211). As a result, the printer control unit 341 performs a preparation operation of the printer driving unit 342. As a result, the printer unit 14 is ready for printing. In addition, the scanner control unit 331 performs a preparation operation of the scanner driving unit 332. As a result, the scanner unit 13 is ready to read a document. As a result, the user can copy the document using both the scanner function and the print function.

  Next, when the scan button 122b of the display unit 122 is pressed by the user (S220), the power supply control unit 401 sets the signal level of the control signal T to “Low” (S221). The signal level of the control signal S1 is maintained at “Hi”. Accordingly, the scanner control unit 331 performs a preparation operation of the scanner driving unit 332. As a result, the scanner unit 13 is ready to read a document. Here, the preparation operation of the printer driving unit 342 is limited. Accordingly, the user can store an image read using the scan function in the HDD 304 or the like.

  Next, when the user presses the fax button 122c of the display unit 122 (S230), the power supply control unit 401 sets the signal level of the control signal T to “Low” (S231). The signal level of the control signal S1 is maintained at “Hi”. Accordingly, the scanner control unit 331 performs a preparation operation of the scanner driving unit 332. As a result, the scanner unit 13 is ready to read a document. Here, the preparation operation of the printer driving unit 342 is limited. As a result, the user can facsimile-transmit the image data of the document read using the scan function.

  Next, when the user presses the print button 122d of the display unit 122 (S240), the power supply control unit 401 sets the signal level of the control signal S1 to “Low” (S241). The signal level of the control signal T is maintained at “Hi”. As a result, the printer control unit 341 performs a preparation operation of the printer driving unit 342. As a result, the printer unit 14 is ready for printing. Here, the preparation operation of the scanner driving unit 332 is limited. Thereby, the user can perform printing based on the print job stored in the HDD 304 using the print function or printing based on the print job stored in the server.

<Effect of this embodiment>
According to the above configuration, when the image forming apparatus 10 receives a PDL job in the second sleep state, the preparation operation of the printer driving unit 342 can be executed without waiting for an operation on the selection screen by the user. That is, when the image forming apparatus 10 receives a PDL job, the printer unit 14 is ready to print.

  Further, when the human body detection sensor 310 detects a person in the second sleep state or when the button 121 is pressed, the preparation operations of the printer unit 14 and the scanner unit 13 are limited. In this case, since the drive system of the printer unit 14 and the scanner unit 13 does not operate (the motors of the photosensitive drum 1323 and the fixing device 1327 do not drive), the image forming apparatus 10 generates noise related to the operation of the drive system. There is no, and it shifts to the standby state quietly.

  Further, after the transition to the standby state where the drive system does not operate, when the function buttons 122a to 122d are pressed and the functions to be used are determined, the drive systems of the printer unit 14 and the scanner unit 13 operate. In a standby state in which the drive system does not operate, power is already stably supplied to the printer unit 14 and the scanner unit 13, and reset release of the printer unit 14 and the scanner unit 13 has already been performed. Therefore, as soon as the function buttons 122a to 122d are pressed by the user, the printer unit 14 is ready for printing or the scanner unit 13 is ready for reading.

  When the document detection sensor 333 detects a document, the drive system of the scanner unit 13 performs a preparation operation, but the drive system of the printer unit 14 does not perform a preparation operation. When the document detection sensor 333 detects a document, the scanner unit 13 is highly likely to be used. Therefore, in order to make the function of the scanner unit 13 usable, the scanner drive unit 332 of the scanner unit 13 Perform preparatory actions. However, even if the document detection sensor 333 detects a document, whether to use the printer unit 14 is not determined, such as whether to execute a copy function, save a scanned document image in the HDD 304, or send a fax. . For this reason, the preparation operation of the printer drive unit 342 of the printer unit 14 is not performed. When it is determined that the function of the printer unit 14 is to be used, the preparation operation of the printer driving unit 342 is executed.

  When the paper detection sensor 312 detects a paper, the drive system of the printer unit 14 performs a preparatory operation, but the drive system of the scanner unit 13 does not perform a preparatory operation. When the paper detection sensor 312 detects the paper, the printer unit 14 is likely to be used. Therefore, in order to make the function of the printer unit 14 usable, the printer driving unit 342 of the printer unit 14 Perform preparatory actions. However, even if the paper detection sensor 312 detects the paper, whether to use the scanner function is not determined. For this reason, the preparation operation of the scanner drive unit 332 of the scanner unit 13 is not performed. When it is determined that the function of the scanner unit 13 is to be used, the preparation operation of the scanner driving unit 332 is executed.

  In the above-described embodiment, the example in which the power control unit 401 of the hardware logic circuit executes the steps illustrated in FIGS. 12 and 20 has been described. The present invention is not limited to this, and the power control unit 401 may be a processor, and the processor may execute the steps shown in FIGS. 12 and 20 by executing a program.

  The functions shown in the flowchart in the present embodiment can also be realized by executing software (program) acquired via a network or various storage media by a processing device (CPU, processor) such as a computer personal computer.

DESCRIPTION OF SYMBOLS 10 Image forming apparatus 11 Controller 13 Scanner part 14 Printer part 301 CPU
401 Power control unit

Claims (27)

A printer section;
A control unit for controlling the operation of the printer unit;
A display unit;
A touch panel for detecting a user operation on the display unit;
A human sensor,
Power control means for controlling power to be supplied to the control unit based on a detection result of the human sensor,
The control unit controls the printer unit to execute a specific operation for setting the printer unit in a printable state based on the touch panel detecting a user operation.
The printing apparatus, wherein the printer unit does not execute the specific operation based on the detection result of the human sensor. The printer unit includes a photosensitive drum,
The printing apparatus according to claim 1, wherein the specific operation is an operation of the photosensitive drum. The printer unit includes a fixing device,
The printing apparatus according to claim 1, wherein the specific operation is an operation of the fixing device.   4. The printing apparatus according to claim 1, further comprising display control means configured to control a screen to be displayed on the display unit based on a detection result of the human sensor. 5. On the screen, a copy button for displaying a setting screen for inputting settings for executing copying is displayed.
The printing apparatus according to claim 4, wherein the control unit controls the printer unit to execute the specific operation based on detection of selection of the copy button by the touch panel. On the screen, at least a first button and a second button are displayed,
The control unit controls the printer unit to execute the specific operation based on the touch panel detecting selection of the first button,
The printing apparatus according to claim 4, wherein the printer unit does not execute the specific operation based on detection of selection of the second button by the touch panel.   The printing apparatus according to claim 1, wherein the human sensor is an infrared sensor that receives infrared rays.   The printing apparatus according to claim 1, wherein the human sensor is an infrared array sensor including a plurality of infrared receiving elements that receive infrared rays. A return key for receiving a user operation for returning the printing apparatus from a power saving state;
The power control means controls the power to be supplied to the control unit based on the return key receiving the user operation, and the control unit is based on the touch panel detecting the user operation. The printing apparatus according to claim 1, wherein the printer unit is controlled to execute the specific operation.   The control unit controls the printer unit to execute the specific operation after the screen is displayed on the display unit and before receiving a print execution instruction from a user. The printing apparatus according to any one of claims 1 to 9.   The printing apparatus according to claim 1, wherein the specific operation is an operation that does not involve printing by the printer unit. A control method for a printing apparatus comprising: a printer unit; a control unit that controls the operation of the printer unit; a display unit; a touch panel that detects a user operation on the display unit; and a human sensor,
Controlling power to be supplied to the control unit based on the detection result of the human sensor;
Controlling the printer unit to execute a specific operation for setting the printer unit in a printable state based on the touch panel detecting a user operation,
The printing apparatus control method, wherein the printer unit does not execute the specific operation based on the detection result of the human sensor. The printer unit includes a photosensitive drum,
The method according to claim 12, wherein the specific operation is an operation of the photosensitive drum. The printer unit includes a fixing device,
The method according to claim 12, wherein the specific operation is an operation of the fixing device. A photosensitive drum;
A control unit for controlling the operation of the photosensitive drum;
A display unit;
A touch panel for detecting a user operation on the display unit;
A human sensor,
Power control means for controlling power to be supplied to the control unit based on a detection result of the human sensor,
The control unit controls the photosensitive drum to operate based on detection of a user operation by the touch panel,
The printing apparatus, wherein the photosensitive drum does not operate based on the detection result of the human sensor. A motor for rotating the photosensitive drum;
The printing apparatus according to claim 15, wherein the control unit controls the operation of the motor so that the photosensitive drum rotates based on the touch panel detecting a user operation. A fixing device;
The control unit controls the fixing device to operate based on the touch panel detecting a user operation,
The printing apparatus according to claim 15, wherein the fixing device does not operate based on the detection result of the human sensor.   18. The printing apparatus according to claim 15, further comprising a display control unit configured to control a screen to be displayed on the display unit based on a detection result of the human sensor. On the screen, a copy button for displaying a setting screen for inputting settings for executing copying is displayed.
The printing apparatus according to claim 18, wherein the control unit controls the photosensitive drum to operate based on detection of selection of the copy button by the touch panel. On the screen, at least a first button and a second button are displayed,
The control unit controls the photosensitive drum to operate based on the touch panel detecting the selection of the first button,
The printing apparatus according to claim 18, wherein the photosensitive drum does not operate based on detection of selection of the second button by the touch panel.   21. The printing apparatus according to claim 15, wherein the human sensor is an infrared sensor that receives infrared rays.   The printing apparatus according to claim 15, wherein the human sensor is an infrared array sensor including a plurality of infrared receiving elements that receive infrared rays. A return key for receiving a user operation for returning the printing apparatus from a power saving state;
The power control means controls the power to be supplied to the control unit based on the return key receiving the user operation, and the control unit is based on the touch panel detecting the user operation. 23. The printing apparatus according to claim 15, wherein the photosensitive drum is controlled to operate.   16. The control unit according to claim 15, wherein the control unit controls the photosensitive drum to be driven after the screen is displayed on the display unit and before receiving a print execution instruction from a user. 24. The printing apparatus according to any one of 23.   The printing apparatus according to any one of claims 15 to 24, wherein the operation of the photosensitive drum is an operation that does not involve printing. A control method of a printing apparatus comprising: a photosensitive drum; a control unit that controls the operation of the photosensitive drum; a display unit; a touch panel that detects a user operation on the display unit; and a human sensor,
Controlling power to be supplied to the control unit based on the detection result of the human sensor;
Controlling the photosensitive drum to operate based on the touch panel detecting a user operation,
The method of controlling a printing apparatus, wherein the photosensitive drum does not operate based on the detection result of the human sensor. The printing apparatus further includes a fixing device,
The step of controlling the photosensitive drum to operate is a step of controlling the photosensitive drum and the fixing device to operate based on detection of a user operation by the touch panel.
27. The method according to claim 26, wherein the fixing unit does not operate based on the detection result of the human sensor.

Images