JP4949775B2 - Heating system, image forming device - Google Patents

Description

  The present invention relates to an image forming apparatus, and more particularly to a technique for controlling power supply to a fixing unit that fixes toner onto a recording sheet by heat.

  As an apparatus for forming an image by fixing toner on a recording medium such as paper, there is an image forming apparatus such as a printer, a copier, a facsimile, or a multifunction machine in which the functions of these devices are combined. In general, a fixing device that performs a fixing process for fixing a toner image transferred onto a transfer material such as paper to the transfer material is mounted. This fixing device mainly includes a fixing roller and a heating unit. The fixing roller is a pair of rollers facing each other in a state where the peripheral surfaces are in close contact with each other, and the heating unit heats a fixing roller (heating roller) located on the toner side of the recording medium among the pair of fixing rollers. Is. The fixing device configured in this manner fixes the toner image transferred onto the recording medium by the photosensitive member to the recording medium by pressing and heating the recording medium passing between the pair of fixing rollers.

  In the fixing device, the heating unit includes a main heating element and an auxiliary heating element, a main power supply device that supplies power to the main heating element, and power (auxiliary power) to the auxiliary heating element. For example, there is an auxiliary power supply device that uses an electric double layer capacitor as a power source. The auxiliary power supply device is installed to raise the temperature of the fixing device to a predetermined temperature in a shorter time for the purpose of improving the operability of the device and saving power.

On the other hand, as a technical document related to this type of technical field, for example, there is Patent Document 1 below. Japanese Patent Application Laid-Open No. 2004-133830 discloses a technique for supplying power to the heater by a main power supply device and an auxiliary power supply device when the fixing device is returned from a standby state in a fixing device having a main power supply device and an auxiliary power supply device. It is disclosed.
Japanese Patent No. 3588006

  By the way, the auxiliary power supply device deteriorates as it is used (repeating charge and discharge). Then, when the life of the auxiliary power supply device is exhausted or the situation where the auxiliary power supply device cannot function sufficiently, the auxiliary power supply device needs to be replaced. However, since this auxiliary power supply device is expensive, in order to reduce the user's economic burden, the number of times and the usage time (charge / discharge time) of the auxiliary power supply device are reduced as much as possible to extend its life. It is desirable to

  The present invention has been made to solve the above-described problems, and is capable of extending the life of the auxiliary power supply device and reducing the power consumption while maintaining the operability related to the fixing device. An object of the present invention is to provide an image forming apparatus.

The invention according to claim 1 is driven by the power from the auxiliary power source, the auxiliary power source operation control unit for controlling the operation of the auxiliary power source, the first fixing heater driven by the power from the external power source, and the auxiliary power source. A heating unit for an image forming apparatus, comprising: a fixing unit configured to fix a toner onto a transfer material by heat generated by the first and second fixing heaters, and the auxiliary power source operation control parts are maintained and return operation for returning the fixing portion allowed to warm up to a predetermined fixing temperature the fixing portion by the fixing heater to the fixing operable state, the image quality by a predetermined mechanism in the image forming apparatus In the case where the image quality maintaining operation is performed in parallel, the power supply time by the external power source to the fixing heater and the power supply time by the auxiliary power source are substantially the same, and the return operation When the completion time of the return operation when assumed to be performed is temporally before the completion time of the image quality maintenance operation, the fixing is still performed even if power is supplied from the external power source until the completion of the image quality maintenance operation. Calculating a power supply time of the auxiliary power source to make up for power that is insufficient to raise the temperature to the fixing temperature, and at a time before the calculated power supply time from the time when the image quality maintenance operation is completed. The heating system causes the auxiliary power supply to start the power supply operation .

  If the image quality maintenance operation is not completed even if the power supply is supplied from the auxiliary power supply in addition to the external power supply and the rapid recovery operation is performed, the user uses the image forming apparatus at that time (the image forming apparatus forms an image). Can't make it work) Therefore, the use form of the auxiliary power source in which the return operation is completed before the image quality maintaining operation is completed is useless from the viewpoint of the life of the auxiliary power source and the waste of power.

Therefore, in the present invention, when the return operation and the image quality maintaining operation are performed in parallel, the power supply time from the external power source to the fixing heater and the power supply time from the auxiliary power source are made substantially the same. When the completion time of the return operation when it is assumed that the operation is to be performed is temporally before the completion time of the image quality maintenance operation, the auxiliary power supply operation control unit uses the external power source until the completion time of the image quality maintenance operation. The power supply time of the auxiliary power supply for compensating the power shortage to raise the temperature of the fixing unit to the fixing temperature even when power is supplied is calculated, and the power supply operation to the auxiliary power supply is performed only during the power supply time. As described above, the auxiliary power source is used in such a manner that the image quality maintaining operation is continuously executed even when the rapid recovery operation is performed using the auxiliary power source as described above. , Or suppressed as much as possible the use time of the auxiliary power supply can be or reduce power consumption. Further, in the case where the fixing unit can be heated up to the fixing temperature only by the power supply from the external power source until the completion of the image quality maintenance operation, it is not necessary to use an auxiliary power source. In addition, the number of times the auxiliary power supply is used can be suppressed as much as possible. The external power source is a power source that can constantly supply power to each unit of the image forming apparatus, for example, a commercial power source.

Further, since the auxiliary power supply starts the power supply operation at the time before the calculated power supply time from the time when the image quality maintenance operation is completed, the return operation is completed almost simultaneously with the completion of the image quality maintenance operation. Can be made. Therefore, by controlling the operation of the auxiliary power source based on the relationship with the image quality maintaining operation to reduce the number of times and the usage time of the auxiliary power source, the image quality maintaining operation is completed despite the completion. It is possible to avoid the occurrence of a situation in which the operability of the image forming apparatus is lowered by causing the user to wait for the operation.

According to a second aspect of the present invention, an image forming unit that performs an image forming operation on a transfer material based on predetermined image data, and a transfer material after the image forming operation by the image forming unit is used for the transfer material. An image forming apparatus comprising: the heating system according to claim 1 , wherein the adhering toner is fixed to the transfer material.

According to the present invention, in the image forming apparatus, the operation according to the first aspect of the present invention can be obtained.

  According to the present invention, it is possible to extend the life of the auxiliary power source and save power while maintaining the operability related to the fixing unit of the image forming apparatus.

  The present invention will be described below with reference to the drawings. FIG. 1 is a side view schematically showing the internal configuration of the multifunction machine. The multifunction device 1 has functions such as a copy function, a printer function, a scanner function, and a facsimile function. The document reading unit 4 is disposed above the document reading unit 4 and the document feeding unit 5 is disposed above the document reading unit 4.

  An operation unit 6 is provided on the front part of the multifunction machine 1. The operation unit 6 displays a start key 7 for a user to input a print execution instruction, a numeric keypad 8 for inputting the number of copies to be printed, operation guide information for various copying operations, and the like. Display unit 9 including a liquid crystal display or the like having a touch panel function, a reset key 10 for resetting setting contents set on display unit 9, and a stop key for stopping a printing (image forming) operation being executed 11 and a function switching key 12 for switching between a copy function, a printer function, a scanner function, and a facsimile function.

  The document reading unit 4 includes a scanner unit 13 including a CCD (Charge Coupled Device) sensor and an exposure lamp, and a document table 14 and a document reading slit 15 made of a transparent member such as glass. The scanner unit 13 is configured to be movable by a drive unit (not shown). When reading a document placed on the document table 14, the scanner unit 13 is moved along the document surface at a position facing the document table 14, and the document image is displayed. The image data acquired while scanning is output to the control unit 35 (see FIG. 2). When reading the document fed by the document feeding unit 5, the document is moved to a position facing the document reading slit 15 and synchronized with the document feeding operation by the document feeding unit 5 via the document reading slit 15. The image of the original is acquired and the image data is output to the control unit 35.

  The document feeder 5 includes a document placement unit 16 for placing a document, a document discharge unit 17 for ejecting an image-read document, and a document placed on the document placement unit 16. A document transport mechanism 18 including a paper feed roller, a transport roller (not shown), and the like for feeding the paper one by one to a position facing the document reading slit 15 and discharging it to the document discharge section 17 is provided. The document transport mechanism 18 further includes a sheet reversing mechanism (not shown) that reverses the document and reversely transports the document to a position facing the document reading slit 15, and scans the images on both sides of the document via the document reading slit 15. It is possible to read from the unit 13.

  Further, the document feeding unit 5 is provided so as to be rotatable with respect to the main body unit 2 so that the front side thereof can move upward. By moving the front side of the document feeder 5 upward to open the upper surface of the document table 14, the operator can place a read document, for example, a book in a spread state, on the upper surface of the document table 14. It has become.

  The main body 2 includes a plurality of paper feeding cassettes 19, a paper feeding roller 20 that feeds recording paper from the paper feeding cassette 19 one by one and transports it to the image forming unit 21, and a recording paper transported from the paper feeding cassette 19. And an image forming unit 21 for forming an image.

  An image forming unit 21 outputs an optical unit 23 based on the image data acquired by the scanner unit 13 to expose the photosensitive drum 22 and a developing unit 24 that forms a toner image on the photosensitive drum 22. And a transfer unit 25 for transferring the toner image on the photosensitive drum 22 to the recording paper, and a fixing unit including a pair of rollers 26 and 27 for heating the recording paper to which the toner image has been transferred and fixing the toner image to the recording paper. The apparatus 28 includes a pair of conveyance rollers 30 and 31 that are provided in the sheet conveyance path in the image forming unit 21 and convey the recording sheet to the stack tray 3 or the discharge tray 29.

  When images are formed on both sides of the recording paper, the image forming unit 21 forms an image on one side of the recording paper, and then the recording paper is nipped by the pair of conveying rollers 30 on the discharge tray 29 side. And In this state, the conveyance roller pair 30 is reversed to switch back the recording paper, and the recording paper is sent to the paper conveyance path 32 and conveyed again to the upstream area of the image forming unit 21. Then, the recording paper is discharged to the stack tray 3 or the discharge tray 29.

  FIG. 2 is a block diagram illustrating an electrical configuration of the multifunction machine 1. As shown in FIG. 2, the multifunction device 1 includes a document reading unit 4, an image processing unit 33, an image forming unit 21, a fixing device 28, a data memory 34, a control unit 35, an operation unit 6, a facsimile communication unit 36, a network I. / F unit 37, parallel I / F unit 38, serial I / F unit 39, and HDD (hard disk drive) 40. The image quality maintenance operation time calculation unit 46 and the auxiliary power supply operation control unit 47 of the control unit 35 will be described later.

  The document reading unit 4, the image processing unit 33, the data memory 34, the control unit 35, the operation unit 6, and the network I / F unit 37 realize a network scanner function for transmitting the captured image data to a pre-specified IP address. Is done. The document reading unit 4, the image processing unit 33, the image forming unit 21, the data memory 34, the control unit 35, the operation unit 6, and the facsimile communication unit 36 realize a facsimile function. Further, the image processing unit 33, the image forming unit 21, the control unit 35, the operation unit 6, the network I / F unit 37, and the parallel I / F unit 38 realize a printer function. The document reading unit 4, the image processing unit 33, the image forming unit 21, the control unit 35 and the operation unit 6 implement a copy function.

  The operation unit 6 corresponds to the operation unit 6 shown in FIG. 1 and is used by a user to perform operations related to a copy function, a printer function, a facsimile function, a scanner function, and the like. Is given to the control unit 35. The operation unit 6 includes a display unit 9 having a touch panel and the like, and an operation key unit 41 including the start key 7 and the numeric keypad 8 described above. The operation key unit 41 is used for inputting various instructions such as a copy execution start command or a facsimile transmission start command by the user, and as will be described later, the operation key unit 41 is used for the fixing device 28 from the sleep mode (during printing standby) or the like. This is used for input by the user to set the contents related to the return operation (start-up operation).

  The document reading unit 4 corresponds to the document reading unit 4 shown in FIG. 1, and optically acquires an image of a document and generates image data.

  The image processing unit 33 performs various image processing on the image data. For example, the image processing unit 33 performs predetermined correction processing such as level correction and γ correction, image data compression or expansion processing, enlargement or reduction on image data obtained by being read by the document reading unit 4. Various image processing (processing) such as processing is performed. The image processing unit 33 includes an image memory 48 and stores processed image data or the like in the image memory 48 or outputs the image data to the image forming unit 21, the facsimile communication unit 36, the network I / F unit 37, or the like. .

  The image forming unit 21 corresponds to the image forming unit 21 described above, and includes image data of a document read by the document reading unit 4 and an image received from an external personal computer or the like via the network I / F unit 37. Data and an image corresponding to image data such as fax data received from an external facsimile apparatus by the facsimile communication unit 36 are printed on a predetermined recording sheet.

  The data memory 34 is a storage means for previously storing the destination name and the facsimile number of the abbreviated button registration when performing facsimile communication, and also the IP address of the transmission destination when used as a network scanner. Pre-stored.

  The control unit 35 includes a CPU (Central Processing Unit) (not shown), a RAM (Random Access Memory) and a ROM (Read Only Memory) that store programs that define the operation of the CPU, and temporarily. Peripheral devices such as a storage unit such as a RAM for storing data are included. As a result, the control unit 35 controls the entire multifunction device 1 in accordance with the instruction information received by the operation unit 6 and the like and the detection signals from the sensors provided in various parts of the multifunction device 1. More specifically, the control unit 35 functions as a scanner controller 42, a facsimile controller 43, a printer controller 44, and a copy controller 45.

  A program for realizing the above-described functions by being read by a computer as the control unit 35 is stored in a non-volatile and large-capacity external storage device such as the HDD 40, and is appropriately transferred to the main storage device such as the RAM. By doing so, it is also possible to provide execution by the CPU. The program can be supplied through a recording medium such as a ROM or a CD-ROM, or can be supplied through a transmission medium such as a network connected to the network I / F unit 37. The transmission medium is not limited to a wired transmission medium, and may be a wireless transmission medium. The transmission medium includes not only a communication line but also a relay device that relays the communication line, for example, a communication link such as a router.

  When the program is supplied through the ROM, it can be used for execution by the CPU by mounting the ROM on which the program is recorded in the control unit 35. When the program is supplied through a CD-ROM, the CD-ROM reader is connected to, for example, the parallel I / F unit 38 and transferred to the RAM or HDD 40 for execution by the CPU. it can. When the program is supplied through a transmission medium, the program received through the network I / F unit 37 can be transferred to the RAM or the HDD 40 for execution by the CPU.

  The scanner controller 42 controls the operation of each unit used to realize the scanner function. The facsimile controller 43 controls the operation of each unit used to implement the facsimile function. The printer controller 44 controls the operation of each unit used for realizing the printer function. The copy controller controls the operation of each unit used for realizing the copy function.

  The facsimile communication unit 36 includes an encoding / decoding unit (not shown), a modulation / demodulation unit (not shown), and an NCU (Network Control Unit: not shown), and an image of a document read by the document reading unit 4. Data is transmitted to another facsimile apparatus via a telephone line or an Internet line, and image data transmitted from another facsimile apparatus is received. The encoding / decoding unit compresses / decodes image data to be transmitted and expands / decodes received image data. The modem unit modulates the compressed / decoded image data into an audio signal. Or the received signal (audio signal) is demodulated into image data. The NCU controls connection with a facsimile machine as a transmission destination via a telephone line.

  The network I / F unit 37 uses a network interface (for example, 10 / 100base-TX) or the like to control transmission / reception of various data to / from a user side server connected via the network. When one or more terminal devices (not shown) such as a personal computer are connected to the network, the network I / F unit 37 controls transmission / reception of various data to / from these terminal devices. For example, the network I / F unit 37 transmits document image data read by the document reading unit 4 to the terminal device, or receives image data sent from the terminal device for printing by the image forming unit 21. To do.

  The parallel I / F unit 38 uses a high-speed bidirectional parallel interface (for example, IEEE1284 compliant) or the like to transmit print data from an external device or the like by parallel transmission in which data is transmitted in units of a plurality of bits using a plurality of signal lines. It is something to receive. The serial I / F unit 39 uses a serial interface (for example, RS-232C) or the like, and receives various data from an external device or the like by serial transmission that sequentially transmits data bit by bit using a single signal line. To do.

  The HDD 40 stores image data read by the document reading unit 4, image data transmitted via a network, an output format set for the image data, and the like. The image data stored in the HDD 40 is not only used by the multifunction device 1 but also confirmed by the terminal device via the network I / F unit 37 or transferred to a predetermined folder of the terminal device. Or used in the terminal device.

  In the multifunction machine 1, various functions are realized by combining the above-described functions. For example, as the scanner function, a PC transmission function, an E-mail transmission function, a FAX transmission function, or the like may be realized. Here, the PC transmission function is a function for directly transmitting image data read from a document to an arbitrary terminal device or the like via a network. The E-mail transmission function transmits image data read from a document as an attached file of an e-mail directly to, for example, an SMTP server (not shown) via a network, and from the SMTP server to an arbitrary external terminal device via the network This is a function for transmitting image data read from a document as an attached file of the e-mail by transmitting the e-mail to the e-mail. The FAX transmission function is a function for directly transmitting image data read from a document to an arbitrary facsimile machine or the like via a telephone line or the like.

  FIG. 3 is a schematic diagram showing the internal configuration of the fixing device 28 and its periphery shown in FIG. As shown in FIG. 3, the fixing device 28 includes a first power switch 54, an auxiliary power unit 55, a fixing roller 53, an auxiliary power switch 56, and a charging switch 57.

  The fixing roller 53 includes a pressure roller that applies pressure to the recording paper, and a heat roller that applies heat to the recording paper. The toner image on the recording paper is formed by sandwiching the recording paper between the two rollers in a press-contact state. Fix on recording paper. A fixing heater 530 for heating is provided in the heat roller of the fixing roller 53. FIG. 3 particularly shows the fixing heater 530 portion. The fixing heater 530 includes a first fixing heater 531 and a second fixing heater 532. The first fixing heater 531 is a halogen heater that generates heat with electric power supplied from an AC commercial power supply 49 (external power supply). The second fixing heater 532 is a halogen heater that generates heat with electric power supplied from the auxiliary power supply unit 55.

  The first power switch 54 is provided between the commercial power source 49 and the first fixing heater 531, and determines whether or not to supply AC 100 V power from the commercial power source 49 to the first fixing heater 531. This is an open / close switch for switching whether to drive (heat generation) the fixing heater 531. The first power switch 54 turns on or off the AC 100 V power supply from the commercial power supply 49 based on an open / close signal input from the control unit 35 that controls the overall operation of the multifunction machine 1.

  The auxiliary power switch 56 is provided between the auxiliary power unit 55 and the second fixing heater 532, and determines whether or not the power from the auxiliary power unit 55 is supplied to the second fixing heater 532, that is, the second fixing. This is an open / close switch for switching whether to drive (heat generation) the heater 532. The auxiliary power switch 56 turns on or off the power supply from the auxiliary power unit 55 based on the open / close signal input from the control unit 35.

  The charging switch 57 is an open / close switch that is provided between the commercial power supply 49 and the auxiliary power supply unit 55 and switches whether power from the commercial power supply 49 is supplied to the auxiliary power supply unit 55. The charging switch 57 also turns on or off the power supply from the commercial power source 49 based on the open / close signal input from the control unit 35. The control unit 35 turns on the charging switch 57 to turn on the charging device 551 and the power storage device when the power consumption of the commercial power supply 49 is small in the multifunction device 1 such as when the multifunction device 1 is in the sleep mode or when the main power is off. Charging by 552 is performed.

  The auxiliary power unit 55 is provided as an auxiliary power source for the commercial power source 49 in order to supply power to the second fixing heater 532. The auxiliary power supply unit 55 includes a charging device 551, a power storage device 552, and a booster 553.

  Charging device 551 is an AC / DC converter for charging power storage device 552, and outputs a current obtained by rectifying AC 100 V of commercial power supply 49 that is AC power to power storage device 552.

  The power storage device 552 includes one electric double layer capacitor or a plurality of electric double layer capacitors connected in series. The power storage device 552 charges the electric double layer capacitor with the current from the charging device 551 as electric charge, while discharging the electric charge charged in the electric double layer capacitor and outputs the electric charge to the boosting device 553 as a discharge current.

  The booster 553 uses the voltage output from the power storage device 552 as an input voltage, boosts the input voltage to a predetermined voltage suitable for the second fixing heater 532 that is a load, and uses the boosted power to the second fixing heater. 532 is supplied. The booster 553 is an isolated DC / DC converter in which an input side and an output side are insulated by an insulated transformer.

  The control unit 35 corresponds to the control unit 35 shown in FIG. 2, and controls switching on and off of the first power switch 54, the auxiliary power switch 56, and the charging switch 57. The control unit 35 drives the booster 553 at a predetermined timing and switches the power supplied to the second fixing heater 532 to the power from the power storage device 552 whose output voltage has been converted by the booster 553.

  By the way, in the multi-function machine 1, each part in the developing unit 24 including a developing roller (not shown) that transfers toner to the photosensitive drum 22 according to the installation environment of the multi-function machine 1, the cumulative value of the number of printed sheets, and the like. A cleaning operation for removing toner adhering to the toner (toner unrelated to image formation) and an operation for maintaining image quality such as dehumidification processing in the multifunction machine 1 (hereinafter referred to as image quality maintenance operation) are executed.

  Here, assuming that the image quality maintaining operation and the restoration operation are performed in parallel, for example, the restoration operation of the fixing device 28 is performed only by the commercial power supply 49 that supplies power of 900 (W) per second. In this case, it is assumed that 60 (seconds) is required, and that the auxiliary power supply unit 55 has the same power supply capability 900 (W) as the commercial power supply 49. At this time, if the restoration operation of the fixing device 28 is performed by both the commercial power supply 49 and the auxiliary power supply unit 55, the time required to complete the restoration is shortened from 60 (seconds) to 30 (seconds).

  On the other hand, even if the return operation is completed, the user cannot use the multifunction device 1 until the image quality maintaining operation is completed. Accordingly, it is assumed that the image quality maintaining operation and the returning operation are started almost simultaneously, and if the image quality maintaining operation requires 45 (seconds) longer than 30 (seconds), even if the returning operation is completed. Furthermore, since the image quality maintaining operation is performed for 15 seconds, it is useless to complete the return operation in 30 (seconds) using the auxiliary power supply unit 55.

  As described above, the time point when the return operation using the auxiliary power unit 55 is completed is temporally earlier than the time when the image quality maintenance operation is completed, even though the return operation is completed. The power supply operation for the return operation by the auxiliary power supply unit 55 is continuously performed from the completion time of the operation to the completion time of the image quality maintenance operation, and the power supplied in the power supply operation performed during that period is Since it is for maintaining the temperature of the fixing heater 530 and not for raising the temperature of the fixing heater 530, it is useless from the viewpoint of the life of the auxiliary power supply unit 55 and waste of power. The present embodiment has been made with such points in mind, and as described below, the operation of the auxiliary power supply unit 55 is controlled in consideration of the time required for the image quality maintenance operation.

  The control unit 35 functionally includes an image quality maintenance operation time calculation unit 46 and an auxiliary power supply operation control unit 47 in order to achieve the functions described above. The image quality maintenance operation time calculation unit 46 calculates the time required for the image quality maintenance operation.

  The auxiliary power supply operation control unit 47 operates the auxiliary power supply unit 55 when it is necessary or necessary to operate the auxiliary power supply unit 55 in order to minimize the power supply operation by the auxiliary power supply unit 55. The power time is calculated, and the operation of the auxiliary power supply unit 55 is started at the start timing corresponding to the time.

  In the above example, the amount of power supplied by the commercial power supply 49 and the auxiliary power supply unit 55 in 30 seconds is (900 + 900) × 30 = 54000 (J). On the other hand, when the image quality maintenance operation time calculated by the image quality maintenance operation time calculation unit 46 is 45 (seconds), power is constantly supplied from the commercial power supply 49 to the fixing device 28 during this 45 second period. Even if power is supplied from the commercial power source 49, the auxiliary power unit 55 may compensate for the insufficient power amount.

  That is, since the amount of power supplied from the commercial power supply 49 to the fixing device 28 for 45 seconds is 900 × 45 = 40500 (J), the insufficient amount of power is 54000−40500 = 13500 (J). Therefore, when the auxiliary power supply unit 55 is operated for 13500 ÷ 900 = 15 seconds, the return operation of the fixing device 28 can be completed (the temperature of the fixing roller 53 is raised to a predetermined temperature).

  Therefore, in this case, when the operation time of the auxiliary power supply unit 55 is shortened from 30 (seconds) to 15 (seconds), the power consumption can be reduced by the shortened time (30-15 = 15 seconds). Since the usage time of the auxiliary power supply unit 55 can be shortened, the life of the auxiliary power supply unit 55 can be extended as much as possible.

  In consideration of the operability of the multifunction device 1 in terms of quick return, the auxiliary power supply operation control unit 47 may be configured to complete the return operation almost simultaneously with the completion of the image quality maintenance operation. In the example, the operation of the auxiliary power supply unit 55 is started 15 seconds before the image quality maintaining operation is completed.

  In addition to the above-described example, when the image quality maintenance operation time calculated by the image quality maintenance operation time calculation unit 46 is 60 (seconds), for example, the commercial power source 49 supplies the fixing device 28 during the period of 60 seconds. The supplied power is 54000 (J), and the restoration operation of the fixing device 49 can be performed only by supplying power from the commercial power supply 49. In this case, the auxiliary power supply operation control unit 47 operates the auxiliary power supply unit 55. I won't let you. Therefore, in this case, since the number of times of use of the auxiliary power supply unit 55 can be reduced, the life of the auxiliary power supply unit 55 can be extended as much as possible.

  When the image quality maintenance operation time calculated by the image quality maintenance operation time calculation unit 46 is shorter than 30 (seconds), the auxiliary power supply operation control unit 47 uses the commercial power supply 49 and the auxiliary power supply unit 55 to supply power for 30 seconds. Supply.

  In summary, the recovery time required when the fixing device 28 is restored by both the commercial power supply 49 and the auxiliary power supply unit 55 (when the power supply operation is performed for the same period of time) is referred to as a reference restoration time. Then, the auxiliary power supply operation control unit 47 compares the image quality maintenance operation time and the reference return time, and if the image quality maintenance operation time is longer than the reference return time, the image quality by the commercial power supply 49 is From the time when the image quality maintenance operation is completed, the auxiliary power supply unit 55 supplies an amount of power that is still insufficient even during the power supply operation during the maintenance operation time, and the restoration operation is completed before the image quality maintenance operation is completed. The power supply operation by the auxiliary power supply unit 55 is started at a time just before the power supply time corresponding to the insufficient power amount. In this case, if the power required for the return operation is satisfied only by the power supply operation during the image quality maintaining operation time by the commercial power supply 49, the auxiliary power supply operation control unit 47 does not operate the auxiliary power supply unit 55. When the image quality maintaining operation time is equal to or shorter than the reference return time, the auxiliary power supply operation control unit 47 supplies power to the fixing device 28 by the commercial power supply 49 and the auxiliary power supply unit 55 for the reference return time. Supply.

  FIG. 4 is a flowchart illustrating processing related to auxiliary power supply operation control in the multifunction machine 1.

  As shown in FIG. 4, the control unit 35 determines whether or not the return operation and the image quality maintaining operation need to be performed in parallel (step # 1), and the return operation and the image quality maintaining operation are performed in parallel. When it is necessary to perform the operation (YES in step # 1), the image quality maintaining operation time is calculated (step # 2).

  Next, the control unit 35 determines whether or not the image quality maintaining operation time calculated in step # 2 is longer than the return time (step # 3). If the image quality maintaining operation time is longer than the return time (step # 3). YES), the operation time of the auxiliary power unit 55 is calculated (step # 4), and the auxiliary power supply unit 55 is operated for the operation time as described above (step # 5).

  On the other hand, when the image quality maintaining operation time is equal to or shorter than the return time in step # 3 (NO in step # 3), the auxiliary power supply unit is operated only for the reference return time, and the power supply operation to the fixing device 2 together with the commercial power supply 49 is performed. Is executed (step # 4).

  As described above, in the present embodiment, when it is necessary to perform the restoration operation and the image quality maintenance operation in parallel, when the image quality maintenance operation time is longer than the reference restoration time, the image quality maintenance by the commercial power supply 49 is performed. Since the auxiliary power supply unit 55 supplies only the amount of power that is insufficient in the power supply operation during the operation time, waste of power can be prevented or suppressed, and the life of the auxiliary power supply unit 55 is made as long as possible. Can prolong life.

  Further, the power supply operation by the auxiliary power supply unit 55 at a time before the completion of the image quality maintenance operation for the power supply time corresponding to the insufficient power amount so that the return operation is completed before the image quality maintenance operation is completed. Therefore, the situation that the return operation is not completed after the completion of the image quality maintaining operation does not occur, and the operability of the multifunction device 1 in terms of quick return can be maintained.

  In the above embodiment, it is assumed that the image quality maintenance operation and the return operation are started almost simultaneously, and the length of the image quality maintenance operation time is compared with the length of the return operation time. Regardless of the start timing of the image quality maintenance operation and the restoration operation, when the completion point of the restoration operation corresponding to the reference restoration time is in time before the completion point of the image quality maintenance operation, the commercial image maintenance operation is completed until the completion point of the image quality maintenance operation. It is preferable that the power supply 49 supplies the auxiliary power supply unit 55 with an insufficient amount of power even in the power supply operation during the image quality maintaining operation time.

  This case can be applied not only to the multifunction machine but also to an image forming apparatus such as a copying machine or a facsimile machine.

1 is a side view schematically showing an internal configuration of a multifunction peripheral that is an embodiment of an image forming apparatus according to the present invention. FIG. FIG. 3 is a block diagram illustrating an electrical configuration of the multifunction machine. FIG. 2 is a schematic diagram illustrating a fixing unit provided in the multifunction peripheral and a peripheral internal configuration. 6 is a flowchart illustrating processing related to auxiliary power supply operation control in the multifunction peripheral.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Multifunction device 4 Original reading part 6 Operation part 9 Display part 13 Scanner part 21 Image forming part 28 Fixing device 35 Control part 46 Image quality maintenance operation time calculation part 47 Auxiliary power supply operation control part 53 Fixing roller 55 Auxiliary power supply unit 530 Fixing heater 551 Charging device 552 Power storage device 553 Boosting device

Claims (2)

Auxiliary power,
An auxiliary power source operation control unit for controlling the operation of the auxiliary power source;
A first fixing heater driven by electric power from an external power source and a second fixing heater driven by electric power from the auxiliary power source; and the toner is fixed to the transfer material by the heat generated by the first and second fixing heaters. A fixing unit ;
A heating system for an image forming apparatus comprising:
The auxiliary power supply operation control unit is
A return operation for returning the fixing portion allowed to warm up to a predetermined fixing temperature the fixing portion by the fixing heater to the fixing operable state, to maintain the image quality by a predetermined mechanism in the image forming apparatus When performing the image quality maintaining operation in parallel, it is assumed that the return operation is performed with the power supply time by the external power supply to the fixing heater and the power supply time by the auxiliary power supply being substantially the same. When the completion time of the return operation is before the completion time of the image quality maintenance operation, the fixing unit is still raised to the fixing temperature even if power is supplied from the external power source until the completion of the image quality maintenance operation. calculating the power supply time of the auxiliary power source to supplement the power shortage in temperature of causes, but the image quality maintenance operation wherein the calculated power supply time from the time to complete Heating system to start the power supply operation to the auxiliary power source at the front. An image forming unit that performs an image forming operation based on predetermined image data on the transfer material;
An image forming apparatus comprising: the heating system according to claim 1 , wherein a toner adhering to the transfer material is fixed to the transfer material after the image forming operation by the image forming unit.

Images