JP2020082361A - Image formation apparatus, control method of image formation apparatus and program - Google Patents

Abstract

To provide an image formation apparatus which can turn off a power supply related to a load system when a power supply switch is turned off even in a state where failure occurs in a hardware timer.SOLUTION: A power supply control unit is provided with a timer for shutting down the supply of a power supply after elapse of the time longer than the time from turning off of a power supply switch to shutting down of the power supply by an off-timer when the time from turning off of the power supply switch to shutting down of the power supply elapses. When the supply of the power supply is shut down by the timer, a failure flag indicating that failure occurs in the off-timer is set. With this configuration, even in a state where failure occurs in the off-timer, when the power supply switch is turned off, the power supply related to a load system can be surely turned off, and in rebooting, the power supply can be supplied to a controller only.SELECTED DRAWING: Figure 7

Description

The present invention relates to an image forming apparatus, an image forming apparatus control method, and a program. In particular, the present invention relates to an image forming apparatus having a function of turning off a power source related to a load system of the image forming apparatus when a power switch is turned off.

2. Description of the Related Art Conventionally, there is an image forming apparatus that performs a power supply shutdown process by software when a power switch is turned off by a user. However, in such an image forming apparatus, even if the power switch is turned off, normal shutdown processing by software may not be performed due to CPU hang-up or the like. In this case, even if the user turns off the power switch, the power source associated with a load system such as a printer or a scanner, which requires a high voltage, remains on.

Therefore, Patent Document 1 proposes a technique for turning off the power of the image forming apparatus even in such a case.
In Patent Document 1, a hardware timer measures a certain period of time by using a power switch being turned off as a trigger. After that, if the hardware timer measures the set time without the software shutdown processing normally ending, the power supply related to the load system (fixing, high voltage, etc.) of the image forming device is forcibly turned off. I am trying to do it.

JP, 2001-183948, A

However, in the image forming apparatus of Patent Document 1, when a hardware timer fails, if the CPU hangs up, the load system (fixing, high voltage, etc.) of the image forming apparatus is forcibly turned off. There is no way to do it. Therefore, when the power switch is turned off, the load system power of the image forming apparatus is desired to be turned off, but if the hardware timer has failed, it cannot be turned off.

Therefore, it is an object of the present invention to provide an image forming apparatus capable of turning off a power source related to a load system when a power switch is turned off even when a hardware timer is out of order. To do.

According to the present invention, an image forming unit, a power supply switching unit that receives an operation of turning on and off a power supply, and an image forming unit when a first time has elapsed after the power supply switching unit receives an operation of turning off the power supply. First shutting off means for shutting off the supply of power to the image forming means and a second time longer than the first time after the power source switching means receives the operation of turning off the power source. An image forming apparatus having a second cutoff unit for cutting off the supply of power, and stores information about the state of the first cutoff unit when the supply of power is cut off by the second cutoff unit. And a storage unit for storing the data.

According to the present invention, even when the hardware timer has failed, the power supply related to the load system can be turned off when the power switch is turned off.

1 is a configuration of a system including an image forming apparatus. 2 is an external view of the image forming apparatus. It is a block diagram of a controller. It is a hardware configuration for power supply control of the controller. It is a hardware configuration of a power supply control unit. It is a flow chart which shows operation of an off timer. It is a flowchart which shows operation|movement of the timer of a power supply control part. 6 is a flowchart showing the operation of the power supply control unit when the image forming apparatus is restarted.

Embodiments for carrying out the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of the system according to the present embodiment.
In this system, as shown in FIG. 1, host computers 40, 50 and image forming apparatuses 10, 20, 30 are connected by a LAN 60. However, in the system of the present invention, the number of connections of the host computer and the image forming apparatus is not limited to that shown in the figure.
Further, in the example shown in FIG. 1, a LAN (Local Area Network) is used as the connecting means, but the connecting means is not limited to this. For example, an arbitrary network such as WAN (Wide Area Network) such as a public line can be used.

The host computers (hereinafter referred to as PCs) 40 and 50 have the functions of personal computers. The PCs 40 and 50 can send and receive files and send and receive e-mails via the LAN 60 and WAN using FTP (File Transfer Protocol) and SMB (Server Message Block) protocols.
Further, the PCs 40 and 50 can issue a print command to the image forming apparatuses 10, 20, and 30 via the printer driver. Further, the PCs 40, 50 can periodically inquire of the image forming apparatuses 10, 20, 30 about the states of the image forming apparatuses 10, 20, 30. Then, in response to a request from the PC 40, 50, the image forming apparatus 10, 20, 30 can return information regarding its own apparatus such as whether or not printing is possible.

The image forming apparatuses 10, 20, and 30 are examples of information processing apparatuses, and in the present embodiment, each is an image processing apparatus (multifunction peripheral) having a plurality of functions such as a print function and a scan function. In the example of FIG. 1, the image forming apparatuses 10 and 20 have a printer unit 13 and a scanner unit 14 and have the same configuration. On the other hand, the image forming apparatus 30 is an image forming apparatus having only a print function, and does not have the scanner unit included in the image forming apparatuses 10 and 20. In the following, in order to simplify the description, the configuration of the image forming apparatus 10 of the image forming apparatuses 10 and 20 will be described in detail with reference to FIG.

FIG. 2 shows the appearance of the image forming apparatus 10. The image forming apparatus 10 includes a scanner unit 13 that is an image input device, a printer unit 14 that is an image output device, a controller 11 (see FIG. 1) that controls the overall operation of the image forming apparatus 10, and a user interface (UI). The operation unit 12 and the like are included.

The scanner unit 13 has a plurality of CCDs. When the CCDs have different sensitivities, even if the densities of the pixels on the document are the same, it is recognized that the pixels have different densities. Therefore, in the scanner unit 13, a white plate (uniformly white plate) is first exposed and scanned, and the amount of reflected light obtained by the exposure scanning is converted into an electric signal and output to the controller 11. Next, a configuration for scanning an image on a document will be described.

The scanner unit 13 converts the image information into an electric signal by inputting the reflected light obtained by exposing and scanning the image on the document to the CCD. Further, the electric signal is converted into a luminance signal of each color of R, G, B, and the luminance signal is output to the controller 11 as image data.
The document is set on the tray 202 of the document feeder 201. When the user gives an instruction to start the reading operation from the operation unit 12, the controller 11 gives an original reading instruction to the scanner unit 13. Upon receiving the reading instruction, the scanner unit 13 feeds the originals one by one from the tray 202 of the original feeder 201 and performs the original reading operation.
The document reading method is not limited to the automatic feeding method by the document feeder 201. A method of scanning the original by placing the original on a glass surface (not shown) and moving the exposure unit may be used.

The printer unit 14 is an image forming device that forms the image data received from the controller 11 on a sheet. In this embodiment, the image forming method is an electrophotographic method using a photoconductor drum or a photoconductor belt, but the present invention is not limited to this. For example, an ink jet method in which ink is ejected from a minute nozzle array to print on paper can be used.
The printer unit 14 is provided with a plurality of paper cassettes 203, 204, 205 so that different paper sizes or different paper orientations can be selected. Further, the printed paper is discharged to the paper discharge tray 206.

FIG. 3 is a detailed block diagram of the controller 11 of the image forming apparatus 10.
The controller 11 is electrically connected to the scanner unit 13 and the printer unit 14, and is also connected to the PCs 40, 50 and external devices via a network such as the LAN 60. Accordingly, the image forming apparatus 10 is configured to be able to input and output image data and device information.

The CPU 301 centrally controls access to each device being connected as shown in FIG. 3 based on a control program stored in the ROM 303. Further, the CPU 301 comprehensively controls various processes performed inside the controller 11.
The RAM 302 is a system work memory for the CPU 301 to operate and also a memory for temporarily storing image data. The RAM 302 can be configured by an SRAM that can retain the stored content even after the power is turned off. Further, it may be configured by a DRAM whose stored contents are erased after the power is turned off.
The ROM 303 stores a boot program of the image forming apparatus and the like.
The HDD 304 is a hard disk drive and can store system software 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 the image data to be displayed on the operation unit 12 from the system bus 307, outputs the image data to the operation unit 12, and outputs the information input from the operation unit 12 to the system bus 307.
The LAN controller 306 is connected to the LAN 60 and the system bus 307 and inputs/outputs information to control communication between the image forming apparatus 10 and the network.
The image bus 308 is a transmission path for exchanging image data, and is composed of a PCI bus or IEEE1394.

The image processing unit 309 is for performing image processing, and can read image data stored in the RAM 302 and perform image processing such as JPEG and JBIG enlargement or reduction and color adjustment. The image-processed data is stored in the RAM 302 or the HDD 304.

The scanner image processing unit 310 corrects, processes, and edits the image data received from the scanner unit 13 via the scanner I/F 311. The scanner image processing unit 310 determines whether the received image data is a color original document, a monochrome original document, a text original document, or a photo original document. Then, the determination result is attached to the image data. Information associated with such image data is referred to as attribute data.

The printer image processing unit 312 performs image processing on the image data while referring to the attribute data attached to the image data. The image-processed image data is output to the printer unit 14 via the printer I/F 313.

FIG. 4 is a block diagram showing a hardware configuration relating to power control of the controller 11, the scanner unit 13, and the printer unit 14.
The power supply control unit 401 controls the power supply of the image forming apparatus 10 when the power is turned on (at the time of startup) or when the power is turned off (at the time of shutdown), and the power supply mode of the image forming apparatus 10 such as shifting from the standby mode to the power saving mode or returning. Control changes. The power supply control unit 401 is a part that detects a return factor (for example, FAX reception or switch pressing) when returning from the power saving mode to the standby mode, and the power supply when the mode is shifted to the standby mode according to each return factor. Take control.
In addition, the power supply control unit 401 receives signals from the CPU 301 or the outside as instructions, and determines whether to supply power to each device from the first power supply unit 402 or the second power supply unit 403 according to the command. Take control. Further, when shutdown is executed in response to a command from the remote environment, energization control to the solenoid 405 is performed to turn off the power switch 404.

The first power supply unit 402 converts AC power supplied from an external power supply into DC power, and supplies the first power to the power supply control unit 401 and the like. The first power supplied from the first power supply unit 402 is a power provided for supplying power to the power control unit 401 and the like even when the image forming apparatus 10 is set in the power saving mode. The first power supply is also supplied to the power supply controller 401, the LAN controller 306 for detecting a packet addressed to itself from the network 60 in order to recover from the power saving mode, the CPU 301, and the like. The power supply voltage output from the first power supply unit 402 is, for example, 5V or 12V, and is set to be lower than the power supply voltage output from the second power supply unit 403 described below.

The second power supply unit 403 converts AC power supplied from an external power supply into DC power, and supplies the second power to the printer unit 14 and the scanner unit 13. The second power supply unit 403 is provided to supply power to various devices, such as the printer unit 14 and the scanner unit 13, that need power supply in the standby mode and the operation mode. .. That is, the second power supplied from the second power supply unit 403 is stopped when the image forming apparatus 10 is in the power saving mode. The power supply voltage output from the second power supply unit 403 is, for example, 24 V, which is set higher than the power supply voltage output from the first power supply unit 402. The second power supply unit 403 is on/off controlled by a control signal 432 described later.

The power switch 404 is a switch for the user to perform an on/off power switching operation of the image forming apparatus 10. When the user turns on the power switch 404, the first power supply unit 402 supplies the first power to the controller 11.
The power switch 404 has a solenoid 405 provided therein, and can be turned off by energizing the solenoid 405. Thus, when the shutdown process from the remote environment is accepted, the power switch 404 can be turned off by controlling the solenoid 405 with the solenoid control signal 422 and energizing it.
Based on the status notification signal 421 output from the power switch 404, the power control unit 401 detects that the power switch 404 has been turned off. When detecting that the power switch 404 has been turned off, the power control unit 401 notifies the CPU 301 of this. When the CPU 301 detects that the power switch 404 is turned off, the CPU 301 performs a normal shutdown process and turns off the power supplied to each device.

The switches 406 to 412 are switches for changing the power supply/interruption state to each device. Each of the switches 406 to 412 can change the on/off state by a control signal controlled by the power supply control unit 401. The switches 406 to 412 can be realized by FETs, relay switches, or the like.

The switch 406 is a switch for controlling the power supply from the first power supply unit 402 to the controller 11 via the control signal 423. When the power switch 404 is turned on by the user, the first power is supplied to the power control unit 401, and the power control unit 401 is activated. When activated and turned on, the power supply control unit 401 outputs a control signal 423 and controls the switch 406 to turn on.
By turning on the switch 406, it is possible to continue supplying power to the controller 11 even when the user turns off the switch 404. Accordingly, even if the power is turned off while the CPU 301 is accessing the HDD 304, it is possible to prevent the HDD 304 from failing.

The switch 407 is a switch for controlling the supply of the first power supply to the RAM 302 via the control signal 426. For example, when the image forming apparatus 10 is in the power saving mode, the switch 407 is turned on to supply power from the first power supply to the RAM 302 in the self-refresh state. When turning off the image forming apparatus 10, the switch 407 is turned off to stop the power supply to the RAM 302 from the first power supply.

The switch 408 is a switch for controlling power supply to the LAN controller 306 via the control signal 425. When the image forming apparatus 10 is in the standby mode and the power saving mode, the switch 408 is turned on to supply power to the LAN controller 306. When the image forming apparatus 10 is off, the switch 408 is turned off to control the power supply to the LAN controller 306.

The switch 409 is a switch for controlling power supply to the CPU 301, the ROM 303, and the HDD 304 via the control signal 427. When the image forming apparatus 10 is in the standby mode or when only the controller 11 is operating, the switch 409 is turned on to supply power to the CPU 301, the ROM 303, and the HDD 304. Further, when the image forming apparatus 10 is in the power saving mode or in the off state, the switch 409 is turned off to control the power supply to the CPU 301, the ROM 303, and the HDD 304.

The switch 410 is a switch for controlling power supply to the operation unit I/F 305, the image processing unit 309, the printer image processing unit 312, and the scanner image processing unit 310 via the control signal 433. When the image forming apparatus 10 is in the standby mode, the switch 410 is turned on to supply power to the operation unit I/F 305, the image processing unit 309, the printer image processing unit 312, and the scanner image processing unit 310. Further, when the image forming apparatus 10 is in the power saving mode or in the off state, the switch 410 is turned off to stop the power supply to the operation unit I/F 305, the image processing unit 309, the printer image processing unit 312, and the scanner image processing unit 310. Control to do.

The switch 411 is a switch for controlling power supply to the printer unit 14 via the control signal 429. When the process of printing on a sheet is instructed when the image forming apparatus 10 is in the standby mode, the switch 411 is turned on and power is supplied to the printer unit 14. Further, when the process of printing on the sheet is not instructed, or when the image forming apparatus 10 is in the power saving mode or in the off state, the switch 411 is turned off to stop the supply of the second power source to the printer unit 14. Control.

The switch 412 is a switch for controlling the power supply to the scanner unit 13 via the control signal 430. When the image forming apparatus 10 is in standby mode and a sheet reading process is instructed, the switch 412 is turned on to supply power to the scanner unit 13. Further, when the sheet reading process is not instructed or when the image forming apparatus 10 is in the power saving mode or in the off state, the switch 412 is turned off to control the supply of the second power source to the scanner unit 13. To do.

The off timer 413 is a hardware timer that has a time counting function of counting the time after the power switch 404 is turned off, and outputs a control signal 431 for turning off the power of the image forming apparatus 10 when a predetermined time has elapsed. is there. The control signal 431 output from the off timer 413 is input to the logic circuit 414 that generates the control signal 432 for performing on/off control of the second power supply unit 403. Further, the control signal 431 is input to the logic circuit 415 that generates a control signal 433 for controlling the switch 410 for supplying power to the operation unit I/F 305, the image processing unit 309, and the like. Furthermore, the control signal 431 is also input to the power supply control unit 401, and the power supply control unit 401 can confirm whether or not the off timer 413 has counted for a predetermined time.

The off-timer 413 can detect whether or not the power switch 404 is turned off by monitoring the state notification signal 421 of the power switch 404.
The off-timer 413 is a timer circuit provided to turn off the power supply in the image forming apparatus 10 when the software shutdown process is not completed due to a hang-up or the like. Therefore, it is configured to be able to count a time that is sufficiently longer than the time from when the power switch 404 is turned off until the software shutdown is normally completed.
The operation flow of the off timer 413 will be described with reference to FIG. 6 described later.

The logic circuit 414 is a circuit for generating a control signal 432 for controlling on/off of the second power supply unit 403. The logic circuit 414 receives the control signal 431 output from the off timer 413 and the control signal 424 output from the power supply control unit 401 as inputs, and the control signal 432 is based on the logic of each control signal 431, 424. Is output.
The logic circuit 414 operates to turn off the second power supply unit 403 when receiving an input signal from the power supply control unit 401 or the off timer 413 to turn off the second power supply unit 403. For example, it is assumed that the setting is such that the power supply from the second power supply unit 403 is stopped when the control signal 432 of the second power supply unit 403 is Low. In this case, the control signal 432 is controlled to be Low when the control signal 431 from the off timer 413 is Low or when the control signal 424 from the power supply control unit 401 is Low.

The logic circuit 415 is a circuit for generating a control signal 433 for controlling on/off of the switch 410. The logic circuit 415 receives the control signal 431 output from the off-timer 413 and the control signal 428 output from the power supply control unit 401 as inputs, and the control signal 433 based on the logic of each control signal 431, 428. Is output.
The logic circuit 415 operates to turn off the switch 410 when receiving an input signal from the power supply control unit 401 or the off timer 413 to turn off the switch 410. For example, it is assumed that the switch 410 is set to be off when the control signal 433 of the switch 410 is Low. In this case, when the control signal 431 from the off timer 413 becomes Low or when the control signal 428 from the power supply control unit 401 becomes Low, the control signal 433 is controlled to become Low.

FIG. 5 shows each hardware configuration of the power supply control unit 401 in the controller 11.
The control unit 501 generates control signals 423 to 430 for controlling the power supply of each device in the image forming apparatus 10. The control unit 501 determines the logic of each control signal to be output based on the input signal such as the register value, the status notification signal 421, and the control signal 431. The register value is set in the register unit 502 by the CPU 301 via the bus 510, and is input to the control unit 501 from the register unit 502 via the bus 511.
The control unit 501 determines the logic of each control signal to be output based on a control signal 513 output from a timer 503 described later. When the control signal 513 output from the timer 503 receives the notification that the counting by the timer 503 has passed the predetermined time, the control unit 501 turns off the control signal and supplies it to each device in the image forming apparatus 10. Turn off the power. Further, the control unit 501 acquires information (a failure flag of the off timer 413, which will be described later) stored in the non-volatile memory 504 via the bus 512, and based on the acquired information, determines the logic of each control signal to be output. decide.

The register unit 502 changes the state of the power supply control unit 401 and notifies the CPU 301 of the state of the power supply control unit 401 according to an instruction from the CPU 301. The register unit 502 is connected to the CPU 301 via a bus 510 and can execute reading/writing via the bus 510. The register unit 502 can also receive the status notification signal 421 of the power switch 404, hold the status of the power switch 404 as a register value, and notify the CPU 301 of the status of the power switch 404 when necessary.
Further, the register unit 502 is connected to the non-volatile memory 504 via the bus 512 and can access the information stored in the non-volatile memory 504 via the bus 512.

The timer 503 is a circuit that operates according to the logic of the status notification signal 421 indicating the status of the power switch 404. The timer 503 starts counting when it determines that the power switch 404 is in the off state based on the state notification signal 421, as shown in the flowchart of FIG. 7 described later. Since the timer 503 is a timer that operates instead when the off timer 413 does not operate normally, the time counted by the timer 503 needs to be longer than the time counted by the off timer 413. After counting the predetermined time, the timer 503 notifies the control unit 501 that the predetermined time has elapsed as a control signal 513.

The non-volatile memory 504 is a storage device including a non-volatile memory accessible from the control unit 501 and the register unit 502. When the control unit 501 receives the notification that the predetermined time has elapsed as the control signal 513 output from the timer 503, the control unit 501 determines that the off timer 413 is not operating normally, and sets the failure flag of the off timer 413 to the nonvolatile memory 504. To store. In addition, the control unit 501 determines whether the failure flag of the off timer 413 is stored in the nonvolatile memory 504 when the user turns on the power switch 404, and determines the logic of each control signal to be output.

Next, a process executed by the controller 11 when the user turns off the power switch 404 will be described.
FIG. 6 is a flowchart showing the operation executed by the off timer 413, and FIG. 7 is a flowchart showing the operation executed by the timer 503 of the power supply control unit 401.

First, the operation executed by the off timer 413 will be described with reference to FIG.
In step S601, the off timer 413 determines whether the power switch 404 is off. Whether or not the power switch 404 is off is determined based on the logic of the status notification signal 421. For example, when the status notification signal 421 is High, the off timer 413 determines that the power switch 404 is on, and when the status notification signal 421 is Low, the power switch 404 is off.
When the off timer 413 determines that the power switch 404 is in the off state, the process proceeds to S602. When it is determined that the power switch 404 is in the on state, the process stays in S601, and the off timer 413 waits until the power switch 404 is turned off.

When it is determined that the user turns off the power switch 404 in S601, the off timer 413 starts counting the elapsed time from the time when the state of the power switch 404 is turned off in S602.

In step S603, the off-timer 413 determines whether 90 seconds have elapsed since the count was started in step S602.
Here, if there is no abnormality in the software that performs the shutdown process, 90 seconds after the power switch 404 is turned off until the software executes the shutdown process and the power supply in the image forming apparatus 10 is turned off. Does not need. Therefore, 90 seconds after the off timer 413 starts counting means that the software is hung up and the shutdown process is not completed.
The off-timer 413 may count a time that is sufficiently longer than the time required for the shutdown process when the software is normal, and is not limited to 90 seconds.
When it is determined in S603 that the off timer 413 has passed 90 seconds, the process proceeds to S604. If 90 seconds have not passed yet, the process proceeds to S605.

When 90 seconds have elapsed after the off timer 413 started counting, the off timer 413 turns off the power supply control signal in S604. In this case, since the shutdown processing by software has not been completed, the power supply control unit 401 turns off the power supply in the image forming apparatus 10 based on the instruction of the off timer 413. Specifically, when it is determined that 90 seconds have elapsed, the off timer 413 outputs the control signal 431 to turn off the power supply in the image forming apparatus 10. Then, the switch 410 for controlling the power supply of the image processing unit 309 and the like, and the second power supply unit 403 for controlling the printer unit 14 and the scanner unit 13 are turned off. Further, the off-timer 413 notifies the power supply control unit 401 that the power has been turned off by the control signal 431.
Upon receiving a notification from the off timer 413 that 90 seconds has elapsed, the power supply control unit 401 outputs control signals 423 to 430 to turn off the power of each device in the image forming apparatus 10. To do.

If 90 seconds has not elapsed yet in S603, it is determined in S605 whether or not the power source in the image forming apparatus 10 is turned off.
If the power is off, the shutdown process by software is considered to have been normally completed, and this flowchart ends. If the power is not turned off, the process proceeds to S606.

When the shutdown processing by software is not completed in S605, the off timer 413 determines in S606 whether the power switch 404 is in the off state. Whether or not the power switch 404 is turned off is determined based on the logic of the status notification signal 421. For example, when the status notification signal 421 is High, it is determined that the status of the power switch 404 is ON. On the other hand, when the status notification signal 421 is Low, it is determined that the power switch 404 is off.

When the off timer 413 determines that the power switch 404 is in the on state, the process proceeds to S607. When the off timer 413 determines that the power switch 404 is in the off state, the process returns to S603 and waits 90 seconds again. As a result, the off timer 413 continues to determine that 90 seconds have elapsed while the power switch 404 remains off.

When it is determined that the power switch 404 is on, the off timer 413 resets the timer counting 90 seconds in step S<b>607. As a result, the off timer 413 controls so that the power control signal is turned off only when the power switch 404 holds the off state for 90 seconds or more.

Next, the operation executed by the timer 503 of the power supply control unit 401 will be described with reference to FIG. 7.

First, in step S<b>701, the timer 503 of the power control unit 401 determines whether or not the state of the power switch 404 is off. The timer 503 determines whether the power switch 404 is off, based on the logic of the status notification signal 421, as with the off timer 413 described above.
When the timer 503 determines that the power switch 404 is in the off state, the process proceeds to S702. When it is determined that the power switch 404 is in the on state, the process stays in S701, and the timer 503 waits until the power switch 404 is turned off.

As a result, when the user turns off the power switch 404, the process proceeds to S702 at the same time when the process transitions to S602 in the flowchart of FIG.
When it is determined in S701 that the user has turned off the power switch 404, in S702, the timer 503 of the power control unit 401 starts counting the elapsed time from the time when the state of the power switch 404 is turned off.

In step S703, the timer 503 of the power supply control unit 401 determines whether 100 seconds have elapsed since the count was started in step S702.
Here, if there is no abnormality in the software that performs the shutdown processing, it does not take 90 seconds from the time when the power switch 404 is turned off until the software executes the shutdown processing and the power in the apparatus is turned off. .. If the off-timer 413 has no abnormality, even if there is an abnormality in the software, the power inside the image forming apparatus 10 is turned off after 90 seconds have passed, as described in the flowchart of FIG. Therefore, 100 seconds after the timer 503 starts counting means that the software is hung up and the shutdown process is not completed, and the off timer 413 is not operating normally.

Since the off timer 413 is set to count 90 seconds, the timer 503 needs to count a time longer than 90 seconds in order to detect an abnormal operation of the off timer 413. However, the time is not limited to 100 seconds as long as it is sufficiently longer than 90 seconds.
When it is determined that the timer 503 has passed 100 seconds in S703, the process proceeds to S704. If 100 seconds has not elapsed yet, the process proceeds to S706.

When 100 seconds have elapsed after the timer 503 started counting, the control unit 501 of the power supply control unit 401 sets a flag (failure flag) indicating that the off-timer 413 has a failure in S704.
Specifically, the timer 503 notifies the control unit 501 that a predetermined time has passed by the control signal 513 after 100 seconds have passed. When the control unit 501 detects that the timer 503 has passed a predetermined time by the control signal 513, the control unit 501 stores a failure flag indicating that the off timer 413 has failed in the nonvolatile memory 504 via the bus 512.
As a result, as will be described later with reference to FIG. 8, when the image forming apparatus 10 is to be restarted in a state where the off timer 413 is out of order, the load system (fixing, high voltage, etc.) is turned off while the power is off. The failure of the timer 413 can be notified to the user.

Next, in S705, the control unit 501 turns off the power supply control signals 423 to 430.
As a result, when the user turns off the power switch 404, even if the shutdown processing by software is not normally completed and the off timer 413 does not operate normally, the power in the image forming apparatus 10 is turned off. You can definitely turn it off.

If 100 seconds have not elapsed in S703, the control unit 501 determines in S706 whether or not the register setting for the shutdown process is set.
When the software shutdown process is operating normally, the CPU 301 sets the shutdown process register in the register unit 502.
When the shutdown register is set, the process proceeds to step S705, and the power supply control unit 401 turns off the power supply in the image forming apparatus 10. If the register for shutdown is not set, the process proceeds to S707.

If the register for shut down is not set in S706, that is, if the software shutdown process is not operating normally, it is determined in S707 whether the power supply in the image forming apparatus 10 is turned off.
If the power is off, this flowchart ends, assuming that the software shutdown process has been completed normally. If the power is not turned off, the process proceeds to S708.

If the shutdown processing by software is not completed in S707, the timer 503 determines in S708 whether or not the state of the power switch 404 is ON. Here, the timer 503 determines whether the state of the power switch 404 is on or off based on the logic of the state notification signal 421 output from the power switch 404.
When it is determined that the power switch 404 is in the on state, the process proceeds to S709. When it is determined that the power switch 404 is in the off state, the process returns to S703 and waits again for 100 seconds.

When it is determined in S708 that the power switch 404 is on, the timer 503 resets the timer counting 100 seconds in S709.
As a result, the timer 503 notifies the control unit 501 to turn off the power control signal only when the power switch 404 maintains the off state for 100 seconds or more.

FIG. 8 is a flowchart showing the operation of the power supply control unit 401 when the user turns on the power switch 404 and restarts the image forming apparatus 10.

In step S801, the power supply control unit 401 determines whether the power switch 404 has been turned on.
If the power switch 404 is turned on, the process proceeds to S802. If the power switch 404 remains off, the process stays in S801 and waits for power supply.

When it is determined in S801 that the power switch 404 is turned on, in S802, the control unit 501 in the power control unit 401 confirms whether or not the failure flag of the off timer 513 is stored in the nonvolatile memory 504.
If the failure flag is stored, it is determined that the off-timer 513 has a failure, and the process proceeds to S804. If no failure flag is stored, the process proceeds to S803.

When it is determined in S802 that the failure flag is not stored, it is determined that the off-timer 413 has no abnormality and the previous shutdown processing has ended normally.
Therefore, in step S<b>803, the control unit 501 of the power supply control unit 401 turns on the output control signals 423 to 430 to supply power to each device in the image forming apparatus 10.

If it is determined in S802 that the failure flag is stored, the control unit 501 of the power supply control unit 401 supplies power only to the controller 11 in the image forming apparatus 10 in S804.
The power is supplied only to the controller 11 because the off timer 413 is provided to the user while the load system (fixing, high voltage, etc.) of the image forming apparatus 10 such as the scanner unit 13 and the printer unit 14 is turned off. This is so that the failure can be notified.

Here, the control signals that the control unit 501 turns on are the control signals 423 and 425 to 428. By turning on these signals, power is supplied only to the controller 11 in the image forming apparatus 10. be able to.
On the other hand, in order to shut off the power supply to the load system of the image forming apparatus 10 such as the scanner unit 13 and the printer unit 14, the power supply control unit 501 turns off the control signal 424 and turns off the second power supply unit. Leave 402 off.

By performing the above processing, not only when the software hangs up but also when the off timer 413 fails, the load system (fixing, high voltage, etc.) power is turned on when the power switch 404 is turned on. It can be controlled not to turn on.

(Other Embodiments)
The present invention supplies a program that realizes one or more functions of the above-described embodiment to a system or a device via a network or a storage medium, and one or more processors in a computer of the system or the device read the program. It can also be realized by the processing to be executed. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.
Further, the present invention may be applied to a system including a plurality of devices or an apparatus including one device.
The present invention is not limited to the above-described present embodiment, and various modifications can be made based on the spirit of the present invention, and they are not excluded from the scope of the present invention. That is, the present invention includes all configurations that combine the above-described respective embodiments and modifications thereof.

10 image forming apparatus 11 controller 401 power supply control unit 404 power supply switch 413 off timer 501 control unit 503 timer 504 non-volatile memory

Claims (14)

Image forming means,
A power supply switching means for accepting power on/off operations,
A first shut-off unit that shuts off the power supply to the image forming unit when a first time period has elapsed since the power source switching unit accepted an operation of turning off the power source;
Second cutoff means for cutting off the power supply to the image forming means when a second time, which is longer than the first time, has elapsed after the power supply switching means receives the operation of turning off the power,
An image forming apparatus having:
An image forming apparatus comprising: a storage unit that stores information regarding a state of the first cutoff unit when the power supply is cut off by the second cutoff unit. The image forming apparatus according to claim 1, wherein the first cutoff unit includes a timer, and counts a time after the power switching unit receives an operation of turning off the power. The image forming apparatus according to claim 1, wherein the second cutoff unit includes a timer, and counts a time period after the power source switching unit receives an operation of turning off the power source. A third cutoff unit for cutting off the power supply to the image forming unit,
The third shut-off unit can shut off the power supply to the image forming unit in a time shorter than the first time period after the power source switching unit receives the operation of turning off the power source. The image forming apparatus according to any one of claims 1 to 3, which is characterized in that. The image forming apparatus according to claim 4, wherein the third blocking unit is configured by software. First power supply means for supplying a first voltage;
Second power supply means for supplying a second voltage higher than the first voltage,
The image forming apparatus according to any one of claims 1 to 5, wherein power is supplied to the image forming unit from the second power supply unit. The image forming apparatus according to claim 6, wherein power is supplied to the first cutoff unit and the second cutoff unit from the first power supply unit. The first cutoff unit and the second cutoff unit cut off the supply of power to the image forming unit by cutting off the supply of power from the second power supply unit. The image forming apparatus according to claim 6. The power supply to the image forming unit is turned on or off based on the information stored in the storage unit when the power source switching unit receives an operation to turn on the power source. 8. The image forming apparatus according to any one of items 8. 10. The power supply to the image forming unit is shut off when the information is stored in the storage unit when the power source switching unit receives an operation to turn on the power source. Image forming device. The power source is supplied to the image forming unit when the power source switching unit receives an operation to turn on the power source and the information is not stored in the storage unit. Image forming apparatus. When the power source switching unit receives an operation to turn on the power source, power is supplied to the first disconnecting unit and the second disconnecting unit regardless of whether or not the information is stored in the storage unit. The image forming apparatus according to claim 9, wherein the image forming apparatus is performed. Image forming means,
A power supply switching means for accepting power on/off operations,
A first shut-off unit that shuts off the power supply to the image forming unit when a first time period has elapsed since the power source switching unit accepted an operation of turning off the power source;
Second cutoff means for cutting off the power supply to the image forming means when a second time, which is longer than the first time, has elapsed after the power supply switching means receives the operation of turning off the power,
A method of controlling an image forming apparatus having:
When the power supply is cut off by the second cutoff means,
A method of controlling an image forming apparatus, characterized in that information about a state of the first blocking unit is stored. A program for causing a computer to execute the image forming apparatus control method according to claim 14.