JP3745591B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  This invention,When a problem occurs, it selectively shifts to the power supply mode in the power saving mode according to the operation status at that time.Image formationRelates to the device.
[0002]
[Prior art]
There is a strong demand for a reduction in power consumption in an apparatus that operates by receiving power supply in order to reduce running costs. For example, some image forming apparatuses and the like include a power supply control device having an automatic power-off function for cutting off power to the main body device at a preset timing. As a result, power can be prevented from being supplied to the main unit under a situation where the frequency of use of the apparatus is low, and wasteful power consumption can be suppressed.
[0003]
However, if the power is always turned off at a preset timing, when it is time to turn off the power while the main unit is still in trouble, the power is turned on next. The discovery that the main unit was in trouble when it was about to operate was delayed, so it was not possible to quickly resolve the problem, and it took a long time for the main unit to operate normally. There is a problem that causes a decrease in operating efficiency.
[0004]
Japanese Patent Application Laid-Open No. 63-67602 discloses disabling the automatic power-off function when a trouble has occurred in the image forming apparatus at the time when the power should be turned off by the automatic power-off function. Such a configuration is disclosed.
[0005]
Japanese Patent Laid-Open No. 9-90822 discloses a timing for enabling the automatic power-off function when a trouble has occurred in the image forming apparatus at the time when the power should be turned off by the automatic power-off function. A configuration in which the delay is delayed is disclosed.
[0006]
[Problems to be solved by the invention]
However, the digital multi-function peripheral, which is a main unit to which the power supply control device is applied, has not only a copy function that operates in the state where the operator is close to the device, but also a facsimile function that operates even when the operator is not close to the device. And a printer function. For this reason, the digital multi-function peripheral continues to be supplied with power in order to form an image of a received fax document or a large amount of print data even at night or early morning when the copy function is not generally used. . On the other hand, in such a time zone, there is usually no operator near the digital multifunction peripheral.
[0007]
For this reason, in the time zone such as nighttime or early morning, when trouble occurs in the apparatus during the image forming operation, the trouble is not cleared immediately, and the image forming operation cannot be performed due to the occurrence of the trouble. Nevertheless, power is continuously supplied, and there is a problem that wasteful power is wasted. As described above, the conventional power supply control device considers the configuration for avoiding the waste of power due to the continued supply of power to the main unit in a situation where the trouble that has occurred in the main unit cannot be cleared at an early stage. Absent.
[0008]
  The purpose of this invention is,It is possible to prevent power from being continuously supplied in a situation where the trouble that has occurred cannot be cleared early, and to reliably avoid waste of power.Image formationTo provide an apparatus.
[0009]
[Means for Solving the Problems]
  The present invention has the following configuration as means for solving the above problems.
(1)In an image forming apparatus that selectively executes one of a plurality of operation modes including a copy mode,When trouble occursBased on the running mode of operationDetects the presence or absence of a human body at the operating position as the operating status, and detects itMovementTrouble release processing is executed within a predetermined time based on the work situationIn the situationDepending on the result of this determination.,It selectively shifts to a power supply state in a power saving mode for reducing power consumption.
[0011]
(2)In an image forming apparatus that continuously executes printing processing for a set number of sheets, when a trouble occurs, the presence / absence of a human body at the operation position is detected as an operation status based on the set number of printing processes being executed, and the detected operation Based on the situation, it is determined whether or not the trouble cancellation process is executed within a predetermined time, and the power consumption is reduced according to the determination result.It selectively shifts to a power supply state in a power saving mode.
[0015]
  (3)An image forming apparatus that executes a printing process on paper, which includes a calendar function used to determine a trouble occurrence date and time, and in the event of a trouble, information on the calendar function is used to detect the presence or absence of a human body at an operation position. As a result, it is determined whether or not a trouble canceling process is executed based on the acquired information of the calendar function, and the power supply in the power saving mode for reducing the power consumption according to the determination result Selective transition to stateIt is characterized by doing.
[0017]
  (Four) In the image forming apparatus that executes the printing process on paper, when a trouble occurs during the printing process, the printing process is interrupted in a state where the printing process can be resumed immediately after the trouble is resolved, and the presence or absence of a human body at the operation position is detected and detected. Set the timer according to the presence or absence of the human bodyIt is characterized by that.
[0019]
  (Five) When it is determined that the trouble canceling process is executed within a predetermined time, when the preset time has elapsed since the trouble occurred, the power saving mode is entered.It is characterized by doing.
[0021]
  (6)In the power supply state of the power saving mode, the fixing unitIt is characterized by cutting off the power supply to.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a schematic diagram showing the configuration of a digital multi-function peripheral that is an image forming apparatus to which a power supply control device according to an embodiment of the present invention is applied. The digital multifunction machine 30 includes a scanner unit 31 and a laser recording unit 32. The scanner unit 31 includes a transparent glass platen 35, an automatic document feeder (RADF) 36 that feeds documents one by one to the upper surface of the platen 35, and an image reading that reads an image of the document on the platen 35. The unit 40 is configured.
[0026]
The image reading unit 40 includes a light source lamp 41, mirrors 42 a to 42 c, a lens 43, and a photoelectric conversion element (CCD) 44. The light source lamp 41 is mounted on the mirror base 40a together with the mirror 42a. The light source lamp 41 moves at a constant speed parallel to the lower surface of the document table 35 when reading the document image, and exposes and scans the entire image surface of the document on the document table 35. . The mirrors 42b and 42c are mounted on the mirror base 40b, and move at a half speed of the mirror base 40a in parallel with the lower surface of the document table 35 when reading the document image. As a result, the reflected light of the light from the light source lamp 41 on the document image surface is guided to the lens 43 via the mirrors 42a to 42c in a state where the optical path length is constant. The lens 43 forms an image of the reflected light on the light receiving surface of the CCD 44. The CCD 44 outputs an electrical signal corresponding to the amount of reflected light on the light receiving surface. The output signal of the CCD 44 is supplied to the laser recording unit 32 as image data after being subjected to predetermined image processing in an image processing unit (not shown).
[0027]
The laser recording unit 32 includes a process unit 47 in which a charger, a developing unit, a transfer unit, a cleaner, and the like are arranged around the photosensitive drum 48, and a laser writing unit (LSU) that irradiates image light onto the surface of the photosensitive drum 48. 46, a fixing unit 49 that heats and pressurizes the paper that has passed through the process unit 47, and a period from the paper feed cassettes 51 to 53 or the manual feed tray 54 to the post-processing device 34 via the process unit 47 and the fixing unit 49. A configured sheet conveyance unit 50 is provided.
[0028]
In the process unit 47, a monopolar charge is uniformly applied to the surface of the photosensitive drum 48 by a charger, and then an image light is irradiated from the LSU 46 to form an electrostatic latent image by a photoconductive action. The LSU 46 drives the semiconductor laser with the image data supplied from the image processing unit, and the laser light emitted from the semiconductor laser is transmitted to the photosensitive drum 48 via optical parts such as a polygon mirror and an f-θ lens. Irradiate the surface. Toner is supplied from the developing device to the surface of the photosensitive drum 48 on which the electrostatic latent image is formed, and the electrostatic latent image is visualized into a toner image.
[0029]
The laser recording unit 32 synchronizes the sheet fed from any of the paper feed trays 51 to 53 or the manual feed tray 51 prior to the rotation of the photosensitive drum 48 in synchronization with the rotation of the photosensitive drum 48. The toner image on the surface of the photosensitive drum 48 is transferred to the surface of the paper through the transfer device and then guided to the fixing unit 49. The sheet on which the toner image has been transferred is heated and pressurized in the fixing unit 49, and the molten toner image is firmly fixed on the surface of the sheet and discharged to the post-processing device 34.
[0030]
FIG. 2 is a block diagram showing the configuration of the control unit of the digital multi-function peripheral. The main CPU 401 mounted on the main image processing board 400 is configured so that each unit of the digital multi-function peripheral 30 cooperates with a sub CPU mounted on a board of each unit such as the machine control board 200 and the like. Manages unit operations.
[0031]
The control unit of the digital multifunction device 30 includes an operation panel board 100 that manages and controls the operation panel 103, a machine control board 200 that manages and controls load devices such as the process unit 47 disposed in the digital multifunction device 30, and a scanner unit 40. The CCD board 300 having the CCD 44 mounted thereon, the main image processing board 400 for performing multi-value image processing on the output signal of the CCD 44, and the sub image processing for performing binary image processing on the image data after the multi-value image processing. A board 500 and an expansion board group 600 relating to a facsimile function and a printer function are provided.
[0032]
The operation panel board 100 includes a sub CPU 101 that manages display data of the display 104 and operation data of the operation keys 105 disposed on the operation panel 103 provided on the upper surface of the digital multifunction peripheral 30, and data input / output between them. And a memory 102 for storing. The sub CPU 101 communicates control data with the main CPU 401 and manages display data of the display 104 and operation data of the operation keys 105 so as to match the operation state of other units of the digital multi-function peripheral 30. Thereby, the operation of each unit is controlled according to the operation data of the operation key 105. Further, the operation state of each unit is displayed on the display 104.
[0033]
The machine control board 200 includes a sub CPU 201 that controls the operation of each unit of the digital multifunction peripheral 30 and a memory 202 that stores input and output data. The sub CPU 201 communicates data with the main CPU 401, and based on the control data input from the main CPU 401, the post-processing device 34 performs post-processing on the paper after image formation, and the document on the document table 35. RADF 36 for feeding a document, image reading unit 40 for reading a document image, process unit 47 for forming an electrophotographic image, sheet transport unit 50 for transporting a sheet to a predetermined path, and a sheet table in the double-sided image forming mode. The operation of the duplex unit 207 that reverses the back surface is controlled.
[0034]
The CCD board 300 includes a CCD 44 provided in the image reading unit 40, a gate array 302 that drives the CCD 44, an analog circuit 303 that performs gain adjustment of the CCD 44, and an A / D converter that converts an output signal of the CCD 44 into digital data. 304 etc. are installed. These are controlled by the main CPU 401.
[0035]
The main image processing board 400 is equipped with a main CPU 401 that controls the entire digital multifunction peripheral 30 in an integrated manner. The main CPU 401 performs shading correction, density correction, area separation, filter processing, MTF correction, resolution conversion, electronic zoom (magnification processing), gamma correction, and the like on multi-valued image data output from the CCD board 300. A multi-value image processing unit 402 that performs image processing, image data after image processing, a memory 403 that stores a program that defines the operation of the main CPU 401 and input / output data, and an image after image processing of the semiconductor laser of the LSU 46 A laser control circuit 404 driven by data is connected. A timer used for measuring a predetermined time in a process described later is assigned to a predetermined memory area in the memory 403. In addition, the CPU 401 has a calendar function that is used when determining the trouble occurrence date and time in the processing described later.
[0036]
The sub-image processing board 500 is connected to the main image processing board 400 via a connector, a binary image processing circuit 501 that performs image processing on binary image data, binary image data after image processing, A memory gate array 502 for storing input / output data, an RDH gate array 503 for inputting / outputting image data to / from a hard disk, and a SCSI gate array 504 for controlling SCSI as an external interface are mounted. The circuit is controlled by the main CPU 401. The binary image processing circuit 501 performs processing for binarizing multi-valued image data, image rotation processing, binary scaling processing for converting the magnification of the binary image, image data compression and decompression processing, and Send and receive fax data.
[0037]
The expansion board 600 is a function for expanding the editing function of the printer board 601 and the digital multifunction peripheral 30 that perform image forming processing in the process unit 47 based on image data transmitted from an external terminal device such as a personal computer during the printer function. The extension board 602 and a fax board 603 for transmitting a document image read by the image reading unit 40 during the facsimile function to an external facsimile apparatus via a public telephone line network.
[0038]
In the above configuration, the main CPU 401 corresponds to the power supply control device of the present invention. That is, in the digital multifunction peripheral 30 according to the above-described embodiment, the image forming apparatus and the power supply control apparatus are integrated.
[0039]
FIG. 3 is a flowchart showing a first example of a processing procedure when trouble occurs in the digital multi-function peripheral. When a print command is issued in the digital multi-function peripheral 30 (1101), print processing in the process unit 47 is started (1102). During the execution of the printing process, whether or not a trouble has occurred is monitored (1103). When the printing process is completed without causing a trouble (1104), the process returns to a standby state for a print command.
[0040]
If a trouble occurs during the printing process, the printing process is interrupted while the heater provided in the fixing unit 49 is continuously driven so that the printing process can be resumed immediately after the trouble is cleared (1105). Then, a request for recovery work for releasing the trouble is notified to the operator via the display 104 of the operation panel 103 (1106), and the timer is started to start counting the elapsed time from the occurrence of the trouble ( 1107).
[0041]
Next, it is checked whether an operator is present at the operation position of the digital multifunction machine 30 (1108). In a situation where there is an operator at the operation position and the trouble recovery operation can be performed immediately, when the recovery operation is completed before the timer counts the predetermined time T1, the printing process is resumed (1108 → 1109, 1111 → 1110). When the predetermined time T1 elapses without completing the recovery operation, the heater of the fixing unit 49 is temporarily turned off (1112), and the completion of the recovery operation is waited (1113). Thereafter, when the recovery operation is completed, the heater of the fixing unit 49 is turned on (1114), and the printing process is resumed after the fixing unit 49 reaches the fixable temperature (1115 → 1110).
[0042]
On the other hand, when a trouble occurs, there is no operator at the operation position of the digital multifunction peripheral 30, and the trouble recovery operation cannot be performed immediately. Therefore, simply interrupting the printing process wastes power in the fixing unit 49 and the like. In such a situation, a predetermined time T2 is counted by a timer until the recovery operation is completed (1108 → 1116, 1117), and if the predetermined time T2 has elapsed without completing the recovery operation, the progress information of the printing process Is stored in the memory (1118), and the power of the digital multi-function peripheral 30 is turned off (1119).
[0043]
When the printing process is interrupted in the above 1105, the printed matter in the middle of the printing operation is stored on the paper discharge tray of the post-processing device 34. For this reason, after the recovery work is completed and before another printing work is started, the printed matter on which the printed matter on the paper discharge tray relates to the suspended printing work is output, or For the interrupted printing operation, it is necessary to continue the printing operation with the image data after the interruption point. Therefore, the progress information of the printing process is stored in the memory 403 in the process of 1118.
[0044]
Further, in the processing of 1108, when it is confirmed whether or not an operator is present at the operation position of the digital multifunction machine 30, whether or not the operation key 105 is operated on the operation panel 103 and the RADF 36 on the upper surface of the document table 35. The open / close state of the document, the presence / absence of document replacement detected by the document size detection sensor, or the detection of an infrared sensor disposed on the front panel of the digital multifunction device 30 can be used.
[0045]
Through the above process, if a trouble occurs during the printing process, the printing process is interrupted, and the heater is continuously driven based on whether there is an operator at the operation position and the elapsed time from the occurrence of the trouble. The recovery process is completed in the standby state, the recovery process is waited in the state where the heater is stopped, or the device is turned off selectively. Resumed. Therefore, it is determined whether or not the recovery work is completed early based on whether or not an operator exists at the operation position. Based on the determination result, the power supply is limited in stages, and the interrupted work can be started early. It is possible to achieve both restarting and avoiding waste of power.
[0046]
FIG. 4 is a flowchart showing a second example of a processing procedure when a trouble occurs in the digital multi-function peripheral. When a print command is issued in the digital multi-function peripheral 30 (1201), printing processing in the process unit 47 is started (1202). During the execution of the printing process, whether or not a trouble has occurred is monitored (1203). When the printing process is completed without causing a trouble (1204), the process returns to a standby state for a print command.
[0047]
If a trouble occurs during the printing process, first, it is confirmed whether or not an operator is present at the operation position of the digital multifunction machine 30 (1205). In a situation where there is an operator at the operation position and the trouble recovery work can be performed immediately, the heater provided in the fixing unit 49 is continuously driven so that the printing process can be resumed immediately after the trouble is released. The printing process is interrupted (1206). Then, the operator is notified of a request for recovery work for releasing the trouble via the display 104 of the operation panel 103 (1207), and the timer is started to start counting the elapsed time from the occurrence of the trouble ( 1208).
[0048]
Next, when the recovery operation is completed before the timer counts the predetermined time T1, the printing process is resumed (1209 to 1211). When the predetermined time T1 elapses without completing the recovery operation, the heater of the fixing unit 49 is temporarily turned off (1212), and the completion of the recovery operation is waited (1213). Thereafter, when the recovery operation is completed, the heater of the fixing unit 49 is turned on (1214), and the printing process is resumed after the fixing unit 49 reaches the fixing possible temperature (1215 → 1210).
[0049]
On the other hand, when a trouble occurs, there is no operator at the operation position of the digital multifunction peripheral 30, and the trouble recovery operation cannot be performed immediately. Therefore, simply interrupting the printing process wastes power in the fixing unit 49 and the like. In such a situation, the printing process is interrupted with the heater of the fixing unit 49 turned off (1205 → 1216). Then, the progress information of the printing process is stored in the memory (1217), the operator is notified of the request for the recovery work through the display 104 of the operation panel 103 (1218), and the completion of the recovery work is waited (1218). 1219).
[0050]
In the processing according to this example, even when there is no operator at the operation position of the digital multi-function peripheral 30 and the trouble is not immediately resolved, the power of the digital multi-function peripheral 30 is not turned off simply by turning off the heater of the fixing unit 49. Therefore, when the digital multifunction peripheral 30 has a facsimile function, the transmission data transmitted from the external facsimile apparatus is received and stored in the memory, and the transmission data in the memory is stored after the trouble is released. A printing process based on this can be executed.
[0051]
FIG. 5 is a flowchart showing a third example of a processing procedure when a trouble occurs in the digital multi-function peripheral. When a print command is issued in the digital multi-function peripheral 30 (1301), the printing process in the process unit 47 is started (1302). During the execution of this printing process, whether or not a trouble has occurred is monitored (1303). When the printing process is completed without causing a trouble (1304), the process returns to a standby state for a print command.
[0052]
If a trouble occurs during the printing process, the printing process is interrupted while the heater provided in the fixing unit 49 is continuously driven so that the printing process can be resumed immediately after the trouble is resolved (1305). Then, the operator is notified of a request for recovery work for releasing the trouble via the display 104 of the operation panel 103 (1306), and a timer is started to start counting the elapsed time from the occurrence of the trouble ( 1307).
[0053]
Next, it is determined whether or not the function (mode) related to the printing process executed at the time of occurrence of the trouble is the copy mode (1308), and when the trouble occurs during the execution of the printing process in the copy mode. Determines whether the number of printed sheets set in the printing process is equal to or smaller than a predetermined number (1309). When the number of prints set in the interrupted print process is less than or equal to the predetermined number and the recovery operation is completed before the predetermined time T1 elapses, the print process is resumed (1310 to 1312).
[0054]
When the number of prints set in the interrupted printing process exceeds the predetermined number, or when the number of printed sheets is equal to or less than the predetermined number and the predetermined time T1 has elapsed without completing the recovery operation, the recovery operation is completed. When the predetermined time T1 elapses without being performed, the heater of the fixing unit 49 is temporarily turned off (1313), and the completion of the recovery work is waited (1314). Thereafter, when the recovery operation is completed, the heater of the fixing unit 49 is turned on (1315), and the printing process is resumed after the fixing unit 49 reaches the fixable temperature (1316 → 1311).
[0055]
In the process according to this example, it is determined whether or not an operator exists near the digital multifunction peripheral 30 according to the number of set sheets in the copy mode printing process interrupted due to the occurrence of a trouble. If the set number of prints in the interrupted copy mode printing process is small, the operator determines that it is present in the vicinity of the digital multifunction peripheral 30, and the predetermined time T1 elapses with the heater of the fixing unit 49 turned on. Until the completion of the recovery work, the printing process can be resumed immediately after the completion of the recovery work. On the other hand, when the set number of prints in the interrupted copy mode printing process is large, it is highly likely that the operator is away from the digital multifunction peripheral 30, so that the recovery operation is completed with the heater of the fixing unit 49 turned off. By waiting, the waste of electric power by the heater can be prevented.
[0056]
FIG. 6 is a flowchart showing a fourth example of a processing procedure when a trouble occurs in the digital multi-function peripheral. When a print command is issued in the digital multi-function peripheral 30 (1401), print processing in the process unit 47 is started (1402). During the execution of the printing process, whether or not a trouble has occurred is monitored (1403). When the printing process is completed without causing a trouble (1404), the process returns to a standby state for a print command.
[0057]
When trouble occurs during the printing process, the calendar function of the main CPU 401 is used to determine whether or not the trouble date and time is a weekday (1405) and within a set time such as working hours. It is determined whether or not there is (1406). If the date and time when the trouble occurred is within the set time on weekdays, it is highly likely that an operator is present in the vicinity of the digital multifunction peripheral 30, and it is determined that the recovery work for the trouble is performed early, The printing process is interrupted in a state where the heater of the fixing unit 49 is continuously driven so that the printing process can be resumed immediately after the release (1407). Then, a request for a recovery work for releasing the trouble is notified to the operator via the display 104 of the operation panel 103 (1408), and a timer is started to start counting an elapsed time from the occurrence of the trouble ( 1409).
[0058]
Thus, in a situation where there is a high possibility that an operator is present in the vicinity of the digital multifunction peripheral 30 and a trouble recovery operation can be performed immediately, when the recovery operation is completed before the timer times the predetermined time T1. The printing process is resumed (1410 to 1412). When the predetermined time T1 elapses without completing the recovery operation, the heater of the fixing unit 49 is temporarily turned off (1413), and the completion of the recovery operation is waited (1414). Thereafter, when the recovery operation is completed, the heater of the fixing unit 49 is turned on (1415), and the printing process is resumed after the fixing unit 49 reaches the fixable temperature (1416 → 1411).
[0059]
On the other hand, if the date and time when the trouble occurred is a holiday or holiday, or is outside the set time, there is a high possibility that there is no operator in the vicinity of the digital multi-function peripheral 30, and recovery work for the trouble is early. It is determined that the printing is not executed, and the printing process is interrupted with the heater of the fixing unit 49 turned off (1417). After the print processing progress information is stored in the memory (1418), the power of the digital multi-function peripheral 30 is turned off (1419).
[0060]
As described above, in the processing shown in this example, based on the date and time when the trouble occurred, there is an operator in the vicinity of the digital multifunction peripheral 30, and the recovery operation is performed early, or In this state, it is determined whether there is no worker in the vicinity of the digital multifunction peripheral 30 and the recovery operation is not performed at an early stage, and the printing process can be resumed immediately after the recovery operation is completed according to the determination result. Alternatively, the printing process can be interrupted in a state where wasteful power consumption can be prevented.
[0061]
In the power control devices according to the first to fourth examples, in the digital multi-function peripheral that performs image formation by the electrophotographic method, the power supply to the heater of the fixing unit that consumes the most power during the waiting time for the printing process is controlled. However, the power supply to other parts of the digital multi-function peripheral such as the operation panel can be controlled. Further, the present invention can be similarly applied to not only the image forming apparatus but also other apparatuses that should prevent the waste of electric power during standby for operation.
[0062]
【The invention's effect】
According to the present invention, the following effects can be obtained.
[0063]
  (1) Based on the operation status of the main unit, determine the possibility of early cancellation of the trouble, and selectively reduce the amount of power supplied to the main unit according to the determination result, so that the main unit at the time of trouble occurrence When the operation status of the system is such that the trouble-resolving operation is not performed at an early stage, the power supply state is shifted to the power saving mode so that useless power is not supplied to the main unit that cannot operate normally. And waste of electric power can be prevented.
  In addition, the possibility of early cancellation of the trouble is determined based on the presence or absence of a human body at the operation position of the main unit, and the power supply amount to the main unit is selectively reduced according to the determination result, thereby causing trouble to the main unit. When there is no person performing trouble-free work near the main unit when a problem occurs, the system switches to the power supply mode in the power saving mode and does not supply unnecessary power to the main unit that cannot operate normally. In this way, waste of power can be prevented.
[0064]
  (2) Even if it is determined that the trouble is cleared early based on the operation status of the main unit, if the trouble elapses and the specified time elapses, the trouble will be caused by shifting to the power supply state in the power saving mode. The determination result based on the operation status of the main unit when the error occurs can be corrected according to the actual work status, and the power supply state can be controlled in a state adapted to the current status of the work.
[0066]
  (Three) Based on the operation mode of the main unit, determine the possibility of early cancellation of the trouble, and selectively reduce the amount of power supplied to the main unit according to the determination result. When the operation mode is a mode in which the trouble cannot be cleared at an early stage, the power supply state of the power saving mode is entered, and wasteful power is prevented by not supplying unnecessary power to the main unit that cannot operate normally. be able to.
[0067]
  (Four) Based on the amount of operation of the main unit, determine the possibility of early removal of the trouble, and selectively reduce the amount of power supply to the main unit according to the determination result, so that when the trouble occurs, When a large amount of operation is set, and it is determined that there is no person performing trouble-solving work in the vicinity of the main unit, the main unit that shifts to the power supply state in the power saving mode and cannot operate normally Therefore, waste of power can be prevented by not supplying unnecessary power.
[0068]
  (Five) Based on the date and time the trouble occurred in the main unit, determine the possibility of early cancellation of the trouble, and by selectively reducing the power supply to the main unit according to the determination result, trouble occurred in the main unit If the date and time when it is determined that there is no person performing trouble-solving work in the vicinity of the main unit, the system shifts to the power supply state in the power saving mode and is wasted for the main unit that cannot operate normally. It is possible to prevent waste of electric power by not supplying a large amount of electric power.
[0069]
  (6) If a problem occurs in the main unit in a situation where there is no possibility that the problem will be resolved early, supply power to the main unit that cannot operate normally by turning off the power to the main unit. Without wasting electric power.
[0070]
  (7) If a problem occurs in a situation where there is no possibility that the trouble will be resolved early in an image forming apparatus that performs electrophotographic image formation, the trouble will be cleared early by turning off only the power supply to the fixing unit. If a problem occurs in the image forming apparatus in a situation where there is no possibility of being received, the power of the fixing unit that consumes the largest amount of power in the image forming apparatus is turned off, so that the received data can The data can be received and stored, and data related to the facsimile function and printer function can be received, so that the operating efficiency of the apparatus can be improved.
[Brief description of the drawings]
FIG. 1 is a schematic diagram illustrating a configuration of a digital multi-function peripheral that is an image forming apparatus to which a power supply control device according to an embodiment of the present invention is applied.
FIG. 2 is a block diagram illustrating a configuration of a control unit of the digital multifunction peripheral.
FIG. 3 is a flowchart illustrating a first example of a processing procedure when a trouble occurs in the digital multifunction peripheral.
FIG. 4 is a flowchart illustrating a second example of a processing procedure when a trouble occurs in the digital multifunction peripheral.
FIG. 5 is a flowchart illustrating a third example of a processing procedure when a trouble occurs in the digital multifunction peripheral.
FIG. 6 is a flowchart showing a fourth example of a processing procedure when a trouble occurs in the digital multi-function peripheral.
[Explanation of symbols]
30-Digital multifunction peripheral (image forming device)
31-Scanner section
32-printing section
40-Image reading unit
47-Process Department
49-Fixing unit
400-Main image processing board
401-Main CPU

Claims (6)

In the image forming apparatus to execute selectively one of a plurality of operation modes including a copy mode, when the trouble occurs, and detecting the presence or absence of a human body in the operating position on the basis of the operation mode being executed as operation conditions, and detected based on the operating conditions to determine whether the situation of trouble releasing process is performed within the predetermined time, selectively to the power supply state of the power saving mode in response to the determination result, to reduce power consumption And an image forming apparatus. In an image forming apparatus that continuously executes printing processing for a set number of sheets, when a trouble occurs, the presence / absence of a human body at the operation position is detected as an operation state based on the set number of printing processes being executed, and the detected operation Based on the situation, it is determined whether or not the trouble cancellation process is executed within a predetermined time, and according to the determination result, the power supply state in the power saving mode for reducing power consumption is selectively transferred. the image forming apparatus you characterized by. An image forming apparatus that executes a printing process on paper has a calendar function that is used to determine the date and time of occurrence of trouble, and information about the calendar function is used to detect the presence or absence of a human body at the operation position when trouble occurs. As a result, it is determined whether or not a trouble canceling process is executed based on the acquired calendar function information, and the power supply in the power saving mode for reducing the power consumption according to the determination result the image forming apparatus and selectively transition the state. In the image forming apparatus that executes the printing process for paper, when a trouble occurs during the printing process, the printing process is interrupted in a state where the printing process can be resumed immediately after the trouble is resolved, and the presence or absence of a human body at the operation position is detected and detected. An image forming apparatus, wherein a time corresponding to the presence or absence of a human body is set in a timer, and the interrupted printing process is resumed when a trouble solving process is executed before the time set in the timer elapses . When it is determined that the trouble canceling process is executed within a predetermined time, when the preset time has elapsed from the time of the trouble occurrence, the power saving mode shifts to the power saving state. the image forming apparatus according to any one of claims 1 to 4. 6. The image forming apparatus according to claim 1, wherein the power supply to the fixing unit is cut off in a power supply state in the power saving mode .

Images